SU905473A1 - Modular reinforcement of vertical mine shaft - Google Patents

Description

(54) BLOCK ARMING OF VERTICAL MINE

Stem

Claims (2)

The invention relates to the mining industry, in particular to structures for reinforcing shafts, and can be used in vertical shafts of mines, as well as in various underground structures and above-ground buildings. The reinforcement of the shaft shafts with cantilever shootings fixed in concrete lining by cutting holes with their subsequent concreting is known 1. The block reinforcement of the vertical shaft is also known, including cantilever shootings, conductors of a lifting vessel and a counterweight 2. However, these cantilever shootings have insufficient non-drying ability and rigidity to perceive horizontal and vertical loads arising from the movement of lifting vessels. Studies performed on models have shown that even with a significant increase in the depth of the cantilever, the concrete lining collapses on Koitrype due to the elastic bending of the cantilever beam when it is loaded. Therefore, only in very rare cases, cantilever shootings are used to fasten the conductors of the counterweights. The purpose of the invention is to reduce the complexity of installation of reinforcement elements. This goal is achieved by the fact that cantilever shootings are made in the form of two parallel U-shaped frames with horizontal stops and vertical connections and are set apart from each other at a distance exceeding their horizontal length, within 1.5-2, 5 m, moreover, the conductors of the lifting vessel and the counterweight are placed, respectively, outside and inside the console shootings. FIG. 1 shows block reinforcement of a vertical shaft; in fig. 2 - block construction of isometric reinforcement. The block structure consists of two U-shaped frames 1 with horizontally stops and with rigid connections between the consoles vertically. The U-frame has two parallel consoles 2 of a welded closed box or I-beam profile. The consoles are interconnected by a beam from the corner profile 3. To give the U-shaped frame sufficient rigidity in the horizontal plane, it is fastened in the barrel by means of the stops 4 of the corner profile. Vertically, U-shaped frames are connected by two X-shaped connections 5 from an angle profile. The conductors of the lifting vessel 6 are placed outside the U-shaped frames at the end of the cantilevers 2 by the frontal plane perpendicular to the long axis of the lifting vessel. The counterweight conductors 7 are installed approximately in the middle of the consoles inside the U-shaped frames with the frontal plane perpendicular to its long axis. Taking into account that during the erection of concrete lining, deviations of the barrel walls from the designed dimensions up to 50 mm may occur, the block structures of the reinforcement are fixed to the walls of the barrel with metal bars 8, using adjustable support brackets 9, which allow movement of block blocks along the length of the shot by 130 mm and in the lateral plane by 30 mm. To prevent the brackets from mixing, special toothed strips and washers are provided during operation. Bearing cantilever shootings are made in the form of two parallel U-shaped frames with stops horizontally and with rigid connections between the brackets vertically. The proposed construction of the block reinforcement makes it possible to increase by 3-5 times or more its carrying capacity and stiffness parameters in comparison with the usual shootings of the frame structure. The tests of the block design on a special stand fully confirm the results of theoretical calculations. For example, test data on the bench shows that the rigidity of the block structure in the horizontal and vertical plane x are 48.8 and 46.2 t / cm, respectively, and the rigidity of the single firing beam of the I-beam No. 36c according to OST 10016-39 in length 7, 5 m, respectively, 0.3 and 9 t / cm. The distance between the U-shaped frames along the vertical, connected by rigid connections, exceeds the length of the console. Depending on the required carrying capacity and stiffness parameters of the block structure vertically, this distance can vary between 1.5-2.5 m. Laboratory studies performed using optically active materials, as well as tests on the bench, have confirmed that accepted recommendations for choosing the vertical distance between the U-shaped frames are optimal. The distance between the block structures (reinforcement bar) / is determined by the allowed deflections of the conductors and can be within 4-5. M. The use of block reinforcement, made in the form of two parallel U-shaped frames with horizontal stops and rigid connections between the consoles vertically, eliminates the effect of bending moments arising from vertical and horizontal loads on the trunk support in the places of fixing the consoles. In the absence of bending moments, the block structures are securely fastened to the walls of the barrel by metal barriers using special adjustable support brackets with toothed gaskets and washers, which make it possible to adjust the structure in all three planes and securely fix them in rocks of various strength and concrete lining without mixing with accuracy of ± 4 mm. Formula of the invention Block reinforcement of a vertical shaft shaft, including cantilever shootings, lift vessel conductors and a counterweight, characterized in that, in order to reduce the laboriousness of assembling reinforcement elements, cantilever shootings are made in the form of two parallel U-shaped frames with horizontal stops and connections vertically and set apart from each other at a distance exceeding their horizontal length, within 1.5-2.5 m, with the conductors of the lifting vessel and the counterweight placed respectively outside and inside During console shootings. Sources of information taken into account during the examination 1.Dorzhn kevich I. B. Improvement of the reinforcement of deep shafts of mines M., “Nedra, 1970. 2. The patent of Germany No. 1458708, cl. E 21 D 7/00, published. 1973.