SU1717841A1 - Pneumatic powered support - Google Patents

Abstract

The invention relates to mining and m. used in mechanized crepe cleats when mining flat and steep coal seams. The goal is to reduce the area of the non-fixed 2 "GZ - ±: space. In the mechanized pneumatic support, the base 1 and the bottom hole 2 base beams (BB) are pivotally connected to each other by means of 18 mounted on sliders 16 and 17. The latter are mounted on B B 1 and 2 with the possibility of relative movement. The sliders 16 and 17 are fixed on flexible traction organs, which are connected at one end with counterweights 25, and at the other end with the drive of the movement mechanism by a winch 22. Air bags 7 and 8 are rigidly fixed in chessboard order at BB 1 and 2. After the notch The coal lanes 8, fixed on BB 2, are unloaded and the flexible rod 21 is lowered by means of the counterweight 25, and with it the sliders 17, T 18 and 18 rotate, moving the air bellows 8. Then they bulge. Similarly, move BB 1 with pneumobilia 7. 3 Il. 22 L55A {ate with | 00 -N

Description

The invention relates to mining and can be used to support a roof in the lavas of gentle and steep coal seams without the constant presence of people in the clearing face.

The aim of the invention is to reduce the area of free space.

FIG. 1 shows the lining, top view; in fig. 2 - node I in FIG. 1; in fig. 3 shows section A-A in FIG. one.

The support is made of two-row, each row consists of a base beam 1 and 2. Base beam 1 is placed on the bulkhead, and the base beam is located on the 2nd bottom face. The base beams are made of pieces of pipes interconnected by segments of flexible hoses 3. The metal pipes are welded with plates 4 with holes 5 through which axes 6 are passed. Between the base beams are pneumatic holders: odd 7 and even 8, which are flanged 9 , bases 10, plates 11, screws 12 and 13 are attached to the base beams, and odd pneumatic cylinders are attached to the bulk base beam 1, and even ones - to the bottom hole base beam 2. Odd pneumatic bulbs 7 from the base beam 1 have missed flexible hoses 14, and k odd n The hoses are flexible hoses 15. On the base beams 1 and 2 there are sliders 16 and 17 pivotally connected between each other by means of axles 19 and 20. By means of the sliders 16 and 17, the branch of the flexible linkage - chain 21 is rigidly fixed above the base beams. , one end of which interacts with the drive of the movement mechanism - the winch 22 through the support rollers 23 placed on the ventilation drift 24, and the other with the counterweight 25.

The support works as follows.

After excavating the strip of coal along the entire length of the clearing slab 26, the even pneumatic holders 8 of the bottomhole row are unloaded. With the help of the drawback 22, the chain 21 descends along the dip of the reservoir with the help of the counterweight 25. Together with the chain 21, the slider 17 moves, while the ha 18 swings on the axis 19 and the axis 20 takes a position perpendicular to the base beams 1 and 2. After Compressed air is supplied to the even air bellows 8 through the base beam 2 and the flexible hoses 15. The air bellows, broken between the roof and the formation soil, fix the position of the base beam 2, after which the odd air bellows 7 of the pneumatic mash are unloaded and with the help of a winch 22 the slider moves up

along the line of the rise of the reservoir, with the ha ha 18 turning clockwise on axles 19 and 20, takes a position at an acute angle to the base beams 1 and 2, while

The base beam 1, together with the odd pneumatic cylinders 7, is moved to the base beam 2 by the step. Thereafter, compressed air is supplied to the odd air bellows through the base beam 2 and the flexible hoses 14,

in this case, the air bellows extend between the roof and the soil of the formation. Similar operations are carried out with a pile of supports, and after the next strip is dredged, the even air bellows 8 of the bottomhole row are unloaded. With the help of a winch 2.2 installed on the ventilation drift 24, the chain 21 rises along the rise of the reservoir. Together with the chain 21, the slider 17 moves, with the ha ha 18 turning on

axis x 19 and 20, occupies a position perpendicular to the base beams 1 and 2. At the same time, the ha 18 pushes the base beam 2 to the clearing line 26 by a step of approach. Then on the base beam 2 and flexible

The hoses 15 are supplied with compressed air into the even air bellows 8. The air bellows 8, ripping between the roof and the soil of the formation, fix the position of the base beam 2, then the odd air bellows 7 are unloaded and, using a winch 22, the chain 21 is lowered down the bed using the counterweight 25. Together with the chain 21, the slide 16 is moved, while the ha ha 18, turning on axes x 19 and 20, takes

the position at an acute angle to the base beams 1 and 2, while the base beam 1, together with the odd air bellows 7, is moved to the base beam 2 by a step of approach. Then in odd pneumocylinders 7 by

The base beam 1 and the flexible hoses 14 are supplied with compressed air, while the air bellows are spaced between the roof and the soil of the formation. Similar operations are carried out with a pile of supports. This ends the full cycle of the advancement of supports.

Claims (1)

Claims of the invention: Mechanized pneumatic lining, including bottomhole and downhole base beams, pivotally interconnected by strings and rigidly connected in chessboard order to pneumatic cylinders, flexible rods connected to base beams and to drives of the movement mechanism, which so that, in order to reduce the area of unfixed space, flexible traction bodies are installed above the base beams, connected with them by means of sliders mounted on the base beams with possibly relative movement, and abraded counterweights placed at the end opposite to the drive of the movement mechanism. eleven V Yu 15 20 25 thirty 3 figure 1