ATLAS LAUNDER-OMETER
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP80-00926A007800250001-0
Release Decision:
RIPPUB
Original Classification:
U
Document Page Count:
165
Document Creation Date:
December 14, 2016
Document Release Date:
September 26, 2001
Sequence Number:
1
Case Number:
Content Type:
REPORT
File:
Attachment | Size |
---|---|
CIA-RDP80-00926A007800250001-0.pdf | 13.67 MB |
Body:
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
UNCLASSIFIED
For determining fastness to washing
ATLAS ELECTRIC DEVICES CO. ? CHICAGO 10, ILLINOIS, U. S. A.
NEW ADDRESS UNCLASSIFIED
4114 NORTH RAVENSWOOD AVENUE
Approved For ReraWWA i 1'1/31 IhLU4QW,8tLJ &10Z6A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
The Standard Machine for Laboratory Washing Tests
Officially advocated
Instrument of The
American Associa-
tion of Textile Chem-
ists and Colorists.
Also approved by
and called for in
Governmental speci-
fications, A.S.T.M.,
A.S.A. and other
U.S. engineering and
technical societies;
also similiar organi-
zations in other
countries through-
out the world.
The Launder-Ometer
is an electrically op-
erated Laboratory
Testing Machine of
20 specimen capac-
ity for quickly mak-
ing reliable and re-
producible tests on
textiles, soaps, deter-
gents and other ma-
terials and chemicals
requiring mechanical
action under con-
trolled conditions of
agitation and tem-
perature.
TAE LAUNDER..OMETER*
Atlas Electric Devices Co.
361 W. SUPERIOR ST. . CHICAGO 10. ILL., U.S.A.
Representatives:
NEW YORK PHILADELPHIA PAWTUCKET
BOSTON CHARLOTTE LOS ANGELES SAN FRANCISCO
SEATTLE PORTLAND ALL PRINCIPAL NATIONS
,Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
THE LAUNDER - OMETER
The Launder-Ometer is the standard laboratory
washing machine of the American Association of
Textile Chemists and Colorists and is used through-
out the world for quickly determining in the lab-
oratory on textiles. and related products the
COLORFASTNESS TO COMMERCIAL
LAUNDERING AND DOMESTIC
WASHING
COLORFASTNESS TO DRY CLEANING
COLORFASTNESS TO CHLORINE
BLEACHING
COLORFASTNESS TO MILL WASHING
AND SCOURING
COLORFASTNESS TO FULLING
RESISTANCE TO BLEEDING
DETERGENCY EVALUATIONS--.
LEATHER AND TEXTILE DYEING
MISCELLANEOUS OTHER TESTS RE-
QUIRING CONTROLLED AGITATION
UNDER CONSTANT TEMPERATURE.
CORRELATION
To be of maximum value laboratory test results
must be rapid, reliable, reproducible both in the
same laboratory and from laboratory to laboratory
and must correlate with actual service performance.
The standard methods of test when used with the
Launder-Ometer provide such results.
WHAT IT IS AND WHAT IT DOES
INSURES BETTER PRODUCTS
In the manufacture, sale and purchase of prac-
tically all textiles, changes in color and dimensions
due to washing or dry cleaning are all important
factors. More and more the general public as well
as industrial-and governmental purchasing agen-
cies are insisting on merchandise which will with-
stand multiple launderings or dry cleanings without
the loss or change of color to such a degree as to
render the article unserviceable.
The Launder-Ometer quickly provides all con-
cerned with such information in advance without
the necessity of waiting for service reports after the
merchandise has been sold.
PRODUCT DEVELOPMENT
Dependable advance knowledge of colorfastness
to washing or dry cleaning of a new shade or prod-
uct under the actual method by which it will be
processed is of invaluable aid to the manufacturer.
In selecting the dyestuffs to produce a new shade or
to improve a standard product it is important to
determine the colorfastness to laundering and dry
cleaning of the product produced under the method
of application that will be actually utilized.
While each of a group of dyestuffs may have a
particular colorfastness rating when applied singly
under one method of application it is important to
know that the shade resulting from the combination
and Method of Prepare will have the desired color-
fastness- and will not fade or go off tone after mul-
tiple launderings or dry cleanings. Such informa-
tion can easily be determined by a short test in the
Launder-Ometer in advance of production.
QUALITY CONTROL
By providing information on the loss of color
that will be encountered in five commercial laun-
derings or home washings in one 45-minute test
the Launder-Ometer is effectively used as a control
on production. Periodic sampling of production
will quickly detect poor penetration or other mal-
functions in processing and permit immediate cor-
rection before large quantities of materials are
processed and leave the mill.
BUILDS REPUTATIONS
In an enviable position indeed is the company
or product whose name is synonymous. with qual-
ity at the consumer level. Advertising and sales
promotion can create an interest and put a com-
pany name or product over initially but quality of
merchandise is necessary to build and sustain a
reputation. Any testing program which determines
the quality of products before production is started
and again checks the finished product before ship-
ment is fundamentally sound and such honest effort-----
will be rewarded with greater sales and increased
prestige. Many Launder-Ometer users have found
their competitive position so improved that public
announcements have been made and whole adver-
tising programs built around their guarantee of
quality based on the use of the Launder-Ometer.
INSURES ACCEPTANCE
The use of a Launder-Ometer provides the sup-
plier with advance information that material sup-
plied under contracts will meet acceptance require-
ments for colorfastness to washing since most
government and industrial specifications are based
on standard tests made in the Launder-Ometer.
2 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21: CIA-RDP80-00926AO07800250001fQH E LAUNDER-0 'METER
WASHING TESTS
The Launder-Ometer is fundamentally a labora-
tory device for conducting washfastness tests and it
is for this purpose it finds its greatest usefulness.
A complete description of the various standard and
accelerated colorfastness to commercial laundering
and home washing tests will be found in the cur-
rent Year Book and Technical Manual of the Amer-
ican Association of Textile Chemists and Colorists.
If not already available this book can be obtained
from The Secretary, A.A.T.C.C. National Head-
quarters, Lowell Textile Institute, Lowell, Mass.
For many years it was customary to make lab-
oratory washfastness tests in beakers. In attempting
to standardize such tests a systematic study was
made which led to the conclusion that the wide
variations in the results obtained by the beaker
method was due to both the lack of uniformity in
the apparatus and in the manner of conducting the
test. Temperatures varied considerably as did the
concentration of the wash solution which due to
evaporation was never constant. Removal of color
due to mechanical action as occurs in actual wash-
ing procedure was almost negligible and varied
with'the individual operator and from-time to time
with the same operator.
Through consolidation of the manifold efforts of
Messrs. L. C. Himebaugh, Hugh Christian, Wm.
D. Appel, L. A. Olney, W. C. Smith and the Atlas
Electric Devices Co., a standard laboratory wash-
ing machine, The Launder-Ometer, was developed.
As indicated by the official name plate, the
Launder-Ometer is the Standard Laboratory Wash-
ing Machine of the American Association of Tex-
tile Chemists and Colorists and is manufactured
and sold exclusively by the Atlas Electric Devices
Co.
The Launder-Ometer is free from the faults and
limitations encountered in the beaker tests and
a ? a - A a : ? a . ? - ?
i. a a ? # ? ?
p ? ?
a ?- p a
MADE IN US.A
makes possible strictly reproducible results. It has
been found to give the same results as commercial
and home washers in the removal of soil and for
this reason is successfully used for the evaluation
of soaps and detergents.
While the standard tests for washfastness utiliz-
ing the glass specimen jars provide a satisfactory
and reliable means of evaluating the comparative
fastness of dyed fabrics, it requires over two of
these tests to produce an effect similar to one com-
mercial laundering under today's conditions. In
1944 the A.A.T.C.C. Committee on Fastness to
Washing started work on the development of a new
accelerated washfastness test which would rapidly
in one short test produce the color destruction and
abrasive action of five average or typical commer-
cial or home launderings. This work sponsored by
the committee under the successive chairmanships
of C. W. Dorn, C. A. Seibert and C. A. Sylvester
was conducted jointly with the A.A.T.C.C. Re-
search Laboratories at Lowell, Mass.
Before a standard test method could be devel-
oped and adopted it was necessary to establish the
loss of color produced by multiple washings in an
average or typical commercial and home laundry.
To accomplish this samples of a large variety of
selected fabrics were submitted to multiple laun-
derings in a large number of laundries over
widely scattered geographical areas as well as to
multiple washings in several types of home wash-
ing equipment.
In developing the accelerated washfastness
tests which provide a means of approximating in
one 45-minute test the color destruction and abra-
sive action of five average commercial or home
launderings metal tubes were designed to replace
the glass jars used in the standard tests.
The metal tubes, 31/2" in diameter by 8" long
are mounted in the Launder-Ometer horizontally
at right angles to the shaft by means of an adapter
which is easily installed and removed. Mounted in
this fashion the test specimens are subject to a
forceful throw, a long slide and a strong impact.
The use of 100 stainless steel balls, as well as a
lower liquor volume ratio than that employed in
the standard wash tests in the glass jars, serves to
increase the abrasive action. While the method of
mounting the metal tubes and glass jars on the
rotor is different the total number of 20 which can
be accommodated at one time is the same.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 3
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
The newer accelerated washfastness tests like
the standard wash tests are designed to cover the
ranges of severity comparable to those of general
washing practice which range from the very mild
wash at low temperatures to the very severe wash-
ing conditions at high temperatures with soda ash
and bleach. In general the trend is to classify tex-
tiles according to the general washing procedure
they will satisfactorily withstand or would nor-
mally be subjected to in actual use rather than
according to the fibre. Since the accelerated tests
can be used to predict five or multiples of five
average commercial or home launderings they are
widely used at the buyer level as a performance
requirement in purchasing specifications.
RESISTANCE TO BLEEDING
The Standard Colorfastness to Washing Test
Methods include the use of multifibre test cloth
for evaluating the degree of bleeding or staining
caused by contact of the test specimen with other
materials during washing.
mill practice of running such tests directly in the
fulling mill. After several years of work on the
part of the Research Committee of the A.A.T.C.C.
a method was devised based upon the use of the
Launder-Ometer which is equal to, if not better
than the mill method of determining fastness to
fulling of dyed material. The standard method
employing 3/4" stainless steel balls and standard
knit worsted tubing in the Launder-Ometer will
be found in the current yearbook of the A.A.T.C.C.
DETERGENCY TESTS
The Launder-Ometer is also very effectively used
in evaluating the cleansing power and deteriora-
tive action of soaps and detergents. The soil re-
moval from a specimen of a standard soiled fabric
washed under standard reproducible conditions in
the Launder-Ometer can be determined by photo-
electric reflectance measurements or by weighing.
Complete evaluation of a soap or detergent may
require the use of several standard soiled fabrics
each having different types of soil. Standard soiled
fabrics of more than one type are available com-
mercially but if these do not include all of the
its use, twenty comparative and simultaneous dye-
ings may be made under absolutely uniform con-
ditions of temperature and mechanical agitation
and under conditions which duplicate to a con-
siderable extent the actual process of leather dye-
ing. The Launder-Ometer may also be used for
certain comparative tanning experiments.
TEXTILE DYEING
Controlled temperatures up to boiling under
uniform conditions of agitation make the Launder-
Ometer ideal for conducting laboratory dyeing
tests on textiles. Since both the glass jars and
metal tubes are closed containers the effect of
oxidization due to contact with the air is elimi-
nated. For dyeing tests in glass jars many prefer
to substitute cellophane covered rubber stoppers
for the glass tops as they permit the use of more
pressure and give more assurance that the dye
liquor will not escape from the jar into the con-
stant temperature water bath.
DIMENSIONAL CHANGES
- While the use- of the Launder-Ometer for ihak---
ing laboratory shrinking tests has not received the
official recommendation of the American Associa-
tion of Textile Chemists and Colorists by the adop.
tion of a standard method, a number of Launder-
Ometer users find the device wholly satisfactory
for their particular requirements.
- -The --Launder=Oineter --furnishes - an excellent -- various type"-soil in-which there is-interest-the
means of determining in the laboratory the color- usual practice is for the laboratory to prepare ad-
fastness of textiles to dry cleaning. A standard
method for conducting the test and evaluation of
results will be found in the current Year Book
and Technical Manual of the American Associa-
tion of Textile Chemists and Colorists. Likewise
the Launder-Ometer is widely used by both manu-
facturers and users in the evaluation of dry clean-
ing fluids and detergents.
COLORFASTNESS TO FULLING
For a long time the generally accepted opinion
was that no laboratory test could be devised that
would equal in practical value or simplicity the
ditional standard soiled fabrics to meet their own
requirements. In addition to soil removal from
the standard soiled fabric the use of a piece of
white or multifibre test cloth in the test permits
the evaluation of the redeposition of soil by the
soap or detergent.
LEATHER DYEING
The Launder-Ometer furnishes a unique and
ideal piece of apparatus for making laboratory
leather dyeing tests. In laboratories or tanneries,
particularly where dye tests are made, the Laun-
der-Ometer will be found of great value. Through
GENERAL LABORATORY USE
There are many laboratory tests and experi-
ments requiring the treatment of materials with
liquids under uniform conditions of agitation and
temperature. For such work the Launder-Ometer
is particularly well adapted and will be found of
considerable value.
4 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
THE LAUNDER-OMETER
MECHANICAL DETAILS
The Launder-Ometer is a self-contained electri.
cally operated unit of all-metal construction de-
signed to give years of dependable trouble-free
service. Occupying a floor area of 28 inches by
64 inches it has a height of 52 inches to the top of
the control cabinet, with a net weight of 375
pounds and a domestic shipping weight of 525
pounds. The Launder-Ometer is shipped com-
pletely assembled ready to connect to the elec-
tric power, water supply, drain and steam or gas
lines according to the heating medium employed.
FRAME
The machine is built within and is rigidly sup-
ported by a welded angle iron frame finished in
dark green lacquer. The four legs are equipped
with gliders.
WATER BATH
A stainless steel tank or reservoir is employed
to contain the constant temperature water bath
through which the specimen containers are ro-
tated during the test. This tank is rectangularly
shaped at the top, rounded at the bottom and has
a capacity of approximately 15 gallons when
filled to the water line. This depth of water per-
mits one row of specimen containers to be out
of the water when they are stopped at the upper
point of rotation at which position they are readily
accessible for either opening of the containers, for
the addition of solutions or for the removal of the
containers from the rotor without the necessity of
draining the tank. All models except the automatic
gas type are supplied with the tank insulated by
one-half inch of corrugated asbestos which is cov-
ered by a protective metal jacket.
The tank is equipped with threaded flanges for
the drain, overflow drain, cold water inlet, hot
water inlet, outlet to pre-
heating loading table pump,
drain from overflow in pre-
heating loading table, ther-
mo-regulator element, indi-
cating thermometer element
and electric immersion heat-
ers or steam coil depending
upon the heating medium
employed.
If both hot and cold water
lines are available it is rec-
ommended that both be con-
nected to the Launder-Ome-
ter as filling the tank with
hot water when first starting
will materially reduce the
time required to bring the
water up to the desired tem-
perature and thus effect a
saving in electricity, gas or
steam. The hinged cover of
stainless steel is equipped
Standard Launder-Ometer with Preheating Loading Table.
with a plastic handle for ease of opening.
HEATING MEDIUM
All Launder-Ometers are equipped with a direct
reading dial type Thermo-regulator which
through suitable relays and control equipment
automatically maintains the constant temperature
water bath at the temperature selected by the op-
erator. This may vary from room temperature up
to boiling point depending upon the particular test
which is being utilized. Centigrade or Fahrenheit
scales are optional for both the Thermo-regulator
and the indicating thermometer.
Launder-Ometers are constructed to utilize elec-
tricity, steam or gas for heating the water bath.
Because of convenience and availability at all
times electricity is the most generally used. Where
greater flexibility and speed of heating is desired,
the model employing both steam coils and electric
immersion heaters is recommended. In this model
the two sources of heat may be used independently
or simultaneously as desired. Where steam is em-
ployed, low pressures are desirable, although the
Launder-Ometer can be supplied for operation on
pressures above 100 lbs. While steam is the most
economical method of heating its availability at all
times should be considered before the decision on
its use is made.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Interior view showing method of mounting
Glass Jars and Metal Specimen Containers
The automatic gas model can be supplied for op-
eration with natural, bottled or manufactured gas
or mixtures thereof. This model is equipped with
an automatic safety valve which shuts off the gas
to the burners if the pilot light flame is extin-
guished. Consideration of the gas heated model
should take into consideration any objection that
may exist to having a large open gas-burner in
operation in the laboratory. Type or Model desig-
nations, electrical, engineering and ordering data
will be found in the back pages of the catalog.
ROTOR
The jar holding rotor is a four-
sided corrosion resistant cast rotor,
each side having five openings into
which the pint-sized glass test jars fit.
Each side is equipped with four studs,
bronze spring clamps and wing nuts
which securely hold the jars in a ver-
tical position at right angles to the
side of the rotor on which they are
mounted. When all of the glass jars
are in place, there are four rows of
five jars each or a total of twenty.
DRIVING MECHANISM
The rotor is securely fastened to
a polished stainless steel shaft which
is rotated in self-aligning bronze
bearings and is driven at a uniform
rate of 42 r.p.m. by a fractional h.p.
motor through a gear reducer, pul-
leys, V belt and friction clutch. The
motor and gear reducer unit are
one individual specimen with the wash solution
and stainless steel or rubber balls so that up to
20 specimens may be tested at one time. Most
test methods require a specimen 2" x 4". The use
of multifibre test cloth for bleeding tests, the wash
solution and the number of stainless steel or rub-
ber balls utilized vary according to the test method
employed.
For the newer accelerated washfastness tests
metal tubes instead of glass jars are employed.
These tubes 31/2" in diameter and 8" long, are
held horizontally away from and at right angles
to the side of the rotor on which they are mounted
by adapter plates or castings. The adapter castings
which are easily inserted and removed are sup-
plied in two sizes, one holding two
and the other five- metal tubes.
rotor is in motion the jars or tubes
revolve radially with the rotor at a speed of ap-
proximately 42 r.p.m. through the constant tem-
perature water bath. While the speed of rotation
is constant the temperature of the water bath and
-- --- -mounted--on a -hinged base-with-the---the-duration-of-the-test will-vary -according-to-the-
weight of the unit providing the
proper tension on the V belt. A spring type safety
clutch is provided to permit stalling the rotor with-
out injury to the operator or the machine. As an
added protection to the operator a perforated
metal guard is fitted over the protruding end of
the drive unit.
SPECIMEN CONTAINERS
Pint sized glass specimen jars are employed in
the various standard washfastness tests which are
described in detail in the current Technical Man-
ual and Year Book of the American Association of
Textile Chemists and Colorists. Each jar contains
ATLAS ELECTRIC DEVICES COMPANY
test method employed.
If the number of samples to be tested at any
one time is less than 20 so that the rotor is not
completely filled on all four sides with either glass
jars or metal tubes, the actual number of jars or
tubes being employed should be distributed as
nearly as possible on opposite sides of the rotor
so that the load is evenly distributed to avoid an
unbalanced condition.
The standard Launder-Ometer has a maximum
capacity of 20 glass jars, 20 metal tubes or a com-
bination of glass jars and metal tubes whose total
is 20.
6 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
THE LAUNDER-OMETER
The jars in the Preheating Loading Table are
rapidly brought up to and are automatically main-
tained at the temperature required in the test. This
is accomplished by circulating water from the
main tank or reservoir through the preheating
loading table. Like the main tank the Preheating
Loading Table is fabricated of stainless steel and
is insulated.
Close-up view of Rotor showing method
Metal Tubes with 2-Tube and
CONTROL CABINET
All Launder-Ometers are fully automatic and
are equipped with the control cabinet conveni-
ently located on the right-hand side of the machine
at the same working level as the top of the ma-
chine. The control panel contains all of the
switches, pilot lights, thermo-regulator and dial
type indicating thermometer. Directly in back of
the control panel are located the relays, fuses or
overload circuit breakers for the motor and heater
circuits. All switches and electrical appliances are
used and wired in a manner to provide complete
safety to the operator.
PREHEATING LOADING TABLE
The Preheating Loading Table is standard equip-
ment on all Launder-Ometers but may be omitted
if sufficient floor area, is not available. It is an
important adjunct, increasing the accuracy of the
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
of mounting Glass Jars and
5-Tube Adapters
test by permitting all specimens to
be started at the same temperature.
Loading one set of specimens in the
Preheating Loading Table while an-
other series is being tested results in
a great saving of time and increased
output of the machine.
Convenient trays are provided for
holding the accessories (jar tops,
rubbers, balls, etc.). The. conveni-
ently located jar holder makes the
loading of the specimens, solution
and spheres as well as capping of
the jars rapid and positive.
At the end of the test the solution
can be quickly separated from the
specimens and spheres by merely
pouring the contents of the jar into
the built-in sink.
Exterior View of the Launder-Ometer Without
Preheating Loading Table
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
RESEARCH MODEL LAUNDER - OMETERS
In Research and Development work it is often
desirable to study the behavior of a new product
under widely different variations of the various
factors encountered in washfastness tests. In addi-
tion to variations in temperature these may include
size of the specimen, size and shape of the speci-
men container, number and size of the stainless
steel or rubber spheres, and the speed of rotation.
For this type of work we recommend the Re-
search Model Launder-Ometers which are avail-
able in two models, the L-1-Q and L-2-Q. These
two models differ only in the number of the var-
ious sized specimen containers that can be used
and. the method of their mounting on the jar
holding rotor. Included in the variety of specimen
containers that may be used in the Research Mod-
els are the one-pint glass jars utilized in the stand-
ard washfastness tests and the Metal Tubes em-
ployed in the newer accelerated washfastness tests.
The Research Model Launder-Ometers are thus
all-purpose units since they can be used both fcr
the standard tests and for special research work.
As standard equipment both the L-1-Q and
L-2-Q Model Launder-Ometers are supplied with a
vari-speed drive unit providing a selection of rotor
or jar rotation speeds of 15 to 50 R.P.M. All
Research Model Launder-Ometers are equipped
with Preheating Loading Tables which increase
the accuracy of the test by insuring that all speci-
mens are started at the same temperature. Prep-
aration of one set of specimens while another set
is being run also increases the volume of samples
that can be tested per working hour.
All electrical control equipment including the
thermo-regulator, direct reading dial thermom-
eter, switches, pilot light, relays, etc. are contained
in the control cabinet which is conveniently lo-
cated above and at the back of the Preheating Loading Table.
At the option of the purchaser the thermo-regulator and direct
reading dial thermometer
or Centigrade scales.
Inlets for hot and cold
rapidly draining the
tank or reservoir are
provided. A safety
switch disconnects the
drive motor whenever
the cover of the main
bath or reservoir is
raised. The water bath
and preheating table
are of stainless steel
and are insulated with
one-half inch corru-
gated asbestos protect-
ed by an outside metal
jacket.
Research Model
Launder-Ometers are
generally supplied with
electric immersion heat-
ers as the heating me-
dium. The power re-
quirements for both the
L-1-Q and L-2-Q are
approximately 13 KVA.
These models can be
supplied for operation
are supplied with either Fahrenheit
on either a single phase or three phase alternating
current line of 208 to 245 volts on any of the
standard frequencies. If the above voltages are
not available a transformer will be required to
bring the line voltage to the 208-245 volt operat-
ing range of the Launder-Ometer. Research Mod-
els are available for 230 volts D.C.
floor area of 34 inches by 74 inches and have
height of 62 inches to the top of the control cabi-
net. They have a net weight of 1100 pounds and a
domestic shipping weight of 1250 pounds.
8 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001'PH E LA UNDER - O M E T E R
MODEL L-1-Q
The Model L-1-Q Research Launder-Ometer has
a maximum rotor capacity of 20 one-pint glass
jars, 20 one-quart glass jars or any combination
of one-pint and one-quart glass jars whose total
is 20. Five jars in a row are mounted vertically
at right angles to the rotor and shaft on each of
the four sides of the rotor and revolve radially
with the rotor and shaft. The rotor is so designed
that the one-pint glass jars are accommodated di-
rectly in the openings of the rotor castings. Easily
inserted and removed adapter discs are utilized
in the openings on the rotor castings when the
one-quart glass jars are being used. Adapter Plates
similar to those used in the Standard Launder-
Ometer are employed when the metal specimen
containers are used.
MODEL L-2.Q
The Model L-2-Q Research Model Launder-
Ometer will accommodate one-pint and one-quart
glass jars in the same number and manner as the
Model L-1-Q. In addition to the one-pint and one-
quart glass jars it will also accommodate a total
of 6 two-quart glass jars. This is accomplished
by the use of the two adapter units, each of which
hold 3 two-quart glass jars on opposite sides of
the rotor replacing two rows or 10 of the one-pint
or one-quart glass jars. In these adapters the two-
quart glass jars are mounted horizontally away
from and at right angles to the shaft and jar hold-
ing rotor. This adapter unit will also in the same
manner accommodate six of the 31/2 inch diameter
by 8 inch long metal tubes required for the new
Accelerated Washfastness tests.
If it is desired to utilize the 31/2 inch diameter
by 8 inch long Metal Specimen Containers re-
quired for the Accelerated Washfastness Tests in
the Model L-1-Q or more than six in the Model
L-2-Q Research Launder-Ometers; adapter plates,
each of which accommodate five metal containers,
are available. These adapter plates for the Re-
search Model Launder-Ometer, each hold five con-
tainers in a row in a similar manner to the five-jar
adapter utilized in the Standard Launder-Ometer.
There are of course some dimensional differences
between the 5-jar adapters used in the Research
and Standard Launder-Ometers but the distance
from the jar to the center of the shaft is the same
so that the arc of rotation is the same. Thus with
4 adapter plates a total of 20 metal containers can
be utilized in either of the Research Model Laun-
der-Ometers.
Interior View of Research Model Launder-Ometer showing method of mount-
ing one-pint glass jars and metal specimen containers in 3-jar adapter
Interior View of Research Model Launder-Ometer showing method of mount-
ing one-quart and two-quart glass specimen containers
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 9
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Partial List of Launder-Ometer Users
Balassa Res. Labs.....New Bedford, Mass.
Better Fabrics Testing Bureau..... N.Y.C.
Derby Co . ............. Lawrence, Mass.
Economics Laboratory ..... St. Paul, Mimi.
EMTEC Associates ....... Stamford, Conn.
Good Housekeeping Inst.. New York, N. Y.
Pease Laboratories Inc.... New York, N. Y.
Pittsburgh Testing
Labs ............ San Francisco, Calif.
Textile Testing & Res. Labs........ N.Y.C.
U. S. Testing Co..........Hoboken, N. J:
York Research Co........ Stamford, Conn.
COLLEGES, SCHOOLS AND
INSTITUTIONS
Alabama Polytechnic Inst.... Auburn, Ala.
University of Alabama.... University, Ala.
University of Cincinnati. Cincinnati, Ohio
Clemson College .......... Clemson, S. C.
University of Chicago ........ Chicago, 111.
Central Commercial H. S........... N.Y.C.
University of Connecticut .....Storrs, Conn.
Callaway Institute, Inc..... La Grange, Ga.
University of Southern
California .......... Los Angeles, Calif
Columbia University..... New York, N. Y.
Bradford Durfee Textile
- School -.-.... -. -.: -Fall River; Mass. --
Florida State College.... Tallahassee, Fla.
Georgia School of Technology. Atlanta, Ga.
Georgia University ........... Athens, Ga.
Iowa State College ........... Ames, Iowa
Kansas State Agricultural
College ............ Manhattan, Kansas
Lowell Textile Institute ..... Lowell, Mass.
Louisiana State University
.................... Baton Rouge, La.
Long Beach Board of
Education .......... Long Beach, Calif.
Michigan State College..E. Lansing, Mich.
University of Minn..... Minneapolis, Minn.
University of Michigan. Ann Arbor, Mich.
Mellon Institute of Industrial
Research .............. Pittsburgh, Pa.
Needle Trades H. S....... New York, N. Y.
North Carolina State
College ................ Raleigh, N. C.
New York University.... New York, N. Y.
N. Y. State Institute of Applied Arts
and Science ....... New Hartford, N. Y.
New Bedford Textile
Institute .......... New Bedford, Mass.
Ohio State University ..... Columbus, Ohio
Oklahoma A. and M.
College .............. Stillwater, Okla.
Ohio University ...........Athens, Ohio
Oregon State College .... Corvalis, Oregon
Philadelphia Textile
Institute ............. Philadelphia, Pa.
Purdue University ........ Lafayette, Ind.
Rhode Island School of
Design .............. Providence, R. I.
Southern Regional Inst.. Birmingham, Ala.
South Dakota State
College .............. Brookings, S. D.
Institute of Textile
Technology ......... Charlottesville, Va.
Washington State College. Pullman, Wash.
Wisconsin University ....... Madison, Wis.
COTTON, SILK AND
RAYON MILLS
Abbeville Mills Corp...... Abbeville, S. C.
American Bemberg
Corp . .............. Port Rayon, Tenn.
Androscoggin Mills ...... Lewiston, Maine
Avondale Mills........... Sylacauga, Ala.
Bates Mfg. Co........... Lewiston, Maine
Burlington Mills Corp.. . _ New York,-N. Y.
Cannon Mills.......... Kannopolis, N. Y.
Celanese Corp........... New York, N. Y.
Clearwater Mfg. Co...... Clearwater, S. C.
Commercial Textile Mills.... Clifton, N. J.
Cone Mills ............ Greensboro, N. C.
Crown Mfg. Co.......... Pawtucket, R. I.
Dana Warp Mills ...... Westbrook, Maine
Dan River Mills ............ Danville, Va.
Deering, Milliken ........ Stamford, Conn.
Erwin Cotton Mills Co..... Cooleeme, N. C.
Exeter Mfg. Co............ Exeter, N. H.
Fieldcrest Mills ............ Spray, N. C.
Jaunty Fabrics ............Scranton, Pa.
Kilburn Mills ....... New Bedford, Mass.
Merrimack Mfg. Co. .......Lowell, Mass.
Millville Mfg. Co........... Millville, N. J.
Moorseville Cotton Mills. Mooresville, N. C.
Patterson Mills Co... Roanoke Rapids, N. C.
Pepperell Mfg. Co........... Lindale, Ga.
Riegel Textile Corp............Trion, Ga.
Russell Mfg. Co....... Middletown, Conn.
Wm. Skinner & Sons.... New York, N. Y.
Springs Cotton Mills........ Grace, S. C.
Standard Coosa Thatcher Co.. Rossville, Ga.
A. Steinam Co........... New York, N. Y.
J. P. Stevens Co......... New York, N. Y.
Stonecutter Mills Co....... Spindale, N. C.
Textron, Inc ............... Nashua, N. H.
Thomaston Mills ......... Thomaston, Ga.
United Merchants & Mfg.
Co ................... New York, N. Y.
Warwick Mills ............. Boston, Mass.
West Point Mfg. Co........Shawmut, Ala.
DYEING, FINISHING. AND
TEXTILE PRINTING
Acme Finishing Co....... Pawtucket, R. I.
Allied Textile Printers Inc.. Paterson,. N. J.
American Finishing Co.... Memphis, Tenn.
Apponaug Co. .......... Apponaug, R. I.
Jos. Bancroft & Sons Co....Rockford, Del.
R. W. Bates Piece Dye
Works .............. Garnerville, N. Y.
Central Yarn & Dyeing Co.. Gastoria, N. C.
Cliffsided Dyeing Corp..... Paterson, N. J.
Colgate Piece Dye Works. Hawthorne, N. J.
Consolidated Textile Co.. N. Adams, Mass.
Cranston Print Works..... Cranston, R. I.
Eugene Cross & Co......... Marion, N. C.
Crystal Springs Bleachery
Mount Hope Fin. Co.....N. Dighton, Mass.
New Process Dyeing &
Finishing Co............ Paterson, N. J.
Nina Dye Works ...............York, Pa.
Phillipsburgh Textile Print
Works ............. Phillipsburgh, N. J.
Pilgrim Piece Dye Works. . Brooklyn, N. Y.
Plymouth Dye Works...... Paterson, N. J.
Rock Hill Printing &
Finishing Co........... Rock Hill, S. C.
Sanco Piece Dye Works. Phillipsburg, N. J.
Seyer Silk Dyeing &
Finishing Co ............. Haledon, N. J.
Shamokin Dye & -
Print Works ............. Shamokin, Pa.
Southbridge Fin. Co.. . . Southbridge, Mass.
J. L. Stifel & Sons....... Wheeling, W. Va.
Uncas Printing &
Finishing Co......Mechanicsville, Conn.
United Piece Dye Works ....... Lodi, N. J.
U. S. Finishing Co....... Providence, R. I.
Vat Craft Corp........... New York, N. Y.
Velveray Corp ............... Clifton, N. J.
Ware Shoals Bleachery. . Ware Shoals, S. C.
Waldrich Company ...... Delawanna, N. J.
R. Wolfendon & Sons..... Attleboro, Mass.
Davis Mills Corp......... Fall River, Mass.
Delta Finishing Co........Kollocks, S. C.
Eclipse Piece Dye Works.... Passaic, N. J.
Eddystone Mfg. Co........ Eddystone, Pa.
Eureka Printing Co......... Clifton, N. J.
Fairforest Co ............. Clevedale, S. C.
Fair Lawn Finishing Co... Fair Lawn, N. J.
Gaede Dyeing Co.......... Paterson, N. J.
Glasgo Finishing Co........ Glasgo, Conn.
Glenlyon Print Works ... Phillipsdale, R. I.
Globe Dye Works ....... Philadelphia, Pa.
Graniteville Co......... Graniteville, S. C.
Hellwig Dyeing Corp..... Philadelphia, Pa.
Housatonic Dyeing & Printing
Co . ....................Derby, Conn.
Keerr Bleaching & Finishing
Works ................ Concord, N. C.
Lanett Bleachery & Dye Works. Lanett, Ala.
Modern Central Silk Dyeing
& Finishing Co.......... Paterson, N. J.
.x
Dye Corp ............. Morristown, N. J.
Althouse Chemical Co........ Reading, Pa.
American Aniline
Products Co......... Chattanooga, Tenn.
American Cyanamid Corp.. Stamford, Conn.
Andreykovicz &
Dunk, Inc............ Philadelphia, Pa.
Arkansas Co., Inc........... Newark, N. J.
B. T. Babbett, Inc........... Albany, N. Y.
Blackman-Uhler Co..... Spartanburg, S. C.
Blockson Chemical Co.......... Joliet, Ill.
Burkart-Schier Chemical
Co ................. Chattanooga, Tenn.
Calco-Chemical Division. Bound Brook, N. J.
Carbide & Carbon Chemical -
Division ............ Charleston, W. Va.
Celludye Corp........... New York, N. Y.
Ciba Co ................ New York, N. Y.
Cincinnati Chemical
Works ................ Cincinnati, Ohio
10 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001 PH E LA UNDER - O M E T E R
Commercial Solvents
Corp ................. Terre Haute, Ind.
C-Z Chemical Co .............Beloit, Wis.
Diamond Alkali Co........ Pittsburgh, Pa.
Dow Chemical Co......... Midland, Mich.
Du Pont ..............Wilmington, Del.
Geigy Co., Inc........... New York, N. Y.
General Aniline & Film Co..... Easton, Pa.
General Chemical Co..... Edgewater, N. J.
General Dyestuff Corp.....New York, N. Y.
Haas-Miller Corp........ Philadelphia, Pa.
Hercules Powder Co..... Wilmington, Del.
Hilton Davis Co.......... Cincinnati, Ohio
Arnold Hoffman Co...... Providence, R. I.
Interchemical Corp....... Hawthorne, N. J.
Charles Lenning & Co.,
Inc .................. Philadelphia, Pa.
Monsanto Chemical Co....... Boston, Mass.
National Aniline Division.. New York, N. Y.
Naugatuck Chemical Co..Naugatuck, Conn.
Nova Chemical Corp..... New York, N. Y.
Oronite Chemical Co.. San Francisco, Calif.
Patent Chemicals, Inc...... Paterson, N. J.
Pennsylvania Salt
Mfg. Co .............. Philadelphia, Pa.
Philadelphia Quartz Co..... Berkeley, Calif.
Pioneer Chemical
Works, Inc............ Philadelphia, Pa.
Progressive Color &
Chemical Co........... New York, N. Y.
Quaker Chemical
Products Corp....... Conshohocken, Pa.
Rampel Chemical Co.... Mt. Vernon, N. Y.
