RU2472935C1 - Protection method of reusable development workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: protection method of reusable development workings involves performance of development workings, installation of several cylindrical wooden-and-concrete blocks on each other to the whole thickness of the extracted formation at the interface of face with development working; at that, wooden-and-concrete blocks are installed with pre-stressing by arranging a pneumatic cylinder between them in hollow cylindrical block. Then, compressed air is supplied to pneumatic cylinder and wooden-and-concrete blocks are pre-stressed between side rocks, and after roof rocks are lowered and all wooden-and-concrete blocks contact each other under action of overburden pressure, pneumatic cylinder is removed to development working, and a missing part is installed in its place till full volume of flat cylindrical block is obtained.

EFFECT: improving protection efficiency of reusable development workings by installing a support with pre-stressing at the interface of working face adjacent to development working.

4 dwg

Description

The invention relates to the mining industry and can be used to protect preparatory mine workings.

A known method of protecting preparatory workings in the development of coal seams with long columns using conveyor production of one column as a ventilation for an adjacent column, including the placement of two rows of pneumatic cylinders after the passage of the face, and after working out the excavation column and stabilize the displacement of rocks, removing one row of pneumatic cylinders adjacent to the coal mass of the adjacent extraction column, and as the adjacent column is mined after the face of the working face, the extraction of pevmoballonov th row of said formulation and its redemption (AS 619 652, publ. 15.08.1978).

The disadvantage of this method is the installation of pneumocylinders alone, which does not create significant rigidity for the console collapsing rocks, which leads to an increase in the cost of maintaining preparatory workings.

A known method for the protection of local preparatory workings, including the conduct of local preparatory workings, outlining the pillars of minerals, securing the local preparatory workings, mining the mineral layer with lavas without leaving the pillars of the mineral between the pillars and erecting artificial structures in the worked out space behind the lavas to protect reused precinct preparatory workings with irreducible advance of the face of the lava, produce weakening the mineral layer in the sides of the mine by creating a gap in it, while the ductility of the formation is increased to values greater than the compliance of the artificial structures, and in the depth of the weakening of the mineral layer from the untouched array from the mine, they take more than the depth of distribution of the region of intense destruction of the mineral into the array in the marginal zone adjacent to the worked out space, and the depth of weakening of the mineral layer from the side of the worked out space from the boots are taken equal to the width of the artificial structure, and the weakening of the mineral layer when laying in the roof of the production of weak rocks is carried out with the minimum advance of the face of the lava, exceeding the width of the zone of reference pressure arising in front of the lava, and the height of the gap is less than the flexibility of the artificial structure erected behind the lava, for protection of reused preparatory workings (patent RU 2134786, publ. 08/20/1999).

The disadvantage of this method is that the weakening of the mineral layer is carried out after the preparatory workings, which leads to the destruction of the mineral layer, the appearance of cracks in the roof rocks in areas adjacent to the preparatory development even before mining the excavation column in reverse, and subsequently can lead to to dumping in these areas, which will adversely affect the state of preparatory workings.

There is a method of erecting a near-track guard strip with an active effort of initial spread and a rapid increase in resistance, taken as a prototype, including installing Bullflex pedestals in two rows in a checkerboard pattern by pairing lava with a conveyor drift (see Glukauf magazine No. 15/16, 1989, p .19-25).

The disadvantage of this method is the relatively long duration of time (about 5 hours) in order for the cabinets to reach working resistance. The authors indicate that the end of the section of the near-track strip from the landing bollards took over the effect of rock pressure 90 m behind the lava.

There is a method of protecting reused preparatory workings with cabinets from wooden-concrete blocks, taken as a prototype. The method includes installing pedestals folded from wooden-concrete blocks to a height equal to the power of the removed formation, the wooden-concrete blocks being installed in a metal holder and secured in it with a hardening mortar (Protection of reused preparatory workings with wooden-concrete blocks / Rutkov K. I., Belikov V.V., Belikova N.V. Coal 2000, No. 10, pp. 59-61).

The disadvantage of this method is the installation of lining without prior expansion, which can lead to dumping and reduce the safety of work.

The technical result is to increase the efficiency and safety of the protection of reused preparatory workings by installing on the interface of the face, adjacent to the preparatory workings, support with preliminary expansion.

The technical result is achieved by the fact that in the method of protecting reused preparatory workings in the development of coal seams, including the preparatory workings of the contouring mineral pillars and the installation of several cylindrical wooden-concrete blocks on top of each other for the entire capacity of the removed seam at the interface of the lava with the preparatory work, the fact that the wooden-concrete blocks are installed with a preliminary spread by placing a pneumocylinder between them in th cylindrical block, then compressed air is supplied to the pneumatic balloon and the concrete blocks are buried between the side rocks, and after lowering the roofing rocks and all the wooden concrete blocks come into contact with each other under the influence of rock pressure, the pneumatic balloon is removed into the preparatory excavation, and the missing piece is placed in its place part to the full volume of the hollow cylindrical block, while installing on top of each other cylindrical wooden-concrete blocks to a height that satisfy the condition:

h _db × n + h _b + (h _bb.s -h _b ) ≥m,

where h _db - the height of the concrete block, m;

n is the number of wood-concrete blocks installed by the power of the removed formation, pcs .;

h _b - the height of the hollow cylindrical block, m;

