SU887807A1 - Machinery set for excavating thick sloping beds - Google Patents

Description

(54) UNIT FOR THE EXTRACTING OF POWERFUL, RIGHT TONES

The invention relates to the mining industry, namely to means of excavating a mineral in steep seams. A frontal cleansing unit is known, including sectional mechanized lining, a scraper conveyor distributing an executive body with an endless chain and plow carriages along the length of the lava; The disadvantage of the unit is the lumbering / gdnostnoe executive body prieaboynogo space and the bulkiness of the lining. A known unit for excavating steep seams with pillars in a fall direction, comprising a mechanized support with base beams and a conveyor-side connected to the base beams by means of paired multi-joints with hydraulic jacks 2. The arising reactive forces from the work of a conveyor belt in the mechanized support of this unit must be extinguished by means of a special core multi-link. In addition, the twin mounts, through which the conveyor is attached to the base beam, significantly clutter up the bottom hole. The purpose of the invention is to reduce the reactive loads on the powered roof supports from conveyor circles. This is achieved by synchronous operation of conveyor circles in opposite directions, the conveyor belt feeding mechanism for the thickness of the reservoir being made in the form of a chain covering a system of blocks installed in the upper and lower parts of the mechanized support and moving blocks connected to the hydraulic jack. .

FIG. Presented offer 111y unit, general view; in fig. 2 - unit lining section, side view; in fig. 3 - conveyor belt feeding mechanism.

The unit for excavating powerful steep seams consists of sections 1 of the mechsided support, including upper to 2, base 3, a hydrorack 4 mounted between them, a base beam 5 with a vertical wall 6. In the rear part of section 1 of the upper support to 2 and the base 3 are interconnected barrier 7, top to 2 is connected by a hydraulic cylinder 8 with a vertical wall 6, and the base 3 by a hydraulic cylinder 9 - with a base beam 5, the vertical wall 6 is made sliding, the upper and lower parts of which are connected by a hydraulic cylinder 10.

Brackets II and 12 are mounted on the vertical wall 6 with the possibility of vertical movement, on which the upper and lower conveyor lines 13 and 14 are located,

Conveyor belt feeding mechanism

13 and 14 for the thickness of the reservoir is made in the form of a chain, covering the block 15, mounted in the upper part of the vertical wall 6. The ends of the branches of the chain 16 are fixed fixed. Blocks 17

and 18 and movable blocks associated with the branches of the chain are installed in the lower part of the support. The blocks 19 and 20, mounted in the guide 21, are moved by the hydraulic jack 22. To move in opposite directions, the branches of the chain 16 bend around the blocks 19 and 20 from different sides.

In this case, one of the branches of the chain, enveloping, for example, block 20, skipped a block 23 for adjusting conveyor circles for the thickness of the formation. The change in position and fixation of the block 23 is made by a hydraulic jack 24,

The unit for excavating thick steep seams works as follows.

In the initial position, the section 1 of the mechanized support by means of a hydrostuck 4 is fastened between the soil and the roof of the formation. When the working fluid is supplied to the piston cavity of the hydraulic cylinder 8 and into the rod cavity of the hydraulic cylinder 9, the base beam 5 together with the vertical wall 6 and the conveyor belts 13 and 14 move to the bottom until the conveyor belt 13 and

14 not cut by the amount of capture (0.4 m). When supplying the working fluid

In the rod cavity of the hydraulic cylinder 22, blocks 19 and 20, mounted in the slider 25, are moved to the right, the left branch of the chain 16 relative to the block 15

moves, and the rights go up. When this occurs, the conveyor belt 13 V1ShZ, and conveyor belt 14 up. After cutting and moving the plows by 200-300 mm in power

the reservoir is supplied with working fluid in the hydraulic jack 8 and 9 (in the rod cavity of the hydraulic jack Viv piston hydraulic jack 9) and section 1 of the powered support alternately or in groups are moved forward to the bottom, blocking the bare roof portion of the bottom chest. Carrying out coal excavation over the entire thickness of the formation, the conveyor 13 and 14 stop in the middle part of the formation. After that, the working fluid is supplied to the hydraulic jacks 8 and 9, the base beam 5 with the vertical wall 6 and the conveyor belts 13. and 14 is fed forward, and they are cut in the middle part of the formation. At the end of the notch, the hydraulic jack 22 is put into operation, the slider 25 moves to the left, the conveyor belt 13 moves up, and the conveyor belt 14 moves down to the formation soil, and thus in each cycle.

When the vertical wall 6 expands by means of a hydraulic jack 10, the reservoir thickness is adjusted by the chain 16 by moving the block 23 with a hydraulic jack 24.

Claims (2)

Invention Formula A unit for excavating powerful steep coal seams, including a mechanized support, two conveyor axes arranged parallel to one another and equipped with a reservoir power supply mechanism, characterized in that, in order to reduce reactive loads on the mechanized roof support from conveyor circles, the conveyor angle feed mechanism is constructed in the form of a chain covering the system of blocks installed in the upper and lower parts of the support, and movable blocks connected to the hydraulic jack, the movable blocks being installed in the guide. Sources of information taken into account in the examination 51. USSR author's certificate No. 581265, cl. E 21 C 27/32, 1975, 2. USSR author's certificate ff 514953, cl. E 21 C 27/32, 17.06.74, V