Richard Chemical Works. Jersey City, N. J.
Royce Chemical Co...... Carlton Hill, N. J.
Sandoz Chemical
Works, Inc............ New York, N. Y.
Sharples Continental Corp.. Baltimore, Md.
Southern Dyestuff Corp.... Charlotte, N. C.
Standard Chemical Products. Hoboken, N. J.
Sun Chemical Corp.. East Rutherford, N. J.
Tennessee Eastman Corp.. Kingsport, Tenn.
United Aniline Co.......... Boston, Mass.
U. S. Industrial
Chemical, Inc............ Newark, N. J.
Victor Chemical Co.... Chicago Heights, Ill.
Wallenstein Co., Inc.... Staten Island, N. Y.
Warwick Chemical Co.. West Warwick, R. I.
Jacques Wolf & Co........... Clifton, N. J.
Wyandotte Chem. Corp... Wyandotte, Mich.
G. E. Prentice Mfg. Co... New Britain, Conn.
Waldes Koh-i-noor...... Long Island, N. Y.
KNITTING MILLS
Argo Knitting Mills. Schuylkill Haven, Pa.
P. H. Hanes
Knitting Co........ Winston-Salem, N. C.
Holeproof Hosiery Co........ Marietta, Ga.
Interwoven
Stocking Co........ Martinsburg, W. Va.
Jantzen Knitting Mills .... Portland, Oregon
Munsingwear, Inc...... Minneapolis, Minn.
Ware Knitters, Inc............ Ware, Mass.
Wilson Brothers ......... South Bend, Ind.
Wiscassett Mills ........ Albermarle, N. C.
OIL, INCLUDING EDIBLE OIL
Alco Oil & Chemical Co... Philadelphia, Pa.
Atlantic Refining Co...... Philadelphia, Pa.
E. F. Drew & Co........... Boonton, N. J.
Humble Oil & Ref. Co..... Baytown, Texas
Masury Young Co........... Boston, Mass.
Phillips Petroleum Co. . . Bartlesville, Okla.
Radbill Oil Co.......... Philadelphia, Pa.
Shell Development Co.... Emeryville, Calif.
Socony-Vacuum Oil Co.. .. New York, N. Y.
South Texas Cotton Oil Co.. Houston, Texas
Standard Oil Dev. Co....... Elizabeth, N. J.
Standard Oil Co. of Calif.. Richmond, Calif.
Standard Oil of Ind......... Whiting, Ind.
Standard Oil of La...... Baton Rouge, La.
Union Oil Co. of Calif.. Wilmington, Calif.
Universal Oil Products Co..... McCook, Ill.
Abraham & Straus ........ Brooklyn, N. Y.
Marshall Field & Co.......... Chicago, Ill.
R. H. Macy & Co........New York, N. Y.
Sears, Roebuck & Co......... Chicago, Ill.
Montgomery Ward & Co... New York, N. Y.
J. C. Penney Co.......... New York, N. Y.
Aldens Inc . ................ Chicago, Ill.
Spiegel .................... Chicago, Ill.
G. C. Murphy Co........ McKeesport, Pa.
Wm. Filene's Sons Co.......Boston, Mass.
Joseph H. Cohen & Sons. . Philadelphia, Pa.
SOAPS AND DETERGENTS
Armour & Co ............... Chicago, Ill.
Colgate-Palmolive-Peet Co.
..... Jersey City, N. J.
Cowles Chemical Co....... Cleveland, Ohio
Climalene Co ............... Canton, Ohio
J. Eavenson & Sons Co..... Camden, N. J.
Fels & Co .............. Philadelphia, Pa.
Gold Dust Corp........... Baltimore, Md.
E. F. Houghton & Co.. N. Philadelphia, Pa.
Kamen Soap Products Co.. Barberton, Ohio
Kelite Products Co..... Los Angeles, Calif.
Lever Brothers ......... Cambridge, Mass.
Manhattan Soap Sales Corp.... Bristol, Pa.
Oakite Products Inc...... New York, N. Y.
Perfex Mfg. Co............ Omaha, Nebr.
Perkins Soap Co........ Springfield, Mass.
Philadelphia Quartz Co.. Philadelphia, Pa.
Procter & Gamble Co...... Ivorydale, Ohio
Purex Corp ............. Southgate, Calif.
Swift & Co ................. Chicago, Ill.
Scholler Brothers Inc.... Philadelphia, Pa.
Theobald Industries .......Kearney, N. J.
M. Werk .............. St. Bernard, Ohio
Conmar Products Co.......... Newark, N. J.
Talon, Inc ............... New York, N. Y.
THREAD & YARN
American Enka .............. Enka, N. C.
American Thread Co... Willimantic, Conn.
American Viscose Co..... New York, N. Y.
Belding-Heminway-
Corticelli .............. Putnam, Conn.
Clark Thread Co ............. Albany, Ga.
J & P Coats ............. Pawtucket, R. I.
Dean & Sherk Co. Inc.. Lawrenceburg, Ky.
Florence Thread Co....... Riverside, N. J.
No. Georgia Process Co. Inc.. Toccoa, Ga.
A. H. Rice Co............ Pittsfield, Mass.
Thread Inc . ............. Gastonia, N. C.
U.S. GOV'T.
DEPT. OF AGRICULTURE
Bureau of Home Ec..... Washington, D. C.
Southern Regional Labs. New Orleans, La.
Bureau of Home Economics. Beltsville, Md.
Eastern Regional Res. Lab. . Wyndmoor, Pa.
Western Regional Res. Lab.. Albany, Calif.
Quartermaster Depot .... Philadelphia, Pa.
Base .......... ! ......... Quantico, Va.
National Bureau of
Standards .......... Washington, D. C.
Air Material Center..... Philadelphia, Pa.
Clothing Depot.......... Brooklyn, N. Y.
Medical Supply Depot.... Brooklyn, N. Y.
Naval Academy .......... Annapolis, Md.
Navy Yard ............ Philadelphia, Pa.
WAR DEPARTMENT
Chemical Warfare Service. Lawrence, Mass.
Edgewood Arsenal........ Edgewood, Md.
Quartermaster Depot ........ Chicago, Ill.
Quartermaster Depot
.............. Ft. Sam Houston, Texas
Quartermaster Depot ... Jeffersonville, Ind.
Quartermaster Depot..... Philadelphia, Pa.
Veteran's Adm. Hospital... Peekskill, N. Y.
WOOLEN & WORSTED
MANUFACTURERS
American Woolen Co..... Lawrence, Mass.
Amoskeag-Lawrence Mills
Inc . ............... Manchester, N. H.
Bachmann Uxbridge ..... Uxbridge, Mass.
Beacon Mfg. Co........ Swannanoa, N. C.
Botany Worsted Mills....... Passaic, N. J.
Dale Worsted Mills .....Woonsocket, R. I.
Excelsior Mills ..............Union, S. C.
Julius Forstmann & Co...... Passaic, N. J.
Goodall Sanford Co....... Sanford, Maine
Hayward-Schuster Woolen
Mills ....... E. Douglas, Mass.
A. D. Juilliard & Co...... New York, N. Y.
Kent Mfg. Co........ Clifton Heights, Pa.
James Lees & Sons........ Bridgeport, Pa.
North Star Woolen
Mill .............. Minneapolis, Minn.
Pacific Mills. ........... Lawrence, Mass.
Peerless Woolen Mills ....... Rosville, Ga.
M. T. Stevens & Sons.... Rockville, Conn.
Tilton Worsted Mills ...... Laconia, N. H.
Washougal Woolen Mills
................... Washougal, Wash.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
The Sun Never Sets on Atlas .Ometers
ARGENTINA
AUSTRALIA
BELGIAN CONGO
BELGIUM
BRAZIL
CANADA
CHILE
CHINA
COLOMBIA
CUBA
CZECHOSLOVAKIA
DENMARK
EGYPT
ENGLAND
FINLAND
FRANCE
GERMANY
GREECE
GUATEMALA
HAWAII
HUNGARY
INDIA
IRELAND
ISRAEL
ITALY
JAPAN
JAVA
MEXICO
THE NETHERLANDS
NEW ZEALAND
NORTHERN IRELAND
NORWAY
PAKISTAN
PANAMA CANAL ZONE
PHILIPPINES
POLAND
PORTUGAL
SCOTLAND
SPAIN
SWEDEN
SWITZERLAND
TRINIDAD
URUGUAY
UNION OF SOUTH AFRICA
U.S.S.R.
UNITED STATES
VENEZUELA
YUGOSLAVIA
Used in 48 Countries throughout the World, Atlas Ometers are
the only universally accepted yardsticks of accelerated testing.
The world wide use of Atlas equipment is Indic- throughout the world checking the -qualify of raw similar materials was tested' by exposing to sun=
lik
i
ative of its acceptance as standard by all scientific
and industrial nations for performance tests of
raw materials and finished merchandise.
The time to test a product is prior to market
introduction; the place is in your laboratory. Like
so many self-evident truths, the significance is
sometimes overlooked. Well intentioned research
frequently stops short of hurdling the consumer
performance test, either because direct measure-
ments have not been possible, or is accomplished
only after expensive research.
In the field of sunproofness, washability and
weathering, Atlas has changed all that. Three
world famous instruments have provided since
1919 the necessary standardized, reproducible con-
ditions for evaluating quality in terms of consumer
use, at moderate cost and maintenance.
Thousands of Atlas instruments are in daily use
materials, safeguarding production, making it
possible to make and keep guarantees, stopping
rejects, complaints and adjustments: truly insur-
ance worth any reasonable premium. The value
of the millions of hours Atlas Ometers have saved
thousands of users all over the world during the
past thirty years in providing rapid reliable an-
swers to quality problems, is incalculable.
Atlas Ometers are versatile enough to cover
every legitimate need of the industries they are
designed to serve, and do their job so well they
enjoy government and engineering society endorse-
ment. A quarter century of unremitting effort,
generously aided by government, industrial and
scientific associations, has made these instruments
the accepted method of measuring performance
prior to use.
Prior to 191.8 the colorfastness of fabrics and
t was a co-
e
light-and if results were twice a
incidence! How could it be otherwise? The in-
tensity of sunlight varies with latitude, season of
year, time of day and clarity of the atmosphere.
Obviously these variables prevented a common
basis of testing, interpretation and action; tests
could often not be run for days, or but intermit-
tently, and never duplicated.
World War I brought restricted shipments of
dyestuffs to America thus making a bad situation
worse. It was into this chaotic situation Atlas in-
troduced the Fade-Ometer. Then came in rapid
succession the Weather-Ometer and Launder-
Ometer.
You may refer all problems of sunfastness, laun-
derability and weathering to the appropriate Atlas
Ometers with complete confidence that prestige
will he enhanced, net profit improved.
12 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
ORDERING DATA FOR THE LAUNDER--OMETER - EXPORT
ELECTRICAL INFORMATION
All Launder-Ometers are designed for potentials according to the model selected. We recommend the Full Automatic
Electric standard Launder-Ometer LHD-EF, and Full Automatic Electric Special Models L-l-Q, and L-2-Q, for use on
a power circuit of 208 or 230 Volts so as not to disturb the average lighting circuit. However, 115 Volt models
can be supplied if required. It is advisable to consult your electrician in every case; and where the voltage is
above 245, it is necessary to procure a transformer to reduce your possible 380, 440 or 550 Volts to 230 Volts.
The Full Automatic Gas or Steam Models are recommended for 115 Volts, but can be supplied for 230 Volts. State
exact voltage available at location of Launder-Ometer.
All Launder-Ometer Models are prepared for single phase operation. The Model L-l-Q or L-2-Q can be supplied for
three phase operation if requested. The direct current Launder-Ometers are available in either 115 or 230 Volts.
Please indicate whether Launder-Ometer should be calibrated in Centigrade or Fahrenheit.
LHD-EF Furnished with two 2200 Watt Immersion Type Heating Elements for automatically
FULL AUTOMATIC ELECTRIC maintaining water temperatures in reservoir with dial Thermo-Regulator. Total
A.A.T.C.C. Standard Power 5 K.W.
LHD-AG Furnished with two gas burners for automatically maintaining water temperatures
FULL AUTOMATIC GAS in reservoir with dial Thermo-Regulator. Equipped with automatic gas shut-off
A.A.T.C.C. Standard should pilot be accidentally extinguished. The Type of Gas supply must be
stated. (BTU/Cu.Ft.) Total Power 0.5 K.W.
LHD-AS
FULL AUTOMATIC STEAM
A.A:T.C.C. Standard
Furnished with steam coils for automatically. maintaining water temperatures in
reservoir with dial type Thermo-Regulator. The Steam Pressure must be stated.
Total Power 0.5 K.W.
L -1- Q
FULL AUTOMATIC ELECTRIC Furnished in Vari-Speed only. This model will accommodate either or both 1 Pint
A.A.T.C.C. Standard (0.47 Litre) and 1 Quart (0195 Litre) Test Jars; furnished with six 2200 Watt
and Research Immersion Type-Heating Elements. Total Power 13.0 K.W.
L-2-Q Furnished in Vari-Speed only. This model will accommodate combinations of the
FULL AUTOMATIC ELECTRIC 1 Pint (0.47 Litre), 1 Quart (0.95 Litres) and 2 Quart (1.90 Litres) Test Jars,
A.A.T.C.C. Standard thus increasing the scope of your particular studies. Furnished with six 2200
and Research Watt Immersion Type-Heating Elements. Total Power 13.0 K.W.
Regular line and Booster Transformers can be easily included in the shipment of the Launder-Ometer without extra
boxing, therefore our Domestic Prices prevail. See separate price sheet on transformers.
SOLE MANUFACTURERS
Approved For Rele tt YO /LJJRR91 k0 0996A007800250001-0
4114 N. Ravenswood Ave., Chicago 13, Illinois
ApprovetWnr aMJRW1' 2d1I~gMDE~~R092 3 0250001-0
Prices of all Launder-Ometers are quoted F.A.S. Atlantic and Gulf Ports of Exit only. If U.S. Pacific ports are
selected, add 2% to the published prices.
The following items of expense must be added to our published prices: Ocean freight, marine insurance, all risks;
storage, if any; and Consular Fees, if any. These will be contracted for by the shipper and charged to the
purchaser at prevailing rates at date of sailing.
It is understood and agreed that the vendor shall not be liable for delay in or non-performance of any obligation
hereunder, including delivery of any goods or merchandise, if such delay or non-performance occurs by reason of
any condition beyond vendor's control, and for which he is not responsible, including strikes, fire, flood, Acts
of God, riot, or action of any governmental authority, domestic or foreign.
We furnish below the approximate weights and measurements of shipments of the various Launder-Ometer models, to
enable the purchaser to ascertain the approximate costs in addition to the published F.A.S. prices:
GROSS WEIGHT
NET WEIGHT
MEASUREMENTS
LAUNDER-OMETER MODEL
SUPPLIES FOR
Pounds-Kilos
Pounds-Kilos
Cu.Ft.
Cu. M.
LHD-EF (Electric)
1 Year
685
311
475
215
70
1.98
LHD-EF (Electric)
2 Years
785
356
525
238
70
1.98
LHD-AG (Gas)
1 Year
685
311
475
215
70
1.98
LHD-AG (Gas)
2 Years
785
356
525
238
70
1.98
LHD-AS (Steam)
1 Year
685
311
475
215
70
1.98
LHD-AS (Steam)
2 Years
785
356
525
238
70
1.98
L-l-Q (1 Quart, or
1 Year
1215
551
695
315
117
3.32
L-l-Q 0.95 Litre)
2 Years
1455
660
1055
479
122
3.40
L-2-Q (2 Quart, or
1 Year
1295
655
775
338
117
3.32
L-2-Q 1.90 Litre)
2 Years
1790
813
1150
522
131
3.67
Shipment of the Launder-Ometer includes substantial packing so as to insure its safe arrival at destination.
Accordingly, extreme care is taken in the selection of boxing material, the necessary markings required, and
compliance with existing regulations governing export shipments. We suggest that you clearly indicate the method
in which boxes are to be marked for our mutual protection.
ATLAS ELECTRIC DEVICES CO.
Approvedfl - Re1 3Md6l11L2Ae:.QIA+RDPAW-0092$ADD7&9250001-0
EXPORT LAUNDER---~PWpyRd fR21~gIeRgpo?OQ1/I1/A1 s9IPkITg-M9AWmR~2WT-POF EXIT ONLY
(Additional Charges applicable when U.S. Pacific Ports are selected) All prices in U.S.Dollars.
A COMPLETE LAUNDER-Oh1ETER includes a fully assembled machine, with Preheating Loading Table (see illustrations on
Pages 8 and 9 of catalog). When received, it is ready to operate when connected to a source of electric current.
Sufficient supplies are shipped with the machine for either one year, or two years, continuous operation.
ALTERNATING CURRENT
DIRECT CURRENT
ALL FULL AUTOMATIC MODELS 115 V.* or 208 V. or 220-245 Volts
115* or 230 V.
60 Cycles
50 or 25 Cycles
1 Year
2 Years
1 Year
2 Years
1 Year
2 Years
LHD-EE'
(Electric)
$ 973.00
$1078.00
$ 995.00
$1100.00
$1003.00
$1107.00
LHD-AG
(Gas)
970.00
1075.00
990.00
1095.00
1000.00
1104.00
LHD-AS
(Steam)
968.00
1073.00
988.00
1092.00
997.00
1101.00
L-l-Q,
Vari-Speed
2194.50
2307.00
2194.50
2307.00
2260.00
2372.00
L-2-Q,
Vari-Speed
2358.50
2483.00
2358.50
2483.00
2457.00
2587.00
* Not recommended except in Gas and Steam models, as power demand may exceed normal available current. Model LHD-EF
draws 45 Amperes, and both L-l-Q, and L-2-Q draw 120 Amperes on 115 Volts.
LHD-EF, LHD-AG, LHD-AS
L-1-0 L-2-Q
SUPPLIES SHIPPED WITH EACH LAUNDER-OM,1ETER
All Sin
le S
ed
Vari-S
eed
g
pe
p
1 Year
2 Years
1 Year
2 Years
1 Year
2 Years
1 Pint
(0.47 Litre) Jars
72
144
72
144
72
144
1 Quart
(0.95 Litre) Jars
0
0
48
96
48
96
2 Quart
(1.90 Litre) Jars
0
0
0
0
24
48
1/4" (6.4mm) Stainless Steel Balls 1500
3000
1500
3000
1500
3000
Record Cards, Form 617-L 300
600
300
600
300
600
Immersion Heaters (Not on LHD-AG, AS) 2
2
4
4
6
6
Dollar Value, Miscellaneous Items (Approx.) 15
30
60
66
68
84
To accomplish the 2A, 3A, and 4A T.tattue. Accelerated Washfastness Test, outlined in the A.A.T.C.C. YEAR BOOK, the
following recommended number and size of adapter plates, with prices based F.O.B. Chicago (unless included with a
Launder-Ometer shipment) may be added if desired:
Number of Metal Containers
Number and Size of Adapter Castings
PRICES ON
Metal Containers & Adapters
Each
1-2 require
One
2-Jar Adapter
2-Jar Adapter Plate for LHD
$ 5.00
3-4 require
Two
2-Jar Adapters
5-Jar Adapter Plate for LHD
10.00
5-10 require
Two
5-Jar Adapters
5-Jar Adapter for LIQ or L2Q
15.00
11-20 require
Four
5-Jar Adapters
Metal Containers, all models
9.85
SOLE MANUFACTURERS
PRICES SUBJECT TO ATLAS ELECTRIC DEVICES CO.
CHANGE WITHOUT NOTICE ApprovegIlFlgr ,elgtg*@ 411 : PIAhF?DP p-p9p2? 7 250001-0
Printed in the U.S.A.
Approved F
r4 &TRY A007800250001-0
Transformers are required when your alternating current line voltages are other than within the range of 208 to 250
volts. We quote below separately the required capacity for each separate Ometer, and also on larger transformers
to accommodate more than one Atlas Ometer, or other laboratory equipment. By combining the current capacities when
more than one Ometer (plus other electrically operated laboratory machines) is operated from the power line, the
most suitable transformer can be determined. As indicated on three phase operation it is sometimes more economical
to utilize 2 single phase transformers instead of one 3-phase transformer.
POWER TRANSFORMERS
BOOSTER TRANSFORMERS
1-Phase
3-Phase Power Line
1-Phase
3-Phase Power Line
MODELS
No.
Rating
No. Rating Phases
No.
Code
No. Code
Fade-Ometer:
FDA-R
1
3-KVA
Single
1
#61
1
#61
Weather-Ometer:
BWM-CC
1
3-KVA
1
3-KVA
Single
1
#61
1
#61
SMC, SMC-H
1
5-KVA
1
5-KVA
Single
1
#61
1
#61
SMC-R, SMC-HR
1
7 -KVA
2
5-KVA
Single
1
#63
2
61
DMC, DMC-H
1
7z-KVA
2
5-KVA
Single
1
#63
2
#61
DMC-R, DMC-HR
1
15-KVA
1
15-KVA
Three
1
#64
3
#61
xW
1
72-KVA
1
71-KVA
Single
1
#63
1
63
#
xW-R
1
15 -KVA
2
72-KVA
Single
1
#64
2
63
Launder-Ometers?
LHD-EF, LHD-AS/EF
1
5-KVA
2
3-KVA
Single
1*
#59
1*
#59
LHD-LIQ, LED-L2Q
1
15-KVA
1
15-KVA
Three
1*
#59
1*
#59
*Wired in control circuit only
_ THREE PHASE
60 Cycle
50 Cycle
60 Cycle
50 Cycle
PRIMARY VOLTS
0115
0
575
115
460
575 460 575
460
575
WITH 230 V.
SECONDARY
3 KVA
$ 58.00
$100.00
$104.00'
$ 62.00
$108.00
$113.00
5 KVA
82.00
145.00
152.00
89.00
158.00
165.00
7- KVA
110.00
200.00
210.00
119.00
219.00
230.00
15 KVA
189.00
348.00
364.00
206.00
382.00
400.00 $44o.oo $474.00
$476.00
$511.00
?AUTO TRANSFORMER- Contact local power company for approval.
BOOSTER TRANSFORMERS
(for line voltages of 187 to 207 Volts)
Single Phase
Code #59
Code x#61
Code #63
Code #64
Cycle
2 .00
3.00
. 0
$77.00
50 Cycle
25.00
46.00
68.00
84.00
PRICES F.O.B. OUR PLANT, ATLAS ELECTRIC DEVICES CO.
CHICAGO, SUBJECT TO CHANGE Approgy 41FRr F Ig g~?,Q 1/q~a~21 :(I&W$Q-00191216 QQ1800250001-0
WITHOUT NOTICE Transformers 010155
HEveAThASIhhIOM!TE8oTRj
WEATHER-OMETER?
The Weather-Ometer is a laboratory apparatus
for ascertaining at a greatly accelerated speed the
trend of reactions which will occur on all types of
products in outdoor exposures.
It is a self-contained machine, employing the
three principal weathering agents, Synthetic Sun-
light, Moisture and Temperature Changes.
Automatic control, regulation and application
of these weathering agents make it possible to
establish standard test conditions which can be
duplicated and reproduced at any time or place.
The need for such equipment is evident since in
addition to the extensive time required to obtain
results from exposures to actual weather, the re-
sultant tests will vary greatly not only from location
to location but from day to day, month to month,
and year to year at the same location.
FADE-OMETER ?
The Fade-Ometer is a patented self-contained
electrically operated device for determining by ac-
celerated tests in the laboratory the action of sun-
light on all materials.
The need for such equipment is evident in every
industry having products which fade or otherwise
deteriorate from the action of the sun. Natural sun-
light, available only part of a 24 hour day at best,
and frequently not at all, is never constant due to
the difference in latitude, season of year, time of
day and local climatic conditions.
The Enclosed Violet Carbon Arc, source of radiant
energy, provides noon June sunlight 24 hours per
day. The Fade-Ometer provides constant, uniform
and reproducible conditions regardless of time or
place, thus speeding up research and production
and insuring quality of product.
Write for complete catalogs describing each machine.
Accelerotor?
Wet and Dry Abrasion Tests
LAUNDER-OMETER?
The Launder-Ometer is the standard laboratory
washing machine of the American Association of
Textile Chemists and Colorists and is used through-
out the world for quickly determining the color-
fastness of textiles to commercial laundering and
domestic washing.
From one to twenty samples may be tested simul-
taneously under controlled conditions of tempera-
ture and mechanical action.
Available with either one-pint glass jars for the
standard tests or with metal containers for the
accelerated washfastness tests.
All Launder-Ometers have full automatic control
with a choice of electricity, gas or steam for heating
the water bath. The Preheating and Loading Table
is an indispensible accessory for added efficiency
and reduction of operator time.
ATLAS ELECTRIC DEVICES COMPANY
Approved Fo4 lepc e(~~(ao~~1a'CglAe0 PA> po09 2J1 007800250001-0
Scorch Tester
Chlorine Retention Testing
Printed in U.S.A.
L-11-54-5M
STANDARD LABORATORY INSTRUMENTS OF THE WORLD FOR DETERMINING DURABILITY AND PERFORMANCE
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Atlas Electric Devices Co. ? 361 West Superior Street ? Chicago 10, ILL., U.S.A.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
A t.
Approved For Release 2001/11/21 : CIA-RIEU009fE6AO07800250001-0
SSIED
For determining the light-fastness.of color
ATLAS ELECTRIC DEVICES CO. ? CHICAGO 10, ILLINOIS, U.S.A.
NEW ADDRESS
4114 NORTH RAVENSWOOD AVENUE UNCLASSIFIED
Approved For ReI C/r11$1 :jUJf jlM88Q 9X0A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS FADE-OMETER
The Fade-Ometer
The Inter
athoua1 Varkich for Measuring the Effect of Sunlight
Pioneered by Atlas in 1919 to assist America's infant dye
industry, The Fade-Ometer has become the universally
accepted medium for predetermining in the laboratory the
light fastness of colors and other photochemical changes
caused by exposure to sunlight.
Specified for Government purchases, approved by engineer-
ing and technical societies, depended upon by industry as
an important research tool, the Fade-Ometer is relied upon
the world over for product improvement, quality control,
lower production costs and greater net profit.
Atlas Electric Devices Company
361 W. SUPERIOR ST. Auld CHICAGO 10, ILL., U. S. A.
4114 N. Ravenswood Ave., Chicago 13, III., U. S. A.
REPRESENTATIVES:
NEW YORK PHILADELPHIA PAWTUCKET
BOSTON CHARLOTTE LOS ANGELES SAN FRANCISCO
SEATTLE PORTLAND SALT LAKE CITY
ALL PRINCIPAL NATIONS
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 1
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
The Fade-Ometer
What It Is and What It Does
The Fade-Ometer is a patented self-contained
electrically operated device for determining by ac-
celerated tests in the laboratory the action of sun-
light on all materials.
The need for such equipment is evident in
every industry having products which fade or
otherwise deteriorate from the action of the sun.
Natural sunlight, available only part of a 24 hour
day at best, and frequently not at all, is never
constant due to differences in latitude, season of
year, time of day and local climatic conditions.
The Fade-Ometer provides constant, uniform and
reproducible conditions regardless of time or
place, thus speeding up research and production
and insuring quality of output.
INSURES BETTER PRODUCTS
The dependable advance knowledge of color-
fastness obtained from the Fade-Ometer has point-
ed the way to many noteworthy improvements in
a wide range of products.
While a particular pigment or dye may be of
good fast-to-light quality for some applications,
a variation in its use may give radically changed
results. A short test in the Fade-Ometer will quick-
ly give an indication of its adaptability to new
applications and if found satisfactory permit guar-
antees of the color fastness of a new product.
DIMINISHES REJECTIONS
The Fade-Ometer by providing reliable color
fastness information in a short period of time
serves not only as a research tool in the develop-
ment of new and untried processes and products
but also as a means of checking the uniformity
and quality of material from the production line.
In production control alone it will pay for it-
self many times over as the rapid detection of
poor fastness-to-light qualities in a particular run
will enable early correction of the condition and
will possibly prevent thousands of dollars worth
of sub-standard products from being marketed.
The costly process of rejection and return with
the corresponding loss of good will, prestige and
confidence can thus be largely eliminated.
SALES PROMOTION
Any testing program which-determines the qual-
ity of products before production is started and
again checks the finished product before shipment
is fundamentally sound.. The use of proper quality
control prevents spoilage, raises production stand-
ards, and lowers costs. Such honest effort is re-
warded with greater sales and increased prestige.
In the field it serves, each Atlas Ometer has
made great contributions to greater net profit.
Many of our customers have found their compet-
itive position so improved that public announce-
ments have been made, and whole advertising
programs built around their use of Atlas equip-
ment.
Excellent Light-Fastness
PRINCIPLE OF ACCELERATED FADING
If radiation approximating Noon June Sunlight
both quantitatively and qualitatively is played on
specimens under controlled conditions of tempera-
ture and humidity it is to be expected that color,
chemical and physical changes will develop similar
to those produced by exposures in actual sunlight.
In the Fade-Ometer the acceleration of results
is accomplished by providing- continuously- 24 -
hours a day a test condition in which the various
factors producing the changes in the specimen are
maitained at their maximum values encountered
in actual sunlight exposures.
2 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS FADE-OMETER
Poor Light-Fastness
TEMPERATURE
Ambient temperature at the face of the speci-
mens is controlled automatically to within ?3? F.
by a dial type thermo-regulator within the range
of 95? to 150? F. A dial type thermometer unit
is supplied as standard equipment with each ma-
chine which provides an easy convenient method
of measuring ambient temperature in accordance
with standard methods specified by the A.A.T.C.C.,
A.S.T.M. and Federal Specifications.
The ventilating system uses filtered air and the
ambient temperature is kept within the predeter-
mined limits by means of an electrically operated
blower actuated by the thermo-regulator. Close
control of temperature is very important and its
effect on most materials cannot be ignored.
HUMIDITY
A cylindrical stainless steel reservoir filled with
water at a constant level forms the base of the
testing chamber. Moisture is added to the filtered
air from the blower by evaporation of water from
wicks which are stretched on stainlesss steel frames
and which are partially submerged in the water.
With this method relative humidities up to 50%
can be obtained depending upon atmospheric con-
ditions and the number and condition of the wicks
used.
For those having a convenient source of water
the Fade-Ometer is usually supplied with the Atlas
Float and Valve. If it is not practical to pipe a
source of water to the machine, a five gallon bottle
can be supplied. In either case the water is auto-
matically maintained at a constant level in the
reservoir.
COST OF OPERATION
The Fade-Ometer is economical to operate both'
from the standpoint of material used and operator
time. The are consumes one inexpensive 1/2"x12"
carbon electrode in each 24 hours of operation.
Since the machine will operate continuously for
24 hours a minimum amount of operator attention
is necessary, only a few minutes a day for insert-
ing new carbons, cleaning the globe and inspecting
and changing specimens. The machine can be set
for automatic shut down for any period up to 24
hours thus increasing the usable machine hours.
With the arc operating at its normal 15 to 17
amperes and 120 to 145 arc volts the Fade-Ometer
consumes approximately 2.5 kilowatts. The water
consumption is about 5 gallons per 24 hour
period.
The special Pyrex globe or filter unless acci-
dentally damaged has a useful life of 2000 hours.
The wicks depending upon the hardness of the
water used require periodic washing and occa-
sional replacement as does the air filter depending
upon the amount of dirt in the air. All other
parts and accessories have a life expectancy of
years and do not normally require replacement;
SAFETY
The Fade-Ometer is designed to comply with
the various Safety Standards for ordinary use
conditions and may be safely operated through
the night without attention. With ordinary care
it may be safely operated without danger of per-
sonal injury to the operator or other laboratory
personnel.
SHIPPED COMPLETE
The Fade-Ometer is shipped complete ready to
connect to outlets of electric power and water.
Included with it are all of the necessary supplies,
accessories and operating instructions. There are
no extras to buy before the machine can be put
in daily operation.
ELECTRICAL CHARACTERISTICS
The Fade-Ometer can be supplied for operation
on Direct Current or Alternating Currents of 25,
40, 50 and 60 Cycles. On Alternating Current the
Fade-Ometer can be operated directly from any
two wires, or one phase, of any power circuit
having a voltage of 208 to 250 volts regardless of
whether it is a single phase, 2-phase or 3-phase
system. For any other line voltage, such as 110-
115, 185-207, 380, 440, 550, transformers can be
furnished which will bring the available line
voltage to the 208-250 Volt operating range of
the Fade-Ometer. On Direct Current the Fade-
Ometer will operate satisfactorily only on voltages
between 220 and 250 as transformers cannot be
utilized.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 3
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
CONTROL CABINET
a
12
A
fVE MOTOR
,A3,R GLOWER
",AIR FILTER
Cut-Away View of Fade-Ometer
C IME METER
FLOA4e:
REACTANC ,"'
TRANSFORMER
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
,,
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Description of Instrument
GENERAL CONSTRUCTION
The Fade-Ometer is of all metal construction
built to give years of dependable service. It is
totally enclosed, the upper part of the machine
forming the test chamber the bottom of which
consists of the stainless steel water reservoir and
the lower portion or base of the machine contain-
ing the blower unit, air filter, reactance trans-
former and other equipment.
Six doors are provided around the circumfer-
ence of the machine for easy access to all speci-
mens and to the interior of the machine as well
as an extra door for use when servicing the are
mechanism. The top is provided with a hinged
balanced louvre for ventilation which opens and
closes as the blower is actuated. The base is
equipped with hinged doors for easy inspection,
changing of the air filter and service of the blower
motor.
Legs elevate the base of the Fade-Ometer ap-
proximately five inches from the floor providing
for easy cleaning.
The Fade-Ometer requires a floor space of 43"
by 33" and measures approximately 68" in height.
CONTROL CABINET
The speed, degree and character of fading,
chemical and physical changes are a function of
time, temperature, humidity and radiation. All of
these variables must be subject to control within
the limits set by nature if comparable results are
to be obtained. The success of the Atlas Fade-
Ometer is based upon the uniformity and unremit-
ting constance of these physical conditions, rather
than to the use of artificial circumstances which
permit no correlation with actual use.
The Control Cabinet located at convenient eye
level has been designed with these objectives in
mind. A Voltmeter and Ammeter with special
scales are provided as a check on both the arc
and line voltages and the current consumed by
the arc. A four-point switch makes it possible to
regulate minor variations of are intensity due to
small fluctuations of line voltage.
The Time Switch provides an automatic means
of shutting off the Fade-Ometer at any predeter-
mined time within 24 hours, a great convenience
to the operator.
The Running Time Meter located on the side
of the control cabinet removes the personal ele-
ment of maintaining an accurate detailed log of
the actual hours of exposure received by the speci-
mens. Recording the meter reading at the start of
the exposure of any specimen or group and like-
wise noting the reading when removed enables the
operator to accurately determine the exact number
of hours of exposure they have received. This is
especially useful where specimens are started at
different times and are exposed for varying num-
bers of hours. The Running Time Meter is of the
nonresetting type which makes it impossible for
anyone to change the actual record of the exposure
hours.
Control Cabinet Type FDA-R
A Main-Line Switch, Inspection Light Switch,
Thermo-Regulator, Pilot Lights and Voltmeter
Switch complete the control cabinet.
TEST CHAMBER
Standard specimen holders and tests masks, for
a variety of materials, are supplied as part of the
equipment. The specimens, mounted in their hold-
ers, are suspended in the test chamber on a circu-
lar rack which engages both the top and bottom
of the holders insuring the proper vertical align-
ment at all times. These are rotated around the
light source at a constant speed at a fixed distance
of ten inches which insures equal radiation for, all
specimens.
The Fade-Ometer is operated with a full set of
holders which are filled with any available ma-
terial if a complete set is not required. In this
manner maximum uniformity of test condition is
attained.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Specimen Holders
The number of specimens tested simultaneously
may be varied from 9 to 126 depending upon the
size chosen.
The Type CD-LSR and SL-LSR Specimen Hold-
ers illustrated below are the ones most commonly
used since they provide ample exposure area and
will conveniently accommodate flat specimens such
as textiles, paper, plastic films, protective and
decorative coatings on metal panels, etc.
The Type TC-LSR is used for thick materials
-such -as rugs or carpets and the WP-TC-LSR for
large figured patterns such as wallpaper, cre-
tonne, rugs and carpets.
