RU2003810C1 - Method for bringing powered mining complex to under seam roof in recoverable pillar - Google Patents

Abstract

Usage: during the installation of treatment plants. SUMMARY OF THE INVENTION: A method for planting a complex consists in forming a working (split furnace) with a tunneling threaded complex and, after it, carrying out an operation for winding up the support sections and conveyor of the treatment complex. After delivering the next section of the lining by the vehicle along the rail track to the place of its winding into the mine, dismantle the rack of the base lining of the base mine from the side of the extraction column. The space between the previously installed section in the mine and the lining section of the rifled complex will be replaced with the next lining section. After the expansion of this section, the rack of the frame support is restored to the design position. In the process of planting the lining sections, the conveyor chain is lengthened, which are delivered to the excavation together with the lining sections. After the cut-out combine has been mounted, the coal processor is mounted on the ventilation drift and the treatment complex is prepared for 4-coal extraction

Description

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The invention relates to mining and can be used in the installation of treatment plants.

A known method of planting treatment equipment under the roof of a formation from a base mine secured by a frame support and consisting of a top and racks connected by clamps in ductility nodes, installation in a base mine of treatment equipment as part of a conveyor, mechanized roof support sections and a mining unit, its subsequent winding under the roof of the formation after dismantling the supports of the frame lining along the length of the mounted treatment equipment from the side of the development of the lava, and the planting of treatment equipment within the width of the base hole Work is carried out in separate sections with the help of racks, which are installed between the side of the base working and the sections of powered support 1.

The disadvantage of this method is the high operating costs due to the unresolved issue of picking up the roof support in the berm part of the excavation column adjacent to the base mine.

A known method of planting a complex of treatment equipment under the roof of the formation in the excavation column, including mounting in an adjacent base excavation, fixed by a flexible duct support, treatment equipment consisting of a conveyor, sections of powered support and extraction aggregate, installing racks under the top of the frame support of the base excavation in the limits of its width between the other side of the excavation and the sections of the mechanized support, the dismantling of the racks of the frame support of the base excavation from the side of the extraction column to the length mounted of the complex, the subsequent planting of the complex under the roof of the formation in separate runs with the subsequent return of the dismantled racks to the design position, and in place of the dismantled racks of the frame lining within each plant, shortened racks are installed by the value of the formation thickness, to the lower ends of which the support plates are hinged for interaction with support sections 2

The disadvantage of this method is the deterioration of the conditions for maintaining the roof in the Berm section of the lava, caused by the stamping of the roof, associated with the repeated removal of the expansion of the lining sections and its expansion into the roof during the arrival of the complex in the extraction column.

The aim of the invention is to increase the efficiency of complex planting by combining the operations of excavating the mine and planting the treatment equipment of the complex under the roof of the formation.

To this end, in a known method, including the installation of treatment equipment, consisting of a conveyor, sections of lava support and a mining unit, in a mine adjacent to the base mine, secured by a flexible frame support, and dismantling the racks of the base bracket of the base mine from the excavation column with subsequent winding up the complex under the roof of the reservoir and returning the dismantled racks to the design position, dismantling the racks of the frame lining

5 the length of the excavation, corresponding to the width of the section of the lava lining, the sections being planted the entire length thereof, and the dismantled racks are returned to their design position in this development section after the expansion of the next lava lining, which was put into the development, while dismantling the next frame rack lining is carried out after the next section of the mine has been drilled by a rifled combine.

5 corresponding to the width of the next section of the lava support.

A comparative analysis of the inventive solution with the prototype allowed us to identify distinctive features, which proves

0 compliance of this decision with the criteria of the invention of novelty.

When searching for analogues and prototype, no technical solutions were found that are similar to the distinguishing features of the claimed

5 solutions. This proves that the claimed combination of features meets the criteria of the invention for significant differences. Figure 1 shows the position of the equipment of the mechanized complex at

0 instituting it into development with its simultaneous penetration, plan view; figure 2 - section aa in figure 1; in Fig.Z - section bB in Fig.1; figure 4 - section B-8 in figure t

5 The treatment plant is fed into the mine 1 as it is carried out along the base mine 2, contouring the excavation column 3. The mine 1 is drilled

0 by a complex, for example, of the KN-78 brand, which includes a threaded combine 4, a reloader 5 and support sections 6 of a threaded threaded complex, which simultaneously serve as a feed for the threaded 5th combine 4 and the entire threaded threaded complex.

