RU2472933C1 - Pedestal for supporting reusable development workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: pedestal for supporting reusable development workings includes cylindrical wooden-and-concrete blocks installed on each other at the height equal to thickness of the extracted formation, made of wooden posts installed in metal casing and fixed in casing by means of solidifying solution. Pedestal is equipped with additional composite block that includes hollow cylindrical block consisting of two segments connected with a clamp, solid cylindrical block, gasket arranged between rear segment and cylindrical wooden-and-concrete block, and pneumatic cylinder.

EFFECT: improving pedestal operating efficiency owing to creating prestressing at its being installed between side rocks.

7 dwg

Description

The invention relates to the mining industry and can be used to protect reused preparatory mining

Known landing metal stand (OKUM cabinet), designed to control the roof, consisting of a bed, a main screw, a tuning screw, a nozzle, a locking device with a block and a horizontal wedge, installed with a preliminary (initial) spread between the roof and the soil of the formation (Fundamentals of mining , author P.V. Egorov et al., p. 220).

The disadvantages are: the design of such a curbstone is bulky, has a large mass and cost, the installation and manual movement of such curbstones is difficult. The technology for the protection of reused preparatory mine workings involves leaving the bollards in the mine without removing them for reuse, which will lead to high costs for the protection of preparatory mine workings.

A known Bullflex stand for guarding preparatory mine workings, installed with preliminary expansion, consisting of a piece of Bullflex fabric sleeve with wooden plates at the ends of 19 mm thickness and an external reinforcement of three lattice-tightening segments curved in an arc, connected by hooks, while the Bullflex sleeve is equipped with a valve for supply of quick-hardening building mixture (Glukauf, 1989. No. 15/16, pp. 19-25, auth. Klinggraf G., Konechny K.).

The disadvantage is: the initial thrust force with which Bullflex stands are installed falls very quickly from 100 kN to 60 kN, which is due to the filtration properties of Bullflex fabric, this leads to delamination of the roof rocks, cracking, dumping, and sometimes lava blockages.

Known lightweight cabinet for the protection of reused preparatory mine workings, taken as a prototype. The stand consists of cylindrical wooden-concrete blocks (BDB), mounted on top of each other at a height equal to the thickness of the formation. The blocks are made of wooden racks installed in a metal cage, and fixed in the cage with a hardening mortar (Protection of reused preparatory workings with curbstones from wooden-concrete blocks. Coal, 2000, No. 10, pages 59-61, Rutkov KI, Belikov V.V., Belikova N.V.).

The disadvantage is the installation of blocks (BDB) between the roof and the soil of the reservoir without prior expansion, which entails the separation of the rocks of the roof and its collapse.

The technical result is to increase the efficiency of the cabinet by creating a preliminary spacing when it is installed between the side rocks.

The technical result is achieved by the fact that the cabinet for maintaining reusable preparatory workings, including cylindrical wooden-concrete blocks mounted on top of each other at a height equal to the power of the removed formation, made of wooden posts installed in a metal holder, and fixed in a holder with a hardening mortar, equipped with an additional composite block, including a hollow cylindrical block, consisting of two segments connected by a clamp, a continuous cylindrical block with a diameter equal to Cored oil to the diameter of the hollow cylindrical block, gasket disposed between the rear segment and the cylindrical timber-concrete block, and bellows diameter smaller than the inner diameter of the hollow cylindrical block, the height of cylindrical composite block is selected from the relation:

h _bp > h _bp > h _pb.c.

where h _bp - the height of the composite cylindrical block, m;

h _pb.c is the height of the pneumatic balloon when compressed air is released from it, m;

h _pb.z - the height of the air balloon when filling it with compressed air, m

The device is presented in figures 1-7. Figure 1 shows a General view of the cabinets for the protection of reused preparatory workings; figure 2 is a section along the line aa of a wooden-concrete block; figure 3 is a section along the line BB of the composite block 4 in assembled form; figure 4 is a section along the line bb with the layout in the composite unit 4 of the air balloon when it is released from compressed air. Figure 5 is a section along the line bb with the layout in the composite unit 4 of the air balloon when filling it with compressed air. Figure 6 is a section along the line GG. 7 is a section along the line GG when installing a continuous cylindrical block, instead of a pneumatic balloon, in the composite block 4.

