RU2276730C1 - Air-operated powered support - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: air-operated powered support comprises base beams secured to the even and uneven air vessels and mechanism for movement. The air vessels are triangle, and the bases of the vessels abuts against the base beams. The cross-section of the beams increases in the direction to the holding device of the mechanism for movement.

EFFECT: enhanced reliability.

4 dwg

Description

The present invention relates to the field of mining and can be used to maintain the roof in the lavas of shallow and steep formations without the constant presence of people in the face.

Known pneumatic support of the extraction unit, including flexible load-bearing elements and flexible shells of the movement mechanism installed between the L-shaped grippers of the heaped-out half sections of the adjacent support sections, which are made of different lengths, while the flexible load-bearing elements in the heaped half-sections are made of pillows interconnected in a row, equal in length to the width of the lining sections and installed along the length of the lava in a staggered manner with an offset along the length of the lining sections by the step of movement, see.with. No. 1314105, class E 21 D 23/00, BI N 20.

The disadvantage of lining is a limited scope - roof rocks are stable, because in conditions of moderate stability and unstable rocks during dumping, jamming of the roof support sections will occur.

Known pneumobolon support, taken as a prototype, including interconnected hydraulic jacks of movement downhole and obstructed pneumatic cylinders with barriers from closed along the contour of elastic bands, while downhole and obstructed pneumatic cylinders are installed in alternating order, and elastic bands are telescopically connected together along the length of the supports rigidly fixed to the obstructed base beam, which is installed on the obstructed side of the air spring, while the hydraulic jacks are installed in the initial position with imnym obliquely to the feeding direction and form a support frame with portions of the base beams isosceles trapezoid (see. AS №891957, Cl. E 21 D 23/00).

However, when moving the lining, the area of the unsecured part of the bottomhole space (between the face line and the air cylinder) remains significantly large, which leads to dumping between the face line and the blocking air tanks.

The technical result of the invention is to eliminate these drawbacks, including reducing dump formation in conditions of unstable roof rocks by reducing the area of the unsecured part of the bottomhole space in very thin steep coal seams.

The technical result is achieved by the fact that in a mechanized pneumatic lining, including base beams, rigidly connected with even and odd pneumocylinders, and the movement mechanism, according to the invention, the pneumatic cylinders are made in a triangular shape, adjacent the bases to the base beams, and the base beams are made of variable cross section with increasing diameter in direction of the holding device of the movement mechanism.

The invention is illustrated by drawings, where in Fig.1 shows a General view of the lining in plan, Fig.2 is a section along the line aa, Fig.3 is a section along the line bb (along the line of the face), in Fig. 4 is a view of the lining after moving the base beam with even pneumocylinders.

Mechanized pneumatic support consists of a downhole base beam 1 and an indented base beam 2. The base beam 1 is supported by a holding device 4 through the carriage 3, and the base beam 2 through the carriage 5. Skis 6 are rigidly attached to the base beam 1 to interact with the mining combine 7 moving along the face line 8. Base 9 is fixed to the base beams 1, base 10 is fixed to the base beams 2, even pneumatic cylinders 11 are attached to the bases 9, and odd pneumatic cylinders 12 are triangular to the bases 10 form. The pneumatic jacks 13 are pivotally fixed to the base beams 1 and 2 between the even and odd air cylinders. The base beams are made of variable cross-section and are interconnected using the axis 14, which allows the base beams to bend in the bedding plane. The holding device 4 is equipped with an auxiliary pneumocylinder 15 pivotally fixed to it.

The support work is carried out as follows: in the initial position, the base beams 1 and 2 are brought together, the air tanks are spread between the roof and the soil of the formation. After excavation of a strip of coal along the entire length of the working face 8 by the combine 7, the latter is lowered into the lower niche at the interface of the lava with the recoil drift (not shown in Fig. 4). Compressed air is discharged from the even pneumatic cylinders 11, the jacks 13 are moved on and the base beam 1 and the even pneumatic cylinders 11 are moved towards the working face to the approaching step. Compressed air is supplied to pneumocylinders 2, which are bursting between the roof and the formation soil. After that, the odd pneumocylinders 12 are unloaded, the jacks 13 for pulling up are turned on, and the base beam 2 together with the odd pneumocylinders 12 are moved to the face line 8 to the entry step. Compressed air is supplied to pneumocylinders 12, which are bursting between the roof and the formation soil. Compressed air is discharged from the auxiliary pneumatic balloon 15 and the holding device 4 along the carriages 3, 5 that are currently stationary, moves in the direction of the face line by the approaching step. Pneumocylinder 15 bursts between the roof and the soil of the reservoir. The lining is in its original position.

The use of this lining will reduce the number and volume of dumping in the bottomhole space of the working faces.

Claims (1)

Mechanized pneumatic support, including base beams, rigidly connected with even and odd pneumocylinders and a movement mechanism, characterized in that the air cylinders are made in a triangular shape adjacent to the base beams, and the base beams are made of variable cross-section with increasing diameter in the direction of the holding device of the movement mechanism.

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