SU939779A1 - Power roof support unit - Google Patents

Description

{5) SECTION OF MECHANIZED MINE MIXTURES

The invention relates to mining and can be used in the systems of remote and modular control of hydroficated crepe of the working faces of coal and mining mines.

The known scheme of hydraulic control of a mechanized support, including racks with safety valves and hydraulic locks, hydraulic accumulators, distributors and hydraulic lines f T,

The disadvantages of this system are the impossibility of remote control of the support and considerable complexity.

Closest to OY1 to the technical essence and the achieved result, the section of mechanized mine supports includes racks with safety valves and hydraulic locks, hydraulic jacks of movement and a hydraulic distributor.

connected to the pressure and drain lines via a command block containing a shut-off valve f2.

The disadvantages of this section are the complexity of the design of three-position distributors and the absence of their unification with the other hydraulic elemiteite lining.

The purpose of the invention is to simplify the construction of the support section.

to

The goal is achieved by the fact that the hydraulic valve is made in the form of dual pressure and shut-off hydraulic locks with a common control chamber, with a pad (5 pan-chamber of the pressure hydraulic lock is connected to the over-valve chamber of the shut-off valve of the command block, and the piston cavity of each 20 hydraulic jack is with the command block .

. The drawing shows a hydraulic diagram of the mechanized shaft support.

The section consists of racks 1, equipped with safety valves 2 and hydraulic locks 3, hydraulic jacks 4 with a piston 5 and rod 6 working cavities, a distributor 7 made in the form of a double locking 8 and pressure 9 hydraulic locks, a command unit 10, equipped with a unit 10 equipped with a shut-off 11 and 12 check valves, pressure valve 13 and conveyor 14 lines “Sub valve valve 15 shut-off hydraulic lock 8 is connected to the piston cavity 5 of the hydraulic cylinder 4, and its valve valve 16 is connected to the conveyor line k, the hydraulic lock 9 is connected to the rod cavity 6 of the hydraulic cylinder t, and its sub valve 18 is connected to the valve valve 19 that has a shut-off valve 11 and the inlet chamber of the command unit 10, one of the outputs of which is connected to a common control chamber 20 of the locking valve. Piston cavity 5 of the hydraulic cylinder 4 is connected to the output of the command block 10,

Section lining works as follows.

With local shifting of the pipeline, the command unit 10 is installed in the PD position, the working fluid from the pressure line 13 through the shut-off 11 and the check valve 12 and the command unit 10 enters the piston cavity 5 of the hydraulic cylinder t, and from the rod cavity 6 it is forced out through the pressure hydraulic lock 9. Hydrojack razdvizhka and conveyor movement. In the case of frontal movement of the conveyor, the working fluid is supplied to the conveyor line 1 and through the subvalvate 15 and overlayed 1b chamber of the hydraulic lock 8 enters the piston cavity 5 of the hydraulic jack, and from the rod cavity it is displaced through the overlap 17 and subvalval 18 of the pressure hydraulic lock 19 and overlay valve 19 shut-off valve 11 in the hydraulic line 1 The movement of the support section is carried out when the command unit 10 is set to the SM position. In this case, the working fluid enters the common control chamber 20, the shut-off 8 and the pressure 9 hydraulic locks open, and the working liquid from the pressure line 13 through the shut-off valve 11, the valve valve 18 and the valve 17 above the pressure hydraulic lock 9 enters the rod cavity 6 of the hydraulic cylinder k, and the piston cavity 5, the fluid is displaced through the subvalvular 15 and the supravalvular 16 of the chamber of the hydraulic lock 8

conveyor line Ik.

The removal of racks 1 is performed when the command unit 10 is installed in the “Shso” position. The working fluid comes from the pressure line

13 through the shut-off valve 11, the command block 10 into the rod cavity of the rack 1 and the control chamber of the lock 3 that connects the piston cavities of the racks 1 with the drain.

Rack expansion 1 is performed when the command unit 10 is set to the PS position. In this case, the working fluid flows from the pressure line 13 through the shut-off valve 11, the command block 10, the hydraulic lock 3 to the piston cavities of the struts 1, and the liquid is displaced from the rod cavity to the conveyor line,

The proposed system, compared with similar modular control systems from under the adjacent section, has the simplest design and maximum unification of distribution equipment, since the pressure 9 and shut-off 8 hydraulic locks are similar to rack-mount hydraulic locks 3.

In addition, reliability is greatly increased and hydraulic

losses in the control system, which allows to increase the productivity of the complex and reduce the cost of its maintenance.

The annual economic effect from the introduction of the proposed system in comparison with the M-879 support will be at least 1900 rubles. on the complex.

Claims (2)

1. USSR author's certificate №, cl. E 21 D) 23/12, 1970. 2. USSR author's certificate in application N 2771129 / 22-03, cl. E 21 T) 23/16, 1979 (prototype h 645  J TfcdLLJ Does I - - ji moffiMH} / and "itc in / a al / 1 (1 PS tg nk . P