SU1078149A1 - Hydraulic control system - Google Patents

Abstract

1. MANAGEMENT HYDRAULIC SYSTEM, containing a differential lindr, a piston with a rod, is installed in the cylinder to form piston and cavity cavities connected to working gistrals through a distribution device with channels and an annular groove made in the form of a spring-loaded spool installed in the housing with distribution channels and a control cavity communicated with the piston cavity of the cylinder, characterized in that, in order to simplify the construction and increase reliability, the spool spring is placed from the side, otivopolozhnoy control cavity, the dispenser holds sdopolnitelnoy annular groove, wherein both groove formed on the spool and arranged to communicate with the cylinder rod end working line in the absence of pressure in the control cavity.

Description

2. The hydraulic system according to claim 1, characterized in that the rod is hollow, the spool is placed in the hollow shtgkke and is spring-loaded relative to it, the distribution channels are T-shaped and communicated with the annular grooves, the spring cavity communicating with the working line, one of the distribution channels communicated with the piston cavity, and the second - with the spring.

3. The hydraulic system according to claim 1, characterized in that the channels of the switchgear housing are made offset from each other along the axis of the housing, and an annular groove in the housing is provided to communicate the piston and rod cavities of the cylinder, while the spring cavity is in communication with the atmosphere.

one

The invention relates to mechanical engineering, in particular to hydraulic systems for controlling differential cylinders, but can be used in other areas of national economy.

A known hydraulic control system comprising a differential cylinder, a piston with a rod mounted in the cylinder with the formation of piston and rod cavities communicated through a distributor with working lines 1.

A disadvantage of the known system is the impossibility of providing dual-mode control.

A known hydraulic control system comprising a differential hydraulic cylinder with a piston rod mounted in a cylinder to form piston and rod cavities in communication with working lines through a distributor with channels and an annular groove made in the form of a spring-loaded valve with distribution channels and a control cavity in communication with a piston cylinder cavity 2.

A disadvantage of the known system is the complexity of the switchgear design.

The aim of the invention is to simplify the design and increase reliability.

This goal is achieved by the fact that in the hydraulic control system, which contains a differential cylinder, a piston with a rod is installed in the cylinder with the formation of piston and rod cavities communicated with working lines through a distribution device with channels and an annular groove, made in the form of a spring-loaded spool distribution channels and a control cavity communicated with the piston cavity of the cylinder, the spring of the slide valve is placed on the side opposite to the control cavity nor, distributive

the device is made with an additional annular groove, both grooves

made on the slide and arranged to communicate the rod end of the cylinder with the working line in the absence of pressure in the control cavity. The rod is hollow, the spool is placed in the hollow stem and is spring-loaded relative to it, the distribution channels are T-shaped and communicated with annular grooves, the spring cavity communicating with the working line, one of the distribution channels communicating with

5 piston cavity, and the second - with a spring.

In this case, the channels of the housing of the distribution device are made offset from each other along the axis of the housing, and in the housing there is an annular groove for communicating the piston and rod cavities of the cylinder, while the spring cavity is in communication with the atmosphere.

FIG. 1 shows the control hydraulic system with a distributor spool located in the hollow stem; in fig. 2 - hydraulic control system with a distribution device, placed outside the cylinder.

The hydraulic control system comprises a differential cylinder 1, a piston 2 with a rod 3 mounted in cylinder 1 with the formation of piston and rod cavities 4 and 5, respectively. Cavities 4 and 5 communicate with working lines 6 and 7 through switchgear 8, with its supporting housing 9 with channels 10 and, 11, spool 12 with spring 13. On the spool 12 ring grooves 14 and 15 are made. Piston 2 with rod 3 ( Fig. 1) is hollow, the spool 12 with a spring 13 times 40 u in it with the formation of the spring cavity 16, the distribution channels 17 and 18 are T-shaped and communicated with the grooves 14 and 15, while the cavity 16 is connected to the working highway 7 and the cavity 5, channel 17 with a cavity 4.

In the switchgear 8 (FIG. 2), the spring cavity 16 is in communication with the atmosphere via channel 18, annular groove 19 and channel 20 are made in housing 9, and channels 10 and 11 are offset from each other.

The hydraulic control system operates as follows.

The working medium is injected into cavity 5 from line 7 through cavity 16 and channel 10 (Fig. 1) or channels 10 and 11 and groove 14 (Fig. 2). In this case, the cavity 4 is communicated with the highway 6 and discharge.

When the working medium is injected from the line 6 into the cavity 4, the spool 12 is compressed, the spring 13 is moved. In doing so, cavities 4 and 5 communicate via channels 11 and 17 and annular groove 14 (Fig. 1).

or channels 11 and 20 and grooves 15 and 19 (Fig. 2). The drain from cavity 5 is blocked by spool 12.

As the load on the rod 3 increases, the pressure in cavity 4 increases, causing further movement of spool 12, and separation of cavities 4 and 5, with cavity 5 communicating with plum 7 7 by channels 10 and 18 and groove 15 (Fig. 1) or channels 10 and 11 and groove 15 (FIG. 2), i.e. a second mode of operation is provided — increased force at a slower moving stock speed.

The hydraulic control system provides dual-mode operation of the drive depending on the external load while increasing reliability by simplifying the switchgear design.

Claims (3)

1. HYDRAULIC CONTROL system, comprising a differential cylinder, a piston with a rod installed in the cylinder with the formation of a piston and rod cavities in communication with the working lines through a switchgear with channels and an annular groove, made in the form of a spring-loaded spool with distribution channels and a control cavity in communication with the piston cavity of the cylinder, characterized in that, in order to simplify the design and increase reliability, the spool spring is placed on the side On the opposite of the control cavity, the switchgear is made with an additional annular groove, both grooves are made on the spool and are arranged to communicate with the rod end of the cylinder with the working line in the absence of pressure in the control cavity. tDui. 1 2. The hydraulic system in π. 1, characterized in that the stem is hollow, the spool is placed in the hollow stem and spring-loaded relative to it, the distribution channels are T-shaped and communicated with annular grooves, the spring cavity being connected to the working line, one of the distribution channels communicating with the piston cavity, and the second - with a spring. 3. The hydraulic system in π. 1, characterized in that the channels of the housing of the switchgear are displaced relative to one another along the axis of the housing, and an annular groove is made in the housing for communicating the piston and rod cavities of the cylinder, the spring cavity being in communication with the atmosphere.