RU2011822C1 - Method for roof control - Google Patents

Abstract

FIELD: underground mineral mining. SUBSTANCE: drilled before excavation of ore in chamber fore-breast are holes at angle to horizontal to contact roof rocks, charged with explosives and squaller is effected. In course of chamber working, remaining layer rocks in worked zone are undercut and caved by combine cutting member. Cycle is repeated after combine advance through worked out zone. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the mining industry and can be used to control the roof of the workings of the layers of intense folding developed by combines with a rigid executive body.

 There is a method of controlling a hard-to-collapse roof, including drilling wells in the main roof, blasting charges in them and additional pulsed injection of fluid into the roof under high pressure [1].

 The disadvantages of this method are its complexity, low technology in continuous production and its unacceptability in the development of potash deposits due to the use of water, dissolving salts.

 The closest to the proposed technological essence and the achieved result is a method of managing the roof, in which periodically, as the chambers pass behind the face, using the blasting operations, the formation rocks remaining in the roof folds collapse. For this, drill bits are drilled into the roof of the chambers with hand drills, they are charged and blasted in the “fallen off” mode in order to collapse rocks that are hanging in the folds of the roof [2].

 The disadvantages of this method are the low productivity of collapse of the rocks remaining in the folds of the roof, the complexity and insecurity of the conditions of the method.

 The purpose of the invention is to increase labor productivity, its economic efficiency and ensuring the safety of mining operations.

This object is achieved in that in the development of intense folding seams combines with rigid executive body during mining chambers in the bottom chest drilled (drill koretkami mounted on the processor) lead at an angle of slant wells ^of 20-50 to the horizontal prior to contact with the roof rock. Wells charge and produce a shocking blast. As the combine is drilled in the treated zone, the rock in the folds of the roof collapses with the cutting body of the combine. After the combine is advanced to the length of the treated zone, the cycle repeats.

 The method is as follows.

Before sinking of the chamber (during penetration chamber) via the drill carriage mounted on the combine, is drilled to a depth of 3-7 m contact with the roof rock formation that is securely fixed on the composition of culm, at an angle ^of 20-50. After drilling the wells, they are charged 1/3 of the length and exploded in a shaking mode. As the chamber is mined by the combine in the treated area, the collapse of the rocks destroyed by the explosion occurs in front of the combine shield. After driving the camera to the length of the treated area, the cycle is repeated.

 The proposed method differs from the prototype in the following new operations: by drilling a stationary drilling carriage of inclined holes into the roof of the chambers before intersecting with the host rocks, loading them in a certain volume and blasting in a shaking mode, as well as by collapsing the rocks loosened by the explosion using the combine's executive body behind the enclosing shield.

 The drawing shows a diagram of the development of the formation of intense folding combine with a rigid executive body using the proposed method for managing the roof.

 The effectiveness of the proposed method of roof management was evaluated in the pilot industrial conditions of the First Solikamsk mine in 11 mountainous areas in block N 145.

 To work out chamber No. 2 along formation B of carnallite composition 1, a Ural-10KS combine 2 with a rigid executive body 5 was used, with a height of 2.6 m and a width of 4.3 m. The combine was equipped with a drill carriage 3 installed at a height of 1.8 m from the soil. Stratum B has a folded structure, the amplitude of the folds reaches 7 m at a height of up to 3 m. Before excavation of the ore in the chamber, two parallel wells 4 along the stroke (bottom) were drilled into the face chest to implement the proposed method for controlling the roof, they were charged at 1 / 3 of their lengths and blasting in shaking mode. As the chamber was refined by the executive body 5 of the combine 2, in the treated zone, the rocks destroyed by the explosion collapsed in front of the combine shield.

Tests of the proposed method were carried out in chamber No. 2 over a length of about 100 m along its length. In this case, the length of the preventive wells varied from 2.5 to 0.7 m, the angle of inclination of the well - from 26 to 47 ^about , the magnitude of the charge - from 0.6 to 3.2 kg. There were no cases of hangup of formation B rocks in the roof folds after application of the method. Roof management labor productivity has increased by around 40%.

 Thus, the proposed method allows to ensure occupational safety, increase labor productivity, degass the rocks in the roof of the chambers and thereby prevent the occurrence of sudden emissions of rocks and gas.

Claims (1)

 ROOFING CONTROL METHOD, including drilling holes into the folds of the roof of the formation as the chamber is being worked out, loading holes with explosives by blasting, destroying the remaining in the folds of the roof of the formation rocks by blasting explosive charges in the holes and collapsing rocks, characterized in that, in order to increase the productivity of the clearing of the mineral and safety of operations in the face when developing formations with intensive folding by the combine with repeated excavation cycles, drilling of holes is carried out within the boundaries of the excavation cycle into the chest of the face at an angle to Horizonte into contact with the roof rock before removing the next cycle, the blasting explosive charge in the borehole is carried out in sotryasatelnom mode and caving remaining in the folds of a roof formation produces the combine during the next cycle of the recess.

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