SU1049671A1 - Hydraulic system of powered support - Google Patents

Abstract

HYDROSYSTEM OF MECHANIZED STRIPS, including hydraulic jacks and hydraulic legs, a switch is connected to the pressure and drain lines and has a different type of hydraulic cylinders, non-return valves and that are compatible with their liners / 7 switches and limit switches and different hydraulic valves that have check valves and which are connected with the possibility of their lines / 7 switches and limit switches, are different, and have check valves and that are compatible with their liners / 7 switches and limit switches, which are different, and have check valves and which are interoperable with their liners / 7 switches and limit switches, and which are equipped with non-return valves and which are compatible with their liners / 7 with limit switches and others, which are equipped with check valves and that are interoperable with their liners / 7 switches and limit switches, and which are equipped with check valves and that are compatible with their liners / 7 with end switches and which are different, they have check valves and are installed with the possibility of interaction of their liners / 7 with limit switches and others; the fact that, in order to increase the reliability and safety of operation, the switch is made with a control chamber, and the end of the switch is in the form of paired inlet and dump check valves with a push rod, The master cylinder driver is configured to interact with the inlet check valve pusher, the sub valve valve of which is connected to the pressure line, ai valve valve connected to the switch control camera and the subvalvate valve of the check valve, the valve valve of which is connected to the branch line. e the ability to interact with the rod of the antifriction hydraulic cylinder .. 4 CO O) s | and

Description

The invention relates to hydraulic systems of mechanized roof supports and is intended for use in the corner and mining industries. A well-known hydraulic system is a mech support, containing shifting jacks, a hydrostreater, a distributor and a multiplier with a hydraulic lock, connected by a low-pressure cavity with a pressure line, and a high-pressure cavity with hydro-racks l}. However, in this technical solution, the pressure is increased with the help of a multiplier only when the struts are mounted on one lining section, and as a result, all the mechanical fasteners have a complex hydraulic circuit and do not provide an automatic multiplier. The closest to the proposed technical essence is the hydraulic system of mechanized support including hydraulic jacks and hydraulic legs, connected through a switch with a pressure and drain line and with master and antiphase hydraulic cylinders having check valves and installed 1 and with the possibility of their rods connecting with end valves switches Gz. However, such a device has complex hydromechanical connections, the large dimensions of the switching device of the multiplier and lie ensures reliable and safe operation. The aim of the invention is to increase the reliability and safety of operation. The goal is achieved by the fact that in a hydraulic system of mechanized support, including hydraulic jacks and hydraulic legs, are connected through a switch to the pressure and drain lines and to master and antiphase hydraulic cylinders, which have check valves and are installed with the possibility of interaction of their rods with limit switches, the switch is made with a control chamber, and the limit switches are in the form of paired inlet and dump check valves with pushers, while the stem of the supplying hydraulic cylinder is mounted with the interaction with the inlet check valve pusher, the valve valve is connected to the pressure trunk, and the valve chamber above is connected to the switch control cameras and the valve valve of the relief valve, the valve valve above which is connected to the drain main valve possibility of interaction with the antiphase rod hydraulic cylinder The drawing shows the hydraulic circuit of the device. The mechanized support hydraulic system contains a pump 1 connected by pressure 2 and drain 3 lines through sectional distributors 4 m with jacks 5, hydraulic legs 6 and a multiplier7. The multiplier 7 consists of a master 8 and opposite phase 9 hydraulic cylinders, the piston cavities 10 and 11 of which are connected to the switch 12. The input 13 of the switch 12 is connected to the valve valve 14, the pump outlet 1 and the under valve 16 of the intake check valve 17, and the outlet 18 of the switches 12 is connected to the drain line 3 and the above-valve chamber 19 of the discharge check valve 20. The sub valve chamber 21 of the discharge check valve 20 is connected to the valve valve 22 of the inlet check valve 17 and the chamber 23 at switch 12. The driver 8 and the antiphase 9 hydraulic cylinders, the inlet 17 and the dumping 20 check valves are fixed to the frame 24. The rod cavities 25 and 26 of the hydraulic cylinders 8 and 9 are connected to piston cavities 11 and 10, as well as c. non-return valves 29 and 30 are connected to a pressure line 2, inlets of sectional valves 4 and a check valve 15. The multiplier 7 is connected to the pressure line 2 through a valve 31. During operation, the pusher 32 of the inlet check valve 17 interacts with the hydraulic rod 33 ilindra B, and resets the plunger 34 of the check valve 20 cooperates with the rod 35 of the hydraulic cylinder 9 antiphase or any intermediate member fixed to rods 33 respectively. Hydraulics mechanized. lining works as follows. When working 1x operations to move the lining sections (unloading, podgivaniya, thrust) in the open valve 31 working fluid from the pump 1 through the discharge line 2, the switch 12 enters the piston cavity 10 of the master cylinder 8 and the rod cavity 26 of the antiphase hydraulic cylinder 9, as a result, it is reduced, and the master cylinder 8 is moved apart, displaced from the rod end. 25 through a check valve 29 into the pressure line 2 of the working fluid under pressure proportional to the ratio of the working areas of the master cylinder 8. As a result of this increase in pressure, the movement forces of the jacks 5 and the spacing of the struts 6 increase, ensuring an increased speed and safety of roof control.

When fully extended, the rod 23 of the master cylinder 8 interacts with the pusher 32, which opens the inlet check valve 17, through which the working fluid enters the sub-valve, the chamber 21 of the resetting check valve 20 and into the control chamber 23, switching the switch 12. Thereafter, the working fluid enters through the switch 12 into the pneumatic cavity 11 of the antiphase cylinder 9 and through the non-return valve 27 into the rod cavity 25 of the master cylinder 8, which contracts. c, and the antiphase hydraulic cylinder 9 moves apart and discharges n is the working fluid from the rod end 26 through the check valve. 30 to discharge line 2. When fully extended

the rod 35. opposite the hydraulic jack 9 communicates with the pusher 33, which opens the reset check valve .20, connecting the control chamber 23. The switch 12 to the drain line 3. The switch 12 returns to its initial state and connects the pressure line 2c by a piston type 10 of the setting cylinder 8, the operation of which is carried out as described. Thus, the automatic operation of the multiplier occurs.

To disconnect the multiplier 7 from the hydraulic system, the valve 31u is closed -.

 The proposed device to be used and the automation of the pro. The process of moving the jacks 5, pillars b or other similar hydraulic mechanisms. .

Claims (1)

(541 HYDRAULIC SYSTEM OF THE MECHANIZED FASTENERS, including hydraulic jacks and hydraulic racks, connected in turn by a switch with pressure and drain lines and with master and antiphase hydraulic cylinders having non-return valves and installed with the possibility of interaction between their stroke switches, and so on with the fact that to increase reliability and safety, the switch is made for personal purpose with a control camera, and the limit switches are in the form of paired inlet and discharge check valves with pushers, while the current of the master hydraulic cylinder is installed with the possibility of interacting with the inlet check valve pusher, whose sub-valve chamber is connected to the pressure line, and the sup-valve chamber is connected to the switch control chamber and the sub-valve chamber of the resetting check valve, whose sub-valve chamber is connected to the drain line, and its pusher is installed with the possibility of interaction with the rod of the out-of-phase hydraulic cylinder. about Λ s yes m