SU1120110A1 - Mine working roof support - Google Patents

Abstract

A STRONG FOR MAINTAINING PRE-OPERATIONS, including the overlap on which the flexible casing and base are installed, connected with the overlapping by the sliding mechanism, which in order to increase its stability and its reliability to the varying power of thin layers, the sliding mechanism is completed as a pantograph consisting of cross-arms, interconnected by means of a clamping screw and a flywheel, longitudinal levers, which are articulated in pairs with internal ends on both sides of the ceiling and base, and external mi - on traverses, and transverse levers, which play on one end of the ends respectively on the base and on the overlap, and on the other ends of the ball (are loosely connected to each other.

Description

The invention relates to the mining industry and can be used to fix cleansing faces in the development of stratum deposits under the earth method, at any angles of incidence and various thickness of the formation. A pneumatic balloon is known, consisting of a set of a certain number of pneumatic balloons depending on the thickness of the seam. The disadvantage of this support is an uneven spread along the lava, resulting in a violation of the stability of the lateral rocks and due to the inconsistency of the extracted thickness of the layers, as a result of which in some cases the cylinders swell and their area decreases with the lateral rocks, and in others vice versa. Closest to the invention is a support for supporting mine workings, including the overlap on which a flexible shell is installed and the base associated with the overlapping of the 2J sliding mechanism. The disadvantages of the known support are the poor transverse stability of the sections, the need to use two types of energy sources in the face and a small expansion angle. when the seam thickness changes. The aim of the invention is to increase the stability of the support to support the mining operations and to adapt it to the varying thickness of thin formations. The goal is achieved by supporting the mine workings, including the overlap, which is equipped with a flexible shell and a base, connected with the overlapping by the sliding mechanism, the latter being made in the form of a pantograph consisting of cross-arms, interconnected by means of a clamping screw. and flywheel, longitudinal levers, which are articulated in pairs with inner ends on both sides of the overlap and base, and outer "1 - on traverses, and transverse levers, which are hinged with one horse, respectively on the base and on the overlap, while the other ends are articulated. FIG. 1 shows lining, general view; in fig. 2 - section AA on fi. 1.102 A support consists of a base 1 and a cover 2 on which a flexible sheath is fastened (pneumatic or hydraulic) 3. The base and the overlap are interconnected by longitudinal levers 4 forming a pantograph. The inner ends of the longitudinal levers are hinged in pairs on both sides of the overlap 2 and the base 1, and their outer ends are hingedly connected by traverse 5, one of which is equipped with a clamping screw 6, which interacts with the other traverse through a threaded hole in it and a flywheel 7 mounted on fixed screw. The transverse levers 8 are hinged at one end on the ceiling and the base, while the others are connected to each other and serve to create lateral stability. To bring the support to its working position, it is installed in the wellbore space and the flexible sheath 3 is filled with compressed air. Using the flywheel 7, rotating it clockwise by hand, hydraulically or with an electromechanical mechanism, the traverse 5 and the clamping screw 6 are applied to the arms 4, which, resting against the base 1, raise the overlap with the flexible sheath 3 until it touches the roof of the formation and create a preliminary spread. Then compressed air is supplied to the flexible sheath 3 and a necessary constant thrust is created. In this case, the transverse levers 8 do not allow the support sections to move in the direction of the dip of the formation. Sliding the trailing arms 4 is possible within the angle between them 15-75 °. The fixing screw and the flywheel can be replaced by forcol. When moving to a new location, a portion of the compressed air is released using an air distributor. The support is unloaded by rotating the handwheel counterclockwise, after which the support is moved to the face. This embodiment of the lining allows to reduce the laboriousness of its installation and installation, increase the stability of the sections and reduce the resistance to air movement in the clearing workings.

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FIG. 2

Claims (1)

\ FASTENERS FOR SUPPORTING MINING PRODUCTS, including a ceiling, on which a flexible shell and a base are connected, connected with a sliding mechanism, characterized in that, in order to increase its stability and adaptability to the changing power of thin plastics, the sliding mechanism is made in the form of a pantograph, consisting of traverses interconnected by means of a clamping screw and a flywheel, longitudinal levers, which are pairwise articulated by the inner ends on both sides of the floor and the base, and the outer ones on traverses, and transverse levers, which are pivotally fixed at one end, respectively, on the base and floor, and at the other ends, pivotally connected to each other.