SU1116172A1 - Apparatus for controlling a power support unit - Google Patents

Abstract

A DEVICE FOR CONTROLLING A MECHANIZED SECURITY SECTION, including a support jack connected to the base and base. | The MCH / CL / cavity of which is in communication with a hydraulic distributor connected to a pressure and drain line, connected to a visor and an overlap of a jack for a visor, the piston cavity of which is connected to a block consisting of safety and non-return valves, which is connected to an additional non-return valve, characterized in that, in order to improve operation reliability by ensuring that the visor is constantly pressed while shifting the lining, both non-return valves are controlled; in this case, the sub-valve cavity is complementary th check valve communicates with the stem cavity (A jack advancing and nadklapanna rod with a cavity of the jack visor naklapannoy cavity and the cavity utsravleni return valve unit. // t rs

Description

The invention relates to the extraction of coal by underground mining and is intended for use in mine mechanized fortifications.

There are known devices for controlling the lining section, in which the working cavity of the goat-operated hydraulic chuck is connected to the piston cavity of the front pillar, and the permanent contact of the visor with the roof is carried out using a piercer valve 1.

The disadvantage of such devices is low reliability, since damage to the hydroline connecting the piston cavities of the hydraulic cartridge and the hydraulic column leads to unloading of the hydraulic column, as well as the inclination of the visor under the influence of rocks causes a reduction of the hydraulic cartridge, J4TO, in turn, leads to the opening of the hydraulic lock lock and unloading rack.

The closest to the present invention is a device for controlling a mechanized support section, comprising a movement jack connected to the base and a support base, the cavities of which are communicated with the hydraulic distributor connected to the discharge and drain lines, connected to the visor and covering the roof of the visor, the piston cavity of which is communicated with a block consisting of a safety valve and a check valve, which is associated with an additional check valve 2.

When the lining section advances, the working fluid is not fed into the piston cavity of the visor jack, and therefore, there is no active visor contact with the roof. The visor is pressed to the roof only after moving the section of the roof support by applying pressure to the piston cavities of the hydraulic post and the hydraulic jack of the visor. In case of unstable lateral rocks without constant pressure of the visor against the roof, the number of cracks in the roof increases, the incidence of miners collapses, the transverse stability of the seams on inclined formations decreases, which ultimately leads to a decrease in the reliability of the support.

The purpose of the invention is to increase the reliability of work by ensuring the constant pressing of the goat while moving the support section.

This goal is achieved by the fact that in the device for controlling the support section, including a movement jack connected to the base and support base, the cavities of which are communicated with the hydraulic distributor connected to the discharge and drain lines, connected to the visor and the roof of the roof visor, the piston cavity of which is communicated with a block consisting of a safety valve and a check valve, which is connected to an additional non-return valve, both of the check valves are actuated, while the subvalvular cavity is additionally check valve communicated with a rod-advancing jack cavity and nadklapanna - with the stem of the jack cavity kozyr- ka, supravalvular oral cavity and the check valve of the control unit.

The drawing shows the proposed device.

The device consists of a jack 1 movement, pivotally connected to the base 2 and the base of the lining 3 hydroracks 4, pivotally connected to the base 2 and overlap 5, | jack 6, pivotally connected to the overlap 5 and visor 7, the hydraulic distributor 8, the reverse controlled valve 9, the hydraulic lock 10, rack-mount hydraulic unit 11, pressure .12 and drain 13 lines.

The pressure line 12 via the valve 8 communicates with the piston cavity 14 of the travel jack 1 and with the rod cavity 15 connected to the input 16 of the reverse-control valve 9, which is controlled manually. The output 17 of the check valve 9 is connected directly to the rod cavity 18 of the jack 6, and to the piston cavity 19 through a hydraulic lock 10, resulting from the return 20 and safety valve 21. The rod cavity 22 of the hydraulic column 4 is directly, and the piston 23 via the column hydraulic unit 11 communicates with the pressure line 12 also by means of the hydraulic distributor 8.

The lid control unit operates as follows.

Preload the section of the support to the required amount by supplying the working fluid from it. 3 piping 12 into the rod end 22 of the hydraulics 4, turning on the hydraulic distributor 8, and displacing the working weft from the piston cavity 23 through the rack hydraulic block 11 and the hydraulic distributor 8 enters the drain line GZ to ensure a constant pressure of the peak 7 on the roof of the reservoir against the top of the valve. the support sections open the return controlled valve 9. When the control valve 8 is turned on in a position that reduces the movement of the jack 1, the working fluid from the pressure line 12 enters simultaneously The basement cavity 15 of the jack 1 of the movement, as well as to the open reverse controlled valve 9 and from its outlet 17 into the rod cavity 18 and through the non-return valve 20 of the hydraulic lock 10 into the piston cavity 19 of the jack 6, which leads to its separation as a result of the area difference rod 18 and then 19 cavity cavities and pressing the visor 7 to the roof of the plate. The working fluid displaced from the piston cavity G4 of the jack 1 of movement through the hydraulic distributor 8 enters the drain line 13. Thus, when the support section is moved, the jack moves to 6 with increasing power, which ensures constant contact of the visor 7 of the Roof under normal condition 724 the presence of voids and valesop in the roof of the visor 7 is fixed, for which the closing of the reverse controlled valve 9 stops the supply of working fluid to its output 17, which communicates with rod 1 and piston 19 lanes t mi jacks. Thus, the jack of the jack 6 stops and, consequently, the visor 7 is lifted. When the lining section is extended, the lining section is discharged by supplying the working fluid from the pressure line 12 to the piston cavity 23 of the hygroscopic 4 through the hydraulic block 11 to provide the lining section spreading . In this case, at the end of the visor 7, there will be a force perceived by the jack 6, in the piston half 19, with increasing pressure on the end of the goat, the pressure increases until the safety valve 21 of the hydraulic lock 10 opens, causing the jack 6 to start decreasing and working out of the piston cavity 19 the liquid enters the drain line 13 through the back-controlled valve 9 and the hydraulic distributor 8. Thus, at the end of the thrust of the section, the support jack 6 is reduced, and the visor 7 is pressed against the entire area to the roof fin with a predetermined force. The proposed device allows a constant pressure of the visor to the roof and increases the reliability of operation.

Claims (1)

DEVICE FOR CONTROLING THE SECTION OF A MECHANIZED FASTENER, including a movement jack connected to the base and the base of the support, the cavities of which are connected to a hydraulic distributor connected to the pressure and drain lines, connected to the visor and the overlap of the visor jack, the piston cavity of which is connected to the block, check valve, which is associated with an additional check valve, characterized in that, in order to increase the reliability of operation by ensuring constant pressure of goats rka when advancing support frames, both check valves are made controllable at this subvalvular cavity additional check valve communicates with the stem cavity advancing jack and supravalvular rod with a cavity of the jack visor naklapannoy cavity and the cavity of the check valve of the control unit. SU .... 1116172 1 1116172 ² ·