SU1423744A1 - Shield support - Google Patents

Description

(21) 4120806 / 22-03

(22) 06/18/86

(46) 09/15/88. Bul № FOR (7 |) Institute of Mining. A.A.Skochinsky (72) K.F. Fedorov, L.A. Ziglin, Yu.D.Torf, V.V.Ryzhkov, Yu.P.Usov and V.F. Shakhmatov (53) 622.284 (088.8) (56) Kulakov V.N., Ogorelkov G.F. Cleaning technology by horizontal layers with suspended lining and pneumatic laying. - Collection of scientific papers: Development of coal seams. Novosibirsk, 1981, p. 9-15.

USSR Author's Certificate 494524, cl. E 21 D 19/02, 1972.

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(54) SHIELD FIX

(57) The invention relates to the mining industry and can be used in the development of minerals with the hardening tab of a goaf. The goal is increased operational reliability. Shield support consists of shield slab 1, mounted from separate arches. Along the perimeter of the support there are support longitudinal 5 and end controlled air bellows. In the arches of panel overlap 1, hydrop cartridges 7 are located with supporting shoes 8. After the coal has been dredged by a coastline 12, the shield is lowered by the size of the groove pitch. Before lowering, the air bellows are filled with air with the necessary pressure and the shield is removed from the bookmark using hydropanes 7. 10 Il.

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The invention relates to the g-industry and can be used in the development of minerals with a hardening bookmark of the developed space.

The aim of the invention is to increase the operational reliability of the support when developing minerals with the control of the hard rock.

On fig.I shows shield lining in the clearing face, general view; in fig. 2 is a view A in FIG. in fig. 3 is a section A-A in FIG. in fig. and - technological scheme of reservoir development with the use of shield support; Fig, 5 is a section bb In figure 4; in fig. 6 is a section DD-D in FIG. four; in fig. 7 - the node in figure 4; in fig. 8 is a section of the EE of Fig.7; in fig. 9 - hydropatron; in fig. 10 - the same, D moment of shield shield support from the backfill array.

Shield support consists of shield cover 1, mounted from separate arches 2 of special profile or curved channels. The arches along the shield support length are fastened with 2-3 rows of channel bars 3 with the help of bolts 4. The shield supports are provided with supporting longitudinal 5 and end 6 controlled pneumatic cylinders to ensure the tightness of the contact surfaces of the schishgovy support with the downhole and flanking planes of the slab Prevent penetration of molded hardening bookmarks into the bottom hole area.

The control of the pneumatic cylinders — filling the cylinders with compressed air under the required first pressure, its discharge or pumping out and other operations — is provided by a control panel (not shown). In order to force the shield to shut off from the surface of the hardened filling mass, the shield overlap is equipped with hydraulic cartridges 7 with supporting brass strap 8. Hydraulic cartridges are fixed in arches 2 and placed in two rows along the length of 4–5 meters and at a distance of Each row from the overlap edges 0.7–1.0 m. The shield overlapping for sealing is covered with a flexible overlap, for example with rubberized canvas 9, while the supporting shoes 8 of the hydraulic cartridges 7 are also blocked.

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FiiiH is spontaneous (- “the launching of the lining was tightened by subfloor flexible rods 10 with worm napaNni 1 driven by electric motors.

Yat excavation and delivery of coal at the bottom of the shield cfta6meH conveyor belt 12 with jacks 13 filing.

Shield support works as follows (figure 4).

Dp of purification works is preparing a notching field 250-m long m, including extraction columns 14, separated by slopes 15. The distance between slopes 50-60 m is chosen based on the technical possibility of the guests of the conveyor belt. The extraction poles work out with dashboard roof supports with roof control with a hardening tab. Shield support is mounted on the ventilation horizon in the dissection of the finished pole. In this case, the ends of the suspended flexible rods are secured by anchors 16 in the lateral rocks. Clearing faces in columns are located under

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an angle of about 10 in order to ensure the spreading of the cast hardening bookmark over the entire length of the slab when it is fed from the side of a single slope.

The cleaning work in the bottom begins with the removal of a strip of coal by a conveyor-circle, the thickness of which is determined by the concieroscrest gripper. Before the excavation of the coal from the pneumatic cylinders 5 and 6, the air is exhausted and they fold between the surface of the supporting pillars and pneumatic cylinders to create a gap for the conveyor belts. A strip of coal is removed in parts in the sequence 17-18-19-20. Then, the conveyor carriage forms the surfaces of the supporting pillars at the roof 21 and the soil 22 of the formation. After excavation, the coal builds up an earthen hem 23 at the ramps, and the flanking planes of the bottom 24, if necessary, are also sealed and leveled, for example, by smearing with clay. Then, the shield is lowered by the amount of the excavation schag. Before lowering the shield, the pneumatic deflectors are filled with air with the necessary pressure, they are separated from the shutter using hydraulic chippers 7 located on the side of the shield that should be lowered in the supporting rear sight, and the flexible cover is detached from the backfill mass from the support weight. The order of lowering the sides of the shield is determined by the position of the shield according to the thickness of the reservoir, namely: the lowering of the shield is made on the side that is closer to the lateral rocks. After the shield is lowered, new dredging-lowering cycles are performed until the bottom of the fall moves up to the level of the laying, the value of which is determined by the stability of the lateral rocks. At the same time, the shield is supported by pneumatic cylinders on the surface of the pillars, which provides the necessary tightness of the lining even with local outfalls of lateral rocks. Hardening of the formation is performed on the flanks of the injection columns of chemical substances, which will prevent dumping on the exposed end faces of the faces.

Then the bookmark is fed into the open space through the pipeline 25, located in the ramp, in the bottom of the bookmark it spreads by gravity. During the filing of the bookmark and its hardening in the first pillar, coal extraction and feed bookmarks are carried out successively in the second, third and subsequent columns. By the time the required strength of the bookmark in the first column is reached, the cleaning work in

The last pole of the excavation floor is finished and started again in the first pole. In order to ensure uninterrupted coal extraction, according to the terms of hardening the laying in the extraction field, there should be 5-6 pillars.

The ventilation of each clearing site is provided with a separate air stream due to a general depression (Fig. 4).

Claims (1)

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