SU815313A1 - Pneumatic bladder roof support - Google Patents

Description

one

FIELD OF THE INVENTION The invention relates to mining, in particular to mechanized air bellows for mining thin coal seams.

Known lining for cleansing faces, including air bellows sections, which are moved to the bottom by wedge advancement driven by a winch 1.

However, the bypass block of this support, installed on the ventilation drift, must be transferred after each shifting and fixed on the soil of the drift. This requires constant manual labor costs, and its inaccurate installation leads to a negative effect on the shifting of the end section.

The closest technical solution of the known ones is pneumatic support, comprising a base beam with crossbars, on which links are pivotally fixed by the middle part, by means of which the support sections are pairwise interconnected, and the bottom-hole links are attached to the connecting rod. ends with peredvizchik 21.

The disadvantage of this lining is the need for constant monitoring of the synchronism of the movement of lining and advancing, otherwise

In this case, the horizontal component of the force from the movement appears, which bends the cantilever part of the beam, increases the resistance to movement of the support, changes the pitch

movement of the end sections / which reduces the performance of the lining as a whole.

The purpose of the invention is to increase the reliability of the lining.

The goal is achieved

the fact that the mobile unit is made of a pneumatic tube, rigidly connected with the end section of the support, a hydraulic ram j vertical telescopic

the beams are rigidly fixed on the pneumatic tube and connected with one part to the cylinder of the hydrostatic spreader, and the other to its rod, and the shifter hydraulic jack, which is connected at one end to the pull rod, and

to others through hinges with mutually perpendicular axes - with a telescopic beam.

The drawing shows a pneumatic crater, General view.

The pneumatic cradler lining consists of odd even 1 and odd 2 sections interconnected in pairs — links 3 and 4, hinged on the crossbar 5, which is rigidly connected to the base beam b. The ends of the links 4 have a common axis of rotation with a traction rod 7. In the plane of the reservoir, sections are interconnected and with end sections of the w base beams of the pull rods hinge, which improves the adaptability of the support to the formation hypsometry. The end sections, unlike the linear ones on the drift side, each have one additional air spring connected by a rigid connection and having a common bottom of compressed air. Pacnop mechanisms 8 and 9, consisting of hydraulic legs 10 and 11, telescopic beams 12 and 13, rigidly attached to the support of the cylinder rack 10 or 11, and the other; . The hydraulic jacks of the sliders 14 and 15 are connected by rods with the pull rod 7, and by the cylinders by means of hinges with mutually perpendicular axes - with telescopic beams.

To move the supports and shoulders to the face from the odd sections 2, the air is released into the atmosphere. The rod cavity of the hydraulic jack of the shifter 14 and the piston cavity of the hydraulic post 10 are connected to a drain line. The working fluid is injected into the piston cavity of the hydraulic flow 11 of the spacer mechanism 9. After reaching the nominal pressure in the rack 11 and the release of air from the cylinders of odd sections 2, the rod cavity of the hydraulic cylinder 15 is connected to the working line. T he 7 moves upwards. Link 3 and 4 rotate around axes A-A located on even sections 1 fixed between the roof and the soil. Odd sections 2 move to the bottom and occupy a position at the end of shifting that is half a step ahead of cylinders with So As the crossbar 5 is fixed in the middle of the links 3 and 4, it will move together with the base beam to the bottom by a step two times smaller than the step of moving the section. Together with the linear sections, the end faces will be moved to the bottom

a section with a spacer 8 fixed on it. In the final position, the jack shaft 14 is extended, and the jack rotates around the hinge of the Biv end of the shifter occupies relative to the end section a position identical to the position of the jack 15 shown in the drawing, and the jack 15 - the position of the jack 14 The odd sections are filled with compressed air, and after chip removal, the process of shifting is carried out in an identical manner, but already with even sections 1.

All work on managing the operation of sections and the device of their transfer can be done from the roadway. In this case, injuries and occupational diseases will be reduced, as well as increased labor productivity, due to a decrease in the time spent on ensuring the simultaneous movement of the lining with the device for its movement along the seam direction.

Claims (2)

1. Author's certificate of the USSR 397651, cl. E 21 D 23/00, 1971. 2. USSR author's certificate, 5, according to the application No. 2624253, cl. E 21 D 23/00, 1978 (prototype).