Before starting the excavation of mine 1, a mounting chamber (not shown) is held. Then, a shortened laval conveyor 7 is mounted in the mounting chamber, the drive head 8 of which is located on the conveyor drift 9. and the end head 10 in the mounting chamber. After that, a threaded combine 4. is mounted in a mounting chamber 4. a reloader 5 and a support section 6 of a tunneling threaded complex.

The drive head 11 of the reloader 5 is placed above the sections 12 of the face conveyor 7 with the possibility of its independent movement along the stand of the face conveyor 7 together with the sections of the reloader 5. When moving the threaded combine 4 as the coal seam is removed, an exposed section of excavation 1 appears which is supported sections of lava support 13.

The operation to wind the sections of the lava support 13 under the roof of the excavation 1 together with the sections 12 of the lava conveyor 7 is carried out as follows.

The next section of the lava lining 13 is delivered by vehicle along the rail track 14 laid along the base excavation 2. At the place where the section of the lava lining 13 is turned into the excavation 1, the rack 15 of the frame support of the basic excavation 2 is removed from the extraction column 3. Then, into the excavation 1 under the roof the section, the section of the lava support 13 is planted to its full length and this section is bursting in the roof of the formation. Moreover, the movement of the started section of the lava lining 13 is carried out by means of a chain 16, one end which is mounted on a reloader 5. and the other end is connected to a hydraulic jack 17 for moving the section of the lava lining 13. After expansion, the previously dismantled rack 15 restored to the excavation 1 of the section of the lining 13 is restored support the frame in the design position. This completes the winding cycle for the next lava support 13.

With the further movement of the threaded combine 4 in the next section of the excavation 1, corresponding to the width of the winding section of the lava support 13, the operation of winding the sections 12 of the lava support is repeated in the described sequence. In this case, the threaded combine 4. moving, carries the reloader 5 together with the drive head 11. After the drive head 11 of the reloader 5 reaches the end head 10 of the main conveyor 7, an extension of the main conveyor 7 is performed.

the main chain of the main conveyor 7 is disconnected, the end head 10 of the main conveyor 7 is dismantled and moves along the excavation 1 to the support sections 6 of the tunnel complex. Then produced

additional adjustment of sections 12 of the elevator conveyor 7, previously installed sections of the elevation support (3 and their docking with the previously installed section 12 of the elevator conveyor 7, followed by installation of the traction chain in

guide sections 12 of the face conveyor 7.

The process of conducting development 1 stops after the threaded combine 4 goes to the ventilation drift

(not shown) where it is dismantled. Then, a coal combine (not shown) is mounted on the ventilation drift and the treatment plant is prepared for coal extraction.

Due to the fact that mine 1 is drilled within the thickness of the reservoir, and the sections of the lava lining 13 are planted in a limited length section of the excavation 1 between the previously opened section of the lava lining 13 and the lining section 6 of the tunnel

the threaded complex, the stability of the base mine 2 is ensured. In addition, by eliminating the need for undercutting of the roof of the mine 1, an increase in the pace of the mine is achieved while reducing the material costs of securing it.

(56) Jansen L. Development of lava from the base mine in the Niederberg Gluckauf mine, 7985, No. 10, pp. 3-7, table 3 (method V /).

USSR copyright certificate

No. 1666755, cells, E 21 D 23/00. 1989

Claims (1)

The claims METHOD OF PLANTING A CLEANING EQUIPMENT COMPLEX UNDER THE ROOF OF THE LAYER 8 WITH THE EXTRACTION POST, including Installation of the treatment equipment, consisting of a conveyor, sections of the base support and the extraction unit, in the excavation adjacent to the base excavation, secured by a frame, flexible support and demountable support, and sides of the excavation column, followed by winding up the support sections. excavation unit and conveyor under the roof of the reservoir and the return of the wetted racks to the design position. characterized in that, in order to increase the efficiency of the complex winding by combining the operations of excavating and refining the treatment equipment of the complex under the roof, demounting the racks of the frame lining produced along the length of the mine, corresponding to the width of the section of the lava lining, and the latter are planted for their entire cost, and the dismantled racks shall be returned to their design position in this development section after the thrust of the next laval lining section, which was brought into the mining section, while dismantling the queue: .. l .. / The support legs of the support frame are made after a threader has drilled the next development section corresponding to the width of the next winding section of the lava support. at e at 4 JL./T. ,1 bb F / g bb V Fig a