SU1263871A1 - Roof support for mine roadways - Google Patents

Abstract

1. STRAPE CAPITAL MINING DEVELOPMENTS, including support elements made of special profiles with connecting parts and reinforced with a hardening compound located inside the support profile, characterized in that, in order to increase the bearing capacity of the support, support elements are provided with reinforcing bars made in the form of perforated strips placed between the walls of the special profile, in which holes are made, located along the perimeter of the support, and the ends of the perforated strips are rigidly fixed in the holes. 2. A support according to claim 1, characterized in that, as bearing elements of a special profile, I-beams interconnected by shelves with the formation of a cavity for accommodating a hardening material are used. 3. Build on PP. 1 and 2, characterized in that the supporting elements are interconnected by means of a metal insert of a box-shaped cross section installed inside the cavity formed.

Description

The invention relates to the mining industry and underground construction, and in particular to the fastening of underground mine workings, mainly in conditions of strong rock pressure.

The aim of the invention is to increase the bearing capacity of the lining.

In FIG. 1 shows the lining of the capital mine workings of a ring structure, general view; in FIG. 2 is a view A in FIG. 1; in FIG. 3 - section B — B in FIG. 1; in FIG. 4 - section BB — in FIG. 1.

The lining of the capital mine workings, the shape of which is taken depending on the geological conditions, includes load-bearing elements 1 made in the form of a shell of two equal sections of the I-beam 2, rigidly interconnected along the edges of the shelves, while the ends of the segments are shifted relative to each other along the longitudinal element axis. At the ends of the segments asymmetrically protruding in this way, there are two openings in the wall of the I-beam for connecting the elements to each other during the installation of the frame.

According to the calculation, reinforcement 3 is pre-installed in the shell of the lining element in the form of segments of perforated strip welded ^? to the walls of the I-beams in the through slots. The protruding ends of the strip with holes 4 are designed to provide inter-frame bonds.

To connect the load-bearing elements to each other, a box-shaped liner 5 is used. Its surfaces adjacent to the flanges of the I-beams are gable and have a longitudinal curvature corresponding to the radius of bending of the elements in the connecting unit. In the side walls of the liner there are two through oval holes matching the holes in the wall of the protruding end of the I-beam of the supporting element, under the connecting bolts 6 with nuts 7. The length of the liner is 30 mm longer than the length of the protruding end of the I-beam, which allows you to insert the insert into the cavity of the bearing element mounting support.

The frames are interconnected along the working axis with the help of couplers that are attached to the ends of the reinforcement, for example, with a cotter pin or threaded connection. The upper frame element is provided with a boss 8 for attaching a hose from the mortar pump. The assembled frame is filled with ¹⁰ hardening mortar along the perimeter of the lining without gaps at the joints of the supporting elements.

The lining is constructed as follows.

Bearing elements 1 are installed in the bottom according to the technology of fastening the preparatory workings with the corresponding type of lining (arched, annular, etc.). To connect the elements into the cavity of one element between the segments of the I-beam 2, a ^20- th insert 5 is inserted to a shallow depth so that its holes coincide with the holes in the wall of the protruding end of the I-beam. Bolts 6 are passed through these holes from the I-beam side. Then, the protruding end of the I-beam of another supporting element is put on their ends with their 25 holes, and on the insert, the shelves of the connected I-beams are compressed when tightening the nuts 7. Similarly, the following elements are connected until they are completely installed in the frame. For longitudinal communication with a previously installed frame, according to the accepted density of the workpiece mounting, interframe couplers are installed on the corresponding ends of the protruding reinforcement. A hose from mortar pump 35 · is attached to the boss 8 on the upper element and the lining cavity is filled with a hardening solution, for example, expanded clay concrete. In the metal-concrete frames formed in this way, taking into account the subsequent concrete lining, the metal is completely protected from corrosion.

view A%

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Fig.4ig. 2

Compiled by L. Berezkin Editor M. Bandura Order 5538/34 Tehred I. Veres Corrector O. Lugovaya Circulation 470 Subscribed

VNIIIPI of the USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushskaya nab., D. 4/5

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (3)

1. MOUNTING CAPITAL MINING PRODUCTS, including load-bearing elements from special profile with connecting parts and reinforced with a hardening compound located inside the lining profile, characterized in that, in order to increase the load-bearing capacity of the lining, the load-bearing elements are provided with reinforcing bars made in the form of perforated strips placed between the walls of the special profile, in which the holes are made, located along the perimeter of the lining, and the ends of the perforated strips are rigidly fixed in the holes. 2. Hold on π. 1, characterized in that as load-bearing elements of the special profile, I-beams are used, interconnected by shelves with the formation of a cavity for placement of hardening material in it. 3. Hold on PP. 1 and 2, characterized in that the supporting elements are interconnected by means of a metal insert box-shaped cross-section installed inside the formed cavity. phi &. 1