SU1079851A1 - Method and apparatus for roof control at stoping faces - Google Patents

Abstract

1. The method of controlling roofs in the clearing holes, including the effect on roofing roofs with lining from replica to the cis group of sections of sections with narrow overlaps, in the intervals between the extreme sections of which there are equally distributed sections with broadened overlaps the fact that, in order to prevent collapse of the roof between the groups of sections by ensuring a smooth deflection of rocks while simultaneously forming continuous vertical cracks in the interlayer and concentrated drainage of water from the roof, the lining section is wider E bubbled overlap with intertalom set greater than the interval value, vyztayusche- prsogib of equal stability limit • most ductile layer "mezhduplas- be .g (N: o oo ate

Description

2. A device for roof control in one forefoot, which includes lining sections with overlap, strut. a-t-shvsh-yShg ograzhdishm and jacks before-BIZh1Sh and installed in the form of groups, corresponding to TOfflJBK of the support sections from the cross-Sh; and sections with broadened transforms. MI between rpjii-

nai -ii-ij about tl and h and e with Terv; that w1c overlaps are made, concave and provided with additional, canopies, connected with narrow w1 overlaps, with 3TQivi wider overlaps and additional dims j-ifai with channels for connecting to the mine water supply network

The invention relates to a mountain river, and, more specifically, to: plepia and upranpish-io KpOBjieft in the cleft area. There is a method of controlling the roof by acting on the roof rocks. , ankhanizirovannaya lining 111k mechanized lining. type of control of mountain pressure 1 Lack of a lazazny method and us. The problem is that it doesn’t allow it to go through the clearing of the clearing you, and Votkv: ugrovlyat the crater of the island, naimmerz with the aim of concentrating the;; -th: water drainage from the roof, containing:; 8th aquifer. Lack of tax / organized withdrawal of military adatt often leads to serious problems with emergency services; piles of pavilions, in the distance of the sections, are firmly placed in the sodden gurodes. iAt and SOIL The closest to the roofing method is the roof control ;; - The X roofs, including the roof of the roof of the roof with support from “; with narrow interraces, in the intervals between extremes of the lyiii sections of which set equal; w-czdie them section1-sh with extended extensions. Drainage method of mech-mezhanizro ™ aa lining, including sections of the cr. U-ii with overlapping, racks, the basis of the fence and mobile jacks; .E and installed in the form consisting of seyutiy lining with uzshshch and overlapping midi and sections with widened overlapping, / w, razlolozhesh-Pzmt between rpjrnnamy 2, The disadvantage of the above method and crnl of the conditions of the circled roof of shh o (weak) breeds with / loe directly to the roof, which prevents the formation of continuous vertical woods of important cracks and does not allow for concentrating the drainage of water from the roof. The purpose of the invention is to provide a concentrated drainage of water from the roof containing aquifers, to create vertical cracks in the rocks by a contour of production and water bearing. vniiiv reservoir (in the interframe), the specified goal is achieved by the temperature that according to the method of roof control in cleansing holes, including the impact on roof rocks with lining from repetitive sections of sections with narrow overlap mKg, between the extreme sections of which are set the sections are with iridescent ceilings; The latter is installed with an in-interval. exceeding the magnitude of the interval, which leads to a deflection equal to the limits of stability of the most interfacial region. The goal is that the device is in the device-stb; for the control of the roof in the sewage treatment plant, which includes sections of lining, having racks, racks, bases, barriers and jacks, and installed in groups consisting of sec-III: and sections with wider 1.sh overlaps located between the uppaxi group, the overlap of the overlap is made concave and provided with additional, overhangs connected with the overlaps, with wider overlaps and additional overhangs with channels for connecting drainage network mine. 3 The schematic diagram of the proposed device that implements the proposed method is shown schematically. In the clearing development in the bottomhole space, groups of support sections 1 of known construction are installed, consisting of racks and floors (for example, mounting 1 of the ISS) with intervals d between sections. The lining section groups are installed from the interval / u between the extreme sections of adjacent groups, which are greater than the interval causing the roof deflection h equal to the stability of the most ductile layer between the lining t separating the contour of the lining from aquifers 2, simultaneously with the installation of groups sections of the lining in the intervals 2 between the extreme sections of adjacent groups establish equally-dry sections of the lining 3, consisting of racks with a wide downwardly bent overlap 4, equipped with water-receiving devices 5 made, for example, in the form of water-supplying and P1X visors connected by channels 6 to the surface of a concave ceiling and pipeline 7 to the mine's drainage network. The method is carried out as follows 514 Calculated or empirically (for example, as in the prototype) determine the values of unnecessary intervals and and I for specific geological conditions, establish groups of sections of geological conditions and establish groups of sections of lining sections 1 with narrow overlaps mi and itggers and sections. At the same time, in the interval E, lining sections 3 are installed with T1L5renny overlap 4. These crossings are cre-. pi are equilibrium with lining sections 1, Since the interval P is large and the interval 4 is wider, the lining section 3 has a large load from the rock layers of the roof than lining section 1, therefore the lining sections 3 are lowered by the calculated (or installed experimentally) deflection fi, exceeding the stability limit of the most plastic layer between the regions At the same time in between. the formation of hp forms vertical cracks opening up the aquifers 2. Water is drained along the cracks, collected in the inclined downward ceiling 4 and through channels 6, the receiving devices 5 through pipeline 7 enters the mine's drainage network. Such roof management prevents the formation of roof between groups of sections and ensures concentrated drainage of water from the roof.

Claims (2)

1. The method of controlling the roof in the working faces, including the impact on the roof rocks supported by repeating groups of sections with narrow overlappings, in the intervals between the extreme sections of which equal sections with widened ceilings are installed, characterized in that, in order to prevent the formation of roofing between the groups sections by ensuring a smooth deflection of the rocks with the simultaneous formation of continuous vertical cracks in the inter-layer and concentrated drainage of water from the roof, support sections with widened crossings with fishes establish with an interval exceeding the value of the interval causing a deflection equal to the stability limit S of the most plastic layer of interdomain. . SU _ „> 1079851> 107985! 2 "A device for controlling the roof in the working faces, including roof support sections having floors, racks, bases, barriers and sliding jacks and installed in the form of groups consisting of roof support sections with narrow overlaps and sections with widened ceilings located between group of Pami. This is so. that the widened ceilings are made concave and are provided with additional visors associated with narrow ceilings, while the widened ceilings and additional visors are fulfilled! with channels for connection to the mine drainage network.