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

m is the thickness of the removed formation, m

The invention is illustrated by drawings, where figure 1 shows a protection scheme for reused preparatory workings with cabinets from wood-concrete blocks and pneumatic cylinders. Figure 2 - section along the line aa, which shows the installation diagram of the blocks between the roof and the soil of the formation and the installation diagram in one of the blocks of the air balloon in an unloaded condition. Figure 3 is a section along the line aa, which shows the installation diagram of the blocks between the roof and the soil of the formation and the installation diagram in one of the blocks of the air balloon when compressed air is supplied to it. Figure 4 is a section along the line BB, which shows a diagram of the installation of blocks raspred between the roof and the soil of the formation when lowering the roof rocks and the extracted air tank.

In FIG. 1-4 shows: 1 - preparatory development; 2 - lining preparatory development; 3 - a niche; 4 - racks for mounting a niche; 5 - upper; 6 - a face; 7 - mechanized support; 8 - racks installed for runs; 9 - runs; 10 - drive head downhole conveyor; 11 - downhole conveyor; 12 - scraper conveyor; 13 - transition bridge; 14 - support pair; 15 - winch for moving the support lining; 16 - organ; 17 - wood-concrete blocks; 18 - a hollow cylindrical block; 19 - a pneumocylinder; 20 - block, complementing the hollow cylindrical block to a full volume.

The invention consists in the following. After the preparatory workings, contouring the pillars of minerals, the extraction of minerals is carried out in the opposite direction with the repeated use of the preparatory workings 1 (conveyor drift), secured by arched ductile support 2. A niche 3 is placed in conjunction with the preparatory workings 1, which is fixed by individual metal racks 4 and metal tops 5. The face 6 is equipped with mechanized support 7. At the interface of the face 6 and preparatory by working 1, wooden racks 8 are installed under the wooden girders 9, which are installed perpendicular to the axis of the preparatory mine 1. In the preparatory mine 1 in conjunction with the face 7 are located: the drive head 10 of the face conveyor 11, the scraper conveyor 12, over which the transition bridge 13 is placed, and also the support of the pair 14, moving along the length of the preparatory development with the help of the winch 15 (figure 1). To protect the preparatory mine 1, when reusing it, behind the first section of the powered roof 7 (from the side of the preparatory mine), an organ roof 16 is installed, and behind it, between the wooden girders 9, wooden-concrete blocks 17 are installed on each other, and on them a hollow cylindrical block 18 with a pneumatic balloon 19 (figure 1). The installation of cylindrical wooden-concrete blocks and a hollow cylindrical block with a pneumatic balloon on each other is carried out to a height that satisfies the condition:

h _db × n + h _b + (h _bb.s -h _b ) ≥m,

where h _db - the height of the concrete block, m;

n is the number of wood-concrete blocks installed by the power of the removed formation, pcs .;

h _b - the height of the hollow cylindrical block, m;

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

m is the thickness of the removed formation, m

The height of the wooden-concrete blocks h _{db is} much less than the capacity of the extracted layer m. Therefore, for the entire thickness of the formation, several cylindrical wooden-concrete blocks are installed with a gap Δh (Fig. 2). To create a preliminary expansion, one of the cylindrical blocks 18 is hollow. In the hollow part of the cylindrical block place a pneumatic balloon 19 (figure 2). Compressed air is supplied to the pneumatic balloon and all cylindrical wooden-concrete blocks are bursting between the roof and the soil of the formation (Fig. 3), and after lowering the roof rocks and the contact of all the blocks with each other under the influence of mountain pressure, the pneumatic balloon is removed into the preparatory mine and sent to its place block 20, supplementing the hollow cylindrical block to the full volume (figure 4).

The application of the proposed method will improve the efficiency and safety of formation drift protection by erecting with preliminary expansion of wood-concrete blocks at the interface of the face with the preparatory workout when reused.

Claims (1)

A method of protecting reusable preparatory workings in the development of coal seams, including carrying out preparatory workings that contour the columns of minerals, and installing on top of each other several cylindrical wooden-concrete blocks for the entire power of the removed seam by pairing the lava with the preparatory work, characterized in that the wooden concrete blocks are installed with preliminary expansion by placing a pneumocylinder between them in a hollow cylindrical block, then in a pneumatic ball compressed air is supplied and the wooden-concrete blocks are bursting between the side rocks, and after lowering the roofing rocks and the contact of all the wooden-concrete blocks with each other under the influence of mountain pressure, the pneumatic balloon is removed into the preparatory mine, and the missing part is placed in its place to the full volume of the hollow cylindrical block, while installing on top of each other cylindrical wooden-concrete blocks are made to a height that satisfies the condition
h _dbn + h _b + (h _bb.s -h _b ) ≥m,
where h _db - the height of the concrete block, m;
n is the number of wood-concrete blocks installed by the power of the removed formation, pcs;
h _b - the height of the hollow cylindrical block, m;
h _pb.z - the height of the air balloon when filling it with compressed air, m;
m is the thickness of the removed formation, m

Images