Figure 1-7 shows: 1, 2, 3, 5 - individual cylindrical wooden-concrete blocks; 4 - composite block; 6 - wooden racks; 7 - a metal clip; 8 - hardening solution; 9-10 - segments; 11 - a continuous cylindrical block; 12 - a collar; 13 - a pneumocylinder; 14 - fitting for supplying compressed air to a pneumatic balloon; 15 - gasket.

The cabinet for the protection of reused preparatory workings consists of separate cylindrical wooden-concrete blocks 1, 2, 3, 5 and a composite block 4, mounted on top of each other in height (Fig. 1). The height h _{t of the} curbstone and the number of cylindrical blocks in the curbstone depends on the thickness of the removed formation, the height of the individual cylindrical wooden-concrete blocks h _B and the height h _{bp of the} composite cylindrical block 4. Cylindrical wooden-concrete blocks 1, 2, 3, 5 with a diameter of d are made of wooden racks 6 with a height equal to the height h _{B of} cylindrical blocks installed in a metal holder 7, and fixed in the holder with a hardening mortar 8 (figure 2). One of the cylindrical blocks (block 4, see FIG. 3) is made of two segments 9 and 10, inside of which there is a continuous cylindrical block 11. Both segments 9, 10 and a continuous cylindrical block 11 are fastened together using a clamp 12 (FIG. 3). The diameter d _{1 of the} continuous cylindrical block 11 is equal to the inner diameter of the two segments connected together (the diameter of the hollow cylindrical block), and is larger than the diameter d _{2 of the} air cylinder 13 (Fig.6).

The cabinet for the protection of reused preparatory workings works as follows. Separate cylindrical wooden-concrete blocks 1, 2, 3 are placed alternately on top of each other at the interface of the working face and the preparatory mine after moving the working face (not shown). Then segment 9 of composite block 4 is installed on block 3 so that it was possible to install a pneumocylinder 13 to segment 9. Then, a pneumocylinder 13 with a fitting 14 was placed to segment 9 (Fig. 6). A gasket 15 is placed on the segment 9 of the block 4 (for example, a metal sheet or a plywood sheet 1-2 mm thick), and a cylindrical wooden-concrete block 5 is laid on the gasket (Fig. 4). Compressed air is supplied to the pneumatic balloon 13 through the nozzle 14 and the wood-concrete block 5 is lifted (Fig. 5) to contact with the formation roof and all the blocks are burst between the roof and the formation soil (not shown), and the height of the composite cylindrical block 4 is selected from the ratio:

h _bp > h _bp > h _pb.c.

where h _bp - the height of the composite cylindrical block, m;

h _pb.c is the height of the pneumatic balloon when compressed air is released from it, m;

h _pb.z - the height of the air balloon when filling it with compressed air, m

After lowering the roof rocks and closing the cylindrical wooden-concrete block 5 with the segment 9 of the block 4 through the gasket 15, the pneumatic balloon is unloaded (compressed air is released) and removed from the block 4. The closure serves as an indicator for closing the cylindrical wooden-concrete block 5 with the segment 9 of block 4 it will be difficult to remove, in addition, it creates a gap for installing a continuous cylindrical block and segment 10. Instead of a pneumatic balloon 13, a continuous cylindrical block 11 is installed in block 4 close to segment 9 (Fig. 7). Segment 10 is mounted close to the continuous cylindrical block 11. After that, two segments 9 and 10 and the continuous cylindrical block 11 installed inside them are fastened with a clamp 12 (Fig. 3). This ends the work of the cabinet for the protection of reused preparatory workings.

The use of the proposed device will improve the efficiency and safety of the reused preparatory mine workings by creating a preliminary thrust during the installation of the curbstone between the side rocks.

Claims (1)

Cabinet for supporting reusable preparatory workings, including cylindrical wooden-concrete blocks mounted on top of each other at a height equal to the power of the removed formation, made of wooden posts installed in a metal holder, and fixed in the holder with a hardening mortar, characterized in that it is provided an additional composite block, including a hollow cylindrical block, consisting of two segments connected by a clamp, a continuous cylindrical block with a diameter equal to the internal diameter py hollow cylindrical block, gasket disposed between the rear segment and the cylindrical timber-concrete block, and bellows diameter smaller than the inner diameter of the hollow cylindrical block, the height of cylindrical composite block is selected from the relation
h _bp > h _bp > h _bps ,
where h _bp - the height of the composite cylindrical block, m;
h _pb.c is the height of the pneumatic balloon when compressed air is released from it, m;
h _pb.z - the height of the air balloon when filling it with compressed air, m

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