RU2315182C1 - Method for developing entry protection - Google Patents

Abstract

FIELD: mining, particularly lining tunnels, galleries or other underground cavities.

SUBSTANCE: method involves installing two pneumatic post rows in area of longwall junction with entry; supplying compressed air through pneumatic posts to provide spacing between seam roof and floor. Pneumatic posts are spaced apart a distance equal to Bullflex pier diameter to be installed between the posts in direction from goaf side towards longwall face beginning from the first row, which is the nearest to the goaf side. As Bullflex piers gain working resistance pneumatic posts located between the piers are unloaded and placed in belt entry. The posts are replaced with Bullflex piers. As longwall face moves to pneumatic posts of the first row and then to that of the second row next pneumatic posts are installed, compressed air is supplied and spacing is maintained between seam roof and floor. Pneumatic posts adjoining Bullflex piers are unloaded in the second post row and then in the first one and then placed in belt entry. The pneumatic posts are replaced with Bullflex piers. After that the operations are repeated.

EFFECT: increased efficiency of developing entry supporting and repeatedly usage.

8 dwg

Description

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

A known method of securing the roof, including the sequential installation of unloading pneumocostra of several cylinders in the bottomhole space at the boundary with the excavation drift, from the obstructed side behind the lava support after moving the latter, filling them with compressed air and removing them, and before installing the pneumocostra in front of the extreme sections of the lava support a niche is removed, which is fixed by cantilever tops with their support on hydrostands and overlapping of the extreme sections of the lava support, after moving the lava support part of the hydro the racks are removed, when installing the pneumocostra, clamps are put on their middle cylinders, segments of the flexible tape are put under the pneumocostra, leaving one end of it on the side of the excavating drift and covering the middle cylinder with the clamp on the drift side and the lower and upper cylinders on the opposite side , and wind the other end of the tape between the upper cylinder and the upper parts, while unloading the pneumatic cylinders by partially releasing air from the cylinders, and remove the pneumocostra for clamps and middle parts of the tapes (A.S. 147099959, M. Cl. Е21С 41/04, Е21Д 23/00, BI No. 13, 1989).

The disadvantage of this method is the installation of pneumocylinders alone, which does not create significant rigidity for the console collapsing rocks, this leads to an increase in the cost of maintaining preparatory 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 pneumocylinders after the passage of the face, and after working out the excavation column and stabilizing 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 passage of the face, extraction of the WTO a number of song balloons from the indicated output and its redemption (A.S. 619652, M. Cl. E21C 41/04, BI No. 30, 1978).

The disadvantage of this method is the installation of pneumocylinders alone, which does not create significant rigidity for the console collapsing rocks, and this leads to an increase in the cost of maintaining 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 J. Gluckauf, 1989, No. 15/16 , pp. 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 on the effect of rock pressure, being 90 m behind the lava.

The objective is to improve the protection of preparatory workings and reduce the cost of maintaining them during reuse.

The problem is solved in that in the method of protecting the preparatory workings during the development of coal seams with long columns using the conveyor working out of one column as a ventilation for the adjacent column, including staggering installation of Bullflex pedestals at the end sections of the lava, forming a two-row near-track strip, characterized in that at the interface of the lava with the drift, they are initially installed in two rows of air-resistance and compressed air is supplied into them, bursting between the roof and the soil of the formation, and air-resistance they are installed in a row at a distance from each other, equal to the diameter of the Bullflex pedestals, after which, in the intervals between the air stands in the direction from the dam side towards the face of the lava, the Bullflex pedestals are installed starting from the first row from the dam side, after the Bullflex pedestals exit to the pneumatic resistance between the pedestals they unload and remove onto the conveyor drift, and Bullflex pedestals are installed in their place after moving the face of the lava to the pneumatic struts of the first, and then to the pneumatic struts of the second rows They are pneumatic resistant, supply compressed air and burst between the roof and the soil of the formation, and pneumatic resistant adjacent to the Bullflex pedestals are unloaded first in the second, then in the first rows and removed to the conveyor drift, and Bullflex pedestals are installed in their place, after which operations are carried out on installing pneumatic struts in the first and then in the second rows, supplying compressed air to them, spreading between the roof and the soil of the formation, unloading the pneumatic struts adjacent to the Bullflex pedestals, first in the second and then in the first rows, removing them on the conveyor Shtrek, and in their place the installation of Bullflex pedestals is repeated.

