SCIENTIFIC ABSTRACT GAVRILOV, V.N. - GAVRILOV, YE.I.

S11211601000101110111013 A004/AO01 AUTHOR: Gavrilov, V. N. TITLE: The PC-3 (RS-3) Cutting Fluid Sprayer PERIODICAL: Stanki i Instrument, 1960, No. 11, pp. 29-30 TEXT:T The RS-3 sprayer, a design of the Chelyabinsk NIITekhmash, does no't require any regulation or re-adjustment during operation, since the necessary operation conditions are adjusted during the assembly prior to its be ing put into operation. Since there are no fine holes and narrow slots through which the \\cutting fluid Is being pressed, uniterrupted service is ensured owing to the absence-of clogging. The cutting fluid is atomized in the following way (see Figure 1): Compressed air from the-mains enters mixing chamber 3 of sprayer head 5 through connecting branch I and 8~ interchangeable calibrated 4. When entering Card 1/3 Figure 1:,  S11211601000101110111013 The PC-3 (RS-3) Cutting Fluid Sprayer A004/AO01 the mixing chamber of the sprayer, the air jet passes over cap 6 and, hitting the chamber walls, forms a vortex which promotes the uniform distribution of the liquid in the compressed air, The cutting fluid is supplied to the mixing chamber by pipe 2. Through aperture 7 chamber '3 is connected with the tank., in which the fluid is under the same pressure as prevails in the mixing chamber. The pressure difference between the fluid surface in the tank and over cap 6 makes the fluid flow:hto the air jet through pipe 2 and cap 6. The outlet connecting branch 9 is placed under an angle of 90 0 with respect to the direction of the compressed air jet, so that only atomized fluid can get into the cutting zone. Before entering the mixing chamber through the connecting branch the compressed air is purified by a filter. The holding capacity of the tank is 3.3 liters, the operating pressure of the compressed air is 2 - 6 at. The average fluid consumption amounts to from 100 to 500 gram/hour. The maximum distance between sprayer head and nozzle is .1.5 - 2,0 m. The sprayer with the filled tank weighs about 10 kg. Fluid consump- tion can be controlled in one of the following ways: 1) by changing bushing 4; 2) by changing cap 6 with calibrated aperture; 3) by varying the distance 'W' between the face of interchangeable cap 6 and the axis of the apertures of bushing It, which is attained by changing the washers under the shoulder of cap 6, The Card 2/3  V 1 21/60/~DOVO 11/0 11/0 13 The PC-3 (RS-3) Cutting Fluid Sprayer A004/AOOI greater the distance "a" the lower the fluid cons-.Lnption. Th~? fluid levsl in the tank is measured with the aid of a measurirZ rule through the ,"Iller hole of the tank. There are 3 figures. Card 3/3  LITIMSKIY, I.B.; GAVRILOV, V.N., red.; MATUSEVICH, S.M., tekhn. red. (M.VA,omonosov and experimental technology] 14.V.Ioomonosov i ek- sperizentalInaia tekhnika. Kiev, Gos. izd-vo tekhn. lit-ry USSR, 1961. 2u P. (MMA 15:6) (Lomonosov,, Mikhail Vasillyevich,, 1711-1756)  ROSTOVTSEV., Lev Ivanovich; GAVRILOV, V.N., red.; GUSAROV, K.F.t takhn. red. (Metallurgy of steel] Metanurgiia stali. Kiev, Gos,Izd-vo, tekbn. lit-ry USSR, 1961. 233 p. (MIRA 24:12) (Steel-44etanurgy)  P0240KHIRDI, Fedor Lukich, kand. sellkhoz.nauk; RABIBOVICH, VX.# kand. sellkhoz. naukv red.; BIMINA9 L.F., red.,; GAVR11DVo V.N.# red.;KVITKA# S.P.v tekhn. red. (Alfalfa growing in the steppe] Kulltura liutseM v atepis Kievp Izd-vo Ukrainskoi akad. sellkhoz.naukj, 1961. 2J#2 P. (MIRA 3-5:2) (Alfalfa)  ot S/121/61/000/002/005/005 A207/Ai26 AUTHOR: Gavr1lov, V. N. ------------------ TITLE: A bench machine for producing chip-breaking recesses in cutters PERIODICAL: Stanki i Instrument, Mashgiz, no. 2, 1961, 32 - 33 TEET: A description is given of a new bench machine for producing chip-breaking recesses on the front surface of cutters, designed at the Chelyabinsk NIITEKhMASh. The high-precision machine can form small sized recesses in various cutter tools with the cross section of holders from 12 x 20 to 25 x 4o mm. Figure 3 is the kinematic diagram of the machine: I - the turning frame can rotate on axis 2. Electric motor 3, pulleys 4 and a spindle with a 60 mm cast iron disig, are located on the frame. The cutting tool holder 5 can turn around its own axis through 3600 and move along a T-shaped slot, which, in turn, is located on the are of a circle on the sector of 1500. The horizontal regulating support 7 facilitates the mounting of the cutter relative to the finishing circle, so thar. tne required size f (Fig. 1) is obtained. The moving of the carriage 9 together with the frame 1, by iqeans of a screw and handle 10, helps to yield the recessary length I of the recess and to space it correctly with respect to the auxiliary cutting edge (size 1; Card 1/4  S/121/61/000/002/005/005 A bench machine for producing chip-breakdng recesses ... A207/A126 Fig. 1). The horizontal stand assumes the position ensuring the size f, by meahs of micrometric head 11, The zero position of the head corresponds to the position of the horizontal stand, at which f = 0. After the cutting tool has been mounted on the stand and fastened by rotating eccentric 12 (Fig. 3), the horizontal stand is removed from the cutting tool, and the finishing circle, by means of the frwne, drops to the front surface of the tabl. After the electric motor has been switched on, the finishing circle, under the action of the frame's weiFht, will cut into the front surface of the tool until stop 8 reaches the surface of the bushing, which ensures the 0.2 mm depth of the recess. The described machine is said to be success- fully In operation at the Chelyabinsk Tractor Works and at the Moscow Small-Sized Automobile Plant. The techdical characteristics of the machine are given as follows: pressure of the finishing circle on the front face of the cutter in kg 3, travel length of the carriage (movement of the circle along the recess) in mm, -.40 power of the electric motor in w ... 40, dimensions of the machine (length x width i height) in mm ... 385 x 385 x 295, machine weight In kg ... 16. The geo- metr.y of the small chip-breaking recess (Fig. 1) is given as: f = s - (0.1 * 0.2) mm, where s is the cutter feed, k - at a cutting depth up to 5 mm, is equal to 0.1-0.3 mm and at a cutting depth of over 5 mm, is equal to 0.4 - 0.6 mm; 1- should be longer than the width of the chip by no less than 1 mm,),, in finished and semi- Card 2/ 4  S/121/6i/ooo/ow/0*005 A bench machine for producini chip-breaking recesses... A207/A126 finished processing-of soft steels-50, in the processing of hard steels,and, when it is necessary to increase the strength of the cutting edge, from 0 to 100. The author points out that the new machine eliminates the problem of producing recesses by hand or using the 6umbersome universal equipment. There are 3 figures. Figure 1: C&rd 3A  NEKHENDZI, Yu.A.; BUTALOV, L.V.; PEROV, N.I.; FILIN, Yu.A.; Prinimal uchastiye: GAVRILOV, V.N., inzh. Founding properties of low-alloy titanium and the mechanical pro- perties of titanium castings. Titan i ego splavy no.6:240-250 s61. (MIRA 14:11) (Titanium alloys--Testing) (Titanium founding)  vtt~-- 1 y cp."llplu"V, j