SU1062400A1 - Power support for roof at borderline of driven working and caved-in space in pillar-less coal mining - Google Patents

Abstract

1. mechanized system FOR MAINTAINING THE ROOF FOR BORDER erected generation and collapse SPACE IN COAL BESTSELIKOVOY recess comprising adjacent sections, consisting of base and upper Cove, characterized in that in order to work the Enhance security by reducing exposure of the roof area and reacting uluchscheni sections between each other, the tops of adjacent sections are made in the form of plates, each of which consists of alternating grooves and protrusions installed with the possibility of constant interaction with each other, with that the length of the plates prevyschaet schag advancing roof supports, and their height prevyschaet height lowering of the upper Cove. 2. A support according to claim I, characterized in that the length of the plates is 1.3-1.5E, and their height is 1, 3-1.4H, where B is the length of the stepper of the advancement of the support; H is the height of the lowering of the top.

Description

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o The invention relates to the mining industry and can be used as a mechanized mobile protective and supporting means for the formation of a mine following the cleaning face in the zone of influence of the cleaning work during coal mining on flat seams. Known mechanized lining, including hydraulic racks, shifter jacks, linear and end sections 1. The disadvantage of this lining is the complexity of the design, due to the large number of power elements. Also known is mobile mechanized lining for supporting the roof at the boundary of the roadway and collapsed space, including a number of adjacent sections consisting of bases and upper devices for their connection, in a row, hydrocalls, hydraulic jacks and fences 2.., The disadvantages of this lining are the complexity of the design, large metal intensity and also the possibility of dumping of pieces of rock when moving each of the supports, which significantly reduces the safety of work. The purpose of the invention is to increase the safety of work by reducing the area of the exposed roof and improving the interaction of the sections with each other. This goal is achieved by the fact that in mechanized lining to support the roof on the border of the erected outcrop and collapsed space when aimlessly excavating coal, including adjacent sections, consists of bases and tops, the tops of adjacent sections are made in the form of plates, each of which consists of alternating grooves and protrusions installed with the possibility of constant interaction with each other, with the length of the plates exceeds the step of advancing the lining, and their height exceeds the height of lowering the tops. The length of the plates is 1.3-1l, 5t, and their height is 1.3-1.4N, where I is the length of the advancing step, and H is the height of the lowering of the top. FIG. 1 shows the mechanized lining during the shifting of adjacent sections (conventionally one row is shown), general view; in fig. 2 - mechanized roof supports, top view. Mechanized lining is connected to the laval lining 1 and contains one or several intermediate 2 and terminal 3 sections of the same type. Each of these sections of the same type includes a base 4, on which hydraulics 5 are installed, connected to the top 6, a fence from the open space 7 and fixtures 8 for mounting the supports in a row, made in the form of plastic 9 on the top . The rods 10 and the hydraulic house. The shifts of the slide 11 are rigidly fixed on the base 4. The mechanized lining works as follows. In the working position of the section are in the open state. As the clearing hole moves, the mechanized support sections are shifted, while the hydraulics 5 mounted on the base 4 of the longitudinal support 1 are reduced, lowering the top to 6. At this time, the plates 9 of the main support 1 of the support fixture 8 are moved down in a row the required height between the fixed plates 9, which are made on the top b of the intermediate section 2, does not come out of the engagement with them. When reducing the hydraulic jacks 11, the advances rigidly fixed on the base 4 of the lava support 1, and the separation of the hydraulic jacks 11 of the intermediate support 2 by means of t g 10 10, the supporting bolt 1 will be mixed to the bottom and the advancing step. Then, the hydraulics 5 of the lava support 1 are pulled apart. After that, the hydraulics of the intermediate section .2 are reduced, while its upper is lowered to 6 with the plates 9 of the device 8, made on both sides, to the required height, the passage between the fixed plates 9, made on the top 6 of the brass lining 1 and the end section 3 or the next intermediate section 2. With the reduction of the hydraulic jacks 11, the advancing of the intermediate section 2 and the separation of the hydraulic jacks 11 of the end section 3 or the next intermediate section 2 through t g 10, the intermediate section 2 moves to the bulkhead 1 on the an advancing step, after which the hydraulic legs 5 of the intermediate section 2 are spreading out. After shifting all the intermediate sections 2, the hydraulics 5 of the end section 3 are contracted. In this case, the plates 9 of the end section 3 of the device 8 for placing the sections in a row are moved down between the fixed plates 9 of the intermediate section 2, not disengaging from them. When the jacks 11 are contracted by means of t g 10, it is moved to the intermediate section 2. Then the hydraulic racks 5 of the end section 3 are pulled apart. During the entire cycle of the shifting, the fence 7 protects the support against the collapse of rock from the developed space. Due to the constant engagement of the plates 9 with each other, both during shifting and thrusting, the installation of sections in a row is provided, as well as continuous protection of the excavation from dumps from the roof. The number of plates of devices 8 for placing the sections in a row is determined by the geological conditions. To provide protection from rock outfalls from the roof of the erected excavation, the length of the plates 9 in the arrangement 8 for the installation of supports in the row should be equal to 1.3-l, 5f and the height should be equal to 1.3-1.4 N, where E is the advancing step lining; H is the height of the lowering of the upper frame, which ensures their constant engagement with each other as if

shifting and strut. Such an implementation of mechanized support provides the ability to use it as a mobile security strip on the border of the construction and the chosen space, and will improve the safety of work.

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Claims (2)

1. MECHANIZED | FASTENERS FOR SUPPORTING ROOF AT THE BOUNDARY OF EXTRACTED PRODUCTION AND DECLINED SPACE WITH A PURPOSE-FREE COAL MILLING, including adjacent sections, consisting of bases and tops, characterized in that, in order to increase the safety of work by reducing the area of roofing and improving the area by themselves, the upper sections of adjacent sections are made in the form of plates, each of which consists of alternating grooves and protrusions, installed with the possibility of constant interaction with each other, while the length of the plates exceeds the step of moving the lining, and their height exceeds the height of the lowering of the upper. 2. Hold on π. 1, characterized in that the length of the plates is 1.3-1.5 £., And their height is 1.3-3.4N, where £ is the step length of the lining; N · - the height of the lowering of the upper. FIG. 7