RU2177546C1 - Method of controlling difficult-to-cave roof - Google Patents

Abstract

FIELD: mining industry; applicable in mining of potassium and coal seams with difficult-to-cave roofs, particularly, selective getting of mineral with partial filling of worked-out spaces with gob packs. SUBSTANCE: method consists in partial filling of worked-out space with side and central gob packs. Central gob pack is filled by sections parallel to breakage face line as long faces advances through distance h equalling established step of main roof caving with length of gob pack equalling L/5 and its width at least h/5, where L is length of breakage face. So, formed parallel gob packs serve as pads relieving caving dynamics and at the same time facilitate formation of blocks of caved main roof small in size. In this case, roof caving is regularly performed as breakage face advances, i.e. with constant step of caving and no negative consequences for face operation. EFFECT: higher safety of mining operations. 2 dwg

Description

 The invention relates to the mining industry and can be used in the development of potash and coal seams with hard-to-collapse roofs, in particular for the selective extraction of minerals with partial laying of the worked-out space with rubble strips.

 A known method of controlling a hard-to-collapse roof, including drilling holes in the roof in rows parallel to the face line, charging holes with explosive charges and blasting the holes after the face has left the split furnace.

However, this method is characterized by great complexity and lack of efficiency [A. S. 796426 (USSR) Ya.A. Beach, Yu.D. Piskunov "A way to control a hard-to-collapse roof." M. Cl. ³ E 21 C 41/04, BI N 2, 1981].

 There is also a method of controlling a hard-to-collapse roof with a partial laying of the worked-out space, which consists in the construction of pedigree rubble strips perpendicular to the working face ["Regulatory and methodological documents for mining at the Starobinsky potassium salt deposit". Salihorsk-Minsk, 1995]. Partial laying during the implementation of this method is made by the central and side strips perpendicular to the face line and is a support for blocks of collapsed rocks, thereby increasing their size and, accordingly, the pressure on the lining of the face. This creates an emergency in the lava. [Sirenko Yu.G., Golovaty I.I. Protection of mechanized lining of working faces during dynamic roofing // National Economy of the Komi Republic, 1998, v. 7 ,. N 1].

 The objective of the invention is to increase the safety of mining by preventing such dangerous phenomena as the collapse of the main roof over large areas.

 The solution to this problem is achieved by the fact that in the method of controlling a hard-to-collapse roof, which consists in partial laying of the worked-out space with two side and central rubble strips, the central rubble stripe is laid in separate sections parallel to the face line as the lava moves, through a distance h equal to the steady-state step collapse of rocks of the main roof, with a length of rubble strip up to L / 5 and a width of at least h / 5, where L is the length of the working face (m), h is the steady-state step of collapse of rocks of the main roof and (m).

 A method for controlling a hard-to-collapse roof is illustrated by drawings, where in FIG. 1 shows a plan view of a mining pole; in FIG. 2 shows a sectional view in the center of the extraction column.

 In FIG. 1, 2 depicted: 1 - central rubble stripes; 2 - central ventilation drift; 3 - scraper loader; 4 - thrower; 5 - face, 6 - downhole conveyor; 7 - side rubble strips; L is the length of the face, h is the steady-state step of the collapse of the rocks of the main roof.

 The method is as follows. The broken rock comes from the face conveyor 6 to the reloader 3 and then to the thrower 4, with the help of which it is thrown into the worked out space in the center of the lava, parallel to the face, to a length of up to L / 5, with a width of the rubble strip not less than h / 5, where L is the length of the working face (m), h is the steady-state step of the collapse of the rocks of the main roof (m).

 The following rubble strip 1 is erected in the worked-out space through a distance h equal to the steady-state step of the collapse of the main roof. The parameters of the central rubble strips (length, width, distance between them) vary depending on the geological and mining conditions of the development of mineral deposits, while the lateral rubble strips are formed in the usual manner along the flank drifts.

 Thus, the central parallel rubble strips erected by the sections will play the role of “pillows” that remove the collapse dynamics and at the same time contribute to the creation of reduced-size collapsible main roof blocks. In this case, the collapse of the roof will occur regularly as the working face moves, i.e. with a constant step of collapse, without causing any negative consequences for the work of the lava.

Claims (1)

 A method for controlling a hard-to-collapse roof, which consists in partial laying of the worked-out space with side and central rubble strips, characterized in that the central rubble stripe is laid in sections parallel to the face line as the lava moves, with the length of the rubble stripe sections up to L / 5 and a width of at least h / 5, through a distance h equal to the steady-state step of collapse of the rocks of the main roof, where L is the length of the working face (m), h is the steady-state step of collapse of the main roof (m).

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