The invention is illustrated by drawings, where figure 1 shows the node pairing the lava with a conveyor drift and the location of the air struts on the interface of the lava with the drift; figure 2 shows the node pairing the lava with the conveyor drift, the layout of the pneumatic struts on the interface of the lava with the drift and the layout of the Bullflex pedestals between the pneumatic struts of the first row; figure 3 shows the node pairing the lava with a conveyor drift, the layout of the pneumatic struts on the interface of the lava with the drift and the layout of the Bullflex pedestals between the struts of the second and first rows; figure 4 shows the node pairing the lava with the conveyor drift, the layout of the air struts on the interface of the lava with the drift on the face of the face and the layout of the Bullflex pedestals behind the air struts of the second and first rows; figure 5 shows the node pairing the lava with the conveyor drift, the layout of the air struts on the interface of the lava with the drift on the face of the face and the layout of the Bullflex pedestals behind the struts of the second and first rows after moving the face to the entry step; in Fig.6 shows the node pairing the lava with the conveyor drift, the layout of the pneumatic struts on the interface of the lava with the drift on the face of the face and the layout of the Bullflex pedestals behind the struts of the second and first rows after moving the face to two steps of entry; Fig. 7 shows a lava interface unit with a conveyor drift, a diagram of the location of the air struts on the interface of the lava with the drift on the face of the face and a layout diagram of the Bullflex stands for the second and first rows of stands after moving the face by two steps of entry with the replacement of two pneumatic stands on the Bullflex stands ; on Fig shows a node pairing the lava with the conveyor drift, the layout of the air struts on the interface of the lava with the drift on the face of the face and the layout of the Bullflex pedestals behind the struts of the second and first rows after moving the face to three steps of entry.

The essence of this method is as follows. Following the mechanized lining 1, located in the lava 2, set air racks 3. Air racks are located at the interface of the lava with the conveyor drift 4 (figure 1). The drift is fixed by a frame support 5. Pneumatic stands 3 are installed in two rows along the length of the lava 2, and the pneumatic stands are installed in a row with distances from each other equal to the diameter of the Bullflex pedestals. Then, in the intervals between the air struts in the direction from the blocking side to the face of the lava, Bullflex curbstones are installed starting from the first from the clogging side of row 6 (Fig. 2), after which Bullflex curbstones are installed between the air struts of the second row (closest to the drift) (Fig. 3 ) After the Bullflex cabinets reach the working resistance, the air racks located between the cabinets of the first and second rows are unloaded and removed to the conveyor drift 4, and Bullflex cabinets are installed in their place first in the first row and then in the second (Fig. 4). After moving the lava to the air struts of the first and then to the air struts of the second row, the following air racks are installed, compressed air is supplied and burst between the roof and the soil of the formation (Figs. 5, 6), and the air racks adjacent to the Bullflex pedestals are unloaded first in the second, and then in the first rows (from the obstructed side), they are removed to the conveyor drift 4, and Bullflex curbstones are installed in their place, first in the first and then in the second rows, after the lava has been moved, the operation of installing air racks in the first and then in the second rows, feed in them of the air, the spread between the roof and the soil of the reservoir, unloading the air struts adjacent to the Bullflex pedestals, first in the second and then in the first rows, removing them to the conveyor drift, and repeating the installation of the Bullflex pedestals in their place.

Using this method will more effectively support preparatory workings for their reuse.

Claims (1)

A method for protecting preparatory workings, including the staggered installation of Bullflex pedestals at the end sections of the lava, forming a two-row near-track strip, characterized in that, at the interface of the lava with the drift, they are initially installed in two rows of air-resistance and compressed air is fed into them, bursting between the roof and the soil of the formation moreover, the pneumatic stands are installed in a row at a distance from each other, equal to the diameter of the Bullflex pedestals, after which, in the intervals between the pneumatic stands in the direction from the blocking side towards the bottom You install Bullflex pedestals starting from the first side of the row, and after the Bullflex pedestals reach the working resistance, the air stands between the pedestals are unloaded and removed on a conveyor drift, and Bulflex pedestals are installed in their place, after moving the face of the lava to the pedestals of the first and then to next pneumatic stands are installed to the second column air racks, compressed air is supplied and burst between the roof and the soil of the formation, and the air racks adjacent to the Bullflex pedestals are unloaded first in the second and then in the first row dah and removed to the conveyor drift, and in their place install Bullflex cabinets, after which the operation to install air struts in the first and then in the second rows, supplying compressed air to them, spread between the roof and the soil of the bed, unloading the air struts adjacent to the Bullflex curbstones first in the second, and then in the first rows, they are removed to the conveyor drift, and in their place - the installation of Bullflex pedestals is repeated.

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