Sll',=LSR CD=LSR
Type of No. of
Size of
Exposure
Holder Specimens
Specimens
Area
CD-LSR 2
2%"x434"
15/s"x2"
TC-LSR 2
234"x43/4
I --Ys "x2"
SL-LSR 1
2%"x8"
13%"x5"
WP-TC-LSR 1
61/2"x93/4"
5" x8"
For those who wish to work with liquids, as in
the light-bleaching of oils, development of ran-
cidity, photo-catalytic decomposition of organic
fluids, etc., bottles and test tube holders are
available.
Many other types of special holders are avail-
able. If you have some special or unusual appli-
cation, submit your problem to us.
XPOSVAf N'3 DATE
QRS.
-JNRS.
EXPOSURE MASKS
When testing a color of unknown fastness on a
material that is not temperature sensitive it is often
convenient to have progressive steps or stages on
one specimen. This can be accomplished by the
use of the exposure mask which has conveniently
printed and perforated flaps which permit the
operator to uncover portions of the- specimen in-
successive steps or stages.
Exposure masks and convenient filing folders
are supplied for use in the SL-LSR, CD-LSR and
WP-TC-LSR Specimen Holders.
6 Approved For Release-2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS FADE-OMETER
The Atlas Enclosed Violet Carbon Arc
The heart of the Fade-Ometer is the Atlas Violet
Carbon Arc. This is an enclosed type arc which
produces a complete spectrum from 279m? through
20,000m?.
This spectral distribution is accomplished by
the use of the proper carbon electrodes operated
under controlled current conditions in a filter
globe of special optical Pyrex.
The filter globe performs three major functions.
First, it filters out the shortest of the ultraviolet
rays so that the resulting spectrum is extremely
close to that found in summer sunlight. Secondly
it prevents any possible contamination of the test
specimens from products of combustion of the arc
and thirdly by enclosing the are the carbon life
is greatly extended, so that a full twenty-four
hour operation is possible with the consumption
of a single twelve inch carbon electrode. As the
Pyrex glass is slow to solarize the globe has a
useful life of 2,000 hours without any appreciable
change in its transmission qualities.
So well was the original engineering on the arc
done that only minor changes have been made
SPECTRAL DISTRIBUTION OF
ATLAS ENCLOSED ARC
Percent of Total Radiation to
Limit of Fluorite Transmission
in Infra-red (
12,000m?)
279 m? to
29017111
0.05
0.0
290 m? to
320 nip
4.6
2.0
320 m? to
360 m?
6.2
2.8
360 m? to
480 m?
15.0
12.6
480 m? to
600 m?
8.3
21.9
600 m? to
1400 m?
14.9
38.9
1400 m? to
4200 mtt
21.3
21.4
4200 m? to
12000 mtt
29.65
0.4
since its inception in 1919, and it remains today
the most inexpensive, yet most dependable, arti-
ficial duplicate of sunlight known. With thousands
using identical equipment comparable tests may
be run anywhere and at any time. Truly, the Fade-
Ometer is the common denominator of sunfast
tests.
OPEN ARC
ARC ENCLOSED
IN PYREX P X.
1 120 730 240 250 260 270 2~ 300 310 300 3 360 350 5 0 4 0 500 600 700 000
I I I t I I I ll I di I i i li r u l l i i I I r L f I I I 1 I I I I 1 I I i I I i 1 ( I i i l l n n l i u I III i IIIII l i n r II u~ Ilu lllull qulunllndnlllnnluulilldlulluolnnl I I I I. 1 I I I I I I I I I I I I I I I I I I I I dd r i i i l n n I n II uhI nmuil
ARC
230
13 FADE
1 to 1400
ENCLO SED RIN P REX NO. 9 00 P X. GPLOERES BE D .C i 0.03 1 3.9 T 6.0 1 16.1 j 9.2 15.E
FADE-OMETER ARC, 220 VOLTS 17 AMPERES A.C. 60cy.
ENCLOSED IN PYREX NO. 9200 P X. GLOBE
JUNE SUNLIGHT AT SEA-LEVEL
WASHINGTON, D. C.
%OF TOTAL RADIATION TO LIMIT OF FLUORITE TRANSMISSION IN INFRA-RED.
Chemical action may often be brought about by
the absorption of the infra-red, visible and ultra-
violet wavelengths. The literature cites innumer-
able instances of light acting as a catalyst in pro-
moting a reaction not otherwise taking place in
the dark, in altering the rate of reaction already
taking place, or in bringing about a new reaction
which is entirely independent of the one which
proceeds normally in the dark.
While the Fade-Ometer was designed primarily
to utilize these principles in measuring the degree
of fading of dyestuffs and the deteriorating in-
fluence of light in the artificial aging of rubber,
etc., its use as a research tool such as in the
qualitative analysis of materials by fluorescence
should not he overlooked.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 7
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Applications and Correlation With Sunlight
APPLICATIONS
The universal appeal of colors, and the necessity
for accurately advertising the permanency of the
dyes employed, make the Fade-Ometer indispens-
able in research, production and sale promotion.
Among the world-wide industrial users who have
depended upon the Fade-Ometer
ter century, are:
Dyestuff Manufacturers
Dry Color Producers
Dyers and Finishers
Textile Mills
Clothing Manufacturers
Ink Makers
Printers and Lithographers
Billboard Advertisers
Wall Paper Mills
CORRELATION
Correlation of fading tests either in Fade-
Ometers or actual sunlight is now possible through
the new calibration method which permits the ex-
pression of all test results in terms of Standard
Fading Hours.
The Standard Fading hour and Calibration
Method was developed by the National Bureau of
Standards in cooperation with the A.A.T.C.C.,
A.S.T.M. and other technical societies as a simple,
reliable and convenient method of measuring and
expressing the fading produced in terms of a fixed
arbitrary unit of measurement.
In the Calibration Method special light sensitive
paper is exposed simultaneously under the same
conditions as the specimens either in the Fade-
Ometer or in actual sunlight. After exposure the
faded paper is then compared and graded with
an index of standards and the specimens are cred-
ited with having received the appropriate number
-Government- Bureaus-and Departments-- -- - -of-Standard Fading-Hours.-
Purchasing Departments
Rug, Carpet and Upholstery Mfrs.
Merchants (Wholesale and Retail)
Rubber Manufacturers
Soap and Cosmetic Manufacturers
Plastics (Materials and Processors)
Pharmaceutical Manufacturers
Consultants and Testing Laboratories
College Laboratories -
Advertising Departments
Petroleum Laboratories
Leather Manufacturers
Universal reporting of all test results in terms
of Standard Fading Hours which are constant and
unchanging instead of the variable terms of Sun-
light or Fade-Ometer Hours will thus enable close
correlation of tests both in the same machine from
time to time, between different machines and
actual sunlight exposures. The importance of this
will be better appreciated when consideration is
given to the fact that actual sunlight varies widely
both in intensity and spectral distribution due to
geographic location, time of day, season and at-
mospheric conditions and Fade-Ometer hours may
vary according to the model and local conditions
under which the particular machine is operated.
After the fading rate of a Fade-Ometer under
its own particular operating condition has been
determined by the calibration method the number
of actual exposure hours required to produce a
given number of Standard Fading Hours can be
calculated and the exposure time adjusted accord-
ingly and conversely any number of actual ex-
posure hours can be expressed as Standard Fading
Hours.
While data is not yet available this calibration
method also presents a long range means of estab-
lishing in terms of a standard unit of measure the
averages of actual sunlight intensities for specific
locations as well as averages for large geograph-
ical areas. It also can be utilized for determining
the amount of radiation that can be expected based
on the end use of a specific product which will be
of help in the preparation of industry and gov-
ernmental minimum performance standards.
Interpolation of data assembled over a period
of years in which the values for both sunlight and
the Fade-Ometer represent general averages indi-
cates the following:
DYED TEXTILES
1 Hour FDA-R Fade-Ometer equivalent to 1.7
Hours of Summer Sunlight between the hours of
9 A.M. to 3 P.M. at Washington, D. C.
LITHOGRAPHIC AND PRINTING INKS
1 Hour FDA-R Fade-Ometer equivalent to 3.3
Hours of Summer Sunlight between the hours of
9 A.M. to 3 P.M. at Washington, D. C.
8 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Universal Acceptance of the Fade-Ometer
The extent to which industry, technical societies
and governmental agencies sanction and specify
the use of a testing device is the best measure of
its approval as a standard. The Atlas Fade-Ometer
has the unique distinction of being the only uni-
versally accepted equipment for determining color
fastness to light.
A few of the many hundreds of these specifica-
tions are enumerated below. Where published
standards are not available for a particular prod-
uct it is recommended that the unknown be com-
pared with a specimen of known performance, or
that available specifications for products of a
comparable end use be employed as a guide.
COMMERCIAL STANDARDS
Many industries have by voluntary agreement
through the U. S. Dept. of Commerce adopted
commercial standards specifying minimum re-
quirements of quality, labeling and terms utilized
in merchandising. A few of these in which the
minimum requirements for light fastness are based
on Fade-Ometer tests are enumerated below.
CS16-29 Wall Paper
CS52-35 Mohair Pile Fabrics
CS59-44 Textiles, Testing and Reporting.
INDUSTRIAL STANDARDS
In addition to those industries who have adopt-
ed commercial standards there are many, such as
those listed below, who have adopted standard
methods of testing but who because of their par-
ticular problems prefer to leave minimum require-
ments to mutual agreement between the purchaser
and seller.
Textiles-D506-45T, Tentative Method for Fast-
ness of Colored Textiles to Light, A-S.-
T.M. Standards.
Textiles-Colorfastness of Textiles to Light, A.A.-
T.C.C. Technical Manual and Year Book.
Floor Coverings-D418-42, Standard Method of
Testing Pile Floor Covering, A.S.T.M.
Standards.
Adhesives-D904-46T Tentative Recommended
Practice for determining the effect of
Artificial and Natural Light on the per-
manence of Adhesives, A.S.T.M. Stand-
ards.
Printed Packaging Materials-Proposed Method
of Testing Printing Packaging Mate-
rials for Fastness to Light by use of the
Fade-Ometer, Packaging Institute Test
Procedures.
GOVERNMENT SPECIFICATIONS
Purchases by Federal, State and Local Govern-
ments have been under rigid specifications for
many years. The following is a partial list of Fed-
eral Specifications in which a Fade-Ometer test
is required.
Federal
Specifications
Materials
C-H-131
Hats; felt and wool, men's
V-B-871a
Buttons
JJ-S-846
Sweaters; wool, knitted
KK-L-136b
RR-B-446
Leather; artificial (upholstery)
Blinds, venetian, metal slat
TT-I-521
Ink, copying and record
TT-I-531
Ink, drawing, waterproof, colored
TT-I-545
Ink; marking, quick-drying, for
photo-
graphic film
TT-I-549a
Ink; red, writing
TT-I-554
Ink, stamp-pad, red for photographic
TT-I.556a
prints
Ink, stamp-pad
TT-I.557 Ink, stencil, duplicating-machine, climate-
proof, black, castor-oil-base
TT-I-561 Ink, stencil, duplicating-machine, climate-
proof, black, non-castor-oil-base
TT-I-562 Ink, writing, for ball-point fountain pen
TT-I-563b Ink, writing, blue-black, for fountain, dip,
and steel pens
TT-I.566 Ink, writing, blue alkaline (non-corrosive)
UU-C-96c Cards; guide, pressboard (file size)
ZZ-F-461a Floor-covering; rubber, sheet
BBB-S-786 Suits, working; one-piece
CCC-B-686a Broadcloth; cotton, mercerized
CCC-B-792a Bunting; cotton, mercerized
CCC-B-801 Bunting; wool
CCC-C-521b Cloth, window shade
CCC-D-181 Denim; shrunk
CCC-D-186 Denim; unshrunk
CCC-D-761 Duck, cotton, plied-filling-yarns and single-
yarns (flat-duck)
CCC-D-771b Duck; cotton, plied-yarns (Army, num-
bered and tent-duck)
CCC-G-391 Gingham
CCC-P-191a Percale
CCC-P-651 Prints; cotton
CCC-S-91a Sateen, Cotton
CCC-T-191b Textiles test methods
DDD-B-416 Blankets; combat, canvas
DDD-B-421a Blankets; cotton, and cotton-warp and
wool-filling
DDD-C-51a Carpets and rugs; Axminster
DDD-C-61b Carpets and rugs; velvet, plain and twisted
pile
DDD-C-71a Carpets and rugs; Wilton
DDD-F-416 Flags; United States
DDD-H-74 Handkerchiefs; cotton, bandanna
DDD-H-136 Hats; straw, men's
DDD-P-76 Pajama-coats and trousers; hospital
DDD-R-271a Ribbons, Computing and Recording ma-
chine
DDD-R-591 Robes, bath
DDD-R-751 Rugs; American-Oriental (washed)
DDD-S-251a Shades, window; rollers, slats, cords and
accessories
DDD-S-301 Shirts; broadcloth, cotton, mercerized
DDD-T-101 Taper; linen-finish, red
LLL-B-441a Blinds; venetian, wood-slat
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Partial List of Fade-Ometer Users
AUTOMOTIVE INDUSTRY
Briggs Mfg. Co ............. Detroit, Mich.
Chrysler Corp ............. Detroit, Mich.
Fisher Body Detroit Division. Detroit, Mich.
Ford Motor Company..... Dearborn, Mich.
Hudson Motor Car Co...... Detroit, Mich.
Kaiser Frazer Corp.... Willow Run, Mich.
Nash-Kelvinator Corp. .. Detroit, Mich.
Nat'l. Automotive Fibres Inc.. Detroit, Mich.
Seaman Body Company.. Milwaukee, Wis.
Vogt Mfg. Company..... Rochester, N. Y.
Woodall Industries Inc...... Detroit, Micii.
BEDDING
Simmons Company........Kenosha, Wis.
Bacon Mfg. Co......... Swannanoa, N. C.
North Star Woolen Mills ...... Lima, Ohio
Washougal Woolen
Mills .............. Washougal, Wash.
BUILDING MATERIALS
Celotex Corp ................ Chicago, Ill.
The Flintkote Co........ New York, N. Y.
Wood Conversion Co....... St. Paul, Minn.
CLOTHING MANUFACTURERS
Cluett, Peabody & Co. Inc..... Troy, N. Y.
Fashion Frocks Inc....... Cincinnati, Ohio
Hart, Schaffner & Marx ...... Chicago, 111.
Merit Clothing Co..........Mayfield, Ky.
Phillips Jones-Corp New York, -N. Y.
United Merchants &
Manufacturers ....... New York, N. Y.
M. Wile & Co ............. Buffalo, N. Y.
Wilson Brothers ........ South Bend, Ind.
COLLEGES AND UNIVERSITIES
Carnegie Inst. of Tect..... Pittsburgh, Pa.
Cornell University..........Ithaca, N. Y.
Florida State University.. Tallahassee, Fla.
Iowa State University..... Iowa City, Iowa
Lowell Textile Inst......... Lowell, Mass.
Mich. State College ..... E. Lansing, Mich.
New York University.... New York, N. Y.
Penn. State College ..... State College, Pa.
Philadelphia Textile Inst....... Phila., Pa.
So. Dakota State College. Brookings, S. D.
Texas Tech. College....... Lubeck, Texas
University of Alabama.... University, Ala.
University of California... Berkeley, Calif.
University of Illinois ........ Urbana. Ill.
University of Minnesota. Minneapolis. Minn.
University of Missouri...... Columbia, Mo.
University of North Car.. Greensboro, N. C.
University of Wisconsin.... Madison, Wis.
CONSULTING LABORATORIES
Better Fabrics Testing
Bureau .............. New York, N. Y.
The Derby Company ..... Lawrence, Mass.
Industrial By-Products &
Research Corp........ Philadelphia, Pa.
Kaufman-Lattimer Co..... Columbus, Ohio
Arthur D. Little Inc..... Cambridge, Mass.
Skinner & Sherman Inc..... Boston, Mass.
Foster D. Snell ......... New York, N. Y.
A. M. TenneyAssociates.New York, N. Y.
Textile Testing & _
Research Labs........ New York, N. Y.
U. S. Testing Company... Hoboken, N. J.
COTTON GOODS
Acme Backing Corp....... Brooklyn, N. Y.
Bates Mfg. Co.......... Lewiston, Maine
Beaunit Mills, Inc........ New York, N. Y.
Burlington Mills Corp.. . . New York, N. Y.
Callaway Mills ........... La Grange, Ga.
Cannon Mills ........... New York, N. Y.
Cantor Greenspan Co..... New York, N. Y.
Chatham Mfg. Co........... Elkin, N. C.
Clearwater Mfg. Co...... Clearwater, N. C.
Dan River Mills Corp........ Danville, Va.
Deering Milliken & Co...New York, N. Y.
Erwin Cotton Mills Co.... Cooleeme, N. C.
Guyan Mills...........Valley Falls, R. I.
-Landers-Corp .:.....::..:...-.. Toledo, Ohio
Millville? Mfg. Co.......... Mi]lville, N..1.
Mooresville Cotton Mills. Mooresville, N. C.
Pacific Mills ...............Lyman, S. C.
Pepperell Mfg. Co..........Boston, Mass.
Riegel Textile Corp.... Ware Shoals, S. C.
Russell Mfg. Co...... Alexander City, Ala.
Springs Cotton Mills..... Lancaster, S. C.
I. P. Stevens & Co....... New York, N. Y.
Verney Corp...... W. Peterborough, N. H.
DYEING, FINISHING,
TEXTILE PRINTING
American Finishing Co.... Memphis, Tenn.
Consolidated Textile Co.. N. Adams, Mass.
Crystal Springs Bleachery.Chicamauga, Ga.
Dobeckmen Co........... Cleveland, Ohio
Eddystone Mfg. Co........ Eddystone, Pa.
Fairforest Finishing Co.... Fairlawn, N. J.
Caede Dyeing Co.......... Paterson, N. J.
Gregg Dyeing Division. . Grainteville, S. C.
Lincoln Bleachery &
Dye Works............ Lonsdale, R. I.
Milprint Inc............Milwaukee, Wis.
Nina Dye Works .............. York, Pa.
Pilgrim Piece Dye Works.. Brooklyn, N. Y.
Plymouth Dye Works ...... Paterson, N. J.
P.V.M. Corp ...... Wappingers Falls, N. Y.
Richmond Piece Dye Works. Richmond, Va.
Rock Hill Printing &
Fin. Co ............... Rock Hill, S. C.
Seyer Silk Dyeing & Fin. Co.. Haledon, N. J.
Slatersville Finishing Co.. Slatersville, R. 1.
Southern Bleaching &
Print Works ............ Taylors, S. C.
Union Bleachery........Greenville, S. C.
United Piece Dye Works...... Lodi, N.. J.
Ware Shoals Bleachery. Ware Shoals, S. C.
DYESTUFFS AND CHEMICALS
American Aniline Products
Co ................... New York, N. Y.
Andreykovicz & Dunk Inc....... Phila., Pa.
Ansbacher-Siegle Corp.... Rosebank, N. Y.
Aridye Corp .............. Fairlawn, N. J.
Calco Chemical Div....Bound Brook, N. J.
Ciba Co. Inc............ New York, N. Y.
Dow Chemical Co......... Midland, Mich.
E. I. Du Pont De Nemours
& Co ................ Wilmington, Del.
J. S. & W. R. Eakins ...... Brooklyn, N. Y.
Geigy Co. Inc............ New York, N. Y.
General Aniline & Film
Corp . ................ New York, N. Y.
-General Dyestuff -Corp.. . . New York, N. Y.
Gordon Lacey Chemical
Prod. Co ............... Maspeth, N. Y.
Harshaw Chemical Co..... Cleveland, Ohio
Hercules Powder Co...... Wilmington, Del.
Lennig Division ......... Philadelphia, Pa.
Marwin Dyestuff Corp....Jersey City, N. J.
McCarty Aniline &
Extract Co........... Philadelphia, Pa.
Monsanto Chemical Co...... St. Louis. Mo.
National Aniline Div.....New York, N. Y.
Nova Chemical Corp...... New York, N. Y.
Pharma Chemical Corp.... New York, N. Y.
Publicker Industries Inc....... Phila., Pa.
Reichhold Chemical Co..... Detroit, Mich.
Sandoz Chemicals Works.. New York, N. Y.
Southern Dyestuffs ........ Sodyeco, N. C.
Standard Dyestuff Corp..... Paterson, N. J.
Standard Ultramarine
Co ................ Huntington, W. Va.
Sun Chemical .... S. San Francisco, Calif.
United Aniline Co.......... Boston, Mass.
Jacques Wolf & Co......... Passaic, N. J.
Zinsser & Co..... Hasting-on-Hudson, N. Y.
ELECTRICAL MANUFACTURERS
Bell Telephone Labs.....New York, N. Y.
General Electric Co.... Schenectady, N. Y.
Philco Corp............ Philadelphia, Pa.
R.C.A. Laboratories...... Princeton, N. J.
Western Electric Co.......... Chicago, Ill.
Westinghouse Elect. &
Mfg. Co ............. E. Pittsburgh, Pa.
FUR DYERS
Fouke Fur Co ............. St. Louis, Mo.
A. Hollander & Son ........ Newark, N. J.
HATS
Frank II. Lee Co......... Danbury, Conn.
C. & K. Purchasing
Corp ................ S. Norwalk, Conn.
John B. Stetson ......... Philadelphia, Pa.
INK MANUFACTURERS
Bensing Bros. & Deeney..Philadelphia, Pa.
Capitol Printing Ink Co.. Washington, D. C.
Certified Printing Ink Co..... Chicago, Ill.
A. E. Handschy Co........... Chicago, 111.
In-Tag Co ................... Lodi, N. J.
International Printing
Ink ................. New York, N. Y.
Kohl & Madden Printing Corp.. Chicago, 111.
Fred'k H. Levey Co..........Chicago, Ill.
Pope & Gray Inc......... New York, N. Y.
Sinclair & Valentine Co... New York, N. Y.
Superior Type Co............. Chicago, Ill.
KNITTING MILLS
Botany Mills Inc........... Passaic, N. J.
Jantzen Knitting Mills. . .Portland, Oregon
Julius Kayser & Co....... New York, N. Y.
Munsingwear, Inc...... Minneapolis, Minn.
Wilson Brothers ........ South Bend, Ind.
LEATHER AND ARTIFICIAL
LEATHER
Athol Mfg. Co ..............Athol, Mass.
Blanchard Bros. & Lane.....Newark, N. J.
E. I. Du Pont De Nemours.. Newburg. N. Y.
Federal Leather Co.......Belleville, N. J.
International Shoe .......... Hartford, Ill.
Masland Duraleather Co.. Philadelphia, Pa._
Pantasote Co .............. Passaic, N. J.
Fred Rueping Leather. Fond Du Lac, Wis.
LITHOGRAPHERS AND
PRINTERS
American Bank Note Co...... Bronx, N. Y
10 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Brown & Bigelow ......... St. Paul, Minn.
Consolidated Litho. Co.... Brooklyn, N. Y.
Progress Litho. Co....... Cincinnati, Ohio
Stafford Printers... Stafford Springs, Conn.
U. S. Printing & Litho.
Co .................. E. Norwood, Ohio
MANUFACTURERS
Adhesive Products Corp...... Bronx, N. Y
Armstrong Cork...........Lancaster, Pa.
Hettrick Mfg. Co........... Toledo, Ohio
Hunter Douglas Corp..... Riverside, Calif.
National Cash Register Co.. Dayton, Ohio
Owens Corning Fiberglas.... Ashton, R. 1.
Russell Mfg. Co....... Middletown, Conn.
Scovill Mfg. Co.........Waterbury, Conn.
W. A. Shaefer Pen Co.. Ft. Madison, Wis.
Singer Mfg. Co......... South Bend, Ind.
METALS, CONTAINERS, SIGNS
Johnson Tin Foil & Metal
Co .....................St. Louis, Mo.
Metal & Thermit Corp...... Rahway, N. J.
Permanente Metals Corp. Permanente, Cal.
Standard Rolling Mills Inc.. Brooklyn, N. Y.
OILS
E. F. Drew & Co. Inc...... Boonton, N. J.
Nox Rust Corp .............. Chicago, Ill.
Sherwood Refining Co......... Gretna, La.
Sinclair Refining Co.... East Chicago, Ind.
Shell Development...... Emeryville, Calif.
Standard Oil Development. Elizabeth, N. J.
PAINT, VARNISH, DRY COLOR
Glidden Co .............. Cleveland, Ohio
Harmon Color Works...... Paterson, N. J.
Holland Color & Chemical.. Holland, Mich.
Hoover Color Corp........ Irvington, N. J.
Keystone Color Works Inc....... York, Pa.
National Lead Co......... Brooklyn, N. Y.
Stanley Chemical Co.... East Berlin, Conn.
Vita-Var Corp ............. Newark, N. J.
PAPER MILLS
Appleton Coated Paper Co... Appleton, Wis.
Ben Mont Paper Inc...... Bennington, Vt.
Crystal Tissue Co....... Middletown, Ohio
Hammermill Paper Co........... Erie, Pa.
Lnternational Paper Co....... Bostrop, La.
International Paper
Co ................ Niagara Falls, N. Y.
The Marvellum Co........ Holyoke, Mass.
The Munising Co......... Munising, Mich.
Ohio Box Board Co......... Rittman, Ohio
St. Regis Paper Co.......... Toledo, Ohio
S. D. Warren Co... Cumberland Mill, Maine
Wortendyke Mfg. Co...... Richmond, Va.
PENCILS AND PENS
Eagle Pencil Co.......... New York, N. Y.
Eversharp Inc. .......... New York, N. Y.
Parker Pen Co........... Janesville, Wis.
W. A. Shaefer Pen Co... Ft. Madison, Iowa
PHARMACEUTICALS
Upjohn Co ............. Kalamazoo, Mich.
PHOTOGRAPH EQUIPMENT
Agfa Ansco ........... Binghamton, N. Y.
Eastman Kodak Co....... Rochester, N. Y.
John G. Marshall Inc...... Brooklyn, N. Y.
PLASTICS AND CELLULOSE
PRODUCTS
Bolta Co ................ Lawrence, Mass.
Hercules Powder Co......... Parlin, N. J.
Mayon Plastics ....... Minneapolis, Minn.
Monsanto Chemical
Co .............. Indian Orchard, Mass.
National Plastic Products ...Odenton, Md.
Pantasote Co ............... Passaic, N. J.
Plastic Film Corp........ Plainfield, Conn.
Plexon Inc . ............ Greenville, S. C.
Resiloid Corp............ Brooklyn, N. Y.
Ross & Roberts Inc.... West Haven, Conn.
Tennessee Eastman
Corp . ............... Kingsport, Tenn.
Velveray Corp........... New York, N. Y.
Visking Corp ................ Chicago, Ill.
RETAILERS
Hart Schaffner & Marx ....... Chicago, Ill.
Marshall Field & Co.......... Chicago, III.
R. H. Macy & Co........ New York, N. Y.
Montgomery Ward & Co... New York, N. Y.
G. C. Murphy Co....... McKeesport, Penn.
J. C. Penney Co.......... New York, N. Y.
Sears, Roebuck & Co......... Chicago, 111.
RUBBER
American Tile & Rubber... Trenton, N. J.
Firestone Tire & Rubber Co.. Akron, Ohio
B. F. Goodrich Co............ Akron, Ohio
Goodyear Tire & Rubber Co.. Akron, Ohio
Johnson Rubber Co...... Middlefield, Ohio
I. B. Kleinert Rubber
Co .................. New York, N. Y.
Middletown Rubber.... Middletown, Conn.
Parker, Stearn & Co....... Brooklyn , N. Y.
Rubber Corp. of America. Brooklyn, N. Y.
Tillotson Rubber. Needham Heights, Mass.
Union Baystate Co...... Cambridge, Mass.
United States Rubber Co.. New York, N. Y.
RUG AND CARPET MAKERS
Bigelow-Sanford Carpet
Co .................. New York, N. Y.
A. & M. Karagheusian Inc... Freehold, N. J.
Charles Lachman Co..... Phoenixville, Pa.
C. H. Masland & Sons ........ Carlisle, Pa.
Mohawk Carpet Mills ... Amsterdam, N. Y.
Alexander Smith & Sons
Carpet Co............ Yonkers, N. Y.
SILK AND RAYON INDUSTRY
Abbeville Mills Corp...... Abbeville, N. C.
American Viscose Corp.. Philadelphia, Pa.
Bates Mfg. Co ............. Lewiston, Me.
Burlington Mills Corp..... New York, N. Y.
Celanese Corp. of
America ............. New York, N. Y.
Charmette Fabrics Corp.. . New York, N. Y.
Gayley Mill Corp.......... Marietta, S. C.
Jaunty Fabrics Corp........ Scranton, Pa.
A. D. Juilliard & Co...... New York, N. Y.
Reliance Mfg. Co............ Chicago, Ill.
Robbins Mills Inc......... Clarksville, Va.
Wm. Skinner & Sons ...... Holyoke, Mass.
Tennessee Eastman Corp.. Kingsport, Tenn.
Textron Inc ............. New York, N. Y.
SHADE CLOTH
Joseph Bancroft & Sons.... Rockford, Del.
Clopay Corp ............. Cincinnati, Ohio
Columbus Coated Fabrics. Columbus, Ohio
Joanna Western Mills Co..... Chicago, 111.
SOAP AND TOILETRIES
Colgate-Palmolive-Peet Co.. Jersey City, N.J.
The Andrew Jergens Co.. Cincinnati, Ohio
Lever Brothers ......... Cambridge, Mass.
Proctor & Gamble Co...... Ivorydale, Ohio
Schuller Brothers Inc..... Philadelphia, Pa.
THREAD
American Thread Co.... Willimantic, Conn.
Clark Thread Co........... Newark, N. J.
A. H. Rice Co............ Pittsfield, Mass.
Saran Yarns .............. Odenton, Md.
Thread Inc ............... Gastonia, N. C.
UPHOLSTERY
Baxter, Kelley & Faust... Philadelphia, Pa.
Collins Aikman ......... Philadelphia, Pa.
Goodall Sanford Inc......... Sanford, Me.
Mass. Mohair Plush Co ..... Lowell, Mass.
F. Schumacher & Co..... New York, N. Y.
Woonsocket Falls Mill... Woonsocket, R. I.
U. S. GOVERNMENT
Air Corps ............ Wright Field, Ohio
Army Quartermaster
Depot ............... Philadelphia, Pa.
Bureau of Engraving &
Printing ............. Washington, Pa.
Bureau of Home
Economics ............. Beltsville, Md.
National Bureau of
Standards........... Washington, D. C.
Coast Guard Supply
Depot ...............Jersey City, N. J.
Engineer Board ........ Fort Belvoir, Va.
Marine Corps Depot..... Philadelphia, Pa.
Naval Clothing Depot ..... Brooklyn, N. Y.
Signal Corps ...... Long Island City, N. Y.
Southern Regional Res.
Lab ............ ....New Orleans, La.
U.S. Govt. Print. Office. Washington, D. C.
WALL PAPER
MANUFACTURERS
Aristocrat Wallpaper Co...... Decatur, Ill.
Berge Co .................. Buffalo, N. Y.
Imperial Paper &
Color ...............Glens Falls, N. Y.
Inland Wallpaper Mills ...... Chicago, 111.
Keystone Color Works Inc......York, Pa.
Mayflower Wallpaper Co.......Joliet, Ill.
The Mid-West Wallpaper
Mills, Inc.. ................. Joliet, Ili
Schuylerville Wallpaper
Co ................ Schuylerville, N. Y.
Star-Peerless Wall Paper
Mills ................... Evanston, III.
United Wallpaper Co......... Chicago, Ill.
WOOLENS AND WORSTEDS
American Woolen Co.....New York, N. Y.
Arlington Mills .......... Lawrence, Mass.
William Barnet & Sons ..... Albany, N. Y.
Botany Mills inc........... Passaic, N. J.
Broad Brook Co....... Broad Brook, Conn.
Dexter Woolen Corp.... New York, N. Y.
Guild Northland Mills ..... Laconia, N. H.
Julius Forstmann & Co...... Passaic, N. J.
Hayward-Schuster Woolen
Mills ............... E. Douglas, Mass.
Kent Mfg. Co......... Clifton Height, Pa.
Lippitt Worsted Mills... Woonsocket, R. I.
James Lees & Sons Co.. Bridgeport, Conn.
Matson Mill Inc.... S. Gladstonbury, Conn.
New Jersey Worsted Mills... Dundee, N. J.
North Star Woolen Co........ Lima, Ohio
Pacific Mills ............ Lawrence, Mass-
Paragon Worsted Co.....Providence, R. I.
Peerless Woolen Mills ...... Rossville, Ga.
Pendleton Mfg. Co....... La France, S. C.
Portland Woolen Mills. Portland, Oregon
Rock River Woolen Mills. Janesville, Wis.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 11
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
The Sun Never Sets on Atlas Ometers
ARGENTINA
AUSTRALIA
BELGIAN CONGO
BELGIUM
BRAZIL
CANADA
CANAL ZONE
CHILE
CHINA
COLOMBIA
CUBA
CZECHOSLOVAKIA
DENMARK
EGYPT
ENGLAND
FINLAND
FRANCE
GERMANY
GREECE
GUATEMALA
HAWAII
HUNGARY
INDIA
ITALY
ISRAEL
JAPAN
JAVA
MEXICO
THE NETHERLANDS
NEW ZEALAND
NORTHERN IRELAND
NORWAY
PAKISTAN
PHILIPPINES
POLAND
PORTUGAL
SCOTLAND
SPAIN
SWEDEN
SWITZERLAND
TRINIDAD
UNION OF SOUTH AFRICA
U. S. S. R.
UNITED STATES
VENEZUELA
YUGOSLAVIA
The world wide useof-Atlas equipment is ludic---
ative of its acceptance as standard by all scientific
and industrial nations for performance tests of
raw materials and finished merchandise.
The time to test a product is prior to market
introduction; the place is in your laboratory. Like
so many self-evident truths, the significance is
sometimes overlooked. Well intentioned research
frequently stops short of hurdling the consumer
performance test, either because direct measure-
ment have not been possible, or is accomplished
only after expensive research.
In the field of sunproofness, washability and
weathering, Atlas has changed all- that. Three
world famous instruments have provided since
1919 the necessary standardized, reproducible con-
ditions for evaluating quality in terms of consumer
use, at moderate cost and maintenance.
Thousands of Atlas instruments are in daily use
Used in 46 Countries throughout the World, Atlas Ometers are
the only universally accepted yardsticks of accelerated testing.
throughout -the world,- checking `the quality ofraw-
materials, safeguarding production, making it
possible to make and keep guarantees, stopping
rejects, complaints and adjustments: truly insur-
ance worth any reasonable premium. The value
of the millions of hours Atlas Ometers have saved
thousands of users all over the world during the
past thirty years in providing rapid reliable an-
swers to quality problems, is incalculable.
Atlas Ometers are versatile enough to cover
every legitimate need of the industries they are
designed to serve, and do their job so well they
enjoy government and engineering society endorse-
ment. A- quarter century of unremitting effort,-
generously aided by government, industrial and
scientific associations, has made these instruments
the accepted method of measuring performance
prior to use.
Prior to 1918 the colorfastness of fabrics and
similar materials was tested by exposing -to sun-
light-and if results were twice alike it was a co-
incidence! How could it be otherwise? The in-
tensity of sunlight varies with latitude, season of
year, time of day and clarity of the atmosphere.
Obviously these variable prevented a common
basis of testing, interpretation and action; tests
could often not be run for days, or but intermit-
tently, and never duplicated.
World War I brought restricted shipments of
dyestuffs to America thus making a bad situation
worse. It was into this chaotic situation Atlas in-
troduced the Fade-Ometer. Then came in rapid
succession the Weather-Ometer and Launder-
Ometer.
You may refer all problems of sunfastness,
launderability and weathering to the appropriate
Atlas Ometers with complete confidence the pres-
tige will be enhanced, net profit improved.
12 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
TYPE FDA-R FADE-OMETER EXPORT DATA SHEET
ELECTRICAL REQU i RBrIENTS
ALTERNATING CURRENT: The Fade-Ometer, Type FDA-R, will operate on voltages between 208 and 250. However, the
voltage at the point of operation should be determined so that if a transformer is required it can be shipped
with the Fade-Ometer.
If the voltage is from 185 to 207, a Booster Transformer is required. For other voltages such as 110, 440 or
550 volts, line-transformers are required. See separate sheet on transformers. The Fade-Ometer operates on any
two wires, or one phase, of a supply circuit having the proper voltage of 208 to 250 volts, regardless of whether
it is a single phase, 2-phase, or 3-phase system. The Type FDA-R Fade-Ometer consumes about 25 amperes for a 10
minute starting period and 15 to 17 amperes running circuit, or an average of approximately 2.5 KW.
DIRECT CURRENT: The Direct Current Fade-Ometer, Type FDA-R, will operate satisfactorily on a voltage between
220 and 250. Transformers CANNOT be used. on Direct Current. The Fade-Ometer, Type FDA-R, consumes about 25
amperes for a 10 minute starting period, and 12 to 14 amperes, running current, or an average of approximately
2.6 KW.
THE FOLLOWING INFORMATION IS REQUIRED WITH YOUR ORDER:
Voltage available at machine location Volts Thermometer, specify degrees Fahrenheit or Centigrade
Alternating - or Direct Current Current Transformer voltage, if Atlas is to supply
If Alternating Current, what frequency Cycles
EXPORT SHIPMENTS INCLUDE THE FOLLOWING SUPPLIES:
1 YEAR
Carbon Electrodes
Pyrex Globes
Stainless Steel Specimen Holders
Type CD-LSR (2 openings)
Type SL-LSR (1 long opening)
Black Panel Thermometer, C.
or F.
Box Type Wick Frames
Vertical Wick Frames
300
6
21
21
1
19
4
2 YEARS, 1 YEAR 2 YEARS
600 Box Type Wicks 76 152
12 Vertical Wicks 16 32
Test Masks SL-8a 1000 2000
21 Test Masks CD-3 100 200
21 Specimen Record Cards FR-SL8 500 1000
1 Specimen Record Cards 617F 500 1000
19 Approx. $ value of other
4 spare parts not listed $113 $166
WEIGHTS AND MEASUREMENTS: 1 YEAR 2 YEARS 1 YEAR 2 YEARS
Gross Weight, in pounds 805 905 Gross Weight, Metric, Kilos 366 411
Net Weight, in pounds 570 640 Net Weight, Metric, Kilos 259 291
Cubic Contents, in Cubic Feet 72 79 Cubic Contents, Cu. Meters 2.01 2.22
FLOOR SPACE: The Type FDA-R Fade-Ometer measures 43" x 33" (110 cm x 84 cm), 5 ft. 8 inches high (173 cm.).
When unpacked it can be taken through a standard 32" (81 cm) door.
Approved For R c4cTds~520V04fi4&'1I:CCIAE'd 0 6A007800250001-0
Printed in the U.S.A. 4114 N. Ravenswood Ave. Chicago 13, Illinois F0o-010155-oss
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
EXPORT FADE-OMETER PRICE LIST -- F.A.S. ATLANTIC AND GULF PORTS OF EXIT ONLY
(Additional Charges applicable when U.S. Pacific Ports are selected) All prices in U.S. Dollars.
Included in the prices mentioned below are supplies, spare parts and accessories, sufficient for either ONE or TWO
years of continuous operation, as you prefer. Such supplies are shown in the accompanying ordering data sheet.
The Fade-Ometer is shipped as a self contained unit and. is complete in every respect. The Atlas Automatic Float
and Valve is standard construction, and for all overseas destinations, we also include the 5-Gallon Water Bottle
and Bracket.
TYPE FDA-R FADE-OMETER
ALTERNATING CURRENT DIRECT CURRENT
within a voltage range from 208 to 250 Volts, in frequencies of 220 to 250 Volts
60 Cycles 50 Cycles 25 Cycles
One Year Two Years One Year Two Years One Year Two Years One Year Two Years
Supplies Supplies Supplies Supplies Supplies Supplies Supplies Supplies
$1638.00 $1992.00 $1666.00 $2020.00 $1815.00 $2171+.00 $1796.00 $2151.00
TRANSFORMERS for A. C. only - See paragraph on accompanying data sheet "Electrical Requirements," to determine
whether a transformer is needed. CONSULT YOUR ELECTRICAL DEPARTMENT.
YOUR FADE--OMETER ORDER CANNOT BE FILLED UNLESS VOLTAGE. FREQUENCY. AND KIND OF CURRENT ARE STATED
Prices include export packing, freight in the U.S.A., from factory at Chicago to Port of exit, transportation from
railroad terminal at port to ship's side, insurance from factory to ship's side, and all documentary and bill of
lading charges except Consular Fees. Charges beyond F.A.S. Port will consist of marine insurance (all risks), ocean
freight, and consular fees (if any) and will be contracted for by us and charged to the purchaser at prevailing
rate on date of sailing, in addition to the regular quoted F.A.S. price. Approximate shipping weights and measure-
ments are given on the accompanying data sheet to enable the purchaser to ascertain approximate costs not included
in the F.A.S. price. It is further understood and agreed that the vendor shall not be liable for delay in or
non-performance of any obligation hereunder, including delivery of any goods or merchandise, if such delay or
non-performance occurs by reason of any condition beyond vendor's control and for which he is not responsible,
including strikes, fire, floods, Acts of God, riot, or action of any governmental authority, domestic or foreign.
PRICES SUBJECT TO CHANGE ATLAS ELECTRIC DEVICES CO.
WITHOUT NOTICE ApprovTy1l oNReA%4?R o111a(?E1.: Q C#j D q--09Ff&gpian0250001-0 FOP-010155-OSS Ergo- Printed in the U.S.A.
Approved ?M"MER /1~51 :A9tffPO9'PETMA007800250001-0
Transformers are required when your alternating current line voltages are other than within the range of 208 to 250
volts. We quote below separately the required capacity for each separate Ometer, and also on larger transformers
to accommodate more than one Atlas Ometer, or other laboratory equipment. By combining the current capacities when
more than one Ometer (plus other electrically operated laboratory machines) is operated from the power line, the
most suitable transformer can be determined. As indicated on three phase operation it is sometimes more economical
to utilize 2 single phase transformers instead of one 3-phase transformer.
POWER TRANSFORMERS
MODELS
Fade -Ometer:
FDA-R
Weather-Ometer:
BWM-CC
SMC, SMC-H
SMC -R, SMC-HR
DMC , DMC -H
DMC-R, DMC-HR
xW
XW-R
Launder-Ometers:
LHD-EF, LHD-AS/EF 1
LHD-LIQ, LHD-12Q 1
PRIMARY VOLTS
WITH 230 V.
SECONDARY
BOOSTER TRANSFORMERS
1-Phase 3-Phase Power Line 1-Phase 3--Phase Power Line
No. Rating No. Rating Phases No. Code No. Code
1 3-KVA 1 3-KVA Single 1 #61 1 #61
1 3-KVA 1 3-KVA Single 1 #61 1 #61
1 5-KVA 1 5-KVA Single 1 #61 1 #61
1 71-KVA 2 5-KVA Single 1 #63 2 #61
1 72-KVA 2 5-KVA Single 1 #63 2 #61
1 15-KVA 1 15-KVA Three 1 #64 3 #61
1 72-KVA 1 7~-KVA Single 1 #63 1 #63
1 15-KVA 2 72-KVA Single 1 #64 2 #63
5-KVA 2 3-KVA Single 1* #59 1* #59
15-KVA 1 15-KVA Three 1* #59 1* #59
*Wired in control circuit only
THREE PHASE
60 Cycle 50 C cle 60 Cycle 50 Cycle
460 575 115 460. 575 460 575 460 575
?115
3 KVA $ 58.00 $100.00 $104.00 $ 62.00 $108.00 $113.00
5 KVA 82.00 145.00 152.00 89.00 158.00 165.00
72 KVA 110.00 200.00 210.00 119.00 219.00 230.00
15 KVA 189.00 348.00 364.00 206.00 382.00 400.00 $44o.oo $474.oo $476.00 $511.00
?AUTO TRANSFORMER- Contact local power company for approval.
BOOSTER TRANSFORMERS (for line voltages of 187 to 207 Volts)
Single Phase Code #59 Code #61 Code #63 Code #64
60 Cycle 2 .00 3.00 .00 77.00
50 Cycle 25.00 46.00 68.00 84.00
PRICES F.O.a. OUR PLANT, ATLAS ELECTRIC DEVICES CO.
CHICAGO, SUBJECT TO CHANGE Appro gjl4F9r P c c 1/~a~21 : q 1jRP$(~-0P~7s800250001-0
' ' Transformers 010155
WITHOUT NOTICE
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Atlas Electric Devices Co. ? 361 West Superior Street . Chicago 10, Ill., U. S. A.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
AY-proved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS
WEATHER-OMETERS
ACCELERATED WEATHERING
UNCLASSIFIED
Pioneered and Manufactured
by
ATLAS ELECTRIC DEVICES CO.
CHICAGO= 10, ILLINOIS
U. S.A.
Approved, F 1~, a 2001 f1 l 4d1i'-P?80 00926A0"0780025000-1-0
x ? 1 enswood Ave., Chic
3 , Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ACCELERATED WEATHERING
The ATLAS WEATHER-OMETER is a laboratory apparatus for
ascertaining at a greatly accelerated speed the trend of re-
actions which can be expected in average outdoor exposures
on materials.
The WEATHER-OMETER is a self-contained machine, embodying
three weathering agents; namely, Synthetic June Sunlight, Mild
or Vigorous Rain (water spray) and Temperature Changes.
All three of these agents, so destructive to many materials,
protective and decorative coatings, are corralled, controlled
and brought into play on prepared laboratory specimens, so timed
and applied that the resistance to outdoor exposure of the
specimen under study is proved in days instead of months or years
of actual outdoor exposure.
Used the World Over
The WEATHER-OMETER is truly an accelerated weathering machine
safe to operate 24 hours a day without manual attention. The
name "WEATHER-OMETER" is a registered trademark, and refers only
to an ATLAS ELECTRIC DEVICES CO. product. The WEATHER-OMETER was
pioneered and developed by Atlas and is manufactured in its
entirety in our own plant.
rnnied in U. S. A.
ATLAS ELECTRIC DEVICES COMPANY
361 W93T SUOeRiOR St CHICA6 0. ILL U.S.A.
CRa 013,611., U. S.Ae 1 WO-351-Ta
Approved For ItIaL4a9e 1ivi?A- -00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ACCELERATED WEATHERING
Briefly, the WEATHER-OMETER gives an index of. durability
to both Manufacturer and User of the following materials; paint,
varnish, lacquers, enamels, protective coatings, bitumens,
asphalt, roofing, rubber, plastics, dyestuffs, rope and cordage,
textiles, weather-proof wire and cable, liquids; in fact any raw
or fabricated material that may be subjected to out-of-doors use
in different localities and climates.
Accelerated Weathering has proven profitable 'in predetermin-
ing in advance of fabrication the worth of any product, intended
for out-of-doors service.
The WEATHER-OMETER is an indespensible piece of equipment
to those interested in learning the weather resistance of a
product by providing dependable information in 1/25 of the time
required for actual outdoor exposure.
The External
View of
Weather-Ometers
DLTS-X
HVDL-X
SL-TS
Made to
Order
Variable Weather
in your own
Laboratory
for 24 Hours Duty
The WEATHER-OMETER is available in two standard types; namely
the Twin-Arc and Single-Arc, both of which are fully explained in
this bulletin. To aid you in selecting the Type and Model best
fitted for your work we have listed them in order of demand, first,
the model most generally used, the Twin-Arc, and second, the Single-Arc.
Before proceeding further, it should be borne in mind that the
floor space of both types is the same and that the light source,
the Atlas Violet Carbon Are, is employed in all machines. After
you have acquainted yourself with the essential differences, you
will better appreciate the reason for the two types.
2 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS WEATHER-OMETERS
THE PRINCIPLE OF ACCELERATED WEATHERING
The ATLAS Accelerated Weathering Machine operates on the
following principle: If a Light Source, whose total radiation
approximates Noon June Sunlight, is played on the surface of
a material, under controlled temperature conditions and is
followed by a water spray of known temperature, pressure and
volume, the material thus.exposed will take on surface and
color characteristics similar to those produced by outdoor
exposure, but in much less time.
With a WEATHER-OMETER as a medium, it is possible to chart
the breakdown on a specimen in your'own laboratory.
SOLAR vs ARC INTENSITY
Table No. 1 below shows the relationship of outdoor sun-
light for 12 months to the Atlas Violet Arcs in a Twin-Arc
Weather-One ter.
The values shown in this chart are Milligrams per square
cm. of oxalic acid decomposed in one hour by the action
of Ultra Violet in the light source.
*Sunlight in Indiana
I Twin-Arc
at Lake Michigan
Light Source
Winter average 0.837
Spring and Fall
Continuous
Average 1.830
24 Hours a
Day 9.440
Summer Average 3.670
*Solar Data by Tonney, Somers and Marti,
Journal of Preventive Medicine 2-1928 - Page 943
LIGHT SOURCE
These Weather-Ometers employ as a light source, one or two
Atlas Enclosed Violet Carbon Are Units. This are unit is elec-
trically and mechanically balanced and is maintained for 24
hours without operator attention.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS WEATHER-OMETERS
LIGHT SOURCE Continued
Electrically the Atlas Enclosed Violet Carbon Are is main-
tained by the use of reactance transformers which insure a
stable are at a low power factor which means economy in current
consumption.
The Are operates on a potential of 130 to 145 volts at
15-17'amperes on a.c. The Weather-Ometer as a unit is designed
for operation on a power line of 2nF to 250 Volts a.c. Reducing
the arc voltage to 130-145 is accomplished by reactance trans-
formers which are an integral part of each Weather-Ometer.
The Are consumes one inexpensive Q" x 12" carbon in each
24-hourrperiod. This makes for economy in carbon consumption
and operator's time, since the are will automatically sustain
itself for a complete day and night.
Since most of the destructive action in sunlight is produced
by wavelengths below 3600 angstrom units, it is to be expected
that the light source chosen for the Weather-Ometer would exceed
in this region of the spectrum when compared to June Sunlight.
Table No. 2 below shows the relationship in percent of total
radiation between June Sunlight at Washington, D.C. and the
Atlas Enclosed Violet Carbon Arc. All measurements were taken
at one meter from the are at right angles from the center of
the Arc.
SPECTRAL DISTRIBUTION OF ATLAS ENCLOSED VIOLET CARBON ARC
Percent of Total Radiation to
limit?of fluorite Transmission in
SPECTR
AL
Infra-red (120000
m_)
RANGE
Are Enclosed in
(a)
9200-PX
Globe
Noon
A.C.(b)
D.C. b
June
Sunlight
279
m ?
to
290
m ?
0.05
0.03
0.0
290
m?
to
320
mg
4.6
3.9
2.0
320
m?
to
360
mg
6.2
6.0
2.8
360
m?
to
480
mp
15.0
16.1
12.6
480
m p
to
600
m ?
8.3
9.2
21.9
600
mp
to
1400
m?
14.9
15.2
38.9
1400
m L
to
4200
m?
21.3
21.3
21.4
4200
m p
to
12000
mu,
29.65
28.27
0.4
(a) W.W. C
oblentz, May
25, 1926
(b)
Pac ini , Mar
31, 1932
4 WO-351-Tc
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS WEATHER-OMETERS
LIGHT SOURCE Continued
.In order to transmit wave-lengths otherwise retarded by
common glass Atlas Violet Carbon Arcs are enclosed within an
optical Pyrex Globe which transmits wave-lengths as short as
2750 actual Angstrom Units. This globe therefore filters out
all wave-lengths below 2750 actual Angstrom Units not found
in sunlight at sea level and therefore not desireable for the
purpose.
The globe has a dual purpose as it also forms an air tight
chamber permitting the Are to function in a rarefied ionized
atmosphere. This accounts for the 24 hour life of an electrode.
Another function of the globe is to keep by-products of combustion
from the.arc from reaching the specimens or annoying those in
close proximity. Thus exhaust flues, ducts or blowers are not
necessary when using an Atlas Enclosed Arc Weather-Ometer.
WEATHERING CYCLE
Accelerated Weathering is frequently referred to in speci-
fications and technical literature as the Light and Water Spray
Test. Periodic wetting, followed by drying with a light source
with a reasonable control of 'the ambient temperature at the
specimen constitutes a weathering cycle.
All Weather-Ometers of the enclosed type are pr-ovided with
a Cycle Meter whose function is to automatically govern the
duration of the light and water period. Thus light and water
spray periods of any duration or combination are possible by
simply changing to another Selector Cam.
TEMPERATURE
Temperature is one of the factors in out-door weathering; by
this token temperature is automatically controlled in all Weather-
Ometers of the enclosed type..
5 W0-351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21: CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
The Twin-Arc Weather- Ometer is supplied in two models, the
DLTS-X and HVDL-X, which are identical in their physical dimen-
sions and electrical requirements.
The Model DLTS-X will accommodate test specimens whose
nature and coating will permit vertical suspension. See illus-
tration below.
The Model HVDL-X will accommodate Vertical Specimens the
same as the DLTS-X model, and in addition it has provisions to
permit the testing of semi-solids and liquids, as well as
objects of various shapes and forms which do not lend themselves
to vertical suspension during the test cycle. See illustration
below.
"X" FEATURE
Either machine can be used with one or two lamps as desired
The Model DLTS-X
for
Vertical Testing Only
Used for paint, lacquer,
varnish, rubber, textiles,
plastics, bitumens, rope,
wire and cable and any other
type of materials which
permit vertical suspension.
The Model HVDL-X
for
Horizontal and Vertical Testing
Used both for horizontal
testing of low melting point
materials, liquids, shapes
and solids, and for materials
which permit vertical sus-
pension as in the model DLTS-X.
ALL MODEL DLTS-X WEATHER-OMETERS CAN EASILY HE
CONVERTED INTO THE MODEL HVDL-X.
6 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
GENERAL CONSTRUCTION
Both models of the TWIN-ARC WEATHER-OMETER as illustrated
on the preceding page are contained in a welded structural
steel frame 36" x 36" x 63" high which is finished in a dark
green enamel. This frame is of a rugged design which will
insure long life, at least 20 years.
TESTING CHAMBER
Directly below the Arch which supports the Arc Lamps is
located the. enclosed testing chamber which is provided with
air temperature controls. It consists of a sheet steel ex-
terior finished in baked gray enamel, lined with stainless
steel and insulated with asbestos materials and is approx-
imately 36" x 36" x 36".
The roof or ceiling of the testing chamber is composed of
three panels. The center panel supports the two arc lamps and
is raised and lowered with the arc lamps, when trimming or
loading the arcs, by means of a cable with suitable pulleys
and lever. This center panel when in the low position remains
elevated about 3/4" to guarantee adequate ventilation. Both
the front and rear panels are hinted and provided with the
necessary fittings so that they may be kept closed or open de-
pending upon the temperature desired in the testing chamber.
The front of the testing chamber consists of two full
length doors 17" wide which give free access to the interior
of the testing chamber.
The floor of the testing chamber consists of the stainless
steel water pan or sump which is fully described elsewhere in
this bulletin.
BASE
On the floor of the base of the Weather-Ometer are located
the two reactors, the rheostat for compensating minor voltage
changes, the drum driving mechanism and the blower assembly.
This section between the floor of the base and the bottom of the
testing chamber is enclosed with a perforated metal screen,
giving ventilation and protection.
Legs elevate the base of the Weather-Ometer approximately
eight inches from the floor providing for easy cleaning.
7 Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-051-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
CONTROL PANEL
The TWIN-ARC WEATHER-OMETER is fully automatic with all
control equipment conveniently located on one panel. This
control panel as illustrated below is located on the left
side of the testing chamber at eye level. It provides equip-
ment both for registering and controlling the arcs, tempera-
ture, cycles, the duration of the test to date and for stop-
ping the machine at any predetermined time.
Approved For Release 2001/11/21: CIA-RDP80-00926AO07800250001-8 WO-351-Ta
I Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
CONTROL PANEL Continued
CYCLE METER
It is due to the CYCLE METER
that the Twin-Arc Weather-Ometers
owe their great flexibility. By
the utilization of interchangeable
specially cut CAMS or Cycle Selec-
tors, any type of testing cycle can
be provided. These CAMS control
independently the duration and
interval of the Light and Water
Spray periods. By selection of the
proper CAM the operator can have
any combination of light only,
light with water spray, or water spray
only.
All Twin-Arc Weather-Ometers
are provided with a number of
standard CAMS providing test cycles
which have been found to be most
efficient in their particular field.
For example the 102-18 CAM shown
inserted in the Cycle Meter above
provides for 102 minutes of light only followed by 18 minutes of light
with water spray. This is the cycle used for most types of materials.
The 51-9 CAM illustrated on the following page is used for
materials, which require a shorter wetting and drying out period as
this CAM provides for 51 minutes of light only followed by 9 minutes
of light with water spray.
Still another Cycle Cam is employed for bituminous products
giving results of the type, character, and trend encountered out of
doors. Cycle Cam 13-945 GYA 529 provides a cycle of 1 hour of water
only followed by 2 hours of light only; then 2 hours of water only
followed by 6 hours of light only for a total of 11 hours, and is
repeated once for a total of 22 hours. The remaining two hours in
the day's run are either used as a rest period, or for a freezing
cycle.
9 W0-351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
CONTROL PANEL Continued
CYCLE METER
In addition to the standard CAMS, of which the three des-
cribed on the preceding page are but a few of those now being
used, also furnished are Blank CAMS which may either be cut
by the user or returned to us for preparation of any special
cycle which the user desires to try out on his particular
product.
The only restriction on cutting special CAMS is that no
period of light or water spray can be of less than 3 minutes
or greater than 24 hours in duration and that the total time
of light plus water spray should be in multiples which are
divisible into 24 hours or less, as the CAM makes one revolu-
tion in 24 hours.
In order to change from one CAM to another merely remove
the knurled knob holding the cam in place, remove the one
CAM and replace with another CAM of the selected cycle.
STANDARD CYCLE CAMS
SUPPLIED WITH MACHINES
17-3
17-3
51-9
51-9
102-18
102-18
#14 ASTM D529-
39T Cycle A
Blank *
* This cam will be cut to your
order at No Charge.
LIGHT
O~
/1\
#13 13-945
#14 ASTM D529-
39T Cycle A
Blank *
/1\
LIGHT
~1\
LIGHT
/1\
/-I \
LIGHT
R~
/1\
EACH RISE IN THE CAM WILL PRODUCE LIGHT, EACH INDENTATION, SPRAY
Approved For Release 2001/11/21 : CIA-RDP80-00926AO078002500000W0-351-~a
Approved For Release 2001/11/21 CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
CONTROL PANEL Continued
VOLTMETERS
A Voltmeter for each-Arc is
provided in the Control Panel.
Each indicates to the operator
either the voltage at the Are or
the voltage of the power line to
the Weather-Ometer. These Volt-
meters, one for each are.. are
equipped with special dials which
not only permit reading of the
are or line voltage but also have
indicated on their dial the proper
are volt operating range of 130-
145 and line voltage from 200-250.
VOLTMETER SWITCH
A double-throw toggle switch is located directly below the
two Voltmeters making it possible to switch from Line Voltage to
Are Volt reading with the same meter.
AMMETERS
Two Ammeters, one for each
Are, are located on the right
side of the control panel.
These indicate the actual amperes
being consumed by the Are and are
equipped with special dials that
not only show the amount of
current being consumed but also
indicate the proper range at
which the arcs should be opera-
ted, 15-17 amps on a.c. or 12-14
amps on d.c.
Approved For Release 2001/11/21: CIA-RDP80-00926AO0780O2560101W&-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS-
CONTROL PANEL Continued
RUNNING TIME METER
The Running Time Meter removes
the personal element of maintain-
ing an accurate log of the actual
light hours received by any or all
the specimens under test. By
simply recording the time reading
at the start of any specimen or
group and likewise noting the meter
reading when the specimen is removed,
the difference in the two readings
results in hours and tenths. The
Time Meter is a telechron driven
counter of the non-resetting type
which makes it impossible for any-
one to willfully or otherwise change
the actual reading of this meter.
ON AND OFF SWITCH
This double pole toggle switch is used for manually starting
and stopping the Weather-Ometer as it is the master switch for
all circuits.
TIME SWITCH
The Time Switch in the lower
center of the Control Panel,
provides means for terminating
the test or shutting down the
Weather-Ometer at any predetermin-
ed time from 1 to 24 hours. This
switch if undisturbed will shut
off all electrical and water
circuits at the end of 24 'hours.
12 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
CONTROL PANEL Continued
VOLTAGE ADJUSTMENT SWITCHES
Frequently the voltage at the
location varies during the Day and
Night period, but not of sufficient
degree to warrant the changing of
connections on the Reactor Trans-
former. In order to conveniently
increase or decrease resistance in
the Arc circuit, each are is
provided with a Voltage Adjustment
Switch. Position No. 1 has the
maximum resistance in the circuit
for high voltage and No. 4 the
minimum resistance when voltage
is low, usually at the peak hour.
PILOT LIGHTS
Two Pilot Lights in red indicate that the Weather-Ometer
circuit is energized even though the arc lamps and water spray
may have been turned off by the time switch.
THERMO REGULATOR
In order to raise or lower the
temperature within the test chamber
a Thermo Regulator with a visible
dial is provided. This regulator
governs the volume of air intro-
duced into the test chamber. Thus
a range of 110? to 1800 F. ambient
temperature 5? F. is possible.
The Thermo Regulator is adjusted
to correspond to Black Panel Tempera-
tures which is higher than Ambient.
Approved For Release 2001/11/21: CIA-RDP80-00926A00Ab0 OO -b- Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
WATER SPRAY
The two most important factors in an
accelerated weathering test are Synthetic
Sunlight and Water Spray, each so timed
to be most effective on the subject under
test.
Since the Cycle Time Meter which
governs the duration of the Light and
Spray periods is fully explained else-
where this discussion will concern only
the water spray system on an Atlas Twin-
Arc Weather-Ometer.
It should be borne in mind that the
specimen spray is only in action when the
Cycle Cam demands spraying at which time
the spray issues from a series of four
vertical nozzles, as illustrated on the
right, and delivers a volume of water on
each vertical row of specimens as they
rotate past the nozzles once every minute
or 1.5 inches per second.
The actual amount of water delivered
by the specimen spray unit varies with
the type of spray nozzle in use at the
time and the water pressure at the
nozzles. Table No. 3 below shows pints
of water per minute delivered during the
spray period by the various type nozzles
at different pressures.
Type
Pints of water per minute
of
or Specimen Spray(4 nozzles)
Nozzles
it indicated nozzle pressures
Used
10
12
14
16
18
20
#60 Very
2.6
2.8
3.0
3.2
3.4
3.6
Fine Mist
#50 Fine
Mist
3.9
4.4
4.7
4.9
5.2
5.5
#FT Heavy
6.3
6.8
7.2
7.6
7.9
8.2
Sheet Spray,
#60 #50 #FT
Very Fine Heavy'
Fine Mist Sheet
Approved For Release 2001/11/21: CIA-RDP80-00926AO07800256d01W&-351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
HORIZONTAL SPECIMEN SPRAY
A suitable Spray Unit is supplied with each HVDL-X Weather-
Ometer for use when a spray cycle is desired on horizontally
mounted specimens. As this unit utilizes only two nozzles of
the type used in the vertical specimen spray, the volume of
water delivered is 50% of the amounts indicated in Table No. 3.
SPECIMEN TEMPERATURES
In making Accelerated Weathering
tests, the subject of temperature is
usually one of grave concern since there
are three possible temperatures, surface,
ambient and embeded film, to be consid-
ered.
Since the materials to be tested
may vary in shade from black to white
with different heat absorbing rates, it
has been tentatively agreed upon by the
industry to record temperatures with a
Black Panel Thermometer. This device as
illustrated, is a stainless steel panel
.032" thick with approx. 100 sq. cm. of
surface on which is mechanically fastened
a bimetalic dial type thermometer with
the entire surface covered with two coats
of black baking enamel.
Black Panel Temperatures are approx.
30? F. higher in the Weather-Ometer test-
ing range than ambient temperatures and
the Thermo Regulator controlling the
temperature within the test chamber is
calibrated to indicate the selected Black
Panel temperature and not ambient temp-
erature.
DRUM COOLING SPRAY
Should the temperature in the test chamber be excessive for
the material under test, a two-nozzled water spray is provided
which plays on the outside of the testing drum. This side spray
should not be confused with the Specimen Water Sprays which
simulate rain fall. The sole purpose of the Drum Cooling Spray
is to remove by conduction excess heat from the test chamber and
at the same time increase the relative humidity.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007806_55 M +Z51- Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 .1 Z_ ' _.
ATLAS TWIN-ARC WEATHER-OMETERS
SUMP
The spent water from the sprays is collected in a stain-
less steel reservoir covering the entire area of the base,
36" x 36", and is located directly below the specimen drum.
A suitable screened drain is provided of 14" pipe.
WATER PIPES AND FITTINGS
All necessary pipes, fittings and electric valves are
an integral part of the Weather-Ometer. This water system
all of copper and brass insures delivery at the specimens
of water free of rust or contamination from the water system.
Aluminum piping and fittings are available for deionized
systems.
WATER PRESSURE
The effective water pressure required to operate the machine
is 25 pounds per square inch (25 P.S.I.). Furnished as an integral
part of the water system is a Pressure Regulator 25 to 80 Lbs.
and a Pressure Gauge preceded by a 200 mesh Strainer of monel
metal.
REVOLVING DRUM SPIDER
Both the Vertical Testing Drum and Horizontal Testing Rack
when in use are mounted on and supported by the Revolving Drum
Spider. This spider is constructed of brass and is rotated
constantly at 1 r.p.m. through a friction drive by the motor
operated driving mechanism. This provides a uniform exposure
for all samples both to the light source and water spray.
VENTILATION SYSTEM
The Twin-Arc Weather-Ometer is equipped with a motor driven
squirrel cage type blower actuated by the Thermo Regulator. This
blower delivers 500 C.F.M. of air providing a two-fold action of
lowering the ambient temperature of the testing chamber and
introducing air for oxidation. The air is directed through ducts
and baffles to selected points within the testing chamber thus
assuring maximum efficiency.
16 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
VERTICAL SPECIMEN DRUM
In order to support test specimens in a vertical plane
when rotating them around the light source an aluminum drum
31" I.D. x 162" in depth is employed. The thickness of the
specimen holders furnished are of such dimensions that they
will bring the exposure surface or face of the test specimen
within a .circular plane of 30" in diameter as called for in
all testing procedures.
The entire inner periphery of this open ended cylinder
is fitted with equi-spaced vertical rails which will accom-
modate 30 double specimen holders, as illustrated on the fol-
lowing page, or 60 test panels 2-3/4" in width and 6-3/4" in
length. Smaller samples correspondingly increase the
capacity of the machine.
The sample holding arrangement of the drum is so designed
that practically any type and kind of material that !ends
itself to be suspended in a vertical position may be conven-
iently be placed in a Weather-Ometer. See Page No. 6 for il-
lustration of Vertical Specimen Drum in place.
HORIZONTAL TESTING RACK
When it becomes desireable to conduct an accelerated weather-
ing test on materials and objects which do not permit vertical
suspension, a circular testing rack is used in place of the
Vertical Testing Drum.
This Rack or Fixture as illustrated on Page No. 6 rests on
the same rotating spider which supports the Drum. It is provided
with 15 upright studs acting as an axis for the 15 Turn Tables
5" in diameter. Upon these Turn Tables may be placed Petri
dishes or odd shaped objects.
The 15 Turn Tables progress around the Arcs at 1 r.p.m.
twice during each revolution each turn table makes mechanical
contact with a leaf spring causing the turn table to make a 1/6
revolution on its own axis. In this manner each turn table
rotates once in every three revolutions of the Testing Rack.
When using the Horizontal Testing Rack the Right-hand Arc
is lowered to bring both Arcs to an equal distance from the
object.
The Weather-Ometer is designed to take both Vertical and
Horizontal specimens in the Model HVDL-X.
17 WO- 351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
SPECIMEN HOLDERS
Specimens of any conceivable type
and kind of material may be placed in
a Weather-Ometer for testing. A wide
variety of standard specimen holders
for protective coatings on metal or
wood, rubber, plastics, textiles, cable
or rope are available, a few of which
are described and illustrated on this
page.
The specimen sizes most generally
used are 2-3/4" x 5-7/8", 3" x 6",
10" x 28" wire cable and rope from
1/8" to 34 O.D., Rubber under tension
2-7/8" x 6-3/4", Semi-solids (recep-
tacles) capacity 100 C.C., surface
100 sq. cm., molded shapes 1/4 to 16
Cu. Inches.
A turn table is used when testing
semi-solids or molded shapes. See
Page 6.
The capacity of the standard
Testing Drum is 30 double holders or
60 specimens 2-3/4" x 5-7/8".
All vertical specimen holders are of the open back type to
permit a free flow of air on the back of the specimen. Non-
corrosive material such as aluminum, monel, stainless steel and
brass is used in the fabrication of the holders. Special Holders
to support objects not mentioned can be made to order.
18 WO- 351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
SPECIAL TESTING DRUMS
THE TYPE BCS FOR WIRE AND CABLE
Weather-Ometer tests of insul-
ated wire and cable require a
special drum instead of the standard
drum with grooved slots. The Type
BCS Drum illustrated is interchang-
eable with the standard drum. It
provides simultaneous testing on as
many as 24 pieces of wire or cable
in lengths of 30" in sizes from
No. 4 to No. 0000.
The clamps are so arranged that
the wires are suspended at an angle
of approximately 33 degrees from
the horizontal thus permitting the
maximum number of specimens of
sufficient length for proper testing
to be exposed at one time. If wires
smaller than No. 4 are to be tested
smaller clamps can be furnished.
For the testing of wire and cable in sizes larger than No.
0000 a special drum is required. These can be furnished together
with the necessary enlargements of the Weather-Ometer testing
chamber which will permit testing of wire and cable in sizes up
to 3" in diameter. Complete details upon request.
SPECIAL DRUMS FOR OTHER MATERIALS .
Special Specimen Drums can also be.furnished for materials
where the weight or size of the specimens do not lend themselves
for use in the standard drum. For example when testing slabs
of concrete because of the added weight a special reinforced
drum may be necessary, Drums can also be furnished for the test-
ing of large specimens which could not be inserted in the standard
drum.
Complete details will be furnished upon receipt of fnformation
giving size, weight and nature of material to be tested.
Accelerated Weathering thus is not limited to a definite re-
stricted field but can be adapted to any type of product. The
Weather-Ometer thus is a very flexible tool which-has proved its
worth many times over in thousands of laboratories over the entire
world.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
19 W0-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS TWIN-ARC WEATHER-OMETERS
OPERATING INSTRUCTIONS
Each Weather-Ometer is accompanied by complete instructions
outlining the very simple duties required of the operator and
giving detailed information covering the installation, operation
and care of the Weather-Ometer. Any electrician can set up the
Weather-Ometer by following the simple instructions and no
mechanically trained personnel is required to keep the unit in
daily operation.
OPERATOR SAFETY
Mechanically and Electrically the Weather-Ometer offers
no opportunity for personal injury as all moving and live parts
are protected. Pilot lights indicate the electrical status of
the power circuit and the entire mechanism is well grounded.
GENERAL DATA
Floor space required, electrical and water requirements,
weights, supplies and accessories for the various models are all
listed on the last page of this bulletin.
EXPORT
When ordering Weather-Ometers for export, it must be borne
in mind that the Export Price List must be consulted. Export
Prices are the same as Domestic only that additional charges
are made for overseas packing and for a choice of supplies to
operate the machine continuously for one or two years.
20 WO-351-Tb
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
` Approved For Release 2001/11/21 CIA-RDP80-00926AO07800250001-0
ATLAS SINGLE-ARC WEATHER-OMETERS
ENCLOSED MODEL SL-TS
Model SL-TS
Single-Arc Weather-Ometer
For those to whom rapidity
of test results is not the
prime consideration the Single-
Arc Weather-Ometer will prove
to be a reliable piece of
equipment for accelerated weath-
ering tests as it was for the
15 years prior to introduction
of the Twin-Arc Line of Weather-
Ometers in 1941.
The Enclosed Single-Arc
Model SL-TS Weather-Ometer is
a very flexible instrument and
is identical in all respects
to the Twin-Arc Weather-Ometer
as described in this bulletin
with the exception that
instead of Two Violet Carbon
Arcs, one Are only is employed.
SINGLE ARC vs SUNLIGHT
Table No. 1, Page 3, compares
Ultra Violet Radiation of the
Twin-Arc and Sunlight. Using
the same method of determination,
the Single-Arc decomposes 4.95
milligrams of oxalic acid per
Sq. cm. in one hour as compared
to 9.44 for the Twin-Arc.
In view of the amount of
ultra violet received at the
test specimens it is to be ex-
pected that the Single-Arc
Weather-Ometer will take twice
the time necessary to produce
the same results in the Twin-Arc.
The Enclosed Model SL-TS Single-,Arc Weather-Ometer like the
Twin-Arc incorporates the latest developments in accelerated weath-
ering equipment. The Cycle Meter, by simple change of the Cam or
Dial, will automatically provide any combination of light and spray
periods desired. Together with temperature control, improved water
spray and drum revolution of 1 R.P.M. the Model SL-TS provides test
conditions heretofore not possible with Single-Arc Weather-Ometers.
21 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ATLAS SINGLE-ARC WEATHER-OMETERS
OPEN MODEL BWM-CC
The Open Model Single-Arc
BWM-CC Weather-Ometer with the
exception of minor refinements
and improvements is the origi-
nal Weather-Ometer which was
pioneered and developed by
Atlas over 20 years ago.
It is a thoroughly depend-
able instrument and was the
machine called for in all speci-
fications written before
introduction of our Twin-Arc
Weather-Ometers in 1941.
Although rapidly being re-
placed by the Twin-Arc Weather-
Ometer the Open Model Single-
Arc BWM-CC is still a valuable
instrument for grading and
sorting where the factors of
speed and control of temperature
and humidity are relatively un-
important.
Its fixed cycle of 17 minutes
light and 3 minutes spray is
produced by the specimens trav-
eling through a shielded water
spray once in each 20 minute rev-
olution of the testing drum. Thus
the operator does not have the
wide selection of light and spray
periods now demanded and only enjoyed with the Twin-Arc Models..
The temperature of the test specimen in this model although
not automatically controlled never becomes abnormally high, since
the specimens enter the shielded water spray once every 20 minutes.
The Open Model Single-Arc like all Weather-Ometers employs
the Atlas Violet Carbon Are as previously described in this bulletin.
This model is of the same rugged and long life construction as all
other models and occupies the same floor space with the same general
electrical and water requirements.
Since. this model employs only one Are it is to be expected that
twice the time will be consumed in testing as compared with a Twin-
Arc Weather-Ometer.
22 WO-351-Ta
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 C. P
REPRESENTATIVE WEATHER-OMETER USERS IN THE U. S. A
AERONAUTICAL
Bell Aircraft Corp.* .................Buffalo, N.Y.
Boeing Aircraft Corp.* ............. Seattle, Wash.
Chance Vought Aircraft Co.*.......Stratford, Conn.
Fairchild Engine & Airplane Corp.*..New York, N.Y.
Higgins Aircraft Inc.* ............ ..Higgins, La.
Lockheed Aircraft Corp .............Burbank, Calif.
AUTOMOTIVE
Anderson Cc ............................. Gary, Ind.
Edward G. Budd Co ...................Detroit, Mich.
Budd Mfg. Co.*.. ...... .... Philadelphia, Pa.
Chrysler Corp.(2)* .............Highland Park,Mich.
Deere & Company .......................Moline, Ill.
Divco Twin Truck Co .................Detroit, Mich.
Fisher Body Corp ... ... .Detroit, Mich.
Ford Motor Co ..............Highland Park, Mich.
International Harvester Co.(2)*...... Chicago, Ill.
Nash Kelvinator Corp.* .............. Detroit, Mich.
A.O. Smith Corp .................. .Milwaukee, Wis.
Studebaker Corp ...................South Bend, Ind.
BITUMENS AND RELATED PRODUCTS
Anderson-Prichard Oil Corp.... Oklahoma City, Okla.
Ashland Oil & Refining Co........Catlettsburg, Ky.
Atlantic Refining Cc ............. Philadelphia, Pa.
Barber Asphalt Co .....................Barber, N.J.
Barrett Co.(4)* ....................Edgewater, N.J.
Barrett Co .. ........... ... ..Chicago, Ill.
Carbide & Carbon Chemicals Corp..Charleston, W.Va.
Philip Carey Mfg Co.(3)............ Lockland, Ohio.
Celotex Corp. ..... .... .......Marrero, La.
Certain-teed Products Corp.(4) ........ Chicago,Ill.
Cities Cervice Asphalt Products Cc.... Warner, N.J.
Col-Tex Refining Co .................Colorado, Tex.
Creo-Dipt Co., Inc ..............N. Tonawanda, N.Y.
El Rey Products Co ............. Los Angeles, Calif.
Flintkote Co..(3) ..............E. Rutherford, N.J.
Ford Roofing Products ...............Vandalia, Ill.
Gilmore Oil Co.*................Los Angeles, Calif.
Huskey Refining Co.*. ........... ....Cody, Wym.
Johns Manville Corp. (5)............ Manville, N.J.
Johns Manville Corp ...................Marrero, La.
Johns Manville Corp ..............Pittsburg, Calif.
Johns Manville Corp .................Waukegan, Ill.
Keasby & Mattison ................ Ambler, Pa.
Lehon, Co .........................Wilmington, Ill.
Lion Oil Co.* .......................Eldorado, Ark.
Masonite Corp .................... .Laurel, Miss.
Mitchell & Smith Ina ................Detroit, Mich.
Pan American Refining Cc............ Baltimore, Md.
Paraffins Companies, Inc.(2)..... Paraffins, Calif.
Petrol Corp. (2).* ............. Los Angeles, Calif.
Phillips Petroleum Co.*....... Bartletsville, Okla.
Pioneer Flintkote Co.(2) ....... Los Angeles, Calif.
Richfield Oil Co. of Calif.(2).Los Angeles, Calif.
Ruberoid Co.(2)*................. Bound Brook, N.J.
Shell Development Cc.......... Emeryville, Calif.
Shell Oil Co ...................Los Angeles, Calif.
Shell Union Oil Cc ............... ..Brooklyn, N.Y.
Sinclair Refining Cc ..............Marcus Hook, Pa.
Sooony-Vacuum Oil Co.(2)*...........Brooklyn, N.Y.
L. Sonneborn Sons, Inc.*.......... Belleville, N.J.
Standard Oil Co. of-Calif ......... Richmond, Calif.
Standard Oil Co. of Ind ..............Whiting, Ind.
Standard Oil Co. of Ind........... Wood River, Ill.
Figures in
Standard oil Co. of N.J. (2) ...........Bayway, N.J.
Staso Milling Co ..................Bound Brook, N.J.
Texas Company.(2) ...................... Beacon, N.Y.
Texas Company .................... .Lockport, 111.
Texas Company .................Port Arthur, Tex.
Texas Company.(2) .................port Neches, Tex.
Tidewater Oil Co .......................Newark, N.J.
Tilo Roofing Co .. ..................Stratford,Conn.
Trumbull Asphalt Co ...................Chicago, Ill.
Union Oil Co. of Calif ................Oleum, Calif.
Union Oil Co. of Calif.(2)....... Wilmington, Calif.
U.S. Gypsum Co.* ......................Chicago, Ill.
Universal Oil Products.* ...............McCook, Ill.
COMMERCIAL LABORATORIES
A.W. Dow, Inc .........................New York, N.Y.
Bowser-Morner Testing Labs ............ Dayton, Ohio.
Electrical Testing Labs ..............New York, N.Y.
Robert W. Hunt Co ................... Chicago, Ill.
Pease Laboratories .....................New York, N.Y.
Pittsburgh Testing Labs.(2)....... ..Pittsburgh, Pa.
Samuel P. Sadlter & Son Inc ...... Philadelphia, Pa.
Twining Labs ......................Fresno, Calif.
Underwriters, Labs ....................Chicago, Ill.
U.S. Testing Co.(2)* ..................Hoboken, N.J.
Wayne Labs... ...................... Waynesboro, Pa.
DYESTUFFS, CHEMICALS AND PLASTICS
Advance Solvent & Chemical Corp..Jersey City, N.J.
American Bemberg Corp.*.......... Port Rayon, Term
American Cyanamid Co.(2)*..........Stamford, Conn.
Aridye Corp.* ......................Fair Lawn, N.J.
Bakelite Corp ......................Scarsdale, N.Y.
Baker Castor Oil Co.* ................Bayonne, N.J.
Briktex Mfg. C o Kearney, N.J.
Calco Chemical Div.* .............Bound Brook, N.J.
Distillation Products ..............Rochester,. N.Y.
Dow Chemical Co.(3) .................Midland, Mich.
E.I. DuPont de Nemours & Co.(4)*..Wilmington, Del.
E.I. DuPont de Nemours & Co.... New Brunswick, N.J.
Duramold Div.* ................... ..R .New York, N.Y.
Eastman Nodak Co .. ............ ochester, N.Y.
Emery Industries Inc .............. Ivorydale, Ohio.
Eronel Industries.*............ Los Angeles, Calif.
Eronel Services.* ....................Mineola, N.Y.
Hercules Powder Co ................Mansfield, Mass.
Hercules Powder Co ............ .Parlin, N.J.
Hercules Powder Co.(2)............ Wilmington, Del.
Hoover Color Corp ................New York, N.Y.
General Dyestuff Corp.* .............New York, N.Y.
General Printing Ink ................New York, N.Y.
Inertol Company Inc ............... .Newark, N.J.
Kirker Chemical Co .................Patterson, N.J.
Maas & Waldstein Co ................. .Newark, N.J.
Monsanto Chemical Co .................Boston, Mass.
Monsanto Chemical Co ................. Dayton, Ohio.
Monsanto Chemical Co.(2)*....Indian Orchard, Mass.
Plaskon, Inc ......... .......... .Toledo, Ohio.
Pro-phy-lac-ticBrush Co.*......... Florence, Mass.
Solvay Process Co, .............. .Syracuse, N.Y.
Tennessee Eastman Corp....... ....Kingsport, Tenn.
U.S. Industrial Chemicals.(2)*........Newark, N.J.
ELECTRICAL AND MECHANICAL PRODUCTS
Benjamin Electric Mfg Co.*....... Des Plaines, Ill.
Federal Telephone & Radio Labs.*.... New York, N.Y.
*Indicates Twin-Arc Weatner-Ometers
parenthesis show number of machines at that location.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 23 WO-351-Ta
I 'F_
REPRESEI~ iD- 1`~~r AS ? /1~1~~ ~280~ ? I ? ~~1 b. S.! A.
Hazeltine Electronics Corp.*..... Little Neck, N.Y.
Irvington Varnish & Insulator Cc...Irvington, N.J.
Mine Safety Appliances Cc.......... Pittsburgh, Pa.
Veeder-Root Inc ....................Hartford, Conn.
Western Electric .....................Chicago, Ill.
Westinghouse Elec. & Mfg. Cc..... E.Pittsburgh, Pa.
Westinghouse Elea. & Mfg. Cc........... Sharon, Pa.
Bemis Bros. Bag Co.* ................St. Louis, Mo.
Chesapeake & Ohio Ry..............Cleveland, Ohio.
Congoleum-Nairn Ino.(2)* ..............Kearny, N.J.
DiNoc Mfg. Co .....................Cleveland, Ohio.
Jos. Dixon Crucible Co ................Kearny, N.J.
Douglas Fir Plywood Assn .............Tacoma, Wash.
General Electric Cc ..............Bridgeport, Conn.
General Electric Co ................Ft. Wayne, Ind.
General Electric Co.(2).......... Philadelphia, Pa.
General Electric Co ......................Erie, Pa.
General Electric Co.(2)w.......... West Lynn, Mass.
R.M. Hollingshead Corp.(2)*........... Camden, N.J.
Inland Glass Co ......................Chicago, Ill.
S'.C. Johndon & Son ................. .Racine, Wis.
R. H. Macy Co.* .....................New York, N.Y.
Minnesota and Ontario Paper Co..Int1.l Falls, Minn.
N.Y.,N.H. & H. R.R ................New Haven, Conn.
Pantasote Leather Co.*............... Passaic, N.J.
Revere Copper & Brass Inc......... ..Baltimore, Md.
Scovill Mfg. Co ...................Waterbury, Conn.
Sears Roebuck & Cc ...................Chicago, Ill.
Sherrille Research Corp.* ............... Peru, Ind.
Smith-Corwin Inc ................... Irvington, N.J.
Southern Pacific Co.*............ Sacramento, Calif.
Truscon Labs .................Detroit, Mich.
Union Pacific R.R.~CO:::::::::-.**.'*
o ..................Omaha, Neb.
U.S. Radium Co.*. ................New York, N.Y.
Montgomery Ward & Co ................. Chicago, Ill.
Western Shade Cloth ..................Chicago, Ill.
PROTECTIVE AND DECORATIVE COATINGS
Advance Paint Co ... ..........Indianapolis, Ind.
Aluminum Co. of America ............ Pittsburgh, Pa.
Alston Lucas Co .. .. . ............Lyons, Ill.
American Paint & Chemical Co ........... Ambler, Pa.
American Paint Works .....NewOrleans, La.
American Smelting & Refining Cc....... Maurer, N:J.
American Zinc Oxide Co ............. Columbus, Ohio.
Armstrong Paint & Varnish Works ...... Chicago, Ill.
Baltimore Paint & Color Works.*.....Baltimore, Md.
Boydell Bros. White Lead & Color Co.Detroit, Mich.
Brooklyn Varnish Mfg. CO.*.......... Brooklyn, N.Y.
R.B. Davis Co.* .....................Baltimore, Md.
Dearborn Glass Co .. ............... .Chicago, Ill.
DeSoto Paint & Varnish Cc........... Memphis, Tenn.
E.I. Du Pont de Nemours & Cc....... Curtis Bay, Md.
E.I. Du Pont de Nemours & Co. Perlin, N.J.
E.I. Du Pont de Nemours & Co.(3)-*.Wilmington, Del.
Enterprise Paint Mfg. Cc ............. Chicago, Ill.
Federal Varnish Co ...................Chicago, Ill.
Ferro Enamel Corp ............ .Cleveland, Ohio.
Banj.Franklin Paint & Varnish Co.Philadelphia, Pa.
Leon Finch Ltd.* ............ .Los Angeles, Calif.
W.P. Fuller Co.. . .San Francisco, Calif.
Gilman Paint & Varnish Co.*..... Chattanooga, Tenn.
Hanna Paint Mfg. Co ................Columbus, Ohio.
Hercules Powder Co .. ............ ...Parlin, N.J.
Hercules Powder Co.(2)........ ....Wilmington, Del.
Hooker Glass & Paint Mfg. Co.........Chicago, Ill.
Interchemioal Corp ...............Cincinnati, Ohio.
Interohemical Corp ..................New York, N.Y.
Inter-Coastal Paint Corp......East St. Louis, Ill.
I.F. Loucks Inc .....................Seattle, Wash.
The Lilly Cc ......................High Point, N.C.
Lino Paint Co .....................Cleveland, Ohio.
McGrew Paint & Asphalt Cc............ Chicago, Ill.
Marietta Paint & Color Co.*.......High Point, N.C.
Midland Industrial Finishes Cc...... Waukegan, Ill.
Monad Paint & Varnish Cc......... Philadelphia, Pa.
J.W. Martell & Co ...................Kankakee, Ill.
National Lacquer & Paint Co.*........Chicago, Ill.
National Lead Co .................... Brooklyn, N.Y.
National Lead Cc ..................... Phoenix, N.J.
B.F. Nelson Mfg. Cc .............Minneapolis, Minn.
New Jersey Zinc Co.* ................ Palmerton, Pa.
New Wrinkle Inc ...................... Dayton, Ohio.
Nox-Rust Corp.* ...................... Chicago, Ill.
Patterson Sargent Cc .............. Cleveland, Ohio.
Peaslee Gaulbert Paint & Vern. Co..Louisville, Ky..
Pittsburgh Plate Glass Co.*.........Creighton, Pa.
Pittsburgh Plate Glass Cc.......... Milwaukee, Wis.
Plastic Film Corp ................ Plainfield, Conn.
Preservative Paint Co.* .............Seattle, Wash.
R-B-H Dispersions Inc............ Bound Brook, N.J.
Prismo Laboratories (2)*...........Huntington, Pa.
Red Spot Paint & Varnish Co.......Evansville, Ind.
Reilly Tar & Chemical Cc........ Indianapolis, Ind.
Reliance Varnish Co ................ Louisville, Ky.
Reynolds Metal.*., ................. Louisville, Ky.
Roxalin Flexible Finishes ......... Elizabeth, N.J.
Illinois Paint Works .................Chicago, Ill.
Rostone Inc ........................ Lafayette, Ind.
Seidlitz Paint & Varnish Co.>...Kansas City, Mo.
Selectronics Dispersions Inc....... Montclair, N.J.
Sewall Paint & Varnish Cc......... Kansas City, Mo.
Sherwin Williams Co.(2) ..............Chicago, Ill.
Sherwin Williams Co .................Gibbaboro,N.J.
Sherwin Williams Co ..................Newark, N.J.
James B. Sipe Co ................... Pittsburgh, Pa.
Steelcote Mfg. Co ....................St.Louis, Mo.
John A. Stein Varnish Cc ............. Chicago, Ill.
Thresher Varnish Co .. .......... .Dayton, Ohio.
Tropical Paint & Oil Cc........... Cleveland, Ohio.
E.T. Trotter Co .....................Brooklyn, N.Y.
Wardway Paint'Works.......... Chicago Heights, Ill.
Weatherbest Stained Shingles .......Tonawanda, N.Y.
Wesco Waterpainte Inc.* .........East Boston, Mass.
Western States Lacquer Co.*........Maywood, Calif.
RUBBER AND RELATED PRODUCTS
Firestone Tire & Rubber Co.*.......... Akron, Ohio.
B.F. Goodrich.*.. ... .. ..........Akron, Ohio.
Goodyear Tire & Rubber CO.*..... .Akron, Ohio.
Hodgman Rubber Co.* ..............Framingham, Mass.
U.S. Rubber Co.*.................... Bristol, R.I.
U.S. Rubber Co.* . .................Mishawaka, Ind.
U.S. Rubber Co.(2)*.................. Passaic, N.J.
R.T. Vanderbilt Co. Inc.' ...... East Norwalk, Conn.
SCHOOLS, INSTITUTES AND HIGHWAY DEPTS.
Armour Research Foundation.*.........Chicago, Ill.
Brooklyn Technical High School...... Brooklyn, N.Y.
Illinois State Highway Dept ......Springfield, Ill.
Lehigh University.* .................Bethlehem, Pa.
Hass. Inst. of Technology.*.......Cambridge, Mass.
Mich. State Highway Dept .......... Ann Arbor, Mich.
*Indicates Twin-Arc Weather-Ometers
Figures in parenthesis show number of machines at that location
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 24 WO-351-Ta
REPR* E fAiIW'WeXYigEk-&AFfi 9dt&tofRoY gE U. S. A.
North Carolina State Highway Dept..... Raleigh, N.C.
Institute of Paper Chemistry .........Appleton, Wis.
North Dakota Agricultural College ....... Fargo, N.D.
Penn State Bureau of. Standards.......Harrisburg, Pa.
Purdue University.- ..................Lafayette, Ind.
Southern Research Institute.*......Birmingham, Ala.
Texas State Highway Dept .... .......... Austin, Tex.
TEXTILES
Atlantic Rayon Corp.* .................Lowell, Mass.
Belding Heminway Corticelli ........... Putnam, Conn.
Better Finishes & Coatings Inc.*..Soma,erville, N.J.
Buckeye Fabric Finishing Co.*..... .Coshocton, Ohio.
Fairforest Finishing Co.*.........Spartanburg, S.C.
Gregg Dyeing Div.* ...............Graniteville, S.C.
International Braid Cc ............. Providence, R.I.
Ludlow Mfg. & Sales Co................ Ludlow, Mass.
North American Rayon... .......... Port Arthur, Tenn.
Pacific Mille.* ........................Newark, N.J.
Pacific Mills ...........................Lyman, S.C.
Southbridge Finishing Cc......... Southbridge, Mass.
U.S. Finishing Co ..................Providence, R.I.
Velveray Corp.* ......................New York, N.Y.
U. S. GOVERNMENT
Eastern Regional Research Labs.*..... Wyndomoor, Pa.
Forrest Products Labs .................Madison, Wis.
National Bureau of Standards.(16)*.Washington, D.C.
Bureau of Reclamation .................Denver, Colo.
Public Roads Administration........Arlington, Va.
U.S.M.C. Depot of Supplies.*...... Philadelphia, Pa.
U.S. Navy.* ........................Washington, D.C.
U.S. Naval Clothing Depot.*..........Brooklyn, N.Y.
U.S. Naval Materials Lab .............Brooklyn, N.Y.
U.S. Navy Yard .................Mare Island, Calif.
U.S. Naval Aircraft Factory...... Philadelphia, Pa.
U.S. Navy Yard ...................Philadelphia, Pa.
U.S. Naval Hospital.* ................Bethesda, Md.
AAF Wright Field (4) .................Dayton, Ohio.
Rook Island Arsenal.(2)*......... Rook Island, Ill.
Edgewood Arsenal ...................... Edgewood, Md.
Raritan Arsenal.....................Melechen, N.J.
Engineer Board (2)* ........... ..Fort Belvoir, Va.
Ft. Monmouth Signal Lab.(3)*...Little Silver, N.J.
Jeffersonville Q! Depot.(4)*..Jeffersonville, Ind.
Philadelphia QM Depot (2)*.......Philadelphia, Pa.
Port of New York Authority.......Jersey City, N.J.
UTILITIES, WIRE AND CABLE
.American Steel & Wire Co..........Cleveland, Ohio.
American Steel & Wire Co.*.......Worchester, Mass.
American Wire Fabrics Corp.*.......Mount Wolf, Pa.
Anaconda Wire & Cable Co..Haatinga-on-Hudson, N.Y.
Anaconda Wire & Cable Co............Sycamore, 111.
Bell Telephone Labs ..............Murray Hill, N.J.
Bell Telephone Labs.(3)*............New York, N.Y.
Boston Edison Co .....................Boston, Mass.
Collyer Insulated Wire Co.*........ Pawtucket, R.I.
Consolidated Gas & Electric ......... Baltimore, Md.
Detroit Edison Co ...................Detroit, Mich.
General Cable Corp.* .................Bayonne, N.J.
Kennicott Wire & Cable Co........ Bridgeport, Conn.
Kennicott Wire.& Cable Co .......Phillipadale, R.I.
Los Angeles Dept.of Water and Power.(3)....,Calif.
Los Angeles Bur. of Standards... Los Angeles,Calif.
Board of Transportation .............New York, N.Y.
N.Y. & Queens Elec. & Power Co......Flushing, N.Y.
Northern States Power Cc......... Minneapolis, Min.
Okonite Co ............................Dundee, N.J.
Seneca Wire & Mfg. CO ..............Fostoria, Ohio.
ATLAS 'OMETERS IN OTHER COUNTRIES
ARGENTINA*
GERMANY
PAKISTAN
AUSTRALIA
GREECE
PANAMA CANAL ZONE
AUSTRIA
GUATEMALA
PHILLIPINE ISLANDS
BELGIAN KONGO
HAWAII
POLAND
BELGIUM*
HUNGARY*
PORTUGAL
BRAZIL
INDIA
SCOTLAND*
CANADA
IRELAND
SOUTH AFRICA*
CHILE
ISRAEL*
SPAIN
COLOMBIA
ITALY
SWEDEN*
CUBA
JAPAN
SWITZERLAND
CZECHOSLOVAKIA
JAVA
TRINIDAD
DENMARK*
MEXICO
URUGUAY*
EGYPT
NETHERLANDS
U.S.S.R.*
ENGLAND*
NEW ZEALAND*
VENEZUELA
FINLAND
NORTHERN IRELAND
YUGOSLAVIA
FRANCE*
NORWAY*
*Indicates Twin-Arc Weather-Ometers
Figures in parenthesis show number of machines at. that location.
Approved For Release 2001/11/21: CIA-RDP80-00926A0078002W06/DG351-Tc
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
TYPE OGS-48
ASPHALT TRIMMER
Films of asphalt or other bituminous materials of a uniform thickness
applied under controlled conditions of temperature are a requisite to de-
pendable test results in either Weather-Ometer (accelerated weathering) or
actual out-door tests.
The Atlas Asphalt Trimmer is a convenient and dependable instrument
with which the average operator can with ordinary care produce films of a
uniform thickness within a tolerance of + 0.001".
The doctor bar under which the coated panel is passed is an elec-
trically heated machined stainless steel tube which may be raised and
lowered vertically to control the thickness of the film. A variable
voltage transformer is employed to regulate the doctor bar temperature
which is measured by an indicating pyrometer. The table or plate on which
the panels are passed under the doctor bar is level and fixed and is
heated to prevent chilling of the coating material prior to and during the
trimming operation.
The Asphalt Trimmer comes complete with switches and pilot lights
for both the doctor bar and plate and a cord for connection to a lighting
circuit of 110-120 volts or a power circuit of 208-250 volts 50-60 Cy. A.C.
Sole Manufacturers
ATLAS ELECTRIC DEVICES CO.
361 W. Superior St. Chicago 10, Illinois
Approved For Release 2001~11 /2 DP80-00926A007800250001-0 No. 121548
4114 N. Ravenswood Ave-, Chicago 13, III., U. S.4
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
WEATHER-OMETER
EXPORT PRICE LIST F.A.S. ATLANTIC AND GULF PORTS OF EXIT ONLY
ADD 2% WHEN (U. S. Pacif is Ports are, selected. All Prices in U. S. Dol lars
A L T E R N A T I N G CURRENT DIRECT CURRENT
208 to 250 Volts 220-250 Volt;
60 Cycle 50 Cycle 25-30 Cycle
ENCLOSED MODELS: One Year Supply included:-
Twin Are
DLTS-X
$3083.00
$3179.00
$3215.00
$3272.00
Twin Arc
HVDL-X
3556.00
3653.00
3689.00
3797.00
Single Arc
SL-TS
2599.00
2684.00
2745.00
2751.00
OPEN MODEL:
Single Are
BWM-CC
1533.00
1630.00
1655.00
1722.00
ENCLOSED MODELS:
Two Years Supply included-.-
Twin Are
DLTS-X
3423.00
3539.00
3575.00
3632.00
Twin Are
HVDL-X
3916.00
4013.00
4052.00
4157.00
Single Are
SL-TS
2828.00
2913.00
2974.00
2980.00
OPEN MODEL:
Single Are
BWM-CC
1893.00
1990.00
2015.00
2082.00
ASPHALT TRIMMER OGS 48 with VARIAC and PYROMETER, 115 Volts 10 Ampere
50/60 Cycle including one year supplies $320.00
or including two year supplies $341.00
WIRE SPECIMEN DRUM BCS $175.00 for all models (our regular domestic price)
(Used for various rope sizes also.)
SPECIAL MODEL WEATHER-OMETERS - ON APPLICATION
THE ATLAS CIRCULATING SYSTEM provides a means of circulating distilled or fil-
ered water win tie available tap water is not suitable for the Weather-Ometer Spra
Supplied complete with Pump, Tank, Motor, Pressure Regulator, and supplies, with Two
(2) Galvanized Tanks, 12"x36" (30 cm x 91 cm) 14 Gallon (3.8 Litre) Capacity,
$400.00; with Monel Tanks $500.00. For De-Ionized systems, $600.00.
FREEZING CABINETS while not mentioned in our catalog, will be available, in
Temperature ranges of Minus 50? F (45??C) to Minus 10? F (23? C), and within a price
range from $2195.00 to $4575.00.
SOLE MANUFACTURERS
ATLAS E L E C T RBI C DEVICES CO*
361 W. Superior Street, Chicago 10, Ill.
U.S.A.
.Export Boxing included In the price
PRINTED in the A *Aoved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0 P-081953-OSS-3
' Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
EXPORT - WEATHER-OMETER ORDERING DATA
ELECTRICAL REQUIREMENTS
ALTERNATING CURRENT: Single Phase.: Specify frequency when placing order.
Weather-Ometers operate on any two wires, or one phase, of a supply circuit hav-
ing the proper voltage, viz., 208 to 250 volts, regardless of whether it is a
'single phase, 2 phase, or 3 phase system..
VOLTAGE: 208 to 25o volts. Specify exact voltage when placing order.
STARTING CURRENT: Single arc models Twin arc model-s
For first io minutes 25 amps.' 50 amps..
RUNNING CURRENT: 15-17 amp's. 30-34 amps.
POWER CONSUMPTION (approx.) 2.5 kw. 5 kw.
BOOSTER TRANSFORMER: Required if line voltage is between 187 and 207 Volts.
LINE TRANSFORMER: Required for other voltages such as 115, 380, 460, 575, or
'similar voltage.:
PLEASE SPECIFY IF WE ARE TO SUPPLY TRANSFORMER.. See prices on separate sheet.
DIRECT CURRENT: 220 to 250 volts. Power consumption slightly higher than on A.C..
Transformers are not used on Direct Current.,
RUNNING WATER REQUIREMENTS: If running water i-s not
U. . S.. standard Metric available, we can-sup-
Inlet
3/8" Pipe
Outlet
1-1/4" Pipe
W
t
h
er per
a
our,
variable
o-90
Gallons
Water pressure 20 to
10o
P.S.I..
1.7 cm. Pipe O.D., ply a Circulating Sys-
4.2 cm.: Pipe O.D.: tem.: (See Price List.)
Pressure Regulator with
variable 0-340 litres Gage, and Strainer is
1.5 to 7.o kg.per sq.cm. furnished on all
The Weather-Ometer will pass thru a door 36 inches (92 cm) Weather-Ometers..
wide, 77 inches (195 cm) high.;
SUPPLIES & ACCESSORIES: Quoted Weather-Ometer prices include supplies and miscella-
neous accessories for one or two years continuous operation of the Weather-Ometer
ordered.
FOR 7200 HOURS (1 YEAR) 14400 HOURS (2 YEARS)
ITEM BWM-C SL-TS DLTS-X HVDL-X BWM-C SL-TS DLTS-X HVDL-X
Electrodes 300 300 6oo moo 6oo 6oo 1200 1200
Globes 6 6 12 12 12 12 24 24
Panels 200 200 200 200 400 400 400 400
SPECIMEN HOLDERS
Vertical 32 32 32 32 32 32 32 32
Horizontal o 0 0 15 0 0 0 15
Dollar Value of
Spare Parts & Ac-
cessories,Approx.$14o.00 $254.00 $368.00 $380.00 $218.00 $393.00 $498.00 $510.00
THE FOLLOWING INFORMATION IS REQUIRED WITH YOUR ORDER:-
Voltage available at machine location Volts.:
Alternating, or Direct Current Current.-
If alternating current, what frequency Cycles.:
Thermometer and Thermo-Regulator-FO or CO 00
Transformer voltage if Atlas is to-supply
ATLAS.,ELECTRIC DEVICES CO.- 361 W.'Superior St., Chicago 10, Ill., U.S.A.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
PRINTED In the U. S. A. WOD-031753-OSS-1
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
WEATHER-OMETER SHIPPING DATA --- EXPORT
Prices of all Weather-Ometers are quoted F.A.S. Atlantic and Gulf Ports of exit only. If U. S. Pacific
ports are selected, add 2% to the published prices.
The following items of expense must be considered in addition to our published prices:- Ocean Freight,
Marine insurance, all risks; storage, if any; and consular fees, if any. These will be contracted for by us
as- shipper, and charged to the purchaser at the prevailing rates at date of sailing, if desired.
It is understood and agreed that the vendor shall not be liable for delay in or non-performance of any
obligation hereunder, including delivery of any goods or merchandise, if such delay or non-performance oc-
curs by reason of any condition beyond vendor's control and for which he is not responsible, including
strikes, fire, flood, Acts of God, riot, or action of any government authority, domestic or foreign.
We furnish below the approximate weights and measurements of shipments of the various Weather-Ometer
models to enable the purchaser to ascertain the approximate costs, in addition to the published F.A.S.
prices:
WEATHER-OMETER MODEL
'SUPPLIE'S
GROSS WEIGHT
NET WEIGHT
MEASUREMENTS
For
Pounds -
Kilos
Pounds
Kilos
Cu.Ft.
Cu. Meters
.Twin Arc,
DLTS-X
1 Year
1880
853
1350
612
144
4.03
Twin Are,
DLTS-X
2 Years
1980
898
1450
658
150
4.24
Twin Arc,
HVDL-X
1 Year
1930
875
1400
638
144
4.03
Twin Arc,
HVDL-X
2 Years
2030
921
1500
680
150
4.24
Single Arc,
SL-TS
1 Year
1366
6`20
1000
453
150
4.24
Single Are,
SL-TS
2 Years
1795
814
1090
494
152
4.29
Single Arc,
BWM-CC
1 year
926
420
562
255
109
3.05
Single Are,
BWM-CC
2 Years
1180
535
745
338
138
4.05
Circulating System
605
275
405
184
56
1.6
ATLAS ELEC'TR:I C DEV.I CES CO.'.
361 W.: Superior St.-,
Chi.cago 10, :Illinois
U.:S.A.-
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ov*ln~ea
THAR , h~2
(0
WEATHER-OME ?
The Weather-Ometer is a laboratory apparatus
for ascertaining at a greatly accelerated speed the
trend of reactions which will occur on all types of
products in outdoor exposures.
It is a self-contained machine, employing the
three principal weathering agents, Synthetic Sun-
light, Moisture and Temperature Changes.
Automatic control, regulation and application
of these weathering agents make it possible to
establish standard test conditions which can be
duplicated and reproduced at any time or place.
The need for such equipment is evident since in
addition to the extensive time required to obtain
results from exposures to actual weather, the re-
sultant tests will vary greatly not only from location
to location but from day to day, month to month,
and year to year at the same location.
Accelerotor?
Wet and Dry Abrasion Tests
FAD -OG I TC Q ?
The Fade-Ometer is a patented self-contained
electrically operated device for determining by ac-
celerated tests in the laboratory the action of sun-
light on all materials.
The need for such equipment is evident in every
industry having products which fade or otherwise
deteriorate from the action of the sun. Natural sun-
light, available only part of a 24 hour day at best,
and frequently not at all, is never constant due to
the difference in latitude, season of year, time of
day and local climatic conditions.
The Enclosed Violet Carbon Arc, source of radiant
energy, provides noon June sunlight 24 hours per
day. The Fade-Ometer provides constant, uniform
and reproducible conditions regardless of time or
place, thus speeding up research and production
and insuring quality of product.
Write for complete catalogs describing each machine.
LAMjibDD ER-OO AAETER?
The Launder-Ometer is the standard laboratory
washing machine of the American Association of
Textile Chemists and Colorists and is used through-
out the world for quickly determining the color-
fastness of textiles to commercial laundering and
domestic washing.
From one to twenty samples may be tested simul-
taneously under controlled conditions of tempera-
ture and mechanical action.
Available with either one-pint glass jars for the
standard tests or with metal containers for the
accelerated washfastness tests.
All Launder-Ometers have full automatic control
with a choice of electricity, gas or steam for heating
the water bath. The Preheating and Loading Table
is an indispensible accessory for added efficiency
and reduction of operator time.
ATLAS ELECTRIC DEVICES COMPANY
Approved For4l ep1seR r) },1 3) 1 A QA PA1MQ%2Cp007800250001-0
Scorch Tester
Chlorine Retention Testing
Printed in U.S.A.
L-11-54-5M
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
ATLAS ELECTRIC DEVICES CO.
CHICAGO 10, ILLINOIS
U. S. A.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250001-0
Voltage 3 0 Cycles S
Sole Manufacturers
ATLAS ELECTRIC DEVICES CO.
INCORPORATED
CHICAGO 10, ILLINOIS, U. S. A.
FADE-OMETER WEATHER?OMETER LAUNDER-OMETER
HI-LO CABINETS HI-HUMIDITY
PRINTED IN ILS.k
25X1A
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ELECTRIC REQUIREMENTS
CURRENT 2o$ -245 VOLTS, A.C. opt D.C.
PRO/v AMP.
CONDUCTOR SIZE
NOT L E 5 5 THAN NO. 8 S. It S. GA.
IF RUN TO SERVICE /5 OVER
60 FT. USE NO. 8.
IF OVER /20 FT. USE NO. 6.
WATER CONNECTIONS.
WATER PRESSURE I5-30 L85..
3/g PIPE TO MAINS.
/ 1/4" PIPE TO DRAINS .
OVERALL HEIGHT 7 g'
TYPC-. DL- T S.
CAUTION:-
j90 NOT PLACE MACHINE
CLOSER THAN Z FT.
FROM ANY WALL.
ADVANCE INSTRUCTIONS
FOR .
WEA THER - OMETER
ATLAS ELECTRIC DE VICES CO.
CHICAGO, ILL.
DRAWN CND O DATE DRAWING NO.
Approved For Release 2001/11/21 : CIA-RDP80-00926A00780025 0gl1 -42 /3 -/50 -42
D L.-TS
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
UNPACKING
This Weather-Ometer, with accessories and supplies to last years,
is contained in .1, box. All loose and unattached parts are wrapped
separately, each bearing a label identifying the contents and quantity,
Suggest that all small packages and boxes be removed from box before
attempting to move the Machine.
LOCATION
The WeatheraOmeter should be located in a well-ventilated room and
should be placed at least 2 feet (62 a.m.) from any wall. The proper
locating of the Machine will be appreciated by the person whose duty
it will be to attend it.
SIZE OF ELECTRICAL CONDUCTORS
The Weather-Ometer draws approx. 40 amperes when warm and 50 to 60
amperes when first starting up. We suggest the following:
1 A fused wall switch, 60 amperes, within sight of
Machine o
2 - Conductors from wall switch to main power lines
of sufficient capacity to carry the maximum
current without an appreciable drop in Voltage.
3 DL.OP.INST.A.43
Approved For Release 2001/11/21: CIA-I DP80-00926A007800250001-0
LIFE OF ELECTRODES ..
A full load or trim of Electrodes should burn from 22 to 24 hours.
SECOND LOAD OR TRIM ..
Remove the upper electrode which is now 8 to 9 inches long and from
it out TWO 4-inch lengths (102 mm). Insert a new 12-inch electrode
of the opposite kind (Cored or Solid) in the upper carbon holder and
use the TWO 4.ineh pieces in the lower holder.
Cutting the 4-inch lengths for the lower carbon holder from the upper
electrode prevents waste of carbon.
CAUTION: BOTH LOWER ELECTRODES MUST ALWAYS BE OF THE SAME KIND
(CORED OR SOLID), NEVER MIXED, AND MUST BE OPPOSITE
FROM THE KIND USED IN THE UPPER HOLDER OR THE LAMP WILL
NOT*OPERATE PROPERLY OR HAVE PROPER FADING QUALITY.
HV The partly consumed electrodes may be cut into 4-inch (102 mm)
lengths by inserting them in the "Cutter" (see packing list) -
Electrode Receptacle and Cutter). Turn or rotate electrode
against the 'saw blade, scoring same. The carbon can then be
easily broken by hand at the scored point, 4-inches (102 mm).
4 - The lower carbon holder accommodates two 4-inch (102 mm)
carbons of a like kind but opposite to the kind used in the
upper holder.
5 - By using two carbons in the lower holder, it is possible to
burn the Arcs over-night or 24 hours with a minimum amount of
downward travel of the Arc (see cut).
CROSS SECTION VIEW
of ARMATURE, SPRING
ANO EQUALIZING SPRINGS
w.n. LIFTING LINK iw
CORRECT POSITION with
DASH POT.
to
CA142
creck carbons HV??DL.0P.INST..E.43
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
TRIMMING ARC LAMPS
(Renewing Carbon Electrodes)
Wall Switch must be in "OFF" position.
Elevate Arcs by means of the locking lever located at the
right side center of cabinet.
an In trimming the Are Lamp, insert a 2 x 12 inch (305 mm)
electrode, either #70 solid or #20 cored, in the upper carbon
holder, passing it through the bushing of the gas chamber and
through both rings of the clutch which lifts the upper electrode.
Tighten up the thumb screw so the carbon wil 1 be held securely
in the upper carbon holder.
2 TWO carbons are employed in the lower holder for the purpose
of insuring full 24-'hour life and a minimum amount of downward
travel of the Are.
NOTE: The lower carbon holder of this Are Lamp is designed to
take TWO j x 4" carbons. These may be either TWO #20
Cored carbons or TWO #70 Solid carbons. Kindly bear in
mind that when #20 Cored carbons are used in the lower
holder, an opposite carbon, such as #70 Solid, must be
used in the upper holder. If TWO #70 Solid carbons are
used in the lower holder, #20 Cored carbons should be
used in the upper holder.
CAUTION:
DO NOT TIGHTEN TIE LOWER CARBONS TOO TIGHT. IF $00
THE CARBONS MAY CRACK.
By using TWO carbons in the lower holder, it is possible to
burn the Are Lamp overnight or 24 hours.
NOTE
2 LOWER
CARBONS
EACH 4"LONG
LOWER CARBONS MUST
BE OF THE SAME KIND
2-N? 20 OR 2-N? 70
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
HV.?DL. OP. IN ST P .43
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
OPERATION
After the Weather-Ometer has been assembled and the water
and electrical connections made according to the instructions
found in the installation booklet, the equipment is ready for used
WALL SMITCH
Disconnect all electrical circuits.
PILOT LIGHTS
Illuminated (red) when mainline Wall Switch is in "closed"
position. Do not attempt to change carbon when the Pilot
Light is "`red."
4 as "'ON" and "OFF"' TOGGLE SWITCHES
This gang toggle switch located on the right of control panel
below the ammeter controls all of the circuits of the Weather..Ometer
except the blower circuit. The fuse blocks are still energized when
this switch is in the "OF?" position.
CAUTION: When renewing carbons or adjusting or inspecting any
electrical parts of circuit, the Wall Switch should be in the
"OFF" position.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
HV-?13L,-INST.D.43'
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
TEMPERATURE CONTROL
A motor driven blower in the base of the Machine supplies the proper
amount of air for cooling and oxidation essential to an accelerated
test.
A temperature controller recorder controls the movement of the blower.
This recorder is fully described in back of these pages. The same
"key" used to wind the clock of this instrument is used to set the
temperature selector.
TOP VENTILATOR
Two trap doors make up part of the roof or top of the Machine
enclosure. The correct amount of ventilation, when the Machine is
in operation, will be governed by various factors, such as Room
Temperature, Room Air Currents or Drafts, Desired Temperature
required in test.
WATER PAN
A tank or sump below the specimen drum provides both a receptacle for the
spent water from the two spray units and a floor to the testing chamber.
Because of bacteria growth and mineral deposits, the tank or sump
should be cleaned out at frequent intervals.
A water spray contacting the outside of the testing drum produces a
cooling effect and at the same time increases the relative humidity
of the chamber.
CAUTION: It is not advisable to conduct a Weather"Ometer test with
the side or cooling spray inactive, unless temperatures
higher than 150?F or 65?C are desired.
SPECIMEN SPRAY
In the rear of the testing drum is located the mild spray unit,
This unit is designed to accommodate several types of nozzles or
tips. The tips or nozzles differ only in shape and volume of water
released.
The nature of the material to be tested will determine the tip
or nozzle best suited for the work.
NOTE: The duration of the spray period is determined by the
Cycle Cam. The force of the spray is determined by manual
adjustment governed by good judgment.
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250001-%V-DI. OP.INST.F.
43
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
- #9200-PX GLOBE -
Place the small asbestos pad in the bottom of the
globe. Place globe in position with its upper edge properly
seated against the upper side of the gas check plate, and
swing the wire bail in position against the bottom of the
globe. The tension of this wire bail should permit the
globe to be rotated by grasping the globe between both hands.
This seating is important, if air enters globe at upper edge,
the life of the electrodes will be shorter by 6 to 10 hours.
Globes must be free from chips or cracks and kept clean.
2 This globe is of a special pyrex for transmission
of the same wavelengths found in sunlight. Globes must be
free of chips or cracks and kept clean for reliable results.
After each 24 hours of use, globes should be washed with
granulated or other soap, dried and polished thoroughly.
By keeping on hand an extra globe which has been cleaned and
polished, no testing time will be lost. Globes should be
discarded after approx. 1500 hours use as they will have be-
come so etched and solarized (pink in color) that they will
not permit the proper transmission of active light.
- LENGTH OF ARC -
3 The Fade-Ometer is, now ready to operate and the
switch may be closed. The are should start immediately and
within a few seconds settle. down to a steady intensity. The
are, to have proper fading qualities, is longer than an
ordinary illuminating arc or motion picture arc. Do not be
alarmed at the length of the arc. It will be from 12 to 2
inches long.
- WHEN FIRST TURNING ON -
4 A slightly colored gas will form"inside the glass
globe. In less than a minute this gas will clear out. If.
a brown deposit forms in the globe, look for chip in edge of
globe or for cracked bushing. Excess air has entered the
globe. Correct before continuing with test.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
?
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250001-0 5/27/42
OPERATION
After the Weather-Ometer has been assembled and the water
and electrical connections made according to the instructions
found in the installation booklet, the equipment is ready for
use.
WALL SWITCH
2 Disconnects all electrical circuits.
PILOT LIGHTS
3 Illuminated (red) when main line Wall Switch is in closed
position. Do not attempt to change carbon when Pilot Light is
red.
ON AND OFF TOGGLE SWITCHES
4 This gang toggle switch located on the right of control
panel below the ammeter controls all of the circuits of the
Weather-Ometer except the blower circuit. The fuse blocks are
still energized when this switch is in the "OFF" position.
5 CAUTION: When renewing carbons, or adjusting or inspecting any
electrical parts of circuit, the Wall Switch should be in the
"OFF" position.
TRIMMING ARC LAMPS
(Renewing carbon electrodes)
6 Wall Switch must be in the "OFF" position.
7 Elevate Arcs by means of the locking lever located on the
right side center of cabinet.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
DL-TS 1 52042
5/27/42
Approved For Release 2001/11/21 CIA-RDP80-00926AO07800250001-0
VOLTMETER ANL AMMETER
Each are is provided with a voltmeter and ammeter for the
purpose of indicating electrical status of the arc. Since approxi-
mately 15 minutes are required for the arc to settle down to a
steady flame, disregard the meter readings until the are is
stabilized.
VOLTMETER SWITCH
(Gang toggle below voltmeter)
This double throw switch permits reading Line or Are Volts
VOLTAGE ADJUSTMENT
The Weather-Ometer has an operating range from 208 to 250
Volts. Each machine is set for the voltage specified by the
purchaser. Occasionally the voltage given when ordering does not
correspond with the actual line voltage at the Weather-Ometer.
See instructions on the wiring diagram at the back of this folder,
and make the necessary changes in the connections of the reactance
coil. Once the proper connections are'made in the reactance coil,
no further changes are necessary unless the line voltage is
permanently changed.
4 At the bottom of the control panel are two voltage adjusting
switches, one for each are. These are identified as to the are
they control and are for adjusting minor voltage changes. They
out in or out a limited amount of resistance, increasing or
decreasing the are voltage and amperage as desired.
DL-TS 2 52042
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250ot(1207/42
VOLTAGE ADJUSTMENT (Cont'd)
Always start the arcs with the voltage adjusting switch
in the "1" position (all resistance in the circuit). After
burning 15 minutes, read line and are volts and amperes for
each are.
2 Amperes should be hovering (not fixed) between 15 to 17,
rather 17 amps., arc voltage between 120 to 145 volts. If amperes
are less than 15, turn switch "2", "3", or "4" position to bring
the amperage and volts to the desired range, favoring 17 amps.
rather than 15.
3 NOTE: Occasional dips in line or are voltage should not
be confused with a constant low voltage condition.
4 Line voltages are usually lower during the day and higher
at night. The operator will soon acquire the knack of setting
and adjusting switches for day and night operation according to
the prevailing conditions.
5 NOTE: Ampere and are voltage readings on the meters will
never remain fixed for any length of time. Disregard slight
fluctuations; they are due to the other electrical loads on the
same line.
VENTILATOR BLOWER
(Located below the water pan)
6 The blower motor connected in series with the Thermo-Regulator,
will get start when the air temperature of the testing chamber is
approximately 3? ? - of the temperature selected on the regulator.
Approved For Release 2001/11/21 : CIA-RDP80-009264 0 X50250*01-052042
5/27/42
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
THERMO-REGULATOR
1 Turn knob so dial indicates desired air temperature of
testing chamber in Fahrenheit.
TRAP DOORS
2 Unless temperatures above 140? are desired, the rear top
trap door should be raised to the first notch at all times. The
front door is only raised when servicing the lamp and samples.
WATER PAN
3 The tank below the specimen drum provides both a receptacle
for the water from the two spray units and a floor to the testing
chamber. Because of bacteria growth and mineral deposits the tank
should be cleaned out at least once a week.
SPECIMEN DRUM
4 The specimen drum rests on a driven spider. This spider
rotates by means of a suitable shaft, friction gears, reducer
and motor and revolves at approximately 1 R.P.M. Spacers are
provided to accommodate 7/1611 thick specimens. For metal panels
or other thin materials, holders are furnished to fit into the
spacers. Specialholders for different materials can be furnished
on request.
In preparing test samples, it is necessary to seal all sides
and edges to prevent water from undermining the coating.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 CIA-RDP80-00926A007800250W 2/"42
DRUM COOLING SPRAY
1 This set of two fish tail nozzles on the outside of the
testing drums cools the drum and increases the humidity. This
outside spray is electrically controlled and operates only while
the Weather-Ometer is in service.
2 The volume of water from this set of sprays may be adjusted
by the valve in the line just ahead of the nozzles.
3 CAUTION: Do not operate without drum cooling spray unless
temperatures higher than 1400F. are desired.
MILD SPRAY
4 Located in rear of testing drum, consisting of 4 Fish Tail
Spray nozzles, Type FT. Actuated by Cycle Time Meter. In operation
during water periods only. The force of the spray can be regulated
at each set of sprays.
5 Water to be used in spraying specimens must be clean, in
other words, "Fit to drink".
6 NOTE: The force of the spray should be governed by good judgment,
sufficient only to thoroughly drench, wash and cool the samples.
CYCLE TIME METER
7 This meter automatically controls the light and water periods.
The cycle found to give best results is known as 17-3, or 3 minutes
of Spray once every 17 minutes. This cycle corresponds with the
cycle so long in use in the open model Weather-Ometers (BW-M Type).
Approved For Release 2001/11/21 : CIA-RDP80-00926A00780%5F&1-0 5 52042
5/27/42
Approved For Release 2001/11/21 : CIA-RDP80-00926AO0780025000 0
CYCLE TIME METER (Cont'd)
1 The dial 17-3 permits the light to remain on for the full
period (22 to 24 hours) but ovens and closes the solenoid valve
(water spray) for a 3 minute period at the end of every 17 minute
period.
2 Other cams can be provided that will interrupt the light and
start the water spray at predetermined intervals. Installing
different cams is a matter of a few minutes time with the aid of
a screw driver. The only requirement for different cycles is
'that the total time, light and water, must add up to 24 hours
per dial.
3 NOTE: When starting the machine for the next run, it is not
necessary to turn the cam unless it should be on the water period.
Then turn by means of small knurled wheel on the lower right of
cam.
4 CAUTION: Turn so cam rotates counter clockwise; that
is, the knurled wheel should be turned in the opposite direction,
clockwise ~~ . If this precaution is observed, the contacting
finger on the micro switch will not be caught in the dial slot and
bent.
5 The Cycle Time Meter employs two micro switches: first,
left MM, the water spray only; second, top LL, the light only.
When contact finger engages a slot, the respective. circuit is
opened or closed as the case may be.
Approved For Release 2001/11/21: CIA-RDP80-00926A00"T800S5000- 0 52042
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
THE TIME SWITCH
1. LOCATED AT THE BOTTOM OF THE CONTROL PANEL, THIS TIME SWITCH MAKES IT
POSSIBLE TO OPERATE THE MACHINE FOR ANY PREDsTERMINED TINE UP TO 24 HOURS.
2. THE FIXTED POINTER ON THE HOUR DIAL IS SO ARRANGED THAT WHEN THE
POINTER TRIPS THE "OFF" LEVER, THE DIAL WILL BE AT ZERO, CR THE 24TH HOUR.
THE SMALL DIAL AT RIGHT OF THE HOUR DIAL IS AN ADDED REFINEMENT FOR RESETTING.
3. WHEN SETTING THE TIME CLOCK, ALWAYS USE THE SMALL KNURLED KNOB ON THE
POST AT THE RICAiT OF THE MINUTE DIAL. THIS TURNS BOTH THE MINUTE AND HOUR
DIALS AND IS THE ONLY METHOD THAT SHOULD EVER BE USED IN SETTING THE CLOCK.
4. CAUTION: IN RESETTING THE TIME CLOCK, NEVER ATTEMPT TO TURN THE DIAL
CLOCKWISE IF THE POINTER HAS PASSED THE "SHUT OFF" LEVER, UNTIL THE "SHUT
OFF" LEVER HAS BEEN RELEASED BY PUSHING IT DOWN, AND HOLDING 1T WHILE
POINTER IS PASSING IT.
5. THE DIAL ON THIS SWITCH IS NARKED OFF INTO 24 EQUAL SPACES ONE HOUR
APART. SET THIS SWITCH ( ONCE EVERY 24 HOURS) BY TURNING THE SMALL KNURLED
KNOB CLOCKWISE , SO THAT THE 24 HOUR DIAL WILL ROTATE COUNTER-
CLOCKWISE Pr~ , AND STOP AT THE FIGURE INDICATING THE TOTAL NUMBER OF
HOURS SELECTED FOR THE DAY'S RUN.
6. AFTER CLOCK HAS BEEN SET FOR THE DESIRED NUMBER OF HOURS, PUSH THE
"ON" LEVER SLIGHTLY DOWNWARD UNTIL IT ENGAGES AND LOCKS THE "OFF" LEVER.
THE MACHINE IS THEN READY TO START BY CLOSING THE MAIN LINE SWITCH.
7 DL TS 3443
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
5/27/42
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
TIME-SWITCH (Cont'd)
1 This time switch breaks the arcs, both water valve
circuits, and cycle meter.
The Main Line Switch on the wall renders the entire
Weather-Ometer dead.
3 Pilot lights "On",* indicate when the control panel is
energized.
RUNNING TIME METER
(Located below thermo-regulator)
4 This counter records the number of are light hours only.
It operates only when the arcs are on and through the left are
lamp.
5 To ascertain the light exposure hour of any given sample,
subtract the starting reading from the reading at time of
observation or completion.
DL-TS 8 52042
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
PARTS LIST
ATLAS ENCLOSED ARC REFERENCE CHART
TO BE HANDED TO THE PERSON IN CHARGE OF FADE-OMETER OR WEATHER-OMETER
No.----IN YOLR LABORATORY. VOLTS-__-- CURRENT_----- TYPE_____
03-086X
A C. ONLY-03-937 L
A.C. ON LY-03-937 LX
GAS CHAMBER COMPLETE
DC. O N L.Y -c)3-053
D.C.ONLY-03-053X
INCLUDESTHESE
4 ITEMS & SCREWS
UPPER CARBON IIULDER ONLY
UPPER CARBON HOLDER
44.72
COMPLETE
i3.75
O
O
A
INCLUDING SCREWS, CO TI ON
PLATE, AND PAD
O 0
03 OIB X
0
044X
"
OIDS PAIR ARMATURE
~O
COMPLETE WITH
6.00 WAGON SPRING
$2
23
$11.62
03-086
.
GAS CHAMBER
3_OG 0
$2.50
FLEXIBLE
BEADED CABLE
O ?
03-055
$. 81
/, il
PORCELAIN SLIDE
0 O
o
t. 71
0
y 0+,
03-085
03-018 03-028 X
FEED FLOOR, METAL
LAMINATED WAGON SPRING
$1.26
i~
n
ARMATURE COMPLETE
ONLY
$8.30 $3.32
03-039 03-955
03-077--Lower Carbon
CLUTCH FLEXIBLE
ONLY BALL Sc
Holder Rods, Pair $1.45
03-088
SOCKET
$2.60 JOINT
O U
LAVA CARBON GUIDE
$1.25
1
03-077 X
O COMPLETE
N
I
HOLDER & ROnS
OO PERMANENTLY OO
ASSEMBLED WITH
OO INSULATORS OO
03-082 X
i
it jI DASH POT
S
ngle O
n @ O
COMPLETE
$4
07
WITH
U
.
O O
O
03-0858
LAVA FEED FLOOR
03-031
FLEXIBLE
03-073
03-081 Double 03-081
$
45
LIFTING 03-039 X
LINK CLUTCH
BALL &
- SOCKET SLIDE
12 CARBON
S ? 82 H
.
ONLY WITH LINK
JOINT PROD
DASH POT A)
OLDER
ROD
COMPLETE
I INSU-
$3.11 $5.71
$6.35 $7.60 $2.70
LATORS
(LAVA)
$.52
03-075
SLIDE
03-078 L 2
? LOWER CARBON
03-078L5
0 LOWER CARBON
R
* /? HOLDER-DOUBLE
HOLDER-SINGLE
OD
0 Y 2-CARBONS
0 y0 I-CARBON
SPRING
SPECIFY
(PAIR)
$3.85
$2.10
SICARB
L
E
$.18
ON HO
DEER
CERTIFICATION
ATLAS
ELECTRIC DEVICES CO.
361 W. Superior St.
We certify
the prices shown are
Chicago, 'Ill.
not in excess of maximum prices
permitted by the Office of
Price
--Immediate Shipment--
Administration.
All Prices F.O.B. Chicago.
E.C. PARTS & PRICES 10142 FOR
Printed in U.S.A.
V"x12" ENCLOSED OMETER ARC
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07.800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
03-03% LONG LIFTING LINK
SHORT LINK
3-o3q CARBON CLUTCH
03-085?B LAVA OR TRAN5ITE WASHER
03-085 FEED FLOOR METAL
03-068 LAVA BUSHING
0'5-01'1 C R RODS GL08E HOLDER
03-09t INSULATORS GLASS GLOBE.
DETAIL SHOWING
CARBON CLUTCH AND
GAS CHAMBER
FOR.
ENCLOSED ARC
ATLAS ELECTRIC DEV(CESCC
CHICAGO ILLINOIS V.S. A.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
INSTALLATION INSTRUCTIONS
THESE INSTRUCTIONS REFER TO THE INSTALLATION OF
THE NEW LAVA TYPE GAS CHAMBER AND FEED FLOOR USED
ON ALL ATLAS ENCLOSED ARC LAMPS.
FIRST - SEE PRINT NO. FO-1028
REMOVING OLD GAS CHAMBER
The burnt out or defective gas chamber can easily be
removed by shearing off the heads of the three screws with
a sharp cold chisel. These screw heads are found on the
under side of the gas chamber. After these have been sheared
off, strike the burnt out casting a few sharp blows and it
will drop off. Next remove the upper casting or feed floor.
NEW LAVA TYPE GAS CHAMBER AND FEED FLOOR
This consists of four pieces. First, the lower casting,
#03-086, which is similar to the old gas chamber. Second, the
lava bushing, #03-088. Third, the feed floor which is also a
casting. Fourth, the lava washer.
These two castings with lava bushing are assembled in
the same manner as the old type, with the exception that, after
the three screws are tightened up, the lava washer is laid on
top of the feed floor. You will note that two of the screws
are about one-fourth of an inch longer. They should pass
through the lava washer, one in front and one to the right,
facing the carbon holder. The shorter screw should be placed
in back. This screw does not pass all the way through the
lava washer. If it did, there would be danger of short-
circuiting on the carbon clutch that comes in close proximity.
When all the screws and nuts are tightened up, one
should be able to turn the lava bushing, #03-088, slightly.
If it is fitted too tight, it will crack, due to the heat
generated by the are.
When these parts are assembled, you will note there is
a small recess between the top of the lava washer and the lava
bushing. This is designed on purpose, so as to allow the lower
part of the clutch (#03-039) to drop down on top of the bushing
when the are feeds.
Should you have occasion to order additional set of gas
chamber and feed floor, kindly mention No. 03-086X.
ATLAS ELECTRIC DEVICES CO., INC.
361'WEST SUPERIOR STREET, CHICAGO, ILL., U.S.A.
Gas Chamber 12-Li.-36
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Removable Pen Arms
To prevent damage to pen arms, it is advisable
to remove them when work on the instrument ne-
cessitates the removal of the chart disc, especially
when the pen lifter has more than one arm.
To Remove Pen-Arm: Hold the pen-arm bracket
(Item 11, Fig. 5823) to prevent side motion and
springing out of calibration. With fingernail, knife
blade or small screw driver raise the upper end of the
pen-arm over the stud, at the same time sliding the
pen-arm downward.
To Replace Pen-Arm: Hold the pen-arm bracket
with fingers to prevent springing out of calibra-
tion. Place the pen-arm in position so that the
rivet in the pen-arm will slide into the slot in the
bracket, and the open end of the pen-arm will
slide over the taper stud. With the pen-arm in this
position, simply push it into place.
V-Pens
Caution: Do not change angle of pens from that
shown in Fig 3207. Pens for a two pen instru-
ment are shown. In a single pen instrument, the
pen makes a right angle with the chart.
Fig. 3207
To Ink a "V" Pen: Use the dropper, and put a
drop or two of ink in the pen. At normal tempera-
tures and with ordinary records, this amount will
last for days. See if the ink is feeding by drawing a
piece of smooth paper across point of the pen. If
the ink does not flow freely, a moistened piece of
paper held against the pen point will start it.
"V" Pen Adjustment: Careless handling in trans-
portation may alter the correct adjustment of the
pen. Slip the pen in or out of the holder (it is only
friction-tight) until it touches the chart. Do not
bend the pen-arm to obtain adjustment. If, after
long use, the pen makes a heavy line, it is.wasting
ink. Put in a new pen.
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250qB5C01 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Fig. 4015
Fig. 5823
KEY TO FIG. 4015
KEY TO FIG. 5823
1.
Time Set Pointer
11.
Pen Arm Bracket
2.
Guide Finger
12.
Lugs
3.
Pen Lifter
13.
Chart Disc Stops
4.
Wire Chart Holder
14.
Projection
5.
Chart Hub Holder
15.
Chart Disc Stop
6.
Wedge Fasteners
16.
Thumb Piece
7.
Clip
17.
Finger Holes
8.
Slot in Chart Disc
18.
Stop
9.
Chart Hub
10.
Pen
Chart Holder (Fig. 4015)
The chart holder assembly is fastened directly
to the case, but it is unnecessary to remove it when
removing the chart disc or changing the chart. It.
consists of a rigid arm chart hub holder (5) and
semi-circular wire chart holder (4). The loop end
of the wire chart holder is caught in a slot (8) in
the chart disc which keeps the wire chart holder in
position and holds the chart flat against the disc.
The chart hub (9) is held in the crook at the end of
the chart hub holder (5), always in position to be
snapped back on the chart hub base after replace-
ment of the chart.
To Change Chart
Lift Pen: Place finger tip under the lever arm on
the pen lifter (3) and raise the pen lifter.
Remove Chart: Place the tips of the first and
second fingers behind the knurled rim of the chart
hub. Press the button in center with thumb. The
chart hub will release instantly. Remove the chart.
(If the instrument contains a mechanical clock,
be sure the spring is wound sufficiently to run
proper period of time. Do not wind too tightly).
Replace Chart: Slip the chart under the wire
chart holder, pen index, pen lifter, and time set
pointer (1). Place hole in the chart over the collar
on the chart hub base and insert the hub in the
base. Grasp the hub by the knurled rim and push
straight in. It will automatically snap into position.
Do not press guide finger on the time set pointer
toward the chart disc as this will cause the chart
to stick and prevent its turning easily.
Approved For Release 2001/11/21: CIA-RDP80-00926A00780025c OX-O2 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Adjust for Time: Turn the chart hub to the left
until the proper time arc is indicated by the time
set pointer. (Note day and night sections on chart.)
Ink pen as described on the following page and
close door. The pen will be automatically adjusted
to the chart when the door is latched.
Time Set Pointer (Fig. 4015)
The time set pointer (1) is properly adjusted
when the instrument leaves the Factory and sel-
dom needs adjustment. It is designed for ease in
accurately adjusting the charts to the desired time
arc, so that it is not necessary to have the pen on or
near the chart to adjust the chart for time. The
guide finger (2) on the time set pointer is for the
purpose of guiding the chart under the time set
pointer. The time set pointer and the pen point
must indicate the same time arc.
To Adjust Time Set Pointer: Place the chart on
the instrument. This adjustment should be made
when the pen is near the outer edge of the chart be-
cause the chart can be located more accurately when
the pen is in that position. Be sure the chart disc
(see below) is in position. Slightly loosen the two
screws that hold the pointer to the chart disc. Turn
the chart until the pen point rests exactly on the
time are. Adjust the time set pointer to indicate the
same time arc. On instruments subject to overrange
the time set- pointer should be set so that the pen
point will pass the pointer. Tighten the two screws.
Chart Discs
The. wedge-fastened chart disc (Fig. 4015) is
readily recognized by the odd-shaped hole around
the chart hub and the two finger holes above and
below the hub.
The self-locking chart disc (Fig. 5823) is readily
recognized by the small egg-shaped hole around
the chart hub and the finger holes (17) on the
right-hand side.
Wedge-Fastened Disc (Fig. 4015) : The chart
disc rests on several lugs on the side of the case
and is held in place by sliding wedge fasteners (6)
and a notch under the pen lifter (3). It is also held
rigidly below the chart hub (9) by a clip (7) which
pivots on the lower clock screw. To remove the
disc, first twist the lower end of the wire chart
holder (4) in a counter-clockwise direction until
the end loop can be pulled through the slot (8) in
the disc. Turn the clip (7) slightly to the right to
release the chart disc. Slide out each wedge fastener
(6) with the thumb or the forefinger, grasp the free
end between the thumb and the finger and push into
the slotted post. Remove the chart disc with a slight
outward pull to lift it over the wedge fasteners and
a slight downward motion to free it from the
base of the pen lifter and the chart holder mounting.
To replace the disc, reverse the above operation.
Sell-Locking Disc (Fig. 5823) : The Foxboro
self-locking chart disc rests on four lugs at (12).
It is correctly positioned by stops at (13) and (15),
and held in place by projections (14) and (15) and
the clip (7).
To Remove Disc: First raise the pen lifter and the
chart hub. Release the lower end of the wire chart
holder by turning counter-clockwise until the end
loop can be pulled though the slot in the disc.
Catch this end around the chart hub. Push the thumb
piece (16) clockwise, which releases clip (7). Grasp
the disc through the two holes (17), remove with a
motion to the left and then a slight outward move-
ment to the right.
To Replace Disc: First place V-notch in the left
side of disc firmly against the V-shaped stop (18)
with the upper edge of the notch resting on lug (12)
adjacent to stop (18). Move the disc in until it
rests on the other three lugs and to the right against
the right hand stop, (13) (it automatically centers
itself against the other stops). Swing clip L counter-
clockwise until it locks over the disc in the notch.
Approved For Release 2001/11/21 CIA-RDP80-00926A007800250001 g0X-3 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
MECHANICAL AND ELECTRICAL
CLOCKS
Mechanical Clock
Fig. 5985
When it is necessary to have the' clock serviced,
remove it from the instrument.
Removing the Clock
Remove the pen arm, chart and chart disc. Re-
move the screw in the chart hub base, then unscrew
the chart hub base. Remove the three screws extend-
ing through the top of clock box and lift clock out.
Replacing the Clock
Remove the nuts from the screws which extend
through the bottom of the clock box. The three
holes in the clock match those in the case in one
position only. Find correct position and fasten the
clock in place with screws furnished. Replace the
chart hub base and screw. Replace the chart disc
and chart. Check setting of the time set pointer and
adjust if necessary.
Boxing and Shipping the Clock
Retain in a clock box, stuffing with soft paper.
Then pack in a larger box with cushion of excel-
sior, or other soft packing material, on all sides.
Address plainly to The Foxboro Company, Fox-
boro, Mass., U. S. A.
Cleaning and Oiling the Clock
Clocks with various periods of winding are
furnished. Be sure the spring is wound sufficiently Mechanical clocks should be cleaned and oiled
to run the proper period of time, but not wound too once a year. If service is severe they should be
tightly. Extension handle keys are supplied for oiled more frequently. Send to The Foxboro Com-
easy winding. pang
Approved For Release 2001/11/21: CIA-RDP80-00926A0078002500P1j0_4 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
MAINTENANCE
Once installed, the Instrument should require no
further attention or maintenance except to see that
the cover or door is tightly closed at all times to
keep out dust or corrosive fumes.
Rotax Brush and Commutator Assembly
If because of abnormal conditions or careless
handling the brush and commutator assembly be-
comes damaged, it is advisable to return it to Fox-
boro for repair. The surfaces are carefully bur-
nished and the spring tension definitely adjusted
before the instrument is calibrated. Any increase
in brush tension may affect the calibration, re-
sponse or current-carrying capacity of the contacts.
If the contact area becomes dirty, resulting in
poor contact, they may be readily cleaned with
benzine or ether. Do not use carbon-tetrachloride
or Carbona as it leaves a film of chloride on silver
surfaces which may reduce the conductivity. Use a
piece of clean bond paper with two edges that are
clean cut and free from lint, such Ps would be
obtained by tearing off the lower right hand cor-
ner of this sheet.
Disconnect or shut-off the power supply before
cleaning.
Dip the paper in the cleaning solution and pass
it between the brush and the segment - do not
press on the brush with a pencil or other instru-
ment - the normal spring tension of the brush
should be sufficient. Do not lift the brush from the
segment - simply pass the paper between them.
BENZINE AND ETHER ARE HIGHLY IN-
FLAMABLE - BE SURE ALL CURRENT SUP-
PLY IS SHUT-OFF. BE SURE ALL CLEANER
HAS EVAPORATED BEFORE CLOSING THE
CASE OR AN EXPLOSIVE MIXTURE MAY
ACCUMULATE WHICH WILL BE IGNITED IF
THE RELAY OR CONTROLLED CONTACTS
SPARK.
Contact Spacing Adjustment
The point at which a segment and brush make
contact, closing the electrical circuit, may be
changed by means of the control point setting key
or knob, or by turning the micrometer adjusting
screws on the individual discs. Turning the screw
clock-wise will move the point of contact down
scale; counter-clockwise, up scale. Since the con-
trol point indicates the position of the contact, it
may be necessary to readjust as mentioned below.
The adjustment screws turn easily; do not bear
too heavily or the assembly may be thrown out of
alignment. Use a small screw-driver, such as used
to tighten eye-glasses, held between the thumb and
index finger of the right hand. Hold the assembly
from moving with the thumb and index finger of
the left hand at the pivot point.
POINTER ON
MICROMETER
Fig. 6315
Control Point Index - Adjustment
The control point index-arm may be set to show
the position of any one of the several contacts, and
is adjusted by means of the micrometer screw just
above the pivot point. Turning the screw clockwise
moves the pointer down scale; counter-clockwise,
moves the pointer up scale.
Contact Identification
Contacts are numbered consecutively from the
top or front to the back, the last disc being the
common. Contacts which close on increasing meas-
urement are designated as plus, and contacts clos-
ing on decreasing are designated as minus. An
assembly designated as "1+2+3-4" is an assem-
bly consisting of four commutators, the first two
of which close the circuit on increasing measure-
ment, the third on decreasing measurement, and
the fourth the common disc. Each brush lead is
tagged with a numbered metal marker to show the
brush and disc to which it is connected.
Approved For Release 2001/11/21: CIA-RDP80-00926A00780025f_% 32441
The modest looking globe on your Fade-Ometer or Weather-Ometer is a very important part of this
equipment. By excluding air, the carbons burn much longer, thereby making possible long life and
economical operation. Furthermore, the special glass from which the globe is made is partly respon-
sible for making the are spectrum a close duplicate of the sun. These very important points are of
course predicated upon a CLEAN glass globe - and glass will get dirty in use. You cannot expect full
light intensity, with consequent maximum efficiency and uniformity of results, with a dirty globe. A
letter from the National Bureau of Standards is reproduced below to stress the great importance of
daily cleaning and polishing.
fir- l c~ r~Qr, ~ I oo gg s t
Q,TW
"Ten years ago (September 1929) * we were impressed with the need
for washing the globes, based on the following simple experiment.
Two new globes were taken from the same box. One of these globes
was measured for transmission while new. The other globe was put
into service for three months (globe cleaned every day). At the end of
three months, the transmission of the used globe was measured (1)
while badly smoked, (2) lightly wiped, and (3) washed thoroughly.
"The observed transmission in percent, calculated to a constant
thickness of glass (1.45 mm) were as follows:
Globe
250.400 m?
250-3 10 m?
310400 m?
