CS243874B1 - A method of temporarily reinforcing a mine corridor, or increasing the resistance of its reinforcement - Google Patents

Abstract

The purpose of the solution is primarily to increase work safety, especially in seams where rock tremors may occur. The method is applicable to various mining and reinforcement technologies. Temporary reinforcement of the mine passage, or increasing the resistance of its reinforcement, especially in the area adjacent to the mouth of the face, is achieved by distributing the reinforcement units of the mine passage along the length of the passage, equal to at least the width of the face. At least some of the reinforcement units are moved in the passage with the progress of the face, guided by a longitudinal beam placed between the ceiling beams and the ceiling of the mine. The longitudinal beam can be temporarily supported on at least one side of the set of reinforcement units or/and between the reinforcement units by hydraulic struts equipped with shock valves.

Description

(54) Method of temporary reinforcement of a mine corridor, or an increase in the resistance of its reinforcement

The main purpose of the solution is to increase safety at work, especially in seams where mountain shocks may occur. The method is applicable to various mining and reinforcing technologies.

Temporary reinforcement of the mine corridor, or an increase in the resistance of its reinforcement, especially in the area of the adjoining mouth of the lining, is achieved by the placement of mine corridor reinforcement units in the length of the corridor equaling at least the width of the lining. At least some of the reinforcement units in the corridor are moved along the longitudinal beam between the joists and the ceiling of the mine with the progress of the coalface. The longitudinal beam can be supported on at least one side of the set of reinforcement units and / or between the reinforcement units temporarily by hydraulic props provided with shock valves.

The invention relates to a method of temporarily reinforcing a mine passage, or to increasing the resistance of its reinforcement, in particular in the region of the adjacent mouth of the lining.

In order to maintain stability and to maintain the necessary cross-section of mine corridors, the most flexible steel reinforcement of various designs, arc or trapezoidal, bolt reinforcement or a combination of these reinforcements has been used to date. Individual reinforcement is used to secure the area of the adjacent mouth of the face, possibly in conjunction with modified units of the mechanized face reinforcement.

It is known from the description of the invention to the USSR author's certificate No. 777 231 to provide a ceiling of a mine at the transition of a facade to a corridor, according to which transverse beams with a support element are fastened to each frame of the archway. The actual mechanized reinforcement of the face mouth rests on the transverse beams. The side parts of the corridor reinforcement are removed at the face of the face of the face and an auxiliary punch is placed under the transverse beam on the face of the face to move the mechanized reinforcement of the face of the face. After passing the mechanized reinforcement through the orifice, the side parts of the archway reinforcement of the corridor are rebuilt. A disadvantage of the described method is the relatively high volume of manual work.

Auxiliary reinforcements for the transition of the face to the passage are also known, for example, according to German Patent Application No. 27 45 358, consisting of several longitudinally spaced units with a common articulated ceiling joining the reinforcement of the passage. British Patent No. 2,087,953 discloses a temporary corridor reinforcement consisting of a pair of longitudinal anvil beams to which a split arch shield is attached, parts of which are spaced against the walls and ceiling of the corridor by linear hydraulic motors. Between the walls and ceiling of the corridor and the outer surface of the shield are placed flexible bags filled with liquid.

A disadvantage of the devices and methods described above is that they are intended for normal conditions and not for conditions in which an unforeseen dynamic loading of the faces and corridors can occur, for example in the case of seam mountain shocks, sudden release of the immediate overburden and the like. For these conditions, a method has been proposed to temporarily increase the resistance of the mine corridor reinforcement in the area adjacent to the face of the face by a combination of yielding corridor reinforcement and mechanized reinforcement units.

It is based on the fact that, in the corridor, the mechanized reinforcement units, whose at least some of the linear hydraulic motors lying substantially perpendicular to the longitudinal axis of the corridor, have impact valves, are located under the flexible reinforcement of the corridor, which is not all in permanent contact.

In the direction of the face of the face, it shall first be inserted in a length equal to at least twice the width of the face of the base unit, followed by a length equal to at least the width of the face of the transitional unit, followed by at least one base unit.

A certain disadvantage of the described method is that it makes it possible to increase the resistance of the mining tunnel reinforcement only when a sudden dynamic load occurs and the load-bearing capacity of the conventional mining tunnel reinforcement proves insufficient. The use of the method is limited to corridors in which conventional corridor reinforcement is used. The method envisages using only mechanized reinforcement units, which is expensive.

