SU1046524A1 - Member for supporting mining working roof - Google Patents

Abstract

1. BLOCK FOR FASTENING OF MINING WORKS, including a frame filled with reinforced concrete, reinforcement interconnected in the longitudinal and transverse directions, and crepeda elements, characterized in that, in order to increase the corrosion resistance and water tightness, the frame. it is supplied with outer plates on the inner sides that form a steak. 2.POP.1 block, the difference is ush in the fact that the frame on the plate is extruded from a corrosion-resistant waterproof material, for example, ai “onon merbeton. 3. Block on shh. 1 B2, and letting go of the fact that the frame is set out with with bevels in the corners. 4. Block on PP. 1-3, from 1 to 5, and with the fact that the fastening elements are made of metal pasted on reinforcing outlets of four adjacent blocks in two cross-shaped “underneath reinforcement”, produced in strips welded to the base (L diagonally located bopps. 5.Block on PP. 1-4, otpvchayu: u and with the fact that the gap formed when stacking blocks in the ring, filled with arm-polymer concrete mix. A;: o: SPyo 4

Description

Inventing is related to the mining industry, in particular, to the fastening of the tunnels at the construction of the metropolitan area. Most importantly, to the achieved result, a prefabricated bpock for fastening mine workings, including a frame, reinforced reinforced concrete connected to each other in the longitudinal and transverse i-directions and the elements of the G-2J clapboard. A disadvantage of the known blocks is insufficient corrosion resistance and water resistance. The chain of the invention is to increase the corrosion resistance and to waterproof it. block validity This chain is achieved by the fact that in the block for fastening the mine workings, in the frame filled with reinforcement obelonemeel, interconnected in the longitudinal and transverse directions, and fastening elements, the frame is provided with outer in the inner sides of the gaastles forming the walls, and also hem, that the frame and the plate are made of corrosion-resistant, waterproof material, for example, armored polymer concrete, and the frame is made with agos at the corners, and the fastening elements are made in the form of a meta plate, laid over e issues four adjacent BpoCom and two crosswise raspopozhe GOVERNMENTAL under armagurnpli releases nonocf, nrivarennyh to bases bodtov diagonally arranged, furthermore, a gap formed in pri- ukpadke BpoCom Kolno, zashpnen armopopimerbetonnoy mixture at f15G. 1 depicts a depot, general view; in FIG. 2 - bpok obdepki-, on zhg, S section in fig, 2; in fig. 4 - resolution per ft1g. 2; on fyg, 5 - connecting uzep sideways of the curtain ya fig. Part 6 of the soldering uzp with the image of a bogg n nut, welded to the MW gaic mowing; in fig. 7 Metappgycheska how ok npastina; on the fng. 8 paaps © per fg, 5. The curling unit consists of 3 units of blocks 1, washed in a hoof, in the upper part of which the locking element 2 is defended. The side of the curtain consists of duct 3 with base 4 and end walls 5 made of arm-polymer concrete. Box 3 is filled with reinforced concrete. The bevels of reinforced gaps 6j were mounted on the gaps of the jointed sides, and the mounting studs 7 were made at the ends 5 in each block. An 8-lane opening was drilled out in each block. pumping bonding solutions at the binder after it has been installed. The base of the box 4 comes out; because of its small, about 1 cm collar 9, which, when mounted, forms a gap filled with a polymer – white mixture, which gives additional rigidity and water resistance to it. For the interlocking hub connections, the blocks have embedded 1Ob (pins) rods for securing the inventory opals & The connecting assembly of the blocks 1 consists of bolts 11, nuts 12, metal strips 13 and a metal overlay plate 14. The lining is mounted as follows. First, the blocks are laid on the base of the excavation, then the wall ones and the last one is laid down by the block element 2, the blocks are interconnected by passing the bolts 11 into the reinforcement outlets 6 from below, then the metaprofile patch 14 is put on and tightened by nuts 12, Bolts C, their bolts. , welded to the strips 13 and ustashas poured in a cross-pattern. The embossing grooves are filled with an arm-polymer mixture. Taking into account the bonding solutions for the lining after its installation, the proposed finish works like a frame in a flat sheet. In assessing the stress-strain state, it is necessary to take into account the interaction of the lining with crimped sing. As a result of the joint operation of the facility with crimped sing, the groove exerts not only active pressure on the facility. but also helped the work of the facility. Taking into account this circumstance, in determining the stress-strain state, it is necessary to take into account the passive resistance of the compressible layer. The effect obtained from the application of the proposed lining is determined by the end of life through the creation of corrosion-resistant and waterproof structures, which can be used in aggressive environments. The portion assigned to the armopimerbeton is minimal to reduce the strength of the armopoggamerbeton. As a result, a complex bpok will cost slightly less expensive than 1U compared to iron concrete at 1 times cheaper than a unit made entirely of armopol merbeton. The approximate durability of the structure of the hylemerbeton FAM, lrk) and Gpavisstroi, is 56 years old and more. The eco-friendly effect of the proposed “on-structure” will appear already in p-5 years, i.e. from the moment he

four

/ 0

ff /

.2 1О46

G P 1

Fig.Z

± 6.

FIG. 4 aggressive environment, a block made of reinforced concrete will require reconstructions and for every 1 meter, the reinforced polymer concrete developed by BPSC will provide savings of 60 rubles. for the next (3-5 years) - the time that requires the reconstruction of the concrete block. Taking into account the almost universal hvmv4 chesky durability polymerIgona. FAM, it can be recommended in any agro-active media.

L

13

Phage.6

/ g

ABOUT

Fiel

Bv

//

Fig.c

Claims (5)

1. UNIT FOR FASTENING MINING PRODUCTION, including a frame filled with reinforced concrete, reinforcement interconnected in the longitudinal and transverse directions, and fastening elements, characterized in that, in order to increase corrosion resistance and waterproofness, the frame. equipped with external and internal sides of the plates forming the walls. 2. The block pop. 3. Block on Mon 1 and 2, characterized in that the frame is made with bevels in the corners. 4. Block PP. 1-3, which implies that the fasteners are made in the form of a metal plate superimposed on the reinforcing outlets of four adjacent blocks and two crosswise located under the reinforcing, outlets of strips welded to the bases of diagonally located bolts. 5. Block PP. 1-4, characterized in that the gap formed (when laying the blocks in the ring, is filled with reinforced concrete mixture. Fig! 104652 1046524 2