SU1084448A1 - Mine working support - Google Patents

Abstract

MOUNTING STRIPS, including upper and side racks and basement, characterized in that, in order to increase the carrying capacity of the support by increasing the longitudinal stability, the side racks are made of separate V-shaped semi-supports, both legs of each half-rack are located in a plane, parallel to the longitudinal axis of production. 7 5

Description

The invention relates to the mining industry and can be used in the underground mining of mineral deposits.

The metal arch lining is known, which contains upper racks of a grooved profile and joints between them 1.

The disadvantages of this lining are low longitudinal stability, frames, low bearing capacity of racks, and the absence of elements for fastening the sole of an excavation.

Known lining of mine workings, including the frame lining in the form of racks, tops and the top 2.

The disadvantages of this support are the low longitudinal stability of the frames and the low carrying capacity of the pillars. With deviations from the vertical position of the frame, they quickly lose their stability and deform, which makes it necessary to perekreplenos production.

The purpose of the invention is to increase the carrying capacity of roof bars by increasing the longitudinal stability of the frames.

The goal is achieved by the fact that the rows of posts are made of separate V-shaped semi-pillars, with both legs of each semi-rack located in a plane parallel to the longitudinal axis of the mine working.

FIG. 1 shows lining of mine workings, longitudinal section; in fig. 2 is a section A-A in FIG. one.

The Kretz consists of rows of struts consisting of the upper 1 and lower 2 semi-poles, the upper 3, the levers 4, the locks 5, the grips 6, the connecting nodes 7 and 8. The locks 5 consist of strips, brackets and nuts. The structure of the connecting nodes 7 and 8 includes straps, bolts, washers and nuts.

Half shelves, tops and hollows can be metal (from an I-beam, channel, special profile, etc.), reinforced concrete, plastic, etc. Racks of lining can be both compliant, depending on the type of joint between the half racks.

and tough. Wood, metal, plastic and other materials can be used as stoppers.

The upper 1 and lower 2 semi-racks connected with locks 5 form two rows of racks along each wall of the excavation. The upper semi-poles 1 are laid with the top 3, which are attached to the semi-pockets 1 by means of a connecting node 8. The lower semi-poles of 2 rest on the legs 4 and are fastened to the latter by means of connecting nodes 7. In the walls and roof (and, if necessary, also in the base sheet) Tightening set 6.

The erection is made as follows.

Lay 4 is placed on the working soil, on which lower semi-supports 2 are installed near the walls of the excavation 2. Legs 4 with lower semi-supports 2 are fastened with the aid of a connecting node 7. Then upper semi-supports 1 are attached to the lower semi-supports 2 on the upper semi-poles 1 and attached to the semi-poles 1 by means of a connecting node 8. As the roof supports are erected, the roof and walls (if necessary, the ground) of the excavation are fixed by pulling 6.

The maximum bearing capacity of the support frame of mine workings is characterized by the coincidence of the longitudinal axes of the struts with the direction of action of the rock pressure. In cases of deviations of the longitudinal axes of the struts from the indicated direction, the stability of the frames is broken, and their carrying capacity drops sharply. Due to the fact that the stands in the proposed lining along each wall of the excavation are interconnected and represent a rigid structure, the inclination of the frames along the excavation is practically excluded. This allows the support frame racks to maintain the direction of their axes set during the lining installation during the entire working life of the excavation and to provide maximum resistance to the actual load. / J- / 4 FIG. 2 6 3

Claims (1)

MOUNTING MOUNTING FASTENERS, including the tops and side racks and lounges, characterized in that, in order to increase the load-bearing capacity of the lining by increasing longitudinal stability, the side racks are made of separate V-shaped half-racks, both legs of each half-rack are located in a plane parallel to the longitudinal production axis.