SU947467A1 - Regulator of twin axial-piston hydraulic machine - Google Patents

Description

(5) ADJUSTABLE AXIAL Piston Gear Regulator,

The invention relates to hydraulic engineering and can be used. Vano In hydraulic drives for various purposes.

A known regulator of a double axial-piston hydraulic machine, containing a total power limiter with a stepped servo piston that interacts with a thrust, a remote control hydraulic cylinder with a piston, a steering hydraulic booster.

A disadvantage of the known device is the coincidence of the start of adjustment with the position of the maximum capacity of the hydraulic machine, which determines the presence of load at start-up, as well as the considerable dimensions of the device.

The purpose of the invention is to reduce the load at startup and reduce the size of the device.

This goal is achieved by the fact that the hydraulic booster is made in the form of a differential piston with an axial bore in which the sleeve is installed, and is equipped with the next follow spool located kinematically associated with a thrust limiter of total power, and the piston

The remote control hydraulic cylinders are installed coaxially with axial displacement of axial movement relative to it.

Figure 1 shows the proposed controller, section; Fig. 2 is a scheme of hydromagline with a regulator.

The regulator contains the limiter 1 total power with step

10 servo piston 2 interacting with thrust 3, a remote control hydraulic cylinder 4 with a piston 5, a control hydraulic booster 6, made in the form of a differential piston 7 with a 5 axial boring 8, in which a sleeve 9 is installed, and equipped with a time / I wired 9 sleeve the spool 10, which is kinematically connected with a thrust 3, and the piston 5 of the remote control 5 is set coaxially with the axial displacement 3 relative to it. Differential poren 7 finger 11 connected with a regulating body 12 workers

25 nodes 13 and 14 hydraulic machines. Coaxial r 3 are located 15, 16 and 17.

When the device is operating, at the initial moment, when the discharge pressure is shnally, the spring 17 holds the piston 5, tu 3, the follow spool 10 and the piston 7 in the leftmost position, providing the minimum tilt of the working units 13 and 14 and the minimum load on the drive motor. When supplying the working fluid under porien 5, it moves, the spring 17 is compressed, and moves through the springs 15 and 16, t gu 3 with the spool 10. The working fluid through the spool 10, influences a large area of the differential piston 7, moves it to the right, moving the finger 11 and the regulatory authority 12 hydromasins, increasing the productivity of the working units 13 and 14.

The productivity increases until the m 3 of the engine reaches the servomotor 2. This position corresponds to the maximum working volume of the nodes 13 and 14.

Thus, the proposed controller provides M1 with an minimum load at start-up with reduced dimensions of the structure.

Claims (1)

1. USSR author's certificate in application number 2686355 / 25-06, cl. F 04 B 49/08, 1978. 15 16 17 / t, T t.- - 71 li I I - f-T i |  I -