SU754105A1 - End distributor for axial-piston pump - Google Patents

Description

(54) SIZE DISPENSER OF AXIAL PISTON

PUMP

The invention relates to hydraulic machine building, in particular to distribution units, axial piston pumps. Known mechanical dispenser axial-piston pump, containing the suction and discharge window, separated by bridges, one of which made an additional window l. A known machine has, at high revolutions of the drive shaft, a significant amplitude of high-frequency pressure pulsations, depending on the magnitude of supply irregularity, which, in turn, increases with the rotational speed, pressure and operating volume of the pump. Significant pressure pulsations lead to a significant decrease in the reliability of the pump and its durability. the invention is improving reliability by reducing the amplitude of high-frequency pressure fluctuations in the resonant modes of pump operation. This goal is achieved by the fact that the valve is equipped with a two-line spool valve. having two control cavities communicated with the injection window, one of which is equipped with a spring and communicates with the injection window through the throttle, and one of the lines of the solenoid valve is connected with an additional window, the other with the injection window. FIG. 1 shows an axial-piston pump, the longitudinal section of FIG. 2 shows section A-A in FIG. 1. The end distributor axial piston pump contains suction 1 and discharge 2 windows separated by bridges 3, one of which has an additional window 4. The distributor is equipped with a two-line spool valve 5 having pressure window 2 communicated by channels 6 and 7c and two control cavities 8 and 9, the cavity 8 is provided with a spring 10 and communicated with the discharge window 2 through the throttle 11 mounted in channel 7. One of the lines of the spool valve 5 is channel 12 s, b is additional window 4, and the other through channels 13 and 6 - with injection window 2.

The pump, which included this distributor, contains a rotating cylinder block 14 with pistons 15 interacting with an inclined washer 16. At the end of the cylinder block 14 facing the distributor, windows 17 are provided, communicating with working chambers 18,

The pump works as follows. When the cylinder block 14 rotates, the pistons 15 interact with the inclined washer 16 and perform a reciprocating motion, while the working chambers 18 using the windows 17 are in normal communication with the suction 1 and the discharge 2 windows of the face distributor.

After the cutoff from the suction window 1 of the window 17 of the working chamber 18 (the beginning of the discharge stroke), pressure builds up in the latter, and the window 17 communicates with the discharge window 2, and the working fluid from the chamber 18 is displaced through the discharge window into the channel 13. Vibrations arising during pump operation pressure channels 6 and 7 are supplied to control cavities 9 and B, respectively, of the spool valve 5. As the pressure increases above a predetermined spool valve 5, it acts on the spring ID and moves towards the latter, wherein the blowing box 2 with an additional window 4 positioned on the web 3 between the suction blower 1 and 2 windows. As a result, communication of the working chamber 18 with the injection window 2 after the cut-off of the chamber 18 from the suction port 1 occurs at a lower overlap, which contributes to the reduction of the amplitude of high-frequency pressure fluctuations.

The installation in channel 7 of the throttles 11 allows to obtain a spool-spring system in which the amount of spring preload does not depend on the pressure in the injection window.

Claims (1)

Invention Formula 5 An end dispenser for an axial piston pump containing suction and injection windows, separated by bridges, one of which has an additional window, about 0, which is designed to increase reliability by reducing the amplitude of high-frequency pressure oscillations during resonant modes of pump operation, it is equipped with a dual-line with a spool distributor having two control cavities communicated with the injection window, one of which is spring-loaded and communicates with the injection window through a throttle, and one of the lines of the spool distributor is connected with an additional window, the other with an injection window. Sources of information taken into account in the examination 1. US patent 3094078, 5 cl. 91-6.5, 1963.