RU2136886C1 - Method for control of unstable roof in long stoping faces - Google Patents

Abstract

FIELD: mining industry and environment control. SUBSTANCE: method is used in underground mining of coal. According to method, undertaken are operations for separating coal in longwall, partial filling of worked-out space, and drilling of bore-holes in rock matter for injection of stabilizing solutions. By means of advanced bore-holes, solutions are injected from space which is located behind longwall into roof of drifts beginning behind longwall. Drilled in worked-out space for delivery of stabilizing solutions into sides of drifts and strips are rings of bore-holes in perpendicular to surface of drifts. Length of bore-holes is 3-5 m. Distance between rings of bore-holes is equal to half-pitch of settling or caving of immediate roof of seam. Application of aforesaid method prevents large settling of ground surface. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the mining industry, namely to underground coal mining and environmental protection.

 A known method of controlling the roof by injection into the rocks of bonding solutions [1]. The disadvantage of this method is its use only during preparatory workings, which does not allow you to control the lowering of rocks in long lavas using weak rocks (sand and clay) located in the roof.

 The closest technical solution to the method is the partial laying of the worked-out space in long working faces by laying in the worked-out space rubble strips from rocks of drift drifts [2]. The disadvantage of this method is the instability of rubble drifts and rubble strips, which does not allow it to be used with weak rocks of the formation roof.

 The essence of the invention lies in the fact that in the method of controlling an unstable roof in long working faces, including work on separating coal in the lava, partial laying of the mined-out space and drilling wells in the rocks for injection of bonding solutions, bonding solutions using advanced wells are fed from a space located behind the lava, into the roof of the drift drifts beginning behind the lava, and in the worked-out space for supplying bonding solutions to the sides of the drift drifts and rubbing strips, the fans of wells are drilled drifts surface perpendicularly at a length wells 3 - 4 m and a distance between fans is equal to half the pitch lowering or caving immediate overlying stratum.

 The supply of bonding solutions with the help of advanced wells to the upper part of the roof rocks of drift drifts, and then to their flanks and rubble strips in the developed lava space, significantly increases the stability of the latter with weak rocks of the immediate roof.

 Maintaining the distance between the fans equal to half the step of lowering or collapsing the rocks of the immediate roof prevents large lowerings of the overlying rocks in the worked out space when coal is mined.

 As a result of the complete fixation of the roof and rubble strips by supplying solutions to advanced wells and boreholes in the worked out space, large subsidence of the earth's surface during coal mining is excluded, buildings and structures located above the worked out space are not deformed. This helps protect the environment.

 The proposal is illustrated by drawings.

 In FIG. 1 shows a plan of a treatment site; FIG. 2 - section A-A along the lava from the side of the mined space behind the lining sections; FIG. 3-cross section of lava B-B; FIG. 4 is a longitudinal section C-C of the worked-out space from the side of the lining sections.

 The method is as follows.

 After the sections 1 of the lining of the working face, contoured by workings 2 and 3, are moved, advanced wells 4 are drilled from the worked out space above the support and the fastening solution is fed into them to increase the stability of the drift drifts 5 formed behind the lava perpendicular to the face. Weak rocks (sand with clay) from the face of 6 rubbing drifts are laid in rubble strips 7 parallel to rubble drifts. Then, along the perimeter of the rubble drifts, including the sides of the 8 rubble strips, drill fans 9 of the wells, into which a fastening solution is also supplied. The length of the wells is 3-4 m, the distance between the fans is half the step of lowering or collapse of the rocks of the immediate roof.

Sources of information
1. Zaslavsky Yu.Z., Druzhko E.B. New types of mine support. - M .: Nedra, 1989 .-- p. 148.

 2. Mashkovtsev I.L. Technology of underground coal mining (Textbook). - M.: Publishing House of UDN, 1993.- p. 31.

Claims (1)

 A method for controlling an unstable roof in long working faces, including coal separation in the lava, partial laying of the mined-out space, and drilling wells in the rocks for injection of bonding solutions, characterized in that the bonding solutions are supplied from the space located behind the lava by means of advanced wells the roof of the drift drifts beginning behind the lava, and in the worked-out space for supplying fastening solutions to the sides of the drift drifts and rubbing strips, fans of wells are drilled perpendicularly to the the number of drifts, with a well length of 3 - 4 m and a distance between fans equal to half the step of lowering or collapse of the rocks of the immediate roof of the formation.

Images