SU1679036A1 - Method for supporting conjunction of longwall and working sections - Google Patents

Abstract

The invention relates to mining, in particular to methods for securing the mating of lava and areas of adjacent workings. The purpose of the invention is to increase the efficiency of fastening due to the roof free maintenance and reduction of the labor intensity of the work. The method of securing the mating of the lava and adjacent workings includes placing along the working in areas of the front and rear support pressure of a number of support sections (SC) and placing them on a composite beam (SB). As the sewage pump moves. Forcibly move the CS in the direction of movement of the reference pressure zone. When withdrawing at a distance that is a multiple of the length of the SB element, its end element in the rear support pressure zone is dismantled, transferred to the transport position, transported to the front support pressure zone, installed there above the free SB of the first SC . After that, the IC bulging. The movements in the SC cycle are carried out respectively before the end element of the SB is released from under the first SC and before the second SC enters the end element of the SB. To protect the working space from the collapsed rocks, a protective screen can be installed along the side of the excavation. To ensure the stability and direction of movement of the first SC and SC in the area of the front reference pressure, a correction device can be installed. 2 hp f-ly, 2 ill. v Ј About VI o about CO about.

Description

The invention relates to the mining industry and can be used in the underground mining of coal seams with the use of sewage treatment plants during targetless mining of lavas.

The purpose of the invention is to increase the mounting efficiency due to the roof maintenance without discharge and reducing the labor intensity of the work, preventing

collapsed rock in the working space, as well as ensuring the stability and directional movement of the composite beam and lining sections.

Figures 1 and 2 show the layout of the equipment complexes in the interface area.

The method is carried out as follows.

The mating and adjacent excavation areas (in front of and behind the mating) are secured by composite beam 1, which spreads into the roof with sections 2 and 3 of the support, installed in the zones of the front and rear support pressure. As the clearing blade 4 moves and the lateral conveyor 5 moves with its drive 6, sections 2 and 3 are displaced, starting from the front support pressure zone, while the roof section under the movable section is supported by the composite beam 1 supported by the adjacent open sections 2 or 3 lining. With the successive movement of sections 2 and 3 of the support, the support for supporting the roof throughout the entire support area changes by an amount not exceeding the resistance of one section. After cleaning the cleaning face 4 at a distance that is a multiple of the length of the element 7 of the composite beam 1, its tail element 8 is dismounted and extended onto the folding brackets 9 of the support. These operations are carried out, for example, by means of hydraulic cylinders 10. Then, the dismantled element 8 is transported by known means (winch, pusher, etc.) along hinged brackets 11 of beam 1 through the unloading zone (coupling) to the extreme, free of composite beam. 1 sections 2 lining with folding brackets 12 and mounted on the free end of the composite beam using, for example, hydraulic cylinders 13.

Both during dismantling and during installation of element 8 of composite beam 1, sections 2 and 3, on which the corresponding operations take place, support the roof, interacting with it, with movable tops 14, located between the roof supports 15. Due to this, the permanent fastening of the roof throughout the entire support area is ensured.

In order to correct the position of the composite beam 1 and the head sections 2 of the support in the area of the front support pressure, an additional section 16 is installed, which interacts with the composite beam 1 and section 2 of the support using a correction device 17. The additional section 16 has the ability to disperse into the roof and serve as a base for directional movement of the head sections lining.

In order to prevent the collapsed rocks 18 from entering the working space of the excavation, a drum 20 with a flexible protective screen 21 is installed in one of the lining sections 19 in the rear support pressure zone,

which, as the cleaning hole 4 moves and the sections 2 and 3 move, the support unwinds and protects the working space of the excavation, and in the last sections of the support it is possible to install a receiving drum to receive a protective screen 21 thereto.

Claims (3)

1. The method of fixing the interface of the lava and the adjacent sections of the excavation, including placing along the excavation in the areas of the front and rear bearing pressure of a number of supports, its successive transfer in the direction of movement of the zone, so that increase of the mounting efficiency due to the roofless maