WELCH DUO-SEAL VACUUM PUMPS

r.~i AOVIIIrY6 W~Yh114. .. _ proved. FcR-- 1 WELCH 2 VACUUM PUMPS R,-MDR AVENUE -=KFE,TCCINOIS ooo/o d by'The Welch Sd nt Fc pomp  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 WELCH DUO-SEAL VACUUM PUMPS are me- chanical, rotary, oil-sealed, vane-type pumps of one- or two-stage construction. Their superior design and precision manufacture achieves high volumetric effi- ciency and low ultimate pressure - qualities which have made them the leading choice for all applications of rotary, oil-sealed vacuum pumps. Welch's exceptionally high standards in manufacture, continuous testing and assembly by skilled craftsmen result in long life and extremely low maintenance. All pumps are thoroughly run-in and frequently tested to reach a performance level which surpasses their guar- antee. The following pages cover the installation, operation and maintenance of your Duo-Seal Pump. These in- structions should be read carefully before operating the pump or attempting repairs. Complete instructions are included for routine servicing of the pump and motor. Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 210i1k EA DP70BOO584R000200270001-3 PRINCIPLES OF OPERATION 2 Vented Exhaust ................................................................................................... 2 UNPACKING 3 Mounting ......................................................................................................... 3 Electrical ............................................................ . . . . . . . . . . . . . . . . . . . . . ........................ 3 Connection to System ............................................................................................. 3 Oil Level and Type ............................................................................................... 4 Recommended Accessories ....................................................................................... 4 Installation of Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations ....................................... 4 General Procedures ............................................................................................... 5 Start-up Procedures ............................................................................................... 5 Start-up Procedures of Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations .............................. 5 Vented Exhaust ................................................................................................... 5 Shut-down Procedures ............................................................................................ 6 Shut-down Procedures of Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations ........................... 6 Drive Problems ................................................................................................... 6 -Vacuum Problems ................................................................................................ 7 Oil Changes and Level ............................................................................................ 7 Oil Leakage ..................................................................................................... 7-10 Vented Exhaust .................................................................................................... 10 Air Filter Removal and Cleaning ................................................................................... 10 Routine Maintenance of Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations ............................. 10 Checking Pump Performance ...................................................................................... 11 VACUUM PUMP PERFORMANCE CURVES Welch Repair Service ............................................................................................. 11 Welch Exchange Service ......................................................................................... 11 Replacement Parts and Ordering Instructions ....................................................................... 11 Replacement Parts and Numbers ................................................................................... 12 Pump Performance ................................................................................................ 13 Motor Specifications ............................................................................................. 13 Vacuum Connections and Fittings ................................................................................. 14 Valves .......14 ............................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Traps ............................................................................................................. 14 Vacuum Gauges .................................................................................................. 15 Leak Detection .................................................................................................... 15 Repairing Leaks ................................................................................................... 15 BIR IOGRr PIIY 15 { .1I+ K DISCI TI EC's` OUPLING, ASSEMBLIES 16 E H ST " I eFor Release 2003/01/28 CIA-RDP70B00584R000200270001-3 17  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPAN' PRINCIPLES OF OPERATION Each stage of the Welch Duo-Seal Pumps consists of a rotor, mounted concentrically on the drive shaft and positioned eccentrically in a cylindrical stator. The contact area of the rotor and stator is called the SEAL. It is a cylindrical seat machined into the stator, with the same radius as the rotor, and located between the inlet and outlet of the pump. The rotor is fitted with two spring loaded, diametrically-opposed vanes which move in and out of their slots, always pressing against the inner surface of the stator ring. Any wear on the vanes is reduced to a very insignificant amount because of a thin oil film which lubricates all parts of the pump. As a vane leaves the seal, it sweeps the air from the crescent-shaped space and forces it out the one- way exhaust valve. This operation is repeated twice each revolution, reducing the pressure in the vessel connected to the intake, thereby achieving a higher and higher vacuum. A patented feature called the Duo- Seal provides a by-pass at the seal. This by-pass carries the last increment of gas, which may escape the port, back to the exhaust stage. It eliminates the possibility of entraining the gas into the intake stage and re- pumping it. The operating combination of stator, rotor and vanes constitutes the vital part of the pump. One of these units is used in a single-stage pump. In a two-stage pump, two of these units are connected in series and mounted on a common drive shaft for better ultimate vacuum. VENTED EXHAl ST The presence of water or other vapors in the vacuum system can be very detrimental to the performance of the pump. They may contaminate the oil, and if cor- rosive, they will damage the pump parts. One method of removing such vapors is using cold traps between the pump and vacuum system. A vented exhaust valve on the pump will give additional protection. The vented exhaust minimizes the condensation of vapors in the compression cycle of the exhaust stage by introducing an adjustable flow of atmospheric air. The diluting effect of the admitted air lowers the par- tial pressure of the vapor below its saturation pressure at the operating temperature of the pump. This pre- vents condensation and the vapors are expelled with the exhaust gases. The vented exhaust is also helpful in removing con- densed vapors from previously contaminated oil. Method of use and adjustment is described on page 5 under "Operation". Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 P VACUUM PUMPS I UNPACKING J Remove the pump from the shipping case with care. If any damage has occurred, file claim with the carrier immediately. Always save the shipping container for carrier inspection. If it is necessary to communicate with your dealer or C MOUNTING The Welch Scientific Company, please include your order number, pump catalog number and serial number to expedite replacement. Do not return the pump to the factory without obtaining shipping instructions. INSTALLATION Welch Pump-Motor Sets are furnished mounted on formed steel bases, supported on rubber bumpers. These units should be placed on a firm foundation. See instructions for No. 1392 and No. 1392A Mechan- ical-Diffusion Pump Combinations at the end of this section. All Duo-Seal Pumps have supporting legs drilled for mounting bolts. The pump should be located in a clean area with good ventilation, and as close as. possible to the vacuum system to which it will be attached. Adequate space should be allowed around the pump for normal main- tenance, such as oil changes, belt adjustments, etc. Before operation, check belt tension and pulley align- ment. The pumps are air-cooled, eliminating the need for cooling water. ELEC'RICAL Care should be taken to insure that the electric motor is connected to the correct voltage, phase and frequency. Check the motor wiring connection by removing motor plate and comparing connections with diagram on in- side of plate. Pump-motor sets (other than explosion proof and 3 phase motors) are furnished with a switch and cord. The cord can be plugged directly into the proper receptacle. If the electric motor to be used is not furnished by Welch, be sure that the motor, belt and pulley will operate the pump at the proper speed. Check the rotational direction of the motor before connecting belt to pump pulley. CONNECTION TO SYSTEM The connecting line between the pump and the vessel to be evacuated should be as short as practical and as free from bends as circumstances permit. The inner diameter should be at least as large as the inside diam- eter of the pump intake. (See page 14, "Vacuum Connections and Fittings.") A good vacuum-tight joint between the pump intake and connecting line-can readily be made by sliding the correct size, heavy-walled rubber tubing (Welch No. 5518B) over the intake nipple. Insert the connecting line into the tubing so it butts flush against the nipple. Use of worm-screw band clamps is desirable, and/or sealing with vacuum wax or "Leak-Lock" (Welch Catalog No. 1372). For permanent connections, remove either or both the intake nipple and exhaust dust cap, and screw the piping into the connections. See Page 14 for thread dimensions. Use a sealant such as "Glyptal" or "Leak- Lock" on the intake threads. Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPANN OIL LEVEL AND TYPE To insure efficient operation, low maintenance and freedom from unnecessary noise and oil vapors, it is extremely important to use the proper type and quan- tity of oil. Welch Duo-Seal Oil has been specially de- veloped over a period of years, to have the required viscosity, low vapor pressure and chemical stability. The vacuum guarantee on Welch Pumps applies only when Duo-Seal Oil is used. A sufficient supply of oil is furnished with each pump. Additional Duo-Seal Oil (Welch Catalog No. 1407K) is available in quart and gallon plastic bottles and in five gallon cans. After pump has been running for at least fifteen min- utes, check the oil level. It should be maintained be- tween the oil-level marks, with the pump in operation. In general, the oil level will be slightly higher while the pump is running than when it is stopped. If the oil level gradually rises during prolonged operation, water or other vapor is condensing in the pump. When this occurs, the vented exhaust valve, on pumps so equipped, should be opened to purge the oil, or the oil should be changed. The No. 1404 Pump does not have an oil-level window. In this pump the oil-level mark may be seen by remov- ing the top plate. This requires the removal of two screws. In all No. 1404 Pumps, the top plate must be removed to add oil to the reservoir. An explanation of the effect of too much or too little oil and oil contamination is contained on page 7, under the heading, "Oil Changes and Levels". 2EC(MMENED,_AE0SORIES Belt guards totally enclose the pulleys and belts, and are strongly recommended for the protection of personnel working near the pumps. Belt guards are furnished with mounted Nos. 1397 and 1398 Pumps and are available for all others. To service belts or pulleys, the outer half of the guard can be removed or folded down, depend- ing on type. This can be done without use of tools. All pump bases made in the last five years have been pre- drilled to accept guard brackets. Older bases require drilling of two holes. Exhaust filters are available for attachment to the ex- haust port in place of the dust cap. Their use is recommended when it is necessary to operate the pump with relatively high gas flows. Any oil-sealed mechani- cal vacuum pump tends to discharge oil mist from its exhaust port when it is operating at high flow. Oil droplets entrained in the discharge air are removed by the combined action of a two-stage filter element. One stage consists of multiple layers of fine wire screen and the other of a special fiber. Oil is drained from the element, back through the discharge connection into the oil reservoir of the pump. EXHAUST FILTERS: No. 1417 for Nos. 1399, 1400, 1405, 1406 and 1410 Vacuum Pumps. (2" diameter x 43/4" high, 3/4 - 20 male thread) No. 1417A for Nos. 1402 and 1403 Vacuum Pumps. (6" diameter x 71/2" high, 1 - 20 male thread) No. 1417B for No. 1397 Vacuum Pump. (7" diam- eter x 10" high, 1-3/4 - 20 male thread) REPLACEMENT FILTERS: No. 1417F for 1417 Filter; No. 1417G for No. 1417A Filter; No. 1417H for No. 1417B Filter. BELT GUARDS No. 41-0791 for No. 1397; No. 41-2496 for No. 1398; No. 1399G for No. 1399; No. 1400G for Nos. 1400 and 1410; No. 1404G for Nos. 1404 and 1406; No. 1405G for Nos. 1402, 1403 and 1405. These combinations consist of a No., 1400B Duo-Seal Pump with motor and a modified, two-stage metal diffusion pump, mounted on a common base. Installa- tion is the same as that for other Welch Duo-Seal Pumps with the following additional requirements. Connect diffusion pump intake (large diameter) to the vacuum system, preferably by brazing or silver solder- ing. Use as short a connection as possible with as large a diameter as possible. Connect diffusion pump heater and electric motor to 115 V, 60 cycle power supply, with separate cords and switches provided. Connect diffusion pump to coolant supply. No. 1392 uses a water-cooled diffusion pump and requires 0.08 G.P.M. of water at normal temperatures. Connect water supply to tubing at intake stack. The No. 1392A uses an air-cooled diffusion pump. For best results a small blower or fan with a capacity of 20 C.F.M. should be used to direct air across the cooling fins, impinging first on the intake stack. Check system for leaks before filling diffusion pump with pump fluid. Fill the diffusion pump with 55 c.c. of No. 1391K Octoil Pump Fluid supplied. This may be accomplished by removing the drain plug, starting the mechanical pump and sucking the pump fluid into the boiler through a clean length of rubber tubing. Use a new drain plug gasket and replace drain plug while the mechanical pump is running. Turn off mechanical pump. More complete instructions are furnished with the Nos. 1392 and 1392A pump assemblies. Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 UO'SAL VACUUM PUMPS OPERATION Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations START-UP 1. Remove intake and exhaust port plugs and install dust cap in exhaust port. 2. Check the oil level before operating and check it periodically during operation. 3. Use only clean Duo-Seal Vacuum Pump Oil. 4. All Welch Pumps, except No. 1404, contain an air filter screen in the intake port to prevent foreign particles from entering the pump. Greatest possible care should be exercised to exclude foreign particles from the intake line. 5. If corrosive vapors or excessive water vapor is evolved in the vacuum process, a cold trap should be placed in the vacuum line to pre- vent damage to the pump mechanism and contamination of the oil. 6. When the pump is not being used and is dis- connected from the vacuum system, plug the intake to keep out dirt. 7. Carefully check connection and vacuum sys- tem for leaks. 8. Periodically check V-belt tension and pulley alignment. V-belt should be adjusted so that a firm downward pressure at the middle of the span will cause a deflection of 1/2" to 3/4". TA t !~~' PR~7CE9URES 1. Turn on power, with intake closed (to mini- mize splashing). 2. Check for proper direction of rotation. 3. Check oil for proper level, with pump running. 4. The gurgling noise, characteristic of mechani- cal vacuum pumps when operating at high pressures, should disappear after a few sec- onds. If it does not, check to see if oil level is too low, or if there is a leak in the connecting lines. 5. Open intake to the vacuum system. 1. Turn on mechanical pump and evacuate the system to less than 500 microns. 2. Turn on diffusion pump coolant and heater (fresh oil will evolve the gases dissolved in it and this will tend to increase system pressure temporarily). The diffusion pump requires 20 to 30 minutes to reach normal operating tem- perature and full pumping capacity. If system pressure does not decrease within a few min- utes after diffusion pump reaches operating pressure, turn off heater and recheck system for leaks. Vented exhaust valves are supplied with No. 1397, 1398, 1399 and 1402 Pumps, and they are available as optional accessories for the No. 1400 and 1405 Pumps. Vented exhaust valves can be field-mounted on any No. 1400 or 1405 Pumps which have serial numbers higher than 25500-0 and 26157-5 respectively. Single- stage pumps, other than the No. 1399, are not adapt- able to the use of the vented exhaust. The vented exhaust is used to prevent, or minimize, the condensation of vapors in the pump. Condensed vapors raise the vapor pressure of the oil, reducing the vacuum obtainable. These vapors can also form sludges with the oil, causing corrosion and eventual freeze-up. The vented exhaust is also used to purge previously condensed vapors which will generally re-evaporate as they are exposed to the low pressure of the intake cycle. Recondensation in the compression cycle is pre- vented by operating the pump with the vented exhaust valve open. A vented exhaust is not equally effective on all vapors encountered in vacuum processing, so it does not al- ways entirely eliminate contamination of the oil. It does, however, reduce the contamination so oil changes are not needed as frequently. Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPAN` The vented exhaust valve consists of a hollow stem with a metal ball closure fitting into a conical seat in the valve port housing. A fixed passage through the stem includes a ball check valve which prevents back-flow of air in the final com- pression stages. Counter-clockwise rotation of the valve. stem unseats the ball, opening an air passage to the exhaust opening in the pump. One full turn of the valve stem fully opens the valve. Any fraction of a turn will open the valve correspondingly. Newer model pumps have a needle valve at the top of the valve stem to control the flow of air into the valve stem. These needle valves can be finely adjusted to any position between fully open and fully closed. To eliminate water and other condensed vapors from forming in the pump, open the vented exhaust valve. This is done by loosening the knurled lock-ring and turning the valve stem one full turn counter-clockwise . . . tighten lock-ring. The needle valve, included on new pumps, is opened by turning counter-clockwise far enough to handle the volume of vapor. Experience with the system will enable the operator to quickly determine the proper needle valve position. As the volume of vapors diminish, the needle valve should be closed progressively. Older pumps are not equipped with a needle valve. On these older pumps, turning the valve stein one full turn counter-clockwise will give maximum venting - fractions of a full turn will give a corresponding amount of venting. When valve is fully closed, the pump will produce the highest possible vacuum under the existing conditions. If not needed, the vented exhaust valve should be closed. It is closed by turning the stem clockwise until fully seated, then adjust lock-ring seal accordingly. Finger pressure is sufficient to seat the needle valve and valve stem for a leak-tight seal. SHUTDOWN PROCEDURES 1. Close the pump intake. 2. Turn off power. 3. Bleed in air through intake. 4. Cover intake nipple if pump is disconnected from vacuum system. 5. If pump is going to be out of service for a pro- longed period, drain the oil and fill with new Duo-Seal Oil to prevent the possibility of cor- rosion from contamination. Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations SHUTDOWN 1. Turn off diffusion pump heater. 2. Continue cooling until diffusion pump boiler is cool enough to touch. 3. Shut off coolant supply. 4. Turn off mechanical pump. 5. Admit air to diffusion pump intake. NOTE-To avoid decomposition, do not expose diffu- sion pump fluid to pressures above I mm Hg (Tarr), while hot. If pressure rises above 1 mm Hg, turn off pump heater immediately and maintain cooling of pump. ROUTINE MAINTENANCE The need for routine maintenance of the pump is usually quite apparent. In most cases the problems can be solved with very little down time. The following paragraphs cover the most common of these problems. Routine maintenance for the Nos. 1392 and 1392A mechanical-diffusion pump assemblies is at the end of this section. Major repair, requiring the disassembly of the pump, is covered later in this manual, starting on page 11. If pump will not run, turn off switch. Check the fuse and electrical connections to be sure power is present to the motor. If power is present, proceed as follows: Remove V-belt. Rotate motor pulley and pump pulley clockwise, by hand. If motor is stuck, it will have to be replaced or repaired. If pump is jammed, it will have to be disassembled (see "Major Repairs," page 11). If the motor turns freely by hand, turn on switch, with V-belt removed. If the motor does not work, it will 6 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  W, Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 VACUUM PUMPS have to be replaced or repaired. If the motor operates normally and the pump pulley turns freely, replace V-belt and check the belt tension. A firm downward pressure at the middle of the belt span will cause a deflection of 1/z" to 3/a" when the tension is correct. To increase or lessen the tension, loosen motor mount- ing bolts and slide motor away from or toward the pump. If the belt is too tight, it will cause excessive wear on the pump, It it's too loose, it will slip, reducing the pump's efficiency and cause excessive belt wear. Lubricate motor as directed on motor plate. The motors furnished with Welch Pumps are sleeve-bearing type. With normal use they require lubrication about every three years. Periodically check the set screws on the pulleys and tighten if necessary. VACuuM ;PF OBLEM$ A decrease in the vacuum system's efficiency will be apparent by a decrease in the ultimate vacuum attain- able, and/or an increase in the time required for evacuation. This failing is usually caused by leakage or unusual out-gassing. It is rarely the fault of the pump- ing system. To operate at maximum efficiency, the system must be thoroughly clean. Check all connections for leaks, as outlined on page 15, "Leak. Detection". If the system is completely clean and free from leaks, and unwar- ranted vacuum problems still exist, the pump should be checked. The most common cause of a mechanical pump's loss in efficiency is contamination of oil. It is caused by condensation of vapors and by foreign particles. Con- densed vapors increase the vapor pressure, reducing the ultimate vacuum attainable. Foreign particles and some vapors form sludges with the oil. These sludges impair sealing and lubrication, and can cause eventual "freeze- up". A vented exhaust is helpful in removing vapors, especially water, but it is not equally effective on all foreign substances; therefore, periodic oil changes are necessary to maintain efficient operation of the system. The required frequency of changing oil varies, depend- ing on the particular system. Experience with the process will help you determine the normal period of opera- tion before an oil change is necessary. OIL CHANGES .AND LEVEL the intake closed, for approximately 15 minutes. Stop the pump and remove the oil drain cap. Most of the oil will drain out freely. USE CAUTION - oil will be hot! The small residue remaining in the pump can be forced out by turning the pump pulley by hand, with the exhaust port closed and intake open. The oil will spurt out suddenly and should be deflected into the drain pan. Extensive operation with the exhaust port sealed should be avoided, as excessive internal pressure may loosen the shaft seal. After removing all oil, close the drain and pour 3 or 4 ounces of clean Duo-Seal Oil into the intake port. Open exhaust port and run pump for a short period to completely circulate the new oil. Drain the flushing oil and force out residue, as above. Repeat flushing with new Duo-Seal Oil until flushing oil remains clean and free of color and foreign matter. WARNING-Do not use solvents or light flushing oils. Their complete removal is difficult and their higher vapor pressures will prevent the attainment of high vacuum. If the oil has thickened or contains sludges, it is ad- visable to remove the oil reservoir case and thoroughly clean out the case with clean, lint- free rags. In re- placing the oil case, varnish a NEW gasket and posi- tion on the pump case. Tighten all screws uniformly. Also replace the shaft seal as explained under the heading, "Oil Leakage". After the pump is completely flushed, refill by pouring new Duo-Seal Oil into the exhaust port. Fill to proper level indicated on the sight glass. Replace dust cap. A gurgling noise is characteristic when high pressure air is drawn through the pump. It should disappear quickly as the intake pressure is reduced. If the pump continues to gurgle, the oil level may be too low. In- sufficient oil does not give proper sealing or lubrication. Add oil through the exhaust port until it reaches the proper level. The oil level should be maintained between the marks on the sight glass, with the pump running. Level will drop when pump is stopped. Leakage of oil is readily apparent and easily corrected. The areas affected are: SHAFT SEAL-To replace shaft seal, drain oil, re- move the pump pulley and key, and all parts of the seal. Clean the shaft and inspect it for any burrs or nicks. Carefully hone any damaged areas with fine emery paper. Hone the key way to remove sharp edges. Place new gasket on the pump casing (do not use cement). Carefully slide the replacement seal over the shaft and position against the pump housing. Align To change oil, disconnect the pump from the system, screw holes and tighten screws uniformly. Instructions if possible. Warm the oil by operating the pump with are included with replacement seals. 7 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPANY kNl~ ~ li Flil _d - r I ~ I~~II I I ~II ~ I 'I~II~I~ ~ NO. 4(3 WELCH DUO-SEAL VACUUM 1~ - __* NO. 410 ~iF~ I Fi tt 1 2 4 6 8 55 IN mm H ( 8 Approved For Release 2003/01/1V 6iA-RDP70OfE0058TORRR000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 DU -SEA VACUUM PUMPS 'UMP PERFORMANCE CURVES 861 10-1 10-2 PRESSURE IN mm Hg (TORR) NO 13978 . NO. 1405H H -1 NO. 1402B NO. 1405 PRESSURE IN mm OF Hg (TORR) Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 w Z 3.531 w a w U- L) D U Z O w W 0.353 C7 CL CL CL -- 0.035  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPANY OIL LEVEL SIGHT GAUGE-Unless the glass disc is damaged, it is generally only necessary to replace the inner and outer rubber gaskets. Drain oil and remove all parts of the oil level gauge. Insert new inner ten- sion washer into counterbored seat in casing. Place glass disc in position. Mount new outer rubber washer over glass disc and into seat. Place oil window cover into position and tighten the 4 flllister head screws uniformly. The oil level gauge on the No. 1406 Pumps consist of a glass disc mounted in a metal ring. This assembly is mounted by pressing it into the open- ing in the case. A damaged unit can be easily knocked out. OIL DRAIN CAP-Should a leak develop at the oil drain, replace the rubber disc within the drain cap. The old disc can be pried out with a stiff wire or pointed tool. Press the new disc firmly into the cap. OIL CASE-If oil leaks at the oil case seal, drain the oil from the pump and remove case and gasket. Thor- oughly clean the sealing surfaces of the case and pump. Varnish a new gasket and place in position. Mount case and thoroughly tighten all screws. VENTED EXHAUST Should the seat of the needle valve wear so that it will not seal with hand pressure, the valve stem should be replaced. AIR FILTER REMOVAL AND CLEANING With the exception of No. 1404 Pumps, all Welch Duo-Seal Pumps are equipped with an air filter screen. It is located below the pump intake port and functions as a trap for solids, which could cause damage to the pump. Such particles are usually the result of an im- plosion in the vacuum system. Unless the screen has been damaged, the filter may be removed and cleaned in the following steps: 1. Turn off the pump. (Drain oil in No. 1406 Pump) 2. Remove the intake cover. 3. Lift out air filter. (The air filter on the No. 1398 is a two piece screen attached to the in- take elbow.) 4. Tap filter on clean disposable surface to re- move solid particles. If further cleaning is re- quired, rinse thoroughly in clean acetone followed by a rinse in clean alcohol and then a rinse in distilled water. Dry in stream of hot, dry air. 5. Replace the cleaned filter in intake area. 6. Use a new intake cover gasket and coat both sides with varnish. (The 1398 has a rubber O-ring rather than a gasket that should be replaced.) 7. When varnish is tacky, mount gasket in posi- tion on pump casting. 8. Replace intake cover and tighten screws even- ly. 9. Fill pump with clean Duo-Seal Oil (Check level after running pump for a few minutes.) Nos. 1392 and 1392A Mechanical-Diffusion Pump Combinations The No. 1400 mechanical pump should be maintained and repaired as directed in the preceding instructions. The following procedures should be followed as routine maintenance of the diffusion pump. OIL CHANGE-The pump fluid should be inspected periodically for color change and odor. If the fluid is slightly darkened and has no odor, a simple change of fluid is normally all that is needed. Follow the tech- nique described under "Installation Procedures". If the fluid has developed a noticeable odor, it is recom- mended that the pump be cleaned in the following method. CLEANING-Remove diffusion pump from system. Thoroughly drain ojl through drain outlet (slight warm- ing is helpful). Rinse pump with acetone and fill with a 50% solution of Caustic Soda (use care in handling). By using pump heater, boil Caustic Soda solution in pump for approximately 30 minutes. Drain caustic solution and rinse with clean, hot water. Rinse with acetone and dry with stream of warm, dry air. Replace drain plug and reinstall pump in system (replace drain plug gasket each time a plug is removed). Fill pump with 55 cc. of new "Octoil" pump fluid. PUMP HEATER-If burn-out occurs, the heater can easily be removed and replaced. Remove holding nut at bottom of boiler and lower heater to remove. Addi- tional instructions are included with the pump. 10 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 DUO-SEAL VACUUM PUMPS C kN" PUM PER1ORMANCE An excellent criterion of the condition of a mechanical pump is the ultimate vacuum it will achieve. This can be easily measured by connecting a suitable gauge to the intake of the pump and operating the pump until the highest vacuum reading is obtained. This procedure can be used as a quick test to deter- mine the need for maintenance and repair. Also, as a final test after all the necessary routine maintenance procedures have been followed. If the pump does not achieve or closely approach the performance of a new pump, the need for major repair is clearly established. Welch Duo-Seal Pumps are fully tested at the factory with upright, untrapped McLeod gauges. Other gauges, such as the Pirani or Thermocouple vacuum gauges can be used if allowance is made for the inherent dif- ference in readings. See "Vacuum Techniques " in this manual for the explanation of gauges. MAJOR REPAIRS WE"~"CH; REPAIR SERVICE With proper care, Welch Duo-Seal Vacuum Pumps can be depended on to give many years of reliable service. Should major repairs, which require disassembly of the pump mechanism, become necessary, it is strongly recommended that the pump be returned to the factory for reconditioning. The basic working parts of Duo-Seal Pumps are ma- chined to,very close tolerances and require assembly on special fixtures, and with special tools by mechanics who are highly skilled at this work. It is our experience that the majority of pumps repaired by others fail to operate with maximum efficiency. It is usually still necessary to return them to the factory for proper re- pair. The Welch Scientific Company maintains complete repair departments strategically located at the addresses shown on the back page. These facilities are well equipped and staffed with experts to insure prompt reconditioning of all returned pumps. Broken, worn, scored or corroded parts are replaced with new parts and the pump is thoroughly run-in and tested until it exceeds the performance requirements of the original guarantee. PUMP CAT. NO. REPLACEMENT CHARGE PLUS CUSTOMER'S REPAIRABLE PUMP PUMP CAT. NO. REPLACEMENT CHARGE PLUS CUSTOMER'S REPAIRABLE PUMP 1397 $225.00 1403 $90.00 1398 500.00 1404 70.00 1399 45.00 1405 95.00 1400 60.00 1406 70.00 1402 135.00 1410 45.00 F. 0. B. Our Plant or Branch Exchange Service Instructions-Simply order a factory reconditioned replacement pump of the same catalog number as the pump you wish to replace. It will be shipped to you immediately. Your pump may then be returned to the factory in the same container. You will be billed the full price of the replacement pump, at time of shipment. On receipt of your pump at the factory, a credit memorandum will be issued to you, covering the difference between the billed charge and the exchange allowance for your pump. If your pump is not a standard model, the cost of parts and labor necessary to convert it to a standard model will be added to the cost of the replacement pump. If your pump is not repairable, you will be notified. You may then purchase a new pump and return the replace- ment to us when you receive the new unit. Return the pump only--do not send motor or base. A rapid pump exchange service is offered by Welch through all of its offices to save customers the normal down-time required for factory reconditioning. A pool of reconditioned pumps is maintained for this service. Under this plan, a customer's repairable pump will be replaced by a factory reconditioned pump of the same catalog number. The prices for this exchange are as follows (subject to change without notice): The parts list on the next page includes all of the items necessary to affect the repairs or replacements de- scribed in this manual. The numeral in parentheses, prece.eding the part number, indicates the total quantity required of the item. When ordering replacement parts, list the quantity required, the part number and descrip- tion. Shipment will be made immediately from stock. ORDERING INSTRUCTIONS Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Rel281?VT-tMA#$(W00200270001-3 DESCRIPTION PUMP C ATALOG NU MBERS AN D PART NU MBERS OF PARTS 1397 1398 1399 1400 1402 1403 1404 1405 1406 1410 EXHAUST PORT DUST CAP. 41-1501 41-1345 41-1345 410612 41-0612 41-1345 345 '41-1C or11151 51 I INTAKE Ni le 41--- 41-1493 4 41-0920 41-0920 410993 41.0993 41 0924 41-1274 41-0920 41-0920 pp Nipple Washe r 41-0961 410491 41-0491 41-0570 41-0409 Cover Gasket 41-1495 41-2375 41-0383 41-0234 41-0234 41-1308 41-1310 41-0258 Air Filter Screen Ai 41-0937 41-2523 41.2524 41-0306 41-0890 41-0660 41-0660 41-0891 41-0877 41-0306 T OIL CASE GASKE 41-1496 41.2518 41-1052 41-1052 41-0403 41-0403 41-1308 41-1052 - ----. OIL DRAIN CAP 41-1151 4f-1 166 _..- - --- 41 1166 41-1166 41-1166 41-1166 41-1166 41-1166 41-1166 OIL DRAIN CAP DISC 41-1172 41-2499 41-1192 41-1192 41-1192 41-1192 41-1192 41-1192 41-1192 41-1192 OIL LEVEL GAUGE Tension Washer 41-1266 41-1266 41-1266 Glass Disc 41-1268 41-1268 41-1268 Outer Gasket 41-1267 41-1267 41-1267 Window Cover 41-1061 41.1061 41-1061 SHAFT SEAL 1401E included Screws (4)2-01 6120 2-01-0110 included VALVE EXHAUST 41-1266 41-1266 41-1266 41-1266 41-1266 41-1268 41-1268 41-1268 41-1268 41-0555 41-1268 - 41-1267 41-1267 41-1267 41-1267 41.1267 41-1061 41-1061 41-1061 41-1061 41-1061 1401E 1401D "'1401A or 1401E 1401E 1401E 1401E 1401E included included included included included included included included included included included included included included-- - - - 41-2161 41-0695 (2)41-1239 41.1281 41-1281 41.1239 ~ ..-..41 1239 1 41 1239 ~ 41-Ml 1-41-1239- VALVE, EXHAUST STAGE PRESSURE RELIEF Clock Spring 41 0992 41-2506 Steel Ball 4_40-1200 4 40-2000 VALVE, FIRST STAGE CONVE RSION Gasket 41-1508 O-Ring 41-1507 41-1507 Spring Unit 41-1504 41.1504 Bellows 14.1505 41-1505 Valve Spring 41 2248 41-2398 41 2244 41-2507 4 Tension Strip 41 -K47 41-2485 PRESSURE CROSS VALVE, 41-0992 4-40-1200 (2)41-2157 (2)41-2158 . 41-0992 4-40-1200 Spn Spring 1399T 41-1186 Adapter 41-1184 PUMP PULLEY 41-1492 41-2510 41-2192 41-2191 41-2174 41-2194 41-2194 41 2194 41.2194 41-2191 Key 41-1 1490 41-2 2514 4 41 0624 41-06 624 41-0624 41 0624 41-0624 41-0624 41-0624 41-0624 DUO-SEAL OIL 1407K 1407K 1407K 1407K 1407K 1407K 1407K 1407K 1407K 1407K EXHAUST FILTER 14176 41.2495 1417 1417 1417A 1417A 1417 1417 1417 Repl. Element 1417H 41-2516 1417E 1417F 1417G 1417G 1417E 1417F 1417F VENTED EXHAUST VALVE included included included 1414 included 1414A Repl. Stem Assembly 41-2289 41-2497 41-2289 41 2289 41-2348 41-1258 0-Ring 41-2364 41-2364 41-2364 41-2364 BASE Rubber Feet (4)41 0588 (4)41 0929 (4)41-0929 Screws (4)2-01-0312 (4)2.02 5708 (4(2-02-5708 f Nuts PUMP 41-071 94 41-0753 41-0788 (4)41 0929 (4)41 0929 (4)41-0929 (4)41-0929 (4)41-0929 (4)41 0929 (4)2-02 5708 (4)2-02 5708 (4)2-02-5708 (4)2-02-5708 (4)2-02-5708 (4)2-02-5708 Bolts (4)2-01-0516 (8)2-01-0520 (4)2-01-0312 (4)2-01-0312 W2 Washers (4)2-63-0593 (8)2-63-0593 (4)2-61.3100 (4)2-61-3100 (4)2- Nuts (4)2-31-2521 (8)2-31-2521 (4)2-35-3800 (4)2 353800 (4)2- MOTOR I H.P. 3 N.P. ' H.P. Mounting Strips (2)41-0669 (2)41-0670 (2)41-0670 (2 Bolts Pulley or Clutch (4)2 01-0312 41.0995 41-2513 (4(2-01-0312 41-2377 (4)2-01-0312 41-0549 (1)2 V-BELT (2(1397A (4)41-2512 1399A CORD, POWER, 115V 41-2500 41-1058 41-1058 4 230V 51 41-1057 41-1057 4 BELT GUARD - 41-0791 t 41-2496 13996 14006 00 (2)2 61-3100 (4)2-61-3100 (4)2-61.3100 (4)2-61-3100 613100 (4)2-61 -31 35-3800 (4)2-35-3800 (2)2-35-3800 (4)2-35-3800 (4)2-35-3800 (4)2-35.3800 -1277 1-1058 1058 1057 1-1057 1405G 'Use No. 1151C Dun Cop on all Model 1406 Pumps wah serial number below 3956 "'Use No. 1401A Shall Seal on oll Model 1403 Pumps with serial number below 5132 No. 1392 and 1392A MECHANICAL-DIFFUSION PUMP COMBINATION REPLACEMENT PARTS DESCRIPTION OF PARTS DIFFUSION PUMP Heater-135 Watt, 115 Volt ac-toll Pump Fluid 150 m1. Silicone Pump Fluid DC-702-200 ml -500 ml DC-703-200 ml. DC-704-500 ml. 1391 R 1391 U 1391S Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 FIRST STAGE PRESSURE RELIEF No.1400 DUO-SEAL PUMP No. 1392 DIFFUSION PUMP No. 1392A DIFFUSION PUMP -(SEE LARGE TABLE, THIS PAGE) (Water -Cooled) (Air-Cooled) 1391 1394 -0 1-0312 REPLACEMENT PARTSLIST -0312 (4)2-01-0312 (2)2-01-0312 (4)2-01-0312 (4)2-01-0312 (4)2-01-0312 (2)41-0669 (2)41.0670 41-0670 41-0669 (2)41-0669 (2)41-0669 (4)2-01-0312 (4)2-01-0312 (4)2-01.0312 (4)2-01-0312 (4)2-01-0312 41-1247 41-0549 41-1181 41-1181 41-127 41-0549 41-0549 1405A 41-1058 1406A 41-1058 1405A 41-1058 1406A 41-1058 1400A 41.1058 41-1057 41-10571 41-1057 41-1057_ 41-1057,_ 1405G ~ 14046 1405G 1404G 14006 1391 K 1391E  / A proved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 DUO-SEAL,' VACUUM PUMPS PUMP SPECIFICATIONS which it is used. An examination of the speed curves PUMP ;PERFORMANCE on pages 8 and 9 will show that Welch Duo-Seal pumps maintain high volumetric efficiency, almost down to their ultimate vacuums. Another important feature of a vacuum pump is the ultimate vacuum that A vacuum pump is best described by its pumping it can obtain. speed, in volume per unit of time, at various pressures. The above data is necessary to determine the proper Example: 100 liters/minute at 0.1 micron. This meas- size and type to best obtain the desired results, with a urement is independent of the vacuum system with specific vacuum system. WELCH DUO-SEAL VACUUM PUMP SPECIFICATIONS PUMP CAT. NO. ULT. PRESSURE mm Hg (McLeod) FREE AIR DISPLACE. (liters/ min.) NO. OF STAGES APPROX. PUMP SPEED (RPM) VENTED EXHAUST OIL CAPACITY (milliliters) PUMP PULLEY DIA. RUBBER TUBING BORE INTAKE PORT THREAD *1392 1 x 10-6 600.(1 x 10-4) 55 1397 1 x 10-4 425. 2 365 Included 1230 12" 1-5/8" 1-3/4"-2 139& 1 x 10-4 1400. 2 245 Included 2500 19" 1399 1.5 x 10-2 35. 1 750 Included 450 7" 7/16" 3/8" IPS 1400 1 x 10--4 21. 2 450 Optional 550 7" 7/16" 3/8" IPS 1402 1 x 10-4 140. 2 525 Included 2200 10" 13/16" 1"-20 1403 5 x 10-3 100. 1 375 1400 10" 13/16" 1"-20 1404 2 x 10-2 33.4 1 300 2300 10" 5/8" 1405B 1405H 1 x 10-4 or 5 x 10-5 58. 33.4 2 2 525 300 Optional Optional 250 250 10" 10" 5/8" 5/8" 3/4"-20 3/4"-20 1406 5 x 10-3 33.4 1 300 60 10" 5/8" 3/8"-IPS 1410 2 x 10-2 21. 1 450 450 7" 7/ 16" 3/8"-IPS *No. 1392 Mechanical Pump Specifications are the same as No. 1400 in table. 946 Milliliters= 1 Quart No. 1392 Diffusion Pump Specifications are listed in table. MOTOR SPECIFICATIONS FOR WELCH DUO-SEAL VACUUM PUMPS PUMP CAT NO RATING MOTOR MOTOR PULLEY . . H.P. R.P.M. DIAMETER BORE BELT GUARD 1397B 1 1725 2-1/2" 5/8" Included 1398M 3 1160 4" 1-1/8" Included 1399B 1/3 1725 3" 1/2" Optional 1400B 1/3 1725 2" 1/2" Optional 1402B 1/2 1725 3" 5/8" Optional 1403B 1/2 1725 2-1/4" 5/8" Optional 1404H 1/3 1725 2" 1/2" Optional 1405B 1/2 1725 3" 1/2" Optional 1405H 1/3 1725 2" 1/2" Optional 1406H 1/3 1725 2" 1/2" Optional 1410B 1/3 1725 2" 1/2" Optional (to operate pump at proper speed) Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPANY VACUUM TECHNIQUES VACUUM CONNECTIONS AND FITTINGS The choice of line sizes and fittings, such as valves, can have a very marked effect on the pumping speed at the vacuum vessel. Any connection placed between the pump and the vessel creates an impedance to the flow of gas. This is particularly true at low micron pressure where the gas flow is substantially molecular in character. It is then dependent on the kinetic ac- tivity of the molecule, bringing it to the intake of the pump. It has been shown that the conductance of a tube is proportional to the cube of the diameter (D3) and inversely proportional to its length (L). Therefore, it is imperative that the connecting lines be as large in diameter and as short in length as practical. For best results, the diameter of the connecting tube should be as large as the diameter of the pump intake. The effect of line impedance on the net pumping speed (S) can be seen in the following relationship: 1/S = US, + I/ C (S1 is speed of pump in liters per second. C is the conductance of the tubing.) To avoid a large reduction in pumping speed at the vacuum vessel, it is clear that the conductance of the line must be considerably greater than the speed of the pump. For example, if the conductance is equal to the speed of the pump, the net speed will be one-half that of the pump. If metal piping or tubing is used, it is preferable to solder or braze all connections. Where threaded joints must be used, screw the members together several turns, coat the remaining threads with "Glyptal" or "Leak-Lock" and screw together tightly. Flanged con- nections with Elastomer 0-ring gaskets make ex- cellent demountable joints. Where glass tubing is used between the system and pump intake, joints can be made by butting the ends of the two sections together in a short section of rub- ber tubing. This type joint can also be used with metal- to-metal or glass-to-metal tubing. After' assembly, coat the ends of rubber tubing with vacuum grease, such as DC Silicone Grease (available from Welch). Perma- nent glass-to-metal seals can be made by the use of "Kovar" glass-to-metal seals. Standard tapered and ball-and-socket joints should be coated with a thin film of vacuum grease before as- sembly. VALVES Metal valves or glass stopcocks are generally used in the connecting line between the system and the pump. They provide a means of isolating the pump from the system. To minimize the impedance of flow, the valve openings should be as large as possible. Stopcocks should be lubricated with vacuum grease. TRAPS- Where corrosive vapors or large quantities of condens- able vapors result from vacuum processing, a cold trap should be used in 'the connecting line to the pump. It will help prevent damage to the pump mechanism and contamination of the oil. The cold trap is installed so the vapors come in contact with the surface of the trap and are condensed. Com- monly used refrigerants are liquid nitrogen or dry ice and acetone. The refrigerant to be used depends on the freezing point of the contaminants. A variety of glass cold traps are available from Welch. When using a cold trap, the refrigerant should be maintained at a high level, to prevent warm-up of the trap. Warm-up of the trap may allow re-evaporation of the condensed vapors. The refrigerant cavity open- ing should not be obstructed, as the refrigerant boil-off can produce dangerously high pressures. If the trap becomes saturated, it should be disconnected from the system and the condensed vapors removed from the trap. An increase in pressure in the vacuum system will normally indicate that the trap has become satu- rated. When this occurs, the vapors are being evolved faster than they can be carried away. To clean the trap, remove the refrigerant and allow the trap to warm up. Rinse off the condensed vapors with a suitable solvent. Thoroughly clean and dry the trap before reinstalling in the system. Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 VACUUM PUMPS V"ACUUM GAUGES The type vacuum gauge to be used is determined largely by the pressure range to be measured. Pressures in the range produced by Welch Duo-Seal Pumps can be covered by McLeod, Dubrovin, Pirani or Thermo- couple type gauges. The McLeod gauge is used where high accuracy of measurement is required. The Pirani and Thermo- couple gauges are electrical and give continuous read- ings of the total pressure. They are preferred where rapid pressure changes occur. The McLeod gauge does not measure condensable vapors; therefore, if vapors are present it will generally read lower than electrical gauges. For higher vacuums in systems employing diffusion turbo-molecular or ion pumps, the hot filament ioniza- tion or the Philips gauge is used. LEAK DETECTION The importance of eliminating all leaks in a vacuum system is obvious when it is realized that a leak into the system, at atmospheric pressure, expands in volume by a factor of 750,000 to 10,000,000 or more. The pump must remove this added volume to maintain the desired vacuum. Fortunately a number of effective techniques for leak detection have been developed. Large leaks can be located by pressurizing the system and painting the suspected area with a thick soap solution. Escaping air will produce soap bubbles. Small leaks in glass systems can be located by probing with a Tesla Coil (available from Welch). This instru- ment is a high frequency, ungrounded, high potential spark coil with a pointed electrode. The discharge from the coil will pass through any minute opening and produce a pink glow at the location of the hole. In using a Tesla Coil, the electrode point should be held 1/4" to 1/z" from the glass. It is not recommended for use in very thin-walled systems or adjacent to glass- to-metal seals. Small leaks can also be detected by spraying a sus- pected area with acetone or gases rich in hydrogen, and observing a sudden change in pressure reading on an electrical gauge. (Pirani or Ionization type gauge). The difference in calibration of these gauges, for air and other gases, will produce a distinct change in the pressure reading. To use this method of detection, the system must be under vacuum and the gauge sensing tube must be located between the pump and the area to be probed. Use extreme caution, as these materials are highly flammable! Locating very fine leaks requires a helium-sensitive, mass spectrometer leak detector. This instrument will locate leaks which cannot be detected by any other method. Numerous fine leaks can have a total effect of a large leak. REPAIRING .LEAKS it is preferable that a permanent repair be made when- ever a leak is located. Rewelding welded joints, refu- sion of glass or soldered joints, etc., are done by normal methods. Gasketed joints, which cannot be sealed by further tightening of bolts, should have the gasket replaced andior the seal reground. Threaded joints should be loosened and the threads coated with "Glyptal" or "Leak-Lock", then retightened. Temporary repairs can frequently be made by painting the area with "Glyptal" or "Leak-Lock". BIBLIOGRAPHY Scientific Foundation of Vacuum Technique, Saul Dushman, (John Wiley & Sons, Inc.) 1962. High Vacua, Swami Inanananda, (D. Van Nastrand Do., Inc.) 1947. Vacuum Equipment and Techniques, Guthrie and Wakerling, (McGraw-Hill) 1949. Procedures in Experimental Physics, J. Strong, (Prentice Hall) 1938. High Vacuum Technique, J. P. Yarwood, (Chapman & Hill) 1955. 15 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 THE WELCH SCIENTIFIC COMPANY QUICK DISCONNECT COUPLING ASSEMBLIES No. 1393A. for pumps 1399 1400 1406 1410 No. 1393B. for pump 1405 FOR EASY CONNECTION OF ANY METAL OR RUBBER TUBING OF PROPER DIAMETER for pumps aim CONNECTING SQUEEZE RUBBER INTAKE COUPLING RING WASHER O-RING WITH AL. GASKET ATTACHES TO PUMP No. 1393C. for pumps 1402 1403 No. 1393D. for pump 1397 The Welch Quick Disconnect Cou- pling, when screwed into a Duo-Seal Pump instead of the standard intake nipple, permits direct, rapid attachment of metal or rubber vacuum tubing. The 0-ring joint provides a vacuum-tight seal and permits quick dis- assembly. It is not necessary to dismantle the vacuum line when the pump must be removed. Simply unscrewing the threaded ring releases the connection. Each coupling includes a short, stain- less steel intake tube onto which rubber tubing may be slipped if desired. This intake tube should be replaced by a terminal tube of the same O.D. when a metal vacuum line is used. c OU L QUCKDI Coll 1 1: 9. 1 Cat. No. 1393A. For Model 1399, 1400, 1406 and 1410 Pumps. Intake tube 'h" O.D. Each, $6.00 Cat. No. 1393B. For Model 1405 Pump. Intake tube 5/e" O.D. .......... Each, $7.50 Cat. No. 1393C. For Model 1402 and 1403 Pumps. Intake tube 78" O.D. ....Each, $8.50 Cat. No. 1393D. For Model 1397 Pump. Intake tube 13/a" O.D. ........ Each, $26.00 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 Welch  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 DUO-SEAL VACUUM PUMPS EXHAUST FILTERS No. 1417. for pumps 1399 1400 1405 1406 1410 No. 1417A. for pumps 1402 1403 I ELIMINATE OIL MIST AROUND EXHAUST L KEEP VACUUM PUMP AREA CLEAN Welch Duo-Seal Pumps operating at high pressures emit far less oil vapor from the exhaust than any other equivalent pump. Nevertheless, if you operate your Duo-Seal Pump frequently at the higher pressures, an Exhaust Filter is desirable. The Welch Exhaust Filter simply screws into the exhaust port in place of the dust cap and effectively removes these oil vapors. No. 1417B. for pump 1397 Oil droplets entrained in the discharge air are removed by the combined action of a two-stage filter element. One stage con- sists of multiple layers of fine wire screen and the other of a special non-organic fiber. Oil collected by these two components is drained from the element back through the discharge connection into the oil reservoir of the pump. EXHAUST FILTERS No. 1417. For Nos. 1399, 1400, 1405, 1406 and 1410 Pumps. 2" Dia. X 43/4" High, 3/4-20 male thread..........Each, $17.50 No. 1417A. For Nos. 1402 and 1403 Pumps. 6" Dia. X 7!is" High, 1-20 male thread ........ Each, $30.00 No. 1417B. For No. 1397 Pump. 7" Dia. X 10" High, 13/4-20 male thread. ....................... Each, $52.50 REPLACEMENT FILTERS No. 1417F. For No. 1417 Filter....... Each, $ 6.50 No. 1417G. For No. 1417A Filter..... Each, $12.00 No. 1417H. For No. 1417B Filter...... Each, $17.50 Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 14  Approved For Release 2003/01/28 : CIA-RDP70B00584R000200270001-3 WELCH DUO-SEAL? PUMP OIL For All Duo-Seal Vacuum Pumps WITH OUTSTANDING Low Vapor Pressure Chemical Stability Ideal Viscosity MADE UNDER A PATENTED PROCESS Produced according to the most exacting specifications. Each batch must pass rigorous tests in our control lab- oratory before it can be released for use. DUO - SEAL OIL IS SO DEPENDABLE THAT The high vacuum performance guarantee of Welch Duo-Seal Pumps applies ONLY when Duo-Seal Oil is used. Repeated tests prove that Duo-Seal Pumps per- form best with Duo-Seal Oil. There can be no substitute for high quality. FOR BEST RESULTS -- Whether you operate your Welch Duo-Seal Pump constantly or intermittently ... 1. Check oil level periodically- 2. Inspect for contamination regularly- 3. Change oil when necessary-and- 4. Always use WelchDuo-Seal Pump Oil. No. 1407K DUO - SEAL OIL, For Welch Mechanical Pumps. Best results can be expected when an oil of very low vapor pressure is used. This is the only oil recom- mended for use with Welch Duo-Seal Vacuum Pumps. ORDER LARGER QUANTITIES AT A SAVING Quart.-$0.90 Gallon.-$2.65 5-Gal. Drum-.$10.85 12-Qt. Case. .8.40 4-Gal. Case. .9.00 55-Gal. Drum. .79.75 MANUFACTURED ESPECIALLY FOR 055E IN *k CH DUO SEAL*VACUUM PUMPS Eastern Division: 331 E. 38th Street, New York, New York 10016 Western Divisions: 840 Cherry Street, San Carlos, Calif. 94070 Approved For Release 206 Th l ??t 'Ft*896?oi'F{&db29d6 10001-3 General Offices: 7300 N. Linder Avenue, Skokie, Illinois 60076