SU981618A1 - Unit of power shield-type roof support - Google Patents

Description

The invention relates to mining; industry, and in particular can be used in the development of steep and inclined coal seams underground method.

A known shield shield section, comprising a base, an overlap, hydraulic, pillars, a box-shaped telescopic fence consisting of a lower fixed and upper one or two sliding metal boxes, rigidly fixed on the base and hinged on the overlap, and a grid 1.

The disadvantage of this support structure (section) is that, under the conditions of occurrence of sediment of the main roof, the fencing experiences dynamic (increased) loads, 1.5-2 times more compared to the static ones from the collapsed rocks of the immediate roof. This necessitates the creation of supports capable of withstanding these high loads, i.e. lining increased strength, metal and cost.

The closest technical solution to the invention is the mechanized support section, which includes the base, the overlap, the hydraulic rack, the box-shaped sliding rail, the lower part of which is rigidly fixed to the base, and the upper part on the overlap, and the air bellows 12 located in the rail.

The disadvantage of this section of the lining is the low reliability of its work under the conditions of manifestation of dynamic loads on the fencing from the side of the collapsed rocks, especially in thin layers, since the fencing has a small extension stroke.

The purpose of the invention is to improve the reliability of the support section when working on thin, steep coal seams under the conditions of the manifestation of dynamic loads.

The goal is achieved by the fact that in the section of mechanized shield lining, including the base, the overlap, the hydraulic rack, the box-shaped sliding rail, the lower part of which is rigidly fixed on the ground, and the upper part is shashirno on the overlap, and the air bellows located in the holders, pushed to the bottom and has a bottom box on the bottom side

the fence, and from the dam side, the open clip is a pneumatic side ball; the upper part of the rail has a hinged wall on the dam side and is installed above the gearbox with the possibility of their telescopic interaction.

The drawing shows the shield section of your support, general view.

The support of the lining section consists of the lower part, rigidly fixed on the base 1 and consisting of an open holder 2 and box 3. The holder 2 of the lower part of the fence is pushed into the dam relative to the upper part 4, located yad box 3 with the possibility of their telescopic interaction. The upper part of the fence has a hinged wall 5 fixed on the ceiling 6. The pneumatic cylinders 7 are installed in the retaining cages, are connected to the source of compressed air by means of the sleeves 8 and 9 and have safety valves 10 and 11. The pneumatic balloon of the lower part of the fence is separated from the developed metal space. mesh 12. The hinge 13 allows the wall 5 to interact with the collapsed rocks to act on the air bellows, and the kerchiefs 14 hold the box 3 on the base of the section. The overlap and base of the section are connected by a hydraulic strut 15. The upper part of the fence is fixed to the overlap by means of a hinge 16.

The support works as follows.

In the mounting chamber, the bellows 7 is fed through sleeves 8 and 9 from. mine pneumatic network compressed air x. After filling the cylinders with air, the next ones are disconnected from the mine pneumatic network and locked on safety valves 10 and 11. The valves are adjusted in accordance with the air pressure in the pneumatic cylinders created by the static load of the movable part of the collapsed rock. When the air pressure in the air bellows increases due to an increase in the load on the support rail, valves 10 and 11 open, air pressure stabilizes and the air bellows draw down (compressively) by the amount at which the lateral thrust is removed and the increased (dynamic) loads are eliminated. due to the precipitation of the main roof or impact falling rock pieces. At the same time, the air pressure in the pneumatic cylinders decreases to the initial balance weight of the collapsed rocks that move behind the fence and are in force interaction with it. The metal mesh 12 provides protection for the stent of air bellows against the abrasive effect of the collapsed rocks, as well as protection of the bottomhole space during the dismantling of the support sections from the clearing hole. The hinged connection of the wall 5 eliminates the possibility of the upper part of the fence jamming when the section is folded, since in these cases a forced decrease in the volume of the pneumocylinder occurs. The hinged wall also provides sealing of the box 3, i.e. prevents penetration of fines (shtyb).

This embodiment of the lining section allows you to reliably protect the lining of the lining against the manifestation of dynamic loads on the side of the collapsed rocks, damping them, and to reduce the metal intensity of the section.

Claims (2)

1.Rasporov V.I. Shield unit 1 ASCH. Donbass, Donetsk, 1973, p. 7 2. USSR author's certificate 254442, cl. E 21 O 23/00, 1968 (prototype). f 13 sixteen f5