The disadvantages of the known methods and apparatuses used to reinforce a mine, or to increase the resistance of its reinforcement, are eliminated by the method according to the invention, using mine corridor reinforcement units spaced along the longitudinal axis of the corridor.

It is an object of the invention that mine corridor reinforcement units whose pitch is smaller than the largest transverse dimension of the mine corridor profile are spaced along the length of the corridor at least equal to the width of the face and at least some of them move along the face of the face with at least one longitudinal girder, which is placed between the ceiling of the units and the central part of the ceiling of the mine work or its reinforcement.

The advantages of the method according to the invention over known methods and devices for the same purpose are, in particular, in the universality of use in corridors with or without corridor corridors, in field mining and field mining methods. The number of reinforcement units can be optimally adapted to the specific conditions and requirements for increasing work safety, especially in seams where mountain shocks can occur.

The temporary reinforcement of the corridor, or the increase in the resistance of its reinforcement, is realized before the sudden dynamic load is applied using the method according to the invention. The method further allows for effective connection of mine corridor reinforcement units equipped with a shifting device even without a shifting device, which positively affects the purchase cost of the necessary device.

The method of temporarily reinforcing a mine passage or increasing the resistance of its reinforcement according to the invention is simply shown in the accompanying drawings.

Fig. 1 is a plan view of parts of a passageway and a face; Fig. 2 is a view of the passageway in the direction of arrow A in Fig. 1, in which the last reinforcement unit is drawn with a dashed line.

Corridor 2 is either without reinforcement or is provided with a flexible corridor reinforcement 10, for example arched. In the direction of the longitudinal axis of the corridor 2, the reinforcement units 2 are positioned so that their spacing is smaller than the largest transverse dimension of the mine corridor profile 2 ^{and the} length of the corridor 2 provided by them is at least equal to the width of the face 2. 30 from the pillar 31 in the starting position.

In longwall 2 s ^e úále laid longwall conveyor 32 along which moves not shown dobývac.í machine. Advantageously, a collection conveyor 11 is mounted in the corridor 2 P ^and k in the reinforcement units 2. At least some of the reinforcement units 2 in the corridor 2 are moved with the progress of the face 2 ^under the guidance of at least one longitudinal beam 20 which is located between the joists 21 the reinforcement and the central part of the ceiling 12 of the corridor 2 or the reinforcement 10 of the corridor.

To increase the load-bearing capacity, the beam 20, which is preferably divided in the direction of the longitudinal axis of the corridor 2, is temporarily supported from at least one side of the set of reinforcement units 2 and / and between the reinforcement units 2 of the corridor 2. a shock valve (not shown), for example described in the description of the invention to U.S. Pat. Certificate No 228 216.

The reinforcement unit 2 can be assembled in place after punching out the relevant length of corridor 2 »set up, connect to a source of pressure fluid and spread between the front, ceiling and sides of corridor 2 · Alternatively, the nearest reinforcement unit 2 can be moved from the set of reinforcement units 2. The resulting gap is removed either by moving the whole set or by installing another reinforcement unit 2.

The method can be used for both the constant-length section of the corridor 2 ^{and the} variable-length section and advancing with the face 3, in the extracting and exhausting corridor 2 · ^In addition to the collecting conveyor 11, other equipment such as , foundation pipe, suspension track and the like.

Claims (3)

SUBJECT OF THE INVENTION 1. A method of temporarily reinforcing a mine passage, or increasing the resistance of its reinforcement, in particular in the area of an adjacent lining mouth, using mine passage reinforcement units disposed along the longitudinal axis of the corridor, characterized in that the mine passage reinforcement units are the largest transverse dimension of the mine corridor profile shall be located along the length of the corridor, at least equal to the width of the mine, and at least some of it shall move along the mine in the corridor with at least one longitudinal girder to be located between the unit joists and the central part of the mine work or its reinforcement. 2. A method of temporarily reinforcing a mine, or increasing the resistance of its reinforcement according to claim 1, characterized in that the longitudinal beam is temporarily supported on at least one side of the set of mine corridor units and / or between the mine corridor reinforcement units. a surge valve is connected to the pressure chamber. 2 drawings I ^J1 11 ι (ι ι II) 7 /// 7/77/7 /// 777 ///// 777 // ///// 77 ///// 77 /// 3/77 ///