SU1143854A1 - Arrangement for relieving the hydraulic drive of power roof support - Google Patents

Abstract

THE DEVICE FOR UNLOADING A MECHANIZED HYDRAULIC DRIVE, including a housing, in a cylindrical bore of which a spool interacting with the biasing element is installed with a piston, seals, radial and axial channels, a pressure and discharge lines, with the The goal is to increase reliability and stability of operation by reducing the pressure difference between the opening and closing, the biasing element is made in the form of a gas cylinder, and the piston of the slide valve - with an annular groove located between the seals , at the same time, a check valve is integrated in the spool, its sub valve chamber communicates with an annular groove, and the valve above the valve one communicates with the pressure valve (O gistralia.

Description

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4 The invention relates to hydraulic devices of powered roof supports and is intended for use in the coal industry. The mechanized lid control device, which contains a body in which a spool with controls, a conical closure, a seat and a spring connected to the pump outlet fl, is known. The disadvantages of the device are low reliability due to the fact that the seal is carried out only by one valve. a pair, the failure of which leads to loss of tightness, which reduces the performance of the coal-mining complex, as well as the complexity of the design due to the use of two valve pairs equipped with springs, seals and pushers Closest to the invention is a mechanized lining hydraulic discharge device, comprising a housing, in a cylindrical bore of which there is a spool with a piston, seals, radial and axial channels, a pressure and drain line 2, which interacts with a clamping element. quite reliable in operation due to low values of closing pressure, average pressure in the hydraulic system and speed of working operations. The aim of the invention is to increase the NOSTA and stability by reducing the difference between the opening pressure and closing. This goal is achieved by the fact that, in a hydropri ™ discharging device, water is mechanized lining, including a housing, in a cylindrical bore of which a gold piston with a piston, seals, radial channels, a pressure and drain lines, interacting with a pressing element, is mounted. the gas cylinder, and the piston of the valve - with a circular groove located between the seals, the check valve being inserted into the eolotnik, its sub-valve chamber communicating with the annular groove and The chamber is with a pressure line. The drawing shows the proposed device. The hydraulic drive support device consists of a housing G, in which there is a spool 2 with a conical gate and a piston 3, provided with a groove 4, made between the spacer seal 5 and the protective seal 6, and connected by a radial channel 7 and an axial channel 8 with a submapped return chamber 9 valve 10, the subvalvular chamber 11 of which is connected through the pressure chamber 12 to the supravalve chamber 13 of the main check valve 14 and pump 15 outlet. The spool 2 with its conical surface under the action of compressed gas, is located State in the chamber 16 of the gas cylinder 17, pressed against the seat 18, hermetically separating the inlet of the pump 15 from the chamber 19 of the drain connected to the tank 20 of the pump 15. In addition to the conical sealing pair, the saddle 18 is the conical surface of the spool 2, the device is equipped with a slotted seal formed by a cylindrical the surface of the spool and the housing surface 21 mating with it, which can also be made in the form of a sleeve located in the housing 1. The zolnr to 2 is equipped with a pusher 22, the control chamber 23 of which is connected to the subvalvate chambers 24 via the throttle 24 25 th of the main check valve 14 and the hydraulic roof supports. The gas chamber 16 of the cylinder 17 is charged to the required value through valve 26, and the pressure of the gas chamber 17 is significantly lower than the pressure in the hydraulic support system by an amount proportional to the ratio of the areas of the piston 3 and the cross section of the spool 2 at the contact with the saddle 18. The valve 2 is located in the cylindrical bore 27 of the housing 1. The device operates as follows. In the initial position, the spool 2 under the action of compressed gas acting on the piston 3 is in its lowest position and hermetically seals the pressure chamber 12 from the discharge chamber 19 due to the valve seal 18 - the tapered surface of the spool 2, and the slot seal cylindrical surface of the spool 2 - body one.

The working fluid injected into the j-HflpocHCtebry lining by pump 15 enters the pressure chamber 12 and through the spool 2 channels into the valve valve 11 and the valve valve chamber 10, channels 8 and 7 and groove 4, seals 5 and 6 Since the expansion pressure of seals 5 and 6, equal to the pressure in the hydraulic support system, is greater than the pressure in the gas chamber 16, which is proportional to the ratio of the working areas of the piston 3 and spool 2, such specific pressures are created on the sealing surface of the seals 5 and 6 that ensure reliable gas sealing Oh camera 16.

In addition, the check valve tO provides the maximum static value of the expansion pressure of seals 5 and 6, independent of pressure fluctuations in the hydraulic system of the support and the gas chamber 16, as well as constant lubrication of the sealing surfaces, resulting in increased stability and reliability of the device.

When the pressure rises above the allowable working fluid enters the pressure chamber 12 under the spool 2 and through the main check valve 14, the throttle 24, through which the response time of the device is adjusted, into the control chamber 23. When the pressure to which the discharge device is adjusted The spool 2 together with the pusher 22 moves to the extreme upper position, connecting the pump 15 through the pressure 12 and drain 19 chambers to the tank 20, i.e. the pump 15 is idling, consumes a small amount of energy, and the pressure in the hydraulic system remains maximum, as (The check valve 14 closes.

When the pressure in the hydraulic system decreases due to leaks or performance of work, the spool 2 together with the pusher 22 under the action of gas pressure in the chamber 16 is mixed to its lowest position, sealing the chamber 12 from the discharge chamber 19. The pump works through a check valve 14 on the hydraulic support system.

The difference between the pressures of opening and closing of the hydraulic relief device lining reaches 1-2% and can 1 be controlled by changing the volume of gas in chamber 16. As a result of the small pressure difference between the opening and closing of the spool 2, the pressure in the hydraulic support is stable.

In addition, the operation of the device does not depend on the flow rate of the working fluid switched by the valve, as in the unloading devices with a metal spring. Therefore, it is also expedient to use the proposed device as a retaining or safety valve, for example, in a makeup pump.

The use of an unloading device in the hydraulic systems of powered roof supports allows to significantly increase the reliability of operation due to double sealing (spool 2 - saddle 18, and spool 2 - housing 1), creating an expansion pressure in the groove 4, to obtain a more stable pressure in the hydraulic support system, which ultimately account leads to an increase in production. coal from lava.

in his / pho a / s / tg- - at mr € L1 /

Claims (1)

DEVICE UNLOADING THE HYDRAULIC DRIVE OF A MECHANIZED FASTENERS, including a housing, in a cylindrical point of which a spool interacting with a pressing element is installed with a piston, seals, radial and axial channels, a pressure and drain line, and so on, including that, in order to increase the reliability and stability of work by reducing the pressure difference ^ opening and closing, the pressing element is made in the form of a gas cylinder, and the spool piston is made with an annular groove located between the seals at this ohm-return valve is integrated in the slide valve chamber of its subvalvular com- ₌ schena with an annular groove, and supravalvular chamber - with the pressure line. SU,., 1143854