SU985409A1 - Axial piston hydraulic machine - Google Patents

Description

54) AXIAL PISTON HYDRAULIC MACHINE

The invention relates to hydraulic engineering and can be used to reduce the level of vibroactivity of axial-piston hydraulic machines.

An axial-piston hydraulic machine is known, comprising a rotating cylinder block arranged in a housing cavity, having windows formed on the front part and communicating with cylinder bores in which pistons and chambers are placed, in which damping pistons spring from each side are mounted, separating each chamber two cavities, one of which is connected to the cylinder bore, and an end spool with distribution windows, separated by jumpers tl.

The drawbacks of the hydraulic machine are the impossibility of eliminating the drop in pressure between the cylinder bore and the distribution windows of the face spool, as well as the high velocity of fluid flow, leading to cavitation, accompanied by erosion of the adjacent surfaces of the cylinder block and the front spool.

The purpose of the invention is to reduce vibroacoustic activity and increase resource.

The goal is achieved by the fact that in an axial-piston hydraulic machine containing a rotating cylinder block located in the housing cavity, there are windows made on the front part and combining with cylinder bores in which pistons and chambers are installed, in which pistons spring-loaded from two sides are installed. separating each chamber into two cavities, one of which is connected to the cylinder bore and the mechanical spool with distribution windows, separated by links of the cylinder block 20 is provided with an additional Additional windows, made on its end part, and throttle channels connecting additional windows to the second spring chamber cavity, each of the additional windows are located in front of the main one in the direction of rotation of the block, and jumpers are made with the possibility of blocking the window of the cylinder and additional

30 windows.

Cameras with damping pistons are located inside the pistons of the cylinder block; and the pistons are made with grooves in communication with the throttle channels and the second chamber spring.

FIG. 1 schematically shows an axial piston hydraulic machine; in fig. 2 — working face of the face spool (the dotted line shows the location of the window of the cylinder block and the additional window at the moment) when the piston is at a dead point ;; on.

The axial-piston hydraulic machine comprises a cylinder block 1 with windows 2 communicating with cylinder bores 3 under pistons 4, an end spool 5 with distributor windows b and 7 separated by bridges 8. Inside the pistons there are chambers with damping pistons located on both sides. 9. The damping piston divides the chamber into two cavities 10 and 11. In the inter-window bridges 12 of the cylinder block 1, additional windows 13 are made connecting the windows 6 and 1 of the mechanical spool 5 through throttling channels 14 and the canal system 15 holes with a spring GAS-1YU 10 camera. The pistons x 4 are provided with grooves 16, communicated with the throttle channels 14 and the spring cavity 10 of the chamber. The cavity 11 is connected to the cylinder bore 3. The length of the interchannel crossover mark 8 of the face spool is such that when the piston is in the dead center, the language mark 8 overlaps the window 2 of the cylinder block and the additional window 13.

HydromashNs1 works as follows.

Suppose, for example, that in window b is the suction pressure, and in window 7 and, respectively, in the cylinder bore 3 and in the cavities 10 and 11, the injection pressure. When the cylinder block enters, at the moment the throttling channel 14 connects with the window 6, the pressure ni / TBM is equalized by the flow of fluid from the chamber cavity 10 through the system of sewage holes 15, the grooves in the piston 16 and the throttling channel 12 into the window 6. The sudden change in pressure in the pope 10 smoothes damping piston 9. Since the pressure in cavity 10 is reduced, the resulting pressure difference between cavities 10 and 11 causes movement of the damping piston 9, resulting in pressure in cavity 11

and accordingly, in the cylinder bore 3 also decreases. Therefore, by the time window 2 is connected to window 6 of the face spool 5, there is practically no pressure differential between them. This is also ensured by selecting the appropriate distance from the throttling bore to the front (relative to the rotation of the cylinder block) window edge so that during the passage of the block of the specified distance the transient process of overshoot of pressure in the chamber 11 and the cylinder bore 3 is established.

Similarly, the work of the hydraulic machine at the reverse pressure in the channels of the mechanical spool.

The proposed design makes it possible, by reducing the velocity of the flowing liquid and reducing the pressure differential between the connecting cavities as compared to the known one, to improve the indicator diagram, eliminating cavitation phenomena and eliminating compression peaks (decompression pressure dips during operation of the hydraulic machine in off-design modes, reduce vibration activity on frequencies that are multiples of the switching frequency, increase the life of the hydraulic machine by improving the workflow.

Claims (2)

1. An axial piston hydraulic machine comprising a rotating cylinder block arranged in a housing cavity, having windows formed on the front part and communicating with cylinder bores in which pistons and chambers are installed, in which damping pistons spring from both sides are installed, separating each chamber into two cavities, one of which is connected with a cylinder bore, and an end spool with distributor windows separated by bridges, it is necessary that, in order to reduce vibroacoustic activity and increase the service life, the cylinder block is equipped with additional windows made on its front part and throttle channels connecting additional windows with a second spring chamber cavity, each of the additional windows located in front of the main one in the direction of rotation of the block, and jumpers made with the possibility of overlapping the cylinder window and the additional lnative window. 2. Hydraulic tire according to claim 1, characterized in that the chambers with damping pistons are located inside the portion of the cylinder block, and the grooves are provided with grooves in communication with the throttle channels and the second spring chamber of the chamber. Sources of information taken into account in the examination 1. Japanese patent number 19-37928, cl. 63 C 130.1, published. 1974. four -Tf fifffrf ff jfe ye / yfru / e / iff / 71/770 / yy ffve / f fj ff s