Used - badly
smoked
Used - lightly
28
10
45
wiped
"
Used - washed
56
23
79
New - clean
60
30
83
"These values are only approximate calculations for a difference in
thickness from about 2.4 mm to 1.4 mm and may be in error by a
few percent, since they apply to a spectral range rather than to a
simple wave length. However, you will note that by washing the globe
(even after three months of service) it tends to approach a new, un-
used globe."
* Globes now furnished are made from heat.
resisting ultra-violet transmitting Pyrex, with
greater transmission characteristics than the
type globe used in the 1929 Bureau of Stand-
ards tests.
ATLAS ELECTRIC DEVICES CO.
361 W. Superior St.
CHICAGO ILLINOIS
Sole Manufacturers of Fade-Ometer, Weather-Ometer, Launder-Ometer
International Yardsticks
fIease 2001/11/21 : CIA-RDP84-00926A007800250001-0
Mentioned by name
F ,p
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
EO
OMT~ ? T
STANDARD LABORATORY INSTRUMENTS OF THE WORLD
FOR DETERMINING DURABILITY AND PERFORMANCE
or described with sufficient clarity to identify our product in many Government Specifications.
The WEATHER-OMETER provides in-
dustry with a laboratory apparatus
for duplicating the effect of weather
on any kind of material or coatings.
Accelerated weathering tests produce
failures in a fraction of the time and
comparable to out-door exposure.
This efficient and accepted appara-
tus is available in several models, open
and enclosed. All models incorporate
features of advanced testing tech-
nique, the enclosed models answering
a demand for a greater range of de-
tailed control.
Within the compact structure of all
WEATHER-OMETERS is the Atlas Violet
Carbon Arc, which faithfully repro-
duces June sunlight for 24-hour oper-
ation without further attention, at
a carbon cost of approximately one-
half cent per burning hour.
Consult us if you have weathering
problems in the paint, lacquer, roof-
ing, bitumen, cable, cotton-duck or
plastic industries.
FADIE-0mv EVER*
The FADE-OMETER serves the Textile
Industry with a valuable laboratory
apparatus by simulating actual sun-
light in its destructive qualities. 39
Countries use the FADE-OMETER.
FADE-OMETER Type FDA-R em-
bodies all refinements and controls
necessary which engineering skill
produced in the past 20 years. De-
pendable sunfastness forecast can be
relied on implicitly, be your problem
dyed textiles, ink, plastic, leather,
paper, rubber, or other colored
products.
The dependable Atlas Violet Carbon
Arc, source of radiant energy, pro-
vides June Noon-day sun that can be
duplicated at any time or place. The
FADE-OMETER is designed to operate
without manual attention the clock
around at a carbon cost of approxi-
mately one-half cent per hour.
The LAUNDER-OMETER is a labora-
tory testing apparatus to determine the
washability of dyeings. Adopted by
the A. A. T. C. C. as a standard implies
a responsibility of first magnitude,
a challenge met by Atlas with a
compact durable unit with a capac-
ity of twenty tests in one-pint jars
simultaneously.
LAUNDER-OMETER Models with
capacity for larger testing jars also
available.
All LAUNDER-OMETERS are elec-
trically driven with a choice of Gas,
Steam or Electricity for heating the
main water bath, with Full Automatic
Control.
A Preheating and Loading Table
above illustrated with a LAUNDER-
OMETER is an indispensible accessory
for added efficiency and reducing
testing time, can be ordered at your
option.
Sole Manufacturers
ATLAS ELECTRIC DEVICES COMPANY
Trade Marks Registered. CHICAGO, ILLINOIS
Printed in U. S. A. Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
A2 MR
JL
T2
LINE
'C'am
JR
220
VOLTS
T3
Ti
KL
L~~ )
X LOI X
B l
KR
M M
V V
1 2
Z U1T 1~
1flo.rr.TRAtSFORMS
T
5
1 23 4 y C is etc
Lt VI
T6
. TV
PR
MV
MAIN WATER
VALVE
PL
A
Al
L TER LEFT ARC W423
i
METER RIGHT ARC W423
REACTANCE COILS
B
IM TER LEFT ARC W424
B2
AM R RIGHT ARC W424
CONNECTED BLOWER X W428
1-250 VOLTS
D
RUNNING TME METER CONNECTED 7X YL W441
2-240 VOLTS
E
E
IOGGLF. SWITCH FOR At ARC/LINE W442P
3- 230 VOLTS
4
220 VO
2
TOGGLE SWITCH FOR A2 ARC LINE W442P
-
LTS
5- 215 VOLT S
FOR L&S ON /OFF W444P
6- 208 VOLTS
FOR TV ON /OFF W444P
7- 11 0 VOLT S
H
PILOT LIGHTS POWER SUPPLY INDICATOR W433
P LEFT W426R
NO. 7X YL IS 110 VOLTS FOR
RUNNING TIME MET
"
"
RIGHT W426R
ER
D
K
[KL
T VQL AS2L AL)J_ SW. LEFT ARC ED1151P
RIGHT ARC ED1151P
THIS MACHINE NO.
YL&YR CONNECTED TO
CYCLE METER
W445
TERMINAL NO.
ADJ $ ADJX TERMINALS ARE
L
LVE
FOR ARC TIMING W452
TE MICRO SWITCH FOR TV SPRAY W 455
FLEXIBLE AND MAY BE
CONNECTED TO SUIT THE
W429
PREVAILING VOLTAGE AT
W446
MACHINE LOCATION.
V
V VE W447M
TIME WATER VALVE SPRAY CYCLE W447S
FOR ARC LAMPS 4P DS448
-3-4-0-b W449
I
T
~Z
ARC LAMP LINES 85299-4
TERMINAI_
_
7
TERMINAL BL N( 115V FOR L & M 85334-2
U
40
F us A P5 LEFT ARC
- ' P RIGHT ARC
WIRI
FOR MV-N-S-W
NG DIAGRAM
U41
FOR X
PS
WEATHER -OMETER
RESISTAN
CE LEFT ARC X W450-L
HV-DL- TWIN ARC
RIGHT ARC W45 -R
ATLAS E
x
RPM 5HAFT
LECTRIC DEVICES CO.
Y
YL
R
EACTAN COIL LEFT ARC W451-L
CHICAGO ILL. U
S
A
RIGHT ARC
~4~;TANCE C011
.
.
.
W451-R
Kh.LA 10V. COIL 230V CIRCUIT
DRAWN
CHECKED
DATE
^D-CABLE
NO. WD
TRANSFORMER 230V.P 1OV.S,
G.W.
,4
Z
?l
12-1-1943
DR. NO.
4PT. K.S.
T-BLOCK
HV-1)L
g
o
5002.
S-101841
: 12943
Approved For Release 2001/11/21 : CIA-RDP80=00926A007800250001-0
LOI
? B2
Approved Fo1 w"1/11/21 : CIAeRDP80-00 6 Op7s 50001-6'~
INSTRUCTIONS
Type
Voltage
For the Installation and Operation
of the
FREEZING CABINET
FOR MINITS 604 D Operation
Serial No. SPA-417
Cycles 50
STS,
Sole Manufacturers
ATLAS ELECTRIC DEVICES CO.
INCORPORATED
CHICAGO, ILLINOIS, U. S. A.
UNCLASSIFIED
FADE-OMETER WEATHER-OMETER LAUNDER-OMETER
INTL
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
VA LV E /--Z ATL-
LOCATION
'
OIL FILLER
IRS u~..
?v
TEST
car-it
REC EVER"
"D ID u .
) OIL COOLER
COAAPRESSO1~.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
F F GU R E 1
ATLAS ELECTRIC DEVICES CO.
-".. CHICAGO, ILL.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Coifs sorb
D/SCH I4RG '
INTER STA(BE
PORT
S/D4 W i9 L. L.,.
PLATS
BOTTOM PLATE
~?,Bv~aW"
D/~Y< hoop
2 ~XPANSioM V~~V~S
SiGMT C41ASS
TEST Cock X"
CON, EN SER 1/,QL y E "C"' .--_,
N3T E -
ALL VALUES MARKED `-BV" ARE
LAR~ FSCRU
"U''-MAIN SUCT ioN
8 SOL- /V 0/0
OF THE -BONNET TYPE. THAT IS, D D
THE BONNET, DR PROTECT I VE
COVER MUST BE REMOVED.. I"N- 3RDER
TD ''LOSE OR OPEN THE VALVE,
AND REPLACE. THESE fRc F G ' /2 E 2
Prpproved For Release 2001/11/21 :C1A-RDP8
VALVES C. D. T AND U.
q A S CIRGu1T
II
SCREEN? L/QU/.0
VRL V
eve'
PRESSW E
GAuGr-
--9. 'A"'
COMPOUND
GAUGE
4/ i?,Q ES
SWITCH
Lout PRES.
SW/T Cy
R A C R c 7,
SW,7-ch
ATLAS . 8E CO.
009 z Ibi6 9oo6MMO F c 43
F'6w f.. z i 'zc Approved For-Release 2 01114 41>.,IA-R
THEPosrRr
111311
.,P e
S~/~TCH 1/q
?O?
Ct/ h ac t< 114 CLA Y c of 3 T13 44-4 CCU `
0-oo926Ab~7`bQ006 b3?-O QV
. 3PH, socy. Svl
I oYE R L 0A O
N?Co 14EATC(( COILS
z- A; R54s?~-1413("'B
- H1
PRES I
LTCH
L
1--6134-110
a.20"V. S0C-Y..
M07 o/-~ 22oV 3PH
PC it 3 H, P. tSoOR.P.AM,
40
-~-To CG, L k `'nl
SVV I T C H'
Approved For Release 2Q0,1/ 4/2~ ,AEI , RDP80-00926AO07800250001-0
FIGURE 3
SOi,E/VOlD
NN RIND
01AG1RHM
ATLAS ELECTO6C OEViCES CO.
- CHICAGO, ILL.
P/
.-0 J DWG. No.F C,43 I 011111111
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
3CPE F, A/
THERM'JSTATI' EXPANS I ON' VArLVE
"Hn
THE ADJUSTMENT OF THIS TYPE VALVE IS FOUND UNDER THE CAP ON THE BOTTOM
OF THE VALVE BODY. TO OPEN THIS VALVE TURN THE ADJUSTMENT STEM OUT OR TO
THE LEFT. TO CLOSE THE VALVE, TURN THE STEM IN OR TO THE RIGHT.-MOST
VALVES HAVE A SCREEN IN THE INLET OF THE BODY`. THIS SCREEN IS HELD IN
?'LACE BY THE INLET FITTING.
WHEN ADJUSTING A VALVE, MAKE NO MORE THAN ONE HALF (1/2)TURN AT A TIME
AND ALLOW 15 to 30 MINUTES FOR VALVE TO ADJUST ITSELF BEFORE MAKING ANOTF'
ONE HALF (1/2) TURN.
Approved For Release 2001/1.1/21 : CIA-RDP80-00926A00
71-4 F- RNA 0 - "H"
~X PANStohl V4LV&
ATLAS ELECTRIC DEVICES CO.
CHICAGO, ILL.
002& q01-0 D W G . Ne. FC 4 3
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
4" 1 S SECZflID NUT I'S THE
ADJUSTMENT MJ7.
8 uL. 8
our J ,9-T
TH'ERMDSTAT I C EXPANSI:YN VALVES *F-" & Iff-G-W
THE ADJUSTMENT OF THESE VALVES IS OBTAINED BY TURNING THE
SECOND NUT ON TOP OF THE VA LVE . THE LOWER NUr IS A PART OF
TAE VALVE BODY CAP. THE SECOND NUT IS THE ADJUSTMENT- NUT
AND THE THIRD IS A PACKING NUT THAT WILL ALLOW THE ADJUSTMENT
NUT TO TURN WITHOUT TWISTING THE CAPILLARY LINE.
TO OPEN THE VALVE, THE NUT IS TURN IN OR TO THE RIGHT.
TO CLOSE THE VALVE, TURN TO THE LEFT-, OR OUT.
TF~Ef~M u - F CT ,
F-XPANSION VNLVE$
F 1' U R E ATLAS ELECTRIC DEVICES CO.
5 CHICAGO, ILL.
Approved For Release 2001/1;1/21 : CIA-RDP80-00926A00 06 5fi01-0 DWG. N0? F C 43
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
To I P/ATE 1:
L 8' ~,~ 1~ , SCE , / V
///GN ~it'ES5 t1RE
C (JT OUT" SCA'EV
?L1?
H/G'i ~?R,~55 uRE
4 0 WS
LE A Al
L
U !1-,' !-
4 1' - L O W P R E S S U R E) NI' T F L
THE HIGH PRESSURE CONTROL IS SET WITH ABOUT 20 POUNDS DIFFERENTIAL AND CAN
BE CHANGED TO BREAK CONTACT ANYWHERE FROM 80# to 300 #. ADJUSTMENT IS MADE
BY TDRNING THE LARGE SCREW "L-1" WHICH WORKS AGAINST THE BELLOWS SPRING.
TURNING CLOCKWISE t-'4 WILL RAISE THE CUTTING OUT POINT. TURNING THE SCREW
COUNTER-CLOCKWISE ' WILL-LOWER THE CUTTING OUT POINT. THE DIFFERENTIAL
IS SET AS ABOVE NOTED AND MAY NOT BE CHANGED. IT IS NOT ILLUSTRATED HEREON.
THE LOW PRESSURE CONTROL HAS 'A DIFFERENTIAL ADJUSTMENT OF ABOUT 50 POUNDS
RANGE. THE CUTTING IN POINT IS SET WITH THE LARGE SCREP' "L-2" AS INDICATED
BY ARROW AND CHANGING THE DIFFERENTIAL "L-3" ?FILL DETERMINE THE CTITTING OUT
POINT AS INDICATED BY THE POINTER. ALL POUNDS SHOWN ON BOTH HIGH PRESSURE
AND LOW PRESSURE CONTROL ARE IN POUNDS PER SnUARE INCH. THE CONTROL IS SFT
FOR CUTTING IN AT 5 POUNDS, AND T TI UT AT 16 I HES OF VACUUM. THIS
CONTROL WILL NOT AFFECT TEMPERATURE. IT IS USED ONLY TO PUMP THE MACHINE
DOWN BETWEEN CYCLES AND SHUT DOWN PERIODS.
D/ FL / 1 IV T/ PL
CR, (J IV 0
IC
F' I G U R E Approved For Release 2001/11/21 : CIA-RDP80-00926AO07 0025090)1 -b
? iC '
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
MAGNET
C0N777 pI FFE RENT/flL. fr "
S P/z/ric,
,mart
BACK ACTING SWITCH " M "
THIS IS A PENN BACK-ACTING SVITCH WHICH BREAKS CONTACT AT 10 INCHES. IT
MAKES CONTACT ON A DROP IN PRESSURE AT 21 INCHES OF VACUUM.
CUTTING OUT ADJUSTMENT IS CHANGED BY TURNING THE SMALL SCREW "M-1" ON
THE CONTACTGR ARM THAT IS HOOKED TO THE BAKELITE PUSH ROD "M-3".
CUTTING IN POINT IS CHANGED BY ROTATING THE LARGE SPRING THAT WORKS
AGAINST THE BELLOWS PIN. THE CUTTING IN POINT IS LOWERED BY ROTATING
THE LARGE SPRING "M-2" IN A COUNTER-CLOCKWISE DIRECTION ~1 .
ROTATING THE LARGE SPRING "M-2" CLOCKWISE (i WILL RAISE THE CUTTING IN.
F.10URE 7
Approved For Release 2001/11/21 :CIA-RDP80-00926A001
3ACccAcTINc
SwITc H "M?
ATLAS ELECTRIC DEVICES CO.
~- ~-1 CHICAGO, ILL.
nnn~_n ow6 N ~"~Q
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
RECALIBRATI OA
of this Thermo-
Regulator is accomplished
in the following manner:-
1. Submerge the bimetallic
strip completely in some
medium, the temperature
of which may be known
or measured.
2. Turn both adjusting screws
Counter-clockwise *9--'\
to their initial position.
3. Set pointer 8 on the scale
to the temperature of the
calibrating medium by
2
loosening the locking.
screw 7 and rotating the
thermo-regulator head
to the proper point.
4. Lock head in place.
5. Loosen screw 12 and
rotate the element-
fastening sleeve 13 to
the correct position so'
that the contact arm is
in an intermediate position,
i.e., without touching
either contact.
6. Make sure that the contact
buttons on the arm will
strike the center of the
contacts on the adjusting
screws after final
adjustment. If-they need
raising or 'lowering, this
may .be adjusted byy sliding
1O4- DEAD
LocKIA/ct SCREW
Under certain circumstance
it may be desirable to
recalibrate or re-set the
mechanism of this Thermo-
Regulator after it has
been in use over a long
period of time, or after
its subjection to some
form of abase or misuse
has aporently changed its
calibration according to
the scale on the graduated
plate.
Instructions for proceeding
with Re-Calibration are
shown to the left of the
sketch.
T 14 E R M D- R E G U L A T :' R- "S
'the sleeve upward or
idwnw-ard before-locking the
set screw 12.
7. At this point, lock the sleeve
again with the locking screw* 12
whereupon the Thermo-Regulator
will be calibrated according
to the scale.
TN ERM (0
RE(;VLA-TVR
ATLAS ELECTRIC DEVICES CO.
CHICAGO, Ill.
4kCfA Approved For Release 2001/1.1/21 : CIA-RDP80-00926AO07 0 - owe. N.. FC. 43
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
T A B L E
NORMAL OPERATING HEAD PRESSURES AT CORRESPONDING
SUCTION PRESSURES
Temperature is
2 0" t o 1 0"
HEAD PRESSURE
SUCTION PRESSURE 0# to 10#
HEAD PRESSURE
161) C.
135-165
160-185
21? C
145-175
165-190
24? C
155-185
175-200
27? C
165-195
185-210
30? C
175-205
195-220
330 C
185-215
210-240
36? C
200-225
230-255
38? C
215-240
245-270
F I',. G U R E 9
TAH3LE
SUCTION PIYESSvf
ATLAS ELEC1IC DEVICES CO.
CHICAGO, Ill
Approved For Release 2001/11/21 : CIA-RDP80-00926A007~002 02 1-0 o.c. N? F C- a3
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
ID
J
TABLE DF r'UTT I'N'G-I'II' AND r'UTT I'r4G- .lT VALUES
The use of Freon Refrigerant "22" permits
the following inches of Vacuum at the
various degrees shown in Centrigrade:-
CABINET TEMPERAT LRE MUST HAVE THE FO LLOWI AG INCHES OF
AT VACUUM
MINUS C CUT-IN
CUT-OUT
51 6"
18k"
54 9"
20 "
57 12"
21*"
F I GU R E 13
Approved For Release 2001/11/21: CIA-RDP80-00926A007
TABLE OF-
CUTT!.tiq 0L~'T
ATLAS ELECTRIC DEVICES CO
CHICAGO, ILL.
00210(!-0 DWG N c. I' C- X13
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
CRAN'KrASE SEAL ASSEMBLY
:A.
S E-^ L. < y "
THE SEAL BELLOWS Y-2 IS SECURED TO THE SHAFT WITH A SEAL NUT Y-1 WITH A
SOFT COPPER GASKET Y-3 BETWEEN THE REAR PLATE OF THE BELLOWS AND THE
SHAFT Y-4 SHOULDER. A HOLE Y-5 IS DRILLED THROUGH THE SHAFT UNDER THE
SEAL BELLOWS FURNISHING OIL FPOM THE OIL PUMP TO THE INSIDE OF THE SEAL.
THE OIL THEN PASSES THROUGH THE GROOVES OF THE MAIN BEARING Y-6 IN THE
FRONT BEARING BACK TO THE CRANK CASE HOUSING.
SEALS CAN BE LAPPED SMOOTH IN THE FIELD ON A PLATE OF GLASS USING PUMICE
STONE AND OIL ON THE BRASS FACE. THE STEEL FACE OF THE BEARING PLATE
CAN BE LAPPED WITH FINE STEEL LAPPING COMPOUND AND THEN FINISHED WITH
PUMICE STONE. DO NOT USE COMPOUND ON BRASS FACE. USE ONLY PUMICE
STONE AND OIL ON BRASS.
F I GU RE 1f1
ATLAS ELECTTIC DEVi4,~.r ;J
CHICAGO Ill
Approved For Release 2001/11/21 CIA-RDP80-00926A00 8002~0g01-0 ~:~ N.? r `~ =~
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
- 1/4" PT.ARF ()TT. CONNECTION
1/2" I P INLEZ_\ 1 2" I. P OUTLET
i='
TOP PLATE
1~T
~i~TsA N(i8
{ SCREENS
..3./$? TAP
a I"L SEPARATOR " U U'"
Temp-Rite Oil Separator Size 3 with 1/2" Iron Pipe
Inlet and Outlet with Oil Return Line 1/4".
OBJECT:- To separate Oil Vapor from Gas Vapor under
high pressure. The two screens break up the oil
Vapor causing same to settle in bottom of chamber.
The oil is returned to compressor Crank Case through
a Float Valve. The refrigerant gas passes into the
condensor.
OIL S E P A R ATOR
U. U.
ATLAS E E ~iu>r~O~ 3 CO.
CHICAGO, ILL.
F` I 0i U R EApplbv l For Release 2001/11/21 : CIA-RDP80-00926A007801250'ff6 D--a- 9 W G. NP. FC 43
Approved For Release 2001/11121 : CIA-RDPZ 926 0~780025OU0 --
/!,_ w.mot-
UNCLASSIFIED
INSTRUCTIONS
For the Installation and Operation
of the
FREEZING CAE I,ET
FOR MINUS 60? C OPERATION
STATI
TL
Type FC.DR
Voltage
Serial No. SPA-417
Cycles 50
Sole Manufacturers
ATLAS ELECTRIC DEVICES CO.
INCORPORATED
CHICAGO, ILLINOIS, U. S. A.
UNCLASSIFIED
FADE-OMETER WEATHER-OMETER LAUNDER-OMETER
'Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
and
G E N E R A L I N FO R M A T I O N
on
ATLAS TYPE FC-DR REFRIGERATING UNIT NUMBER SPA 417
designed for
MINUS 600 C DUTY
Electrical Rating 220 Volts 3 Phase 50 Cycles
Alternating Current
PURCHASED ON YOUR ORDER 11-56/L-420534 DA-TYS-20861
Marnzfactured and Tested by
ATLAS ELECTRIC DEVICES COMPANY
361 W. Superior St.,
Chicago, Ills.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
IND BY TITLES TO ALL.
GENERAL INFORMATION AND TECHNICAL DATA
OF
FC-DR REFRIGERATING UNIT
SPA-417
SECTION PAGE TITLE
1 1 and 2 THE CYCLE OF OPERATION OF A TWO STARE COMPRESSOR
2 3 LIQUID LEVEL TEST COCK "X"
3 3 COMPRESSOR OIL PUMP "Z"
4 4 SHAFT SEAL "Y"
5 4 TESTING DISCHARGE VALVES OF COMPRESSOR
6 5 COMPRESSOR OIL "HH"
7 5 MOISTURE IN SYSTEM.
8 5 and 6 DRYER OR DEHYDRATOR
9 6 and 7 REMOVING AIR
10 7 HIGH HEAD PRESSURE
11 7 and 8 ELECTRIC DRIVE MOTOR
12 8 DEFROSTING THE CABINET
13 8 and 9 COMPRESSOR FAILURE
14 9 OIL FILLER PLUG "V"
15 9 LEAK TEST FOR FREON "22"
16 9 add 10 EXPANSION VALVES ~F", "G" AND "H"
17 10 'DUMPING DOWN THE SYSTEM
18 10 SHUTTING DOWN THE MACHINE
19 11 SERVICE VALVES "C", "D", "T" AND "U"
20 12 LI QU ID LINE SI GHT _ GLASS "EE"
21 12 GAUGES "A" and "E"
22 12 andl3 SCREENS "F11, "G" , "Hi, "K" and " J"
23 13 EXTRA SUPPLY OF FREON GAS AND DRUMS
24 13 &14 BACK ACTING SWITCH "M"
25 14 HIGH PRESSURE-LOW PRESSURE CONTROL "L"
26 15 OIL SEPARATOR "UU"
27 16,17,18
& 19 FOXBORO REGULATOR
28 19 MOTOR STAR TER"R"
29 19 &20 BOX CONSTRUCTION
30 20 SERVEL COMPRESSOR
31 21,22,23 STARTING THE UNIT
32 24,25 SERVICE ANALYSIS * No Refrigerat ia1
25 * Insufficient Refrigeration
$f 25) * Recommended Service Operations
-Leak Testing
26 -Discharging Ref.from System
26, 27 -Charging Refrigerant
27 -Purging Air from System
28 -Servicirg Valves
28,8: -Changing Valve Plate
29 FREON GAS "22"
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GLOSSARY OF PARTS AND SYMBOLS AS NOTED
in attached instructions
Mentioned in Section No.
Marked
Description Refers to Figure
13,18,21
A-
COMPOUND GAUGE
2
18,
B
SOLENOID VALVE
2
19, 27, la
CONDENSOR INLET VALVE
2
19, 27, 8S.
LIQUID OUTLET VALVE
2
21
HI PRESSURE GAUGE
2
16,21,22,27,89`
EXPANSION VALVE with SCREEN
2 and 5
16, 21, 22, 27, 22
EXPANSION VALVE with SCREEN
2 and 5
16,21,22,27,29
EXPANSION VALVE with SCREEN
2 and 5
22
IF
LARGE SCREEN
2
20,22,88
K
SCREEN
2
25,27
L
HI-LOW PRESSURE CONTROL
3
24
27
M.
BACK ACTING SWITCH
3 and 7
,
12,13,17,18, 27
N
TOGGLE SWITCH
a
27,
0
TRANSFORMER 220-110 Volts
3-
27
B
TRANSFORMER 110-24 VOLTS
13
MOTOR STAR TER C---
27
THERIUD REGULATOR (THERMOSTAT)
3 and 8
9P19,27
T
DISCHARGE SERVICE VALVE
5,13,19,21,22,27,88
U
SUCTION SERVICE VALVE
14
V
OIL FILLER PLUG
1
1
W
BULB ,
2
2p9
X
LIQUID LEVEL COCK
2
3..4.,2&-.
Y
SHAFT SEAL
11
3
Z
COMPRESSOR OIL PUMP GAUGE
1
88
AA
VALVE PLATE (LOCATION)
1
9,19,23
BB
1/8" PORTS
1
11
CC
ELECTRIC MOTOR
3
2
DD
RECEIVER
2
20
EE"
LIQUID SIGHT GLASS
2
7,8,20,88
FF
DRYER or D.Ed RAT OR
2
27
GG
OIL SIGHT GLASS
1
3, 6,29
HH
COMPRESSOR OIL
none
11,88
JJ
ALEMITE GUN
none
11,22
KK
ALEMITE FITTINGS
none
28
LL
MM
HOLDING COIL & HEATING ELEMENTS
FOR MOTOR STARTER "R"
SILICA GEL
none
none
8
NN
FUNNEL
none
27,11 _
00
GREASE FOR MOTOR
none
PP
RELAY-Clark-Bul 7030 Control,
3
1,15, 23
RR
DRUMS WITH REFRIGERATING GAS
none
23,
SS
FITTINGS FOR FREON DRUMS
none
27
TT
BELTS
none
15
UU
OIL SEPARATOR
12
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
LIST OF SUPPLIES FURNI SHE D
WITH FC DR REFRIGERATING UNIT SPA 417 MINUS 60?C
These parts are identified with the initials or numbers or both initial
and number, and the following will serve to assist in determining the
replacement for which we furnish such spare part:-
10
Package marked Is for replacement of Further Data
"B" Extra Solenoid Valve "B" Model 73 R J, w/ 7/32" Orifice
Device #30840, Inlet 3/8" IPS
Outlet 3/8" IPS 115 Volt 60 Cycle
Automatic Products Co-Milwaukee.
"F"
ffG"
"Hff
"K"
"AA"
Expansion Valve "F" Detroit Thermostatic Expansion
Valve No. 673 (2249) 3/8" Inlet,
Freon - 5/32" Orifice 1/2" Oulet
SAE, Max Press.15#,Length 40"
Expansion Valve "G" Same as for "F" )all 4 furnished
Expansion Valve "H" Same as for "F" )are interchange-
able with each
other for re -
placement.
Screen "K" Trapit Model 408 Type Ca, 3/8"
SAE Male Flare, made by the
Automatic Products Co.yilwaukee.
Shaft Seal "Y" 2 Servel Seal Assembly, with Servel
Plate Assembly, and with 2 Springs
241-142, 2 Gaskets 28-48, and 2
Gaskets R-3307.
2 each Gaskets 247-245, 247-305,
and 247-284 for Valve Plate.
"F?" Davison Dryer "FF" Mueller Brass Co., Dehydrator
A-13961 for Silica Gel, 1 ith 3/8"
Flare. (Port Huron, Michigan.)
"HH" Argon Oil Special Specially refined by the 3 0 Co
for Servel for Low Tem_,erature
Units such as this.
f1 jiff Alemite Gun for Greasing Motor
fflaff Alemite Fittings for Alemite Gun
"LL MOT OR STARTER sit of Heat' g l nen wand
ol ing of of oto~r tarter.
"MM" SILICA GEL 5 Lbs. Murphy&Irwin-Milwaukee.
"NN" Funnel for use with Silica Gel.
"00" 1 Lb. Pullman Fibre Grease.
"RR"' FREON GAS "22" 3 DRUMS Freon Gas t'22ff
ttSS" Approved For Flew /i1r1?U : CIA-RDP8O?92fr g?0@WOjqs
"TT"
Belts for Motor-Compressor Drive.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
LIST OF SUPPLIES FURNISHED (continued) (PATE (2)
WITH FC DR REFRIGERATING UNIT SPA 417 for MINUS 60? C
Package Marked Is for replacement of
ftvvft
. Further Data
TRAYS FOR SEMI LIQUIDS FOR TESTING PURPOSES Manufactured by
Atlas Electric
Devices Co.
ff"
ft yYft
FOKOBORO REGULATOR, is detaahed from
the cabinet proper, so as to
protect it in shipment to
destination.
CHARTS NO. 79308, to be used in the
above Foxoboro Regulator. These
are printed up in ratings graduated
from 120-0-60 all Centrigrade.
Manufactured by
Atl as Electric
Devices C.
Manufactured by
Foxoboro Mfg. Co.
Manufactured by
Foxoboro Mfg. Co.
"ZZ" Ink, Key, Set for Recorder
"AAA" Bonnet Wrench, with Adapter
to be used for t i ght en&ihg and
loosing various bolts around
the compressor and nE chine .
"BBB" Drip Pan, with Base, attached to rear
of cabinet for acceptance of
moisture after degrosting, and
oil drips
1ti P P a. /~k-* q
7.303 ~'U~-v W VI
Manufactured by
Ftxboro Mfg. Co.
Furnished by the
Atlas Electric
Devices Co.
Manuf a ctir ed by
Atlas Electric
Devices Co.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
LIST OF EXHIBITS ATTACHED
DRAWINGS
Figure
Description - Marked with Data
Shows a diagramett& sketch of the compressor FC-43
unit assembly in the lower compartment
of the Freezing Unit.
Shows the Inter-relationship of various Valves Gas Circuit
Switches, and control, their location as
compared to each other, and their identifi-
cation in the General Information Section,
Starting the Unit Section, and Service
Analysis
Shows the Wiring from Power ITu ply through the Wiring Diagram
various Controls ' ~'
Shows a Diagramatic Sketch of Expansion ValvettHtt Thermo tnH"
ExpansionValve
Shows a Diagramatic Cross Section Sketch of
Expansion Valves ttFtt and t"Gtt
Shows a Diagramatic Sketch of Hi-Low
Pressure Control
Diagramatic Sketch of Back Acting Switch "M"
Shows a Diagramatic Sketch of Thermostat "S"
Shows a Table of Normal Operating Head
Pressures at Corresponding Suction
Pressures
Table of Cutting In and Cutting Out Values
Shows the Crank Case Seal Assembly
Diagrametic Sketch of Oil Separator "UtI"
with explanation of its function
Servel, Inc., Service Manual
describing all the parts fob the
Compressor operating the Unit SPA-417
"F" and "G"
ExoansionValves
Hi-Low Pressure
Control
Back-Acting "M"
Thermo-Regulatc "S"
Table -Suc tion
Pressure
Table of Cutting
In and Out
Crank Case Seal
Oil Separator
t"UUtt
Published by the
Servel, Inc.,
Evansville,Ind.
U.S.A.
Photostatic copy of the Chart, showing
48 hour operation continuous cycling
at our premises April 4-5-6, 1943. None
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 1
THE CYCLE OF OPERATION OF A TWO STAGE COMPRESSOR
It is generally considered inadvisable to employ ordinary refrigerating
compressors of the Single Stage type directly on evaporators involving
temperatures below Minus 40? C, using Freon 22 as the refrigerant.
At minus 40?C, the refrigerant pressure in the evaporator is
approximately 0 pounds pressure per square inch. Assuming a 165 pound
to 190 pound gauge head pressure, would mean a compression ratio of
15 to 1. By splitting the compression into two steps, compression can
7gd held to 5 or 6 to 1 in each step, and thus obtain high efficiency
in compression and over-all performance.
The suction gas from the evaporator is fed to the main suction of the
compressor, and is compressed by three (3) pistons, thus raising the
pressure of the gas from the low vacuum of 17 to 22 inches to approximat ely
5 pounds per square inch.
After being conpressed in the three cylinders of the first stage, it
passes through the respective discharge valves and is then fed into
the suction side of the one cylinder of the second stage, where it is
recoup ressed from 5 pounds to 165 to 190 pounds. his action is
possible because the suction gas from the main evaporator at 20 inches
vacuum is so rarified that three cylinders even at 5 pounds discharge
will not supply sufficient volume to feed the one second stage cylinder.
Obviously for Minus 60?C operation, this same engineering was Advisable.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 1 (continued)
THE INTER-STAGE OR SECOND STAGE
The interstage is made up of as an auxiliary evaporator operated in
multiple with the main evaporator, and with a separate expansion Valve "H"
but with its suction feeding into the interstage instead of the main suction.
This evaporator is only for the purpose of cooling the second stage
cylinder.
After the suction gas from the main suction has passed through the first
stage, and is compressed, it becomes ielatively hot the to the heat of
compression and if it were fed directly at this high temperature into the
single cylinder of the second stage, it would have a tendency to burn up
the valves, and decrease the over-all efficiently.
The expansion valve of the second stage should be nearly closedo When
the machine is started up, it will be found that the interstage pressure
will be about 30 pounds gauge. But when the low temperature is reached
the pressure will vary from one (1) pound to Twelve (12) pounds. It is
desirable to have a cool suction line into the second stage but not a
frosted line. The frost should taper off about six (6) inches from the
location of the expansion valve Bulb. In the event that the valve should
have to be changed, the new bulb "W" can be strapped in the suction line
at this location instead of inserting the bulb in the line. Cut the old
bulb line off approximately two (2) inches from the suction line and
solder it closed.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 2
LIQUID LEVEL TEST COCK "X"
The Receiver "DD" is equipped with a Liquid Level Test Cock "X", which is
a small Purge Valve, with a 3/16" square key. To the Test Cock "X" is
attached a small tube ending about 1/3 way up in the Receiver "DD". If
the liquid refrigerant stands up to the end of this tube, it can be drawn
off through the Test Cock "X". This is the normal reserve to be main-
tained in the receiver "DD" . It should be checked with the machine in
operation, at about the lowest suction pressure at which the system
normally operates.
The liquid level will vary slightly with the suction pressure, being
LOWEST at the lowest evaporator temperatures. In testing, "crack", or
.open slightly, the Test Cock "X", and if gas VAPOR emerges add
refrigerant until test shows that the gas is in LIQUID state.
SECTION 3
COMPRESSOR OIL PUMP "Zt' Figure 1
The amount of oil pressure will depend on the suction pressure in the
crank case and on the temperature of the oil. The oil will have a
HIGHER PRESSURE at higher crank case pressure; and LOWER PRESSURE at
low crank case pressure. For example, at a crank case pressure which is
read on the compound gauge on the front panel of 0 pounds the gauge on the
oil pump may read 50 to 60 pounds. At a suction pressure of 20 inches, the
oil pump gauge should read at least 15 pounds (15 lb, pressure above 0#
plus 10 lb. below 0#)s so that the actual oil pressure should read
approximately 25 pounds. A positive oil pressure is necessary to raintain
adequate lubrication of the bearings, and also proper lubrication and
COOLING OF p _Tv%$FFZ IIe %ase 2,q.Qe// 21,~0Cl 1F P -j(~9 f 6AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
GENERAL INFORMATION
SECTION 4
SHAFT SEAL "Y"
The seal bellows is secured to the shaft with a Seal Nut "Y-1" with a
soft copper gasket "Y-3" between the rear plate of the bellows "Y-2" and
"Y-5"
the shaft "Y-4" shoulder. There is a hole/drilled in the shaft under the
seal bellows that furnishes oil from the oil pump to the inside of the
seal. The oil then passes through the grooves of the main bearing "Y-6"
in the front gearing back to the crank case housing.
