SU945468A1 - Power roof support unit - Google Patents

Description

(S) MECHANIZED SECTION

one

The invention relates to mining and can be used in coal mining mechanized complexes.

A device for controlling a shaft support section is known, comprising hydraulic racks with safety and unloading valves, a distributor, a pressure transducer made in the form of a multiplier with non-return valves 1.

A disadvantage of this device is the impossibility of providing the same initial spread of all struts along the lava and the complexity of the design of the pressure transducer, which are installed on each section.

The closest to the proposed technical essence and the achieved result is the section of the mechanized support, containing hydraulic racks, a jack of movement, safety valves, hydraulic MITTING FIXTURES

locks, blocks of initial expansion, distributor with a cut-off valve, which are connected through a pressure head, drain and expansion pipe with pumps 2.

The disadvantage of this device is the lack of design, a large number of hydraulic elements, which ensures reliable operation and increases the control time.

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

The goal is achieved by the fact that the initial thrust block is made with a separate 5 valve valve and a stem chamber, and a subclause. its pancake chamber is connected to the hydraulic post piston cavity, and the control chamber is connected to the valve valve above the valve.

The drawing shows the hydraulic circuit of this section.

The mechanized shaft lining section consists of hydraulic rails 1 with 9 piston pores 2 and a rod 3 cavities, equipped with safety, fold 5, non-return 6 valves and an initial thrust block 7, a hydraulic jack 8, a distributor 9 with a slam-shut 10, movement pumps 11 and a thrust 12. The camera 13 of the control unit 7 of the initial thrust is connected by pipelines I and 15 to the inlet of the distributor 9 and the valve valve 16 above the valve 16, the valve valve of which is connected by a pressure line 17 to the movement pump 11. The outlet of the distributor 9 is connected to the drain line 18, and the outlet of the pump 12 of the thrust is connected by an expansion line 19 to the over-valve chambers 20 of the locking element 21, which is spring-loaded to the saddle by a spring 22, which fills the septum 23, sealingly separating the valve 24 and the rod 25 chamber between them of block 7, the sub-valve chamber 26 of the unloading valve 5 is connected to the / piston cavity 2 of the hydraulic post 1, to the inlet of the safety valve C and to the sub-valve chamber 2 of the block 7. The rod chamber 25 of the block 7 is connected to the valve valve 27 unlocked A narrow valve 5, the control chamber 28 of which is connected to a check valve 6, a rod cavity 3 and a hydraulic post 1 and a distributor 9 A multiplier or other pressure transducer can be used as a thrust pump besides a high-pressure pump. In the initial state, the pumps 11 and 12 are turned off, the locking element 21 is pressed by the spring 22 to the seat of the block 7. When rock pressure is applied to the rack 1, the working fluid in its piston cavity 2 is compressed and when the set value is reached, it is reset to drain by a safety valve. When the pumps 11 and 12 are turned on, the working fluid under the required pressure is supplied via the pressure line 17 and the expansion pipe 19 to the distributor 9 and blocks 7. If the pressure in the hydraulic posts 1 is less than in the expansion pipe 19, the working liquid depresses the locking element 21 and enters through the subvalvular chamber 2 into the piston cavity 2. In the hydraulic posts 1 located along the lava, the pressure of the working fluid is not less than that in the expansion pipe 19. When performing the working operation of removing the section expansion valve 9, install ivaets position loops. At the same time, the cut-off 10 opens the pressure of the working fluid from the pump 11 through the pressure line 17. the cut-off 10, pipeline 1 (enters the control chambers 13 of the blocks 7, the plungers of which move downwards and shut-off element 21 disconnect the expansion pipe 19 from the hydraulic circuit of the section. In addition The working fluid through the distributor 9 enters the rod cavity 3 of the hydraulics 1 and the control valve 28 of the unloading valve 5. The working fluid is expelled from the piston cavity 2 of the hydraulics 1 through the chambers 26 and 27 of the discharge valve 5 into a discharge line 18. Hydraulically retracted pressure is unloaded 1. The support section is moved during installation of the distributor 9. The operating fluid enters the rod cavity of the hydraulic cylinder 8 and is displaced from the piston cavity into the drain line 18. The support section arises during installation of the distributor 9 at the same time, the working fluid comes from the pump 11 to move through the relief valves 5 into the piston cavities 2 of the hydraulic posts 1. After the completion of the working operations of the support section, the valve 9 at that moment, the shut-off device 1 (J is closed, the control chambers of the blocks 7 are connected with the drain at the moment of switching the distributor, the locking element 21 is pressed from the seat of the block 7, as a result of which the working fluid from the expansion pipe 19 is through the valve 20 and the valve valve 15 2 chambers enter the piston cavities 2. In the hydraulic legs 1, an initial thrust pressure is set equal to the pressure in the expansion line 19, which is at least 0.8 of the nominal pressure of the hydroresistance. This pressure is maintained in all hydrocalls, with the exception of movable sections, along the entire lava. Under the influence of rock pressure on the hydraulic post 1, the pressure of the working fluid in its piston cavity 2

the locking element 21, which is pressed by the spring 22 to the saddle of the block 7, also increases, disconnects the hydraulic post 1 from the expansion rail 19.

The hydraulic unit 1 goes to work in the mode of increasing resistance and, when the nominal load is reached, the working fluid from the piston cavity 2 through the safety valve C is discharged into the drain line 18.

/ Cutter 10, can be made as a two-line or three-line, and the valve 9 can be made seven-position with a separate position spread from the line 19

This device provides a constant initial spreading of struts (close to nominal) along the lava with simpler hydraulic equipment structures, as a result of which the condition of the roof improves and the safety of mining operations increases.

Claims (2)

1. USSR author's certificate tf 6293 9, cl. E 21 O 23/16, 197. 2. USSR author's certificate number 615230, cl. E 21 D 23 / T6, 197 (prototype). Al B / l