SU785549A1 - Controllable plate-type pump - Google Patents

Description

(54) ADJUSTABLE PLATE PUMP The invention relates to lamellar hydraulic machines and can be used in machine tools and other mothers. An adjustable vane pump is known, comprising a housing in which a stator is placed with the possibility of moving perpendicular to the shaft axis, mounted on the last rotor with plates forming together with the stator 1 - the cavity body is injected and sucked 1. The drain of this pump is an increased control force. The purpose of the invention is to reduce usability. adjustment by the introduction of hydraulic discharge, the stator. This is achieved by the fact that there are two gates in the case of the installation, ;;;; dng; i-: ieg; - nk. This makes it possible to reduce the pressing force due to leveling and laziness outside and inside the stator. Figure 1 shows the proposed pump in section; FIG. 2 is a section A — A in FIG. one . In the bore of the housing consisting of parts 1, 2 and 3, there is a stator 4 inside which is located the rotor 5 with the plates 6. The rotor 5 is made in one piece with the shaft 7 mounted in two slide bearings 8 and 9. The rotor 5 with the plates 6 and the stator 4 form the discharge cavities 10 and suction 11. The ends of the cavities 10 and 11 are limited to the distributor And 12 and 13, In the case there are two slides 14 and 15, which form the unloading chamber 16, which is connected by a hole 17 with the discharge cavity 10. In the case there are two supports 18, which serve as guides M for alternating scheni stator 4 when regulating supply pump. In part 1 of the housing there is an adjusting screw 19 with a stop 20. On the other side of part 1 of the housing there is a plunger 21, a spring 22 and an adjusting screw 23. The cavities 24 and 25 are formed by the ends of the gates 14 and 15 and part 3 of the housing which communicate with the cavity pumping holes 26 and 27.

The cavity 28 between the stator 4 and the housing part 3, located diametrically opposite to the discharge chamber 16, is connected to the reddish hole 29 by channels 30, 31 and 32,

In the distribution disc 12, an intake port 33 is formed, connected by a channel 34 to the inlet port 35.

In the distribution disk 13, there is a discharge window 36 connected by a channel 37 with a discharge hole 38,; The pump works in the following way.

When the shaft 7 rotates with the rotor 5 in the direction shown by the arrow in Fig. 2, the plates 6 under the action of the centrifugal force are pressed against the inner surface of the stator 4. The chambers between the rotor 5, the stator 4 and the plates 6 in the suction cavity 11 expand and suck the rafoch through the opening 35, the channel 34 and the suction port 33, In the discharge cavity 10 of the chamber between the plates, the working fluid is narrowed out of the chambers through the opening 36 and the channel 37 into the discharge opening 38,

Through the aperture 17, the pressure of the pump is transferred to the discharge chamber 16. Thus, when the pump is operating, the pressure in the discharge chamber 16 is equal to the pressure in the pressure cavity 10, and therefore the force from the pressure of the working fluid on the stator 4 decreases. press the stator 4 to one of the pores 18. In order to reduce this force to the tlippmu and Ds1zhe complete balance of this force, the gates 14 and 15 can be displaced angles fi from the axis BB, passing through the center of rotation of the rotor and coinciding with the direction of movement of the stator 4 under regulation by dachas n.asos, It provides a reduction in friction force of the stator 4 against the support 18 when regulating the pump flow.

In addition, the equality of pressures in the injection cavity 10 and in the discharge chamber 16 ensures the absence of leaks through the end gaps between the stator 4 and the distribution discs 12 and 13,

Through the openings 26 and 27, the discharge pressure is transferred to the cavities 24 and 25, and the gates 14 and 15 are pressed

to the outer surface of the stator 4, which provides a seal between these parts,

The pump feed control mechanism allows automatically, depending on the pressure of the injection pressure, to change the eccentricity value of the stator 4 relative to the rotor 5, the spring 22 tends to set the stator 4 with the maximum eccentricity, t, e, to the position corresponding to the greatest flow. In doing so, the stator 4 abuts against the stop 20 of the adjusting screw 19, by means of which the maximum feed rate is determined. The discharge pressure acting on the inner surface of the stator 4 tends to move it towards increasing eccentricity, pressing the stator 4 against the plunger 21. When the pressure of the working fluid increases, the pressure of the spring 22 overcomes the force of the spring 22, the stator 4 moves in the direction of reducing the eccentricity The result is that the pump flow is reduced.

Due to the installation in the case of two clippers with the formation between them, of the stator and the rotor of the unloading chamber communicated with the pressure cavity, the control effort is reduced. Moreover, there is no leakage through the end gaps between the stator and the distributor disks.

Claims (1)

Invention Formula An adjustable vane pump, comprising a housing, in the bore of which is placed a stator with the ability to move perpendicular to the shaft axis, mounted on the last rotor with plates, forming-1 and together with the stator and the pressure and suction cavity body & In addition, in order to reduce the adjustment force, two gates are installed in the housing to form between them, the stator and the rotor, an unloading chamber in communication with the pressure cavity. Sources of information taken into account in the examination 1, Patent of France 2195271, class, F 04 C 15/00, published, 1974. 8 Fig. / / J n 5 Fig, I B