Seals can be lapped smooth in the field on a plate of glass using pumice
stone and oil on the brass face. The steel face of the Bearing Plate can
be lapped with the fine steel lapping compound and then finished with
pumice stone.
CAUTION Be sure parts are cleaned after lapping. DO NOT USE COMPOUND ON
BRASS FACE. Use only pumice stone and oil on brass. Make sure the
Oil Ports in the shaft are clean.
TESTING DISCHARGE VALVES OF COMPRESSOR.
To test discha rge valves, run machine down on a vacuum and close the
main suction Valve "U". A rapid rise in pressure in the crank case
indicates that one or more of the first stage of discharge is leaking
pressure back from the second state. A slow rise is normal due to the
second stage high pressure leaking back by the piston.
Approved For Release 2001/11/21 : C41A-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INF OR MAT I ON
SECTION 6
COMPRESSOR OIL 11HH1T
At the time of shipment, the unit is filled with the proper amount of
oil, which is approximately 10 pints. It is of special characteristics,
and for that reason an extra supply of 5 Gallons is furnished in the
supplies shipped with the machine. It has a viscosity of 320 rated at
37?C. Check the amount of oil in the unit when the machine is off. The
correct amount is one half way up on the sight glass in the crank case.
THIS OIL WILL ABSORB MOISTURE FROM THE AIR, consequently it is imperative
that you keep in air tight container at all times. Further, it is
naturally expected that the oil used should be Free Flowing at the low
terrpmrature for which this Freezing Cabinet Specifications call for,
namely, Minus 601C. The oil we furnished is of that type.
SECTION 7
MOISTURE IN THE SYSTEM
Moisture in the system will cause the Valves to stick, and give an
erratic action. Moisture will also cause the oil to de-wax and
separate. Whenever it is necessary to change a Valve or have the
system open for any length of time, Change the Dryer "FF".
SECTION 8
DRYER - ""FF11" DAVISON N K
The Dryer "FF" is filled with Silica Gel "I]M", and has the action of
sbsorbing moisture as gas passes through it. The Dryer has screens at
both ends, but one end has several small screens to stop fine particles
of dirt or silica from passing into the system. BE SURE THAT DRYER IS
PLACED WITH OUTLET IN THE RIGHT DIRECTION. Dryers are refillable, but
care should be taken in keeping the unused portion of Silica-Gel from
Approved For Release 2001/11/21 : 61A-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
SECTION 8 (continued)
DRYER "FF"
BEING EXPOSED TO THE AIR. A Funnel is furnished Marked "NN" for refilling
the dryer.
In an emergency, one end of the Dryer can be capped and other hooked to a
vacuum pump, and in this manner place the Dryer in an over of not over
97?C, and leave to heat for at least four (4) hours. This is not good
practise, however, as the Dryer will contain some oil that will burn and
char, and this method will only net approximately 40% efficiency.
SECTION 9
REMOVING AIR
The presence of air in the system indicates moisture has been drawn in
and is especially harmful. To remove air, turn machine off and "crack"
(meaning opening slightly) the Discharge Service Valve "T", until the
Head Pressure has dropped to normal. This nay have to be done several
times. The Discharge Service Valve "T" on the head of the compressor is
of the Back-Seating Type. When the stem is all the way in, the line from
the condenser to the compressor is closed. When the stem is backed all
the way out, the valve is open to the condenser and closes the 1/8" Port"BB"
in the valve. With the Valve Back-seated, the 1/8" Iron Pipe Plug can
be removed. Now open the valve a little, and oil and air or gas will come
out.
When purging air out of the system, oil and gas will also escape, but not
enough oil will be lost to affect the machine, but enough gas may be lost
to warrant replacing it. Check the Test Cock "X" meat oned in Section 2 for
gas level Ap(2Fcififlr lg%.IgaWO29WJ11 1X.CI QP> QO U0-65QQQ1 por Form, and
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Section 9 (continued)
REMOVING AIR
not condense. The air will usually stay up in the condenser. When the
system has air in it, the Head Pressure will be too high. (Refer to
Figure 9 for values).
SECTION 10
HIGH HEAD PRESSURE
High Head Pressure does not always indicate air in the system. If the
condenser is dirty, and the air restricted around the machine, the Head
Pressure will rise above normal. When starting the machine up, the
Head Pressure should drop to normal as per chart 9. The Head Pressure
chart does not always hold true, and the machine might be 10 pounds over
the temperature pressure chart due to conditions that are not visible
to the eye.
SECTION 11
MOTOR
3 H P 220 Volt 50 Cycle U. S. Ball Bearing Drip Proof Type
The motor is of the Air Cooled Drip Proof Type, and is rated at 220 Volts
50 Cycles 3 Phase Alt ertflating Current. The Motor Starter "R" has a reset
protection to prevent damage to the Motor "CC". The motor should be
lubricated with the grease provided with the use of an Alemite Gun "JJ"
after it has been in operation for approximately six months, as the motor
is filled with grease when shipped from the factory. To lubricate the
motor, the operator will notice that there are two 1/8" Iron Pip Plugs on
each bearing housing. Insert the Alemite fittings "KK" in the upper hole,
and remove the plug from the lower hole. App'y the grease pressure until
grease shov&plrflvAFeor eJfja
j/1130 :nCdM F 80gMPOOw g oit-oving the
7
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
GENERAL INFORMATION
Section 11 (continued)
MOTOR
second plug as grease would then be forced into the bearing sleeve, and
damage the inside of the motor. Also too much grease in' the bearing housing
will cause overheating of the motor, and subsequent damage.
SECTION 12
DEFROSTING THE CABINET
Defrosting the cabinet is done in two ways. One is to scrape the surplus
frost from the cabinet walls with a wide putty knife. SCRAPE ---- DO NOT
PICK, OR HAMMER OFF, THE FROSTING. The other way that is more satisfactory
but not as fast is to turn the machine off with the Toggle Switch "N" on
the front panel, but leave the Main Power supply on. Door can be opened
to hasten the defrosting. The machine will run in short cycles, and pump
down, but no refrigeration will take effect.
SECTION 13
COMPRESSOR FAILURE
In the event the unit is electrically energized, and no refrigeration is
taking effect, a serious condition may result. We suggest calling in your
maintainence man. Some times the back pressure due to some difficulty will
rise about 25 pounds. In that case the compressor will stall and throw the
reset button of the Motor Starter "R". To remedy this, the Main Suction
Service Valve "U" should be closed tight, and the reset pushed in so that
the crank case will free itself of gas. After several starts, the crank
case will drop down to a vacuum and pump will run free again.
Approved For Release 2001/11/218 CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 13 (CONTINUA)
COMPRESSOR FAILURE
While doing this be sure the toggle switch "N" on the Front of Control Panel
is in an "Off" position. After the crank case is free, open the suction
line very slowly, until the low side coil has been cleared of high pressure
gas as shown on Compound Gauge "A". Now the Toggle Switch "N" may be turned
on again.
The reason the machine stalls is that the compressor is desigend to handle
the rarified gas and if suction pressure is too high, it crowds the second
Stage of Compression.
SECTION 14
QIL FILLER PLUG
Do not tighten Oil Filler Plug "V" too tight. Use some form of sealing
compound, such as Glycerin Litharge on the threads as a sealer.
SECTION 15
LEAK TEST FOR FREON 22
The leak test for Freon 22 is done with any good testing torch, such as
the Halide, for instance. The manufacturer of such torch will provide
information as to means to test for leaks. Generally oil around a fitting
or bolt is a very good indication, BUT DO NOT RELY ON OIL AROUND THE BOLT
OR FITTING TO INDICATE SUCH A LEAK.
SECTION 16
EXPANSION VALVES "Ffl
't G tt it Htt
All expansion valves are factory set and should not be adjusted until the
Approved For Release 2001/11/219 CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
GENERAL INFORMATION
SECTION 16 (continued)
EXPANSION VALVES
valve has had time to adjust itself to the system. When adjusting, make
only half a turn at a time on the adjustment. It sometimes takes from 20
to 30 minutes for one adjustment. Refer to Figures 2, 4, and 5.
SECTION 17
PUMPING DOWN THE SYSTEM
When the system is not to be used for several days, the Main Power Supply
should be left on, and turn the Toggle Switch "N" off on the front control
panel. The machine will pump down and shut off of its own accord.
If the main power supply is turned off, the gas will expand when the
cabinet warms up, and do some damage to the compressor or expansion valves.
SECTION 18
SHUTTING DOWN THE MACHINE
To shut down the system, either for moving from one location to another,
or if desired not to use for some period of time, the method is to follow
the PUMPING DOWN procedure outlined in Section 17. After the cabinet has
defrosted and all the gas has been pumped into the Receiver, Turn Toggle
Switch "N" on momentarily, whi4hopera the solenoid "B" enough to show 0 to
5 pounds on the Suction Gauge "A". Now close all valves and disconnect
the power.
10
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
GENERAL INFORMATION
SECTION 19
SERVICE VALVES
All service valves are of the Bonnet Type. This means that there is a
"bonnet" or protective cover, which must be renvved in order to close or
open the valve, and replace. There are four (4) Service Valves:-
1. MAIN SUCTION SERVICE VALVE "U", is located on the side of the compress-
or and the large suction line is flanged to it. This valve is of the Back
Seating Type, and the 1/8" Iron Pipe Plug Port "BB" is closed if the valve
stem is backed all the way out. This port is for charging gas to the
system, and to install an extra gauge to check the system. Also the gas
can be by-passed from the Head into the Low side through this port to
raise the pressure for leak testing.
2. DISCHARGE SERVICE VALVE "T" is located on the side of the head of the
compressor and connects to the condenser tube. This valve is of the Back
Seating Type, and has an 1/8" Iron Pipe Port "BB" that can be removed,
and connections made here to purge air off, or discharge the gas from
the system into a tank, or by-pass to the Low Side.
3. ONE-WAY SHUT OFF VALVE "C" is at the inlet of the Receiver and connects
to the outlet of condenser. Must be open whenever the machine is running.
4. ONE-WAY SHUT OFF VALVE "D" At the outlet of the Receiver connects the
liquid line here and supplies the expansion valves with the liquid. This
valve has a dip tube on the bottom that picks the gas off the bottom of
the receiver. Theyystem will not work unless the liquid gas is
delivered to the expansion valves.
NOTE: VALVES "C" AND "D" appear alike, the difference being that
Valve "C" has no dip tube, whereas "D" has a dip tube.
All Service Valves have a cap over stem to insure against leaks.
Approved For Release 2001/11/2111CIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
SECTION 20
LIQUID LINE SIGHT GLASS "EE"
The Liquid Line Sight Glass "EE" is located in the Liquid side of the system
beyond the Dryer "FF" and Screen "K" and Solenoid Valve "B". This glass will
be solid with liquid and show no bubbles if system has plenty of gas, and the
..Dryer or Screen are not restricted and Solenoid is wide open. If the Dryer,
Screen, or Solenoid Valve should restrict the line, the glass will show bubbles
or foaming, or that the system is short of Freon 22.
SECTION 21
GAUGES "A" AND "E"
The system is equipped vid. th Two (2) Indicating Gauges:
1. A High Pressure Gauge "E" has a range from 0# to 300# and is connected with
a small copper tube to the discharge service Valve "T" of Figure 1. This
gauge will indicate the pressure on the condenser, receiver and Liquid line,
and up to the orifice of the Expansion Valves "F", "G" and "H".
2. A Low Pressure Gauge "A" has a range from 30" to 100 pounds of vacuum and
is connected with a small copper tube to the Main Suction Service Valve "U".
This gauge will give the pressure reading from the Expansion Valve orifice
through the low side coil and the crank case of the compressor.
SECTION 22:
SCREENS
The system has Five (5) Screens:-
1. Screens "F", "G" and "N" are a part of Magnetic Valves "F", "G" and "H"
shown on Figure 2, and are also further detailed on Figures 4 and 5. These
proved For Releass 2001/11/21 : CJA-RDPT0- 0926AO07800250001 " "
will be seen be on the n et connection o t e ree expansion Valves F ,
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
Section 22 (continued)
SCREENS
"G" and "H".
2. Screen "K" on Figure 2 is located between the Dryer "FF" and Solenoid
Valve "B" and is of secondardy value and is inserted as an added precaution
to prevent dirt from getting into the valves.
3. Screen "J" is a large screen in the suction line located at the Main
Suction Service Valve "U". This screen is flanged and can be opened for
cleaning.
All screens can be cleaned with Naptha and should be dried thoroughly before
installing back into the system.
SECTION 23
EXTRA SUPPLY OF DRUMS AND REFRIGERATING GAS FREON "22"
An additional supply of Freon "22" is provided, sufficient for a Single Re-
charge of the entire system. These drums are of the approved test type, and
when supply of refrigerant Freon "22" has been removed, care should be taken
to refill with the same type Refrigerant, Freon "22". The use of any other
refrigerant will not permit the best results to be obtained, and will result
in trouble in attenipting to secure lowest temperatures, as are desired.
The drums should be stored in a cool room temperature not over 50?C. Fittings
"SS" are provided with the supply items to fit the 1/8" Pron Ports "BB" in the
Service Valves of the Machine.
SECTION 24
BACK ACTING SI-TICH "Mt', FIGURE 7
This is a Penn Back Acting Switch, which breaks contact at 10 inches. It makes
contact on a pov # 2 1A /2~4 ~?A 2 $OY( J b~A~078~~ ~0 t adjustment
Approved For Release 2001/11/21 : CIA RDP80-00926A007800250001-0
GENERAL INFORMATION
Section 24 (continued)
BACK ACTING SWITCH "M"
is changed by turning the small screw"M-1"on the Contactor Arm that is hooked
to the Bakelite Push Ro&"M-3':
The Cutting-In point is changed by rotating the large spring that works against
the bellows pin.
Rotating the large spring "M-2" Counterclockwise will lower the cutting-in.
Rotating the large spring "M-2" Clockwise will raise the Cutting-in.
SECTION 25
HI-LOW PRESSURE CON2ROL "L"
Refer to Figure 9 for selection of the highest Head Pressure that would be
considered safe above operating pressures. See also Figure 7.
The High Pressure Control is set with about 20 pounds differential and can be
changed to break contact anywhere from 80# to 300#. Adjustment is made by
turning the large screw "L-1" which works against the bellows spring. Turning
clockwise will raise the cutting-out point. Turning Counterclockwise will lower
the cutting-out point. The differential is set as above noted and MAY NOT BE
CHANGED. It is not illustrated on Figure S.
The Low Pressure Control has a differential adjustment of about 50 pounds range.
The cutting-in point is set with the large screw "L-2" as indicated by arrow
and changing the differential "L-3" will determine the cutting out point as
indicated by pointer. All pounds shown on both High Pressure and Low Pressure
Control are in pounds per square inch. The control is set for cutting-in at
5 pounds, and cutting out at 16 inches of Vacuum. This control will not affect
temperature. 34$p 8veWigo4 Aet0W h1t 1A 1 -96b71 'bycles and shut
down periods. 14
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 26
OIL SEPARATOR "UU".
Please refer to Figure 12, which is a diagrametic sketch of this
important feature of the Refrigerating System for Low Temperatures.
Facing the lower section of the Freezing unit from the front, you
will find this device located to the left of the electric motor
unit, standing upright, and which is marked as a Temp-Rite Oil
Separator. This is a Size 3 unit with 1/2" Iron Pipe Size Inlet
and Outlet with oil Return Line 1/4$.
The object of this accessory is to separate Oil Vapor from the Gas
Vapor under high pressure. The Two Screens break up the Oil Vapor
causing it to settle in the bottom of the chamber.
The oil is then returned to the Compressor Crank Case Through a
The refrigerant gas passes into the condensor.
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
15
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
SECTION 27 MAINTENANCE
FOXBORO RECORDER CONTROLLER
. PEN ARM - PENS
Removable Pen Arms
To prevent damage to pen arms, it is advisable
to remove them when work on the instrument ne-
cessitates the removal of the chart disc, especially
when the pen lifter has more than one arm.
To Remove Pen-Arm: Hold the pen-arm bracket
(Item 11, Fig. 5823) to prevent side motion and
springing out of calibration. With fingernail, knife
blade or small screw driver raise the upper end of the
pen-arm over the stud, at the same time sliding the
pen-arm downward.
To Replace Pen-Arm: Hold the pen-arm bracket
with fingers to prevent springing out of calibra-
tion. Place the pen-arm in position so that the
rivet in the pen-arm will slide into the slot in the
bracket, and the open end of the pen-arm will
slide over the taper stud. With the pen-arm in this
position, simply push it into place.
V-Pens
Caution: Do not change angle of pens from that
shown in Fig 3207. Pens for a two pen instru-
ment are shown. In a single pen instrument, the
pen makes a right angle with the chart.
Fig. 3207
To Ink a "V" Pen: Use the dropper, and put a
drop or two of ink in the pen. At normal tempera-
tures and with ordinary records, this amount will
last for days. See if the ink is feeding by drawing a
piece of smooth paper across point of the pen. If
the ink does not flow freely, a moistened piece of
paper held against the pen point will start it.
"V" Pen Adjustment: Careless handling in trans-
portation may alter the correct adjustment of the
pen. Slip the pen in or out of the holder (it is only
friction-tight) until it touches the chart. Do not
bend the pen-arm to obtain adjustment. If, after
long use, the pen makes a heavy line, it is wasting
ink. Put in a new pen.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250jQ8 01 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Fig. 4015
Fig. 5823
KEY TO FIG. 4015
KEY TO FIG. 5823
1.
Time Set Pointer
11.
Pen Arm Bracket
2.
Guide Finger
12.
Lugs
3.
Pen Lifter
13.
Chart Disc Stops
4.
Wire Chart Holder
14.
Projection
5.
Chart Hub Holder
15.
Chart Disc Stop
6.
Wedge Fasteners
16.
Thumb Piece
7.
Clip
17.
Finger Holes
8.
Slot in Chart Disc
18.
Stop
9.
Chart Hub
10.
Pen
Chart Holder (Fig. 4015)
The chart holder assembly is fastened directly
to the case, but it is unnecessary to remove it when
removing the chart disc or changing the chart. It.
consists of a rigid arm chart hub holder (5) and
semi-circular wire chart holder (4). The loop end
of the wire chart holder is caught in a slot (8) in
the chart disc which keeps the wire chart holder in
position and holds the chart flat against the disc.
The chart hub (9) is held in the crook at the end of
the chart hub holder (5), always in position to be
snapped back on the chart hub base after replace-
ment of the chart.
To Change Chart
Lift Pen: Place finger tip under the lever aria on
the pen lifter (3) and raise the pen lifter.
Remove Chart: Place the tips of the first and
second fingers behind the knurled rim of the chart
hub. Press the button in center with thumb. The
chart hub will release instantly. Remove the chart.
(If the instrument contains a mechanical clock,
be sure the spring is wound sufficiently to run
proper period of time. Do not wind too tightly).
Replace Chart: Slip the chart under the wire
chart holder, pen index, pen lifter, and time set
pointer (1). Place hole in the chart over the-collar
on the chart hub base and insert the hub in the
base. Grasp the hub by the knurled rim and push
straight in. It will automatically snap into position.
Do not press guide finger on the time set pointer
toward the chart disc as this will cause the chart
to stick and prevent its turning easily.
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250gOA2 32441
2& 17
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Adjust for Time: Turn the chart hub to the left
until the proper time arc is indicated by the time
set pointer. (Note day and night sections on chart.)
Ink pen as described on the following page and
close door. The pen will be automatically adjusted
to the chart when the door is latched.
Time Set Pointer (Fig. 4015)
The time set pointer (1) is properly adjusted
when the instrument leaves the Factory and sel-
dom needs adjustment. It is designed for ease in
accurately adjusting the charts to the desired time
are, so that it is not necessary to have the pen on or
near the chart to adjust the chart for time. The
guide finger (2) on the time set pointer is for the
purpose of guiding the chart under the time set
pointer. The time set pointer and the pen point
must indicate the same time arc.
To Adjust Time Set Pointer: Place the chart on
the instrument. This adjustment should be made
when the pen is near the outer edge of the chart be-
cause the chart can be located more accurately when
the pen is in that position. Be sure the chart disc
(see below) is in position. Slightly loosen the two
screws that hold the pointer to the chart disc. Turn
the chart until the pen point rests exactly on the
time arc. Adjust the time set pointer to indicate the
same time arc. On instruments subject to overrange
the time set- pointer should be set so that the pen
point will pass the pointer. Tighten the two screws.
Chart Discs
The wedge-fastened chart disc (Fig. 4015) is
readily recognized by the odd-shaped hole around
the chart hub and the two finger holes above and
below the hub.
The self-locking chart disc (Fig. 5823) is readily
recognized by the mall egg-shaped hole around
the chart hub and the finger holes (17) on the
right-hand side.
Wedge-Fastened Disc (Fig. 4015) : The chart
disc rests on several lugs on the side of the case
and is held in place by sliding wedge fasteners (6)
and a notch under the pen lifter (3). It is also held
rigidly below the chart hub (9) by a clip (7) which
pivots on the lower clock screw. To remove the
disc, first twist the lower end of the wire chart
holder (4) in a counter-clockwise direction until
the end loop can be pulled through the slot (8) in
the disc. Turn the clip (7) slightly to the right to
release the chart disc. Slide out each wedge fastener
(6) with the thumb or the forefinger, grasp the free
end between the thumb and the finger and push into
the slotted post. Remove the chart disc with a slight
outward pull to lift it over the wedge fasteners and
a slight downward motion to free it from the
base, of the pen lifter and the chart holder mounting.
To replace the disc, reverse the above operation.
Self-Locking Disc (Fig. 5823) : The Foxboro
self-locking chart disc rests on four lugs at (12).
It is correctly positioned by stops at (13) and (15),
and held in place by projections (14) and (15) and
the clip (7).
To Remove Disc: First raise the pen lifter and the
chart hub. Release the lower end of the wire chart
holder by turning counter-clockwise until the end
loop can be pulled though the slot in the disc.
Catch this end around the chart hub. Push the thumb
piece (16) clockwise, which releases clip (7). Grasp
the disc through the two holes (17), remove with a
motion to the left and then a slight outward move-
ment to the right.
To Replace Disc: First place V-notch in the left
side of disc firmly against the V-shaped stop (18)
with the upper edge of the notch resting on lug (12)
adjacent to stop (18). Move the disc in until it
rests on the other three lugs and to the right against
the right hand stop, (13) (it automatically centers
itself against the other stops). Swing clip L counter-
clockwise until it locks over the disc in the notch.
18
Approved For Release 2001/11/21: CIA-RDP80-00926A007800250001IPX-3 32441
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INF ORMAT ION
Section 27
FOXBORO REGUt .TOR
In its function for recording low temperatures on your particular
unit, the use of Charts No. 798308 is made, indicating temperatures
ranging from 120?C - 0 - Mtnus 60?C.
SECTION 28
MOTOR STARTER
The unit is equipped with an automatic motor control starter, known
as the Cutler Hammer Bulletin 9586. It has a reset button in the
front panel of the starter, which is to be used as instructed under
the service Analysis Section. In construction iii consists of
contactors for the three phase circuit, elements rated in accordance
with the size of the motor, and holding coil. The elements, or
thermal overload relays are already assembled in the box. Two spare
sets accompany the shipment of the complete Refrigeration Unit.
BOX CONSTRUCTION
The skeleton frame work of the Freezing Unit is made up of heavy duty
Angle Iron, and measures 69-4/2" x 56" x 52". It is made up in two
sections, an upper and lower. The lower section contains the entire
refrigerating machinery complete, with suitable provision made for
the circulation of air for all parts, for cool operation. All vv ring
so far as was practicable has been placed in the front of the machine
proper, and the compressor, oil separator and motor occupying the
Approved For Release 2001/11/21 :1gJA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
GENERAL INFORMATION
SECTION 29 (contined)
BOX CONSTRUCTION
center portion. The back of the lower compartment is used merely for the
connecting pipes, and the left hand portion (facing from the front) has
further piping.
The Upper compartment is securely fastened to the lower section. The
Freezing Chamber is located in the upper section, with inside measurements
of 20" x 36" x 37". Suitable provision was made to hold one of the
Interchangem ble gums purchased on your order, which is markdd Item 1-15,
A lot temperature of Minus 60?-C has been provided for, in accordance with
specifications. The unit has been sutrdily built along t1m usual Atlas
lines, and sufficient refrigeration is to be had for quickly lowering
the temperature of the box to the desired degree.
The door of the Freezing Chamber is 5-1/2" thick, and the walls are
adequately provided for with insulation to eliminate outside room
temperature affecting the cycle of refrigeration.
SECTION 30
REFRIGERATING COMPRESSOR
From an engineering standpoint the most suitable refrigerating compressor
was used in the fabrication df your unit. We will not attempt to give you
all the construction details and advantages of the Compressor unit, all of
which is fully described in our General Information Section in detail. The
unit is known as Model SE 88, Serial 37735 SRA. Test Pressure is 250 lbs.
on the High Side and 150 Pounds on the low side.
Approved For Release 2001/11/21 : %bA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
SECTION 31
STARTING THE UNIT
A. Before attempting to start the unit, we suggest that a thorough
review be made indicated in our General Information with frequent
reference being made to the sketches attached hereto as a guide to
the various parts which are employed in starting the unit, in
maintaining the desired temperatures, and the subsequent operation
of the Freezing Cabinet under the most desirable circumstances.
First of all, check over the wiring and Power Supply.
Next, and an item which is extremely IMPORTANT, make certain
that the motor when energized is running in the proper direction. Your
unit should have the motor running in the direction so that the
compressor pulley is operating in a clockwise direction, looking
in the bottom section of the box from the rear.
B. You are now ready to adjust the Valves.
1. Open Valve "U" all the way, then close it two turns. Open
Valve "D" until pressure rises on low side gauge to approxi-
mately 35 or 40 pounds. Leak lest System with Halide Torch.
This leak test need not be made particularly with the Halide
torch indicated, but a good make should be used as a precaution.
Approved For Release 2001/11/21 : CIA DP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Be 2. Open Valves "T" and "C". If there were no leaks, Valve "D" may be
opened again and system and power supply turned on. If there is a
leak, leave Valve "D" closed and pump the pressure down to
approximately 2 or 3 pounds, before making repairs.
Co CHECK THE CONTROLLING DEVICES
1. The High Pressure Cut-Out "L" is a Safety Device only and will stop
the motor in an emergency.
2. Power for the Thermostatic Control "S" is taken from one side of the
line, 220 Volts, and reduced through a Transformer "0" to 110 Volts.
A second transformer "P" reduces the current to 24 Volts.
3. Thermostat "S" makes contact when satisfied. When satisfied, the
relay "PP" falls into position, closing the Solenoid Valve "B", cut-
ting in the Lows Pressure Switch "L" in the motor starter circuit.
When Thermostat is calling, the motor starter makes contact and the
Solenoid is energized. The Low Pressure Switch is By-Passed.
4. There is an "On and Off" Toggle Switch "N" on the panel which will
close the Solenoid "B" and cut in the Low Pressure Switch "L" by
by-passing the Thermostat. The solenoid line passes through a Back-
Acting Switch "M" connected to the Low Side. This Back-Acting Switch
serves to allow the coil to cool down gradually by throttling the
liquid supply. When the coil reaches a temperature corresponding to
that of tbn (10) inches suction pressure, the expansion Valves "F",
"G" and "H" then function normally.
D CHECK THE OIL LEVEL, through Sight Glass "GG" (See Figure 1) in
base of compressor. This oil level should be about the center of
the glass when compressor is off. This sight glass should be
checked a second time, an hour or so later, after the box has
cooled down.
22
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
E. GREASE THE MOTOR, with proper grease.
F. CHECK THE BELT TENSION. Belts should not be taut.
G. SET THE LOW SIDE CONTROL "L" to cut in at five (5) pounds, and out
at sixteen (16) inches of Vacuum.
H. MAKE SURE TO REPLACE THE CAPS (or bonnets) on all Service Valves.
J. UNLESS THE UNIT IS SHUT DOWN PERMANENTLY, the Power Switch should
always be closed.
For short periods of shut down, the Toggle Switch "N" should be used.
With this Switch "N" on the "Off " Position, it will still permit the
Compressor unit to idle and maintain an equilibrium between the High
and Low Side of the Compressor.
When lower temperature is desired, put Toggle Switch "N" on the
TOn" Position.
K. It will not be possible to determine whether the unit is short of
Refrigerant until after it has been in operation, for a period of time,
approximately four to five hours.
23
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
SERVICE ANALYSIS
Section 32
It is suggested that before consulting the following Service Analysis, the
text submitted on "General Information" be read through so as to familiarize
yourself with the general. structure. In the event any difficulty is experienced
a competent service man should be consulted, before attempting to do any repair.
The following items should be checked: when
NO REFRIGERATION
1. UNIT NOT RUNNING
a. Check the Power Supply.
be Motor Overload Switch may be off; Push Red Button on Motor Starter.
c. Check motor to see if it is operative.
d. Check the grease in motor*
e. Check the Belt. It may be broken, or it may be off.
2. UNIT IS RUNNING
a. Refrigerant charge leaked out. FIND THE LEAK AND RECHARGE with Freon 22
be Check the Compressor Valve Plate (See Section 5 on General Information).
c. The Expansion Valve may be plugged with moisture or wax. Moisture
may be in the system if it is opened frequently and will deposit
at the orifice of the expansion valve. If improper oil is added,
wax may separate and plug the valve. Remedy, Clean the Valve.
d. Expansion Valve may be defective, and will so indicate when
1. Unit runs on a vacuum as in 2-d-3 above, due to
a. Plugged strainer. Remove and Clean
be Plugged valve orifice. Clean Valve.
c. Leak in Control bulb or diaphragm. Replace Valve.
Approved For Release 2001/11/21 : gIA-RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
SERVICE ANALYSIS
Section 32
( as continued from previous page 23)
d. Expansion Valve may be defective, and will so indicate when
2. Unit runs on high suction pressure and the compressor is
cold due to the expansion valve overfeeding liquid, due to
the valve held open because of dirt particles or a damaged
valve seat.
Clean or Replace Valve.
B. INSUFFICENT REFRIGERATION
1. Pressure Control not properly set. Check the temperature setting. After
the unit has pulled down to the desired temperature, the control setting
should be checked.
2. Refrigeration load is too great. Usually caused by adding excessive
quantities of warm product. Check with the operator.
3. Air cooled condensers plugged with dirt. Keep condenser clean. Use a
long bristle brush or vacuum cleaner.
4. Air in the system. Purge. Leak test. Then check charge.
C.RECOIVMENDED SERVICE OPERATIONS
1. LEAK TESTING.
Use a Halide torch, or equal, as per directions on the particular make of
torch, Do not hurry this operation. Small le & s take several seconds to
show flame color, after applying tube toI,the suspected joint. The presence
of oil around a joint usually indidates a leak.
Approved For Release 2001/11/21 :I -RDP80-00926A007800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
SERVICE ANALYSIS
Section 32
C. Recommended Service Operations Procedure
2. DISCHARGING REFRIGERANT FROM SYSTEM
a. Connect a drum to the Discharge Gauge fitting of the compressor. The
drum must be empty and evacuated, or have sufficient space to receive
the charge. The connecting line must be at least ten (10) feet long,
and must have agauge T'd into the line.
b. Close the compressor discharge service Valve all the way into the right.
c. Pump put the system into the drum by running the unit intermittently
so that the drum does not overheat. If necessary, run an little water
or place wet rags on the drum so that the temperatures are kept low
enough to avoid melting the fusible plug on the drum. Cool drum by
placing in tub of cold water at about 500 C.
d. When a gauge on the compressor suction service valve registers a full
vacuum, the system is pumpted out.
e. Remove drum and pump a vacuum on the system with a discharge service
valve gauge fitting open to remove last traces of Freon 22 Refrigerant
from the system.
3. CHARGING REFRIGERANT
A. Connect a drum of clean, dry, 'oil-free refrigerant to the compressor
Suction Gauge connection by means of a charging line, or 1/4" 0 D
tubing. Be sure there is no air in the system. Before tightening the
flare nut on the charging line (refer to Section 19) on the valve
connection of the compressor, open the drum valve slightly which will
blow the air out of the line. Run the unit with the canpressor suction
servicIaYFc /V-Fj80Whenever
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
SERVICE ANALYSIS
SEction 32
possible, weigh the charge in, standing the drum on a scale. The
drum should be upright to admit gas, never Liquid, to the unit.
b. Before completing the charging, back the service valve out to admit
refrigerant to the low side to obtain normal operation before
checking the charge. This unit has a TEST COCK. which indicates
,the correct charge. Open the Valve, and be sure a spray of cold,
clear liquid comes out. If gas or oil are discharged, continue
adding refrigerant. The charge for this machine is thirty (30)
pounds of Freon 22 Refrigerant. The drum can be placed in a bucket
of warm water to hasten gas flow.
4. PURGING AIR FROM SYSTEM.
Install a 1/4" Purge line from the Discharge Service Valve Gauge
connection into a waste bucket. Run the unit a few minutes until
condenser is warm. Stop the unit and immediately open the discharge
service valve to allow the air and gas to blow out freely. The
valve must be left open-until head pressure becomes normal. This
may require several blows of about ten (10) seconds each, also some
liquid or oil may blow out. After purging, check to see if the unit
has enough charge*
5. CHANGING OR CLEANING EXPANSION VALVES.
Close the Liquid Receiver Service Valve "D" and pump the system down
if possible. If the cabinet is warm, open the Liquid Receiver Valve
slightly above one (1) pound. Never open the system when the suction
gauge shows a VACUUM. If necessary, attach a drum of refrigerant
with a gauge in the line to the suction service valve, and admit
enough gas to bring the pressure above one (1) pound. Never allow
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
2V
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
SERVICE ANALYSIS*
Section 32
the system to remain open; immediately plug all open liras. This
is to keep the system dry. Never remove a valve uniil all frost
and moisture has been warmed off.
b. After tightening connections, admit enough refrigerant pressure into
the lines and remove plug or gauge from compressor Discharge
Service Valve to purge air out.
c. When installing a new valve, be sure the capillary tube does not
touch any suction lines, or very erratic operation will occur.
Install the bulb in a similar manner to the one removed, as any
change in location is apt to throw the system out of balance.
d. To clean expansion valve, remove it as above indicated, and blow it
out with Freon 22 from a drum. If the screen is plugged, remove
and clean in naphtha or high test gasoline; dry, and then replace.
If moisture was causing the stoppage, the Silica Gel Dryer should
be removed and replaced.
6. CHAN.ING COMPRESSOR OR VALVE PLATE
a. Pump down as instvnctions indicate in Section 17. When pressure is
balanced, close compressor Service Valves. Remove cap screws from
valves.
b. After repairs are made, run unit to secure a vacuum on crankcase
and see that it holds when compressor is stopped (Refer to Sect. 5).
Co Admit slight amount of Refrigerant by Cracking liquid receiver
valve and opening suction service Valve "T" until gas blows freely
from compressor discharge plug opening.
d. Open Liquid valve and start unit. If the valve -plate or seal requires
Approved For Release 2001/11/21: CIA-RDP8y-00??d6A%0 80Q125D001 0
replacement, the genera proce ure s en ca to he above.
21
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
SERVICE ANALYSIS
Section 32
THE FREON REFRIGERANT SYSTEM
Laboratory and field tests over a period of several years have proven
that Freon Refrigerant "22" has many important advantages over Freon 1112"
as a low temperature refrigerant.
This is because the suction pressures are higher.
Therefore, ccmdensing units are capable of more refrigerating capacity
with Freon "22" than with Freon "12".
Refer to Figure 10.
Approved For Release 2001/11/21 : CIA-RDP80-00926A007800250001-0
29
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
ANbdW00 02f OH XO~ JUL AH Z#6L 1H`~~b ~d00
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
25X1A Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0
Approved For Release 2001/11/21 : CIA-RDP80-00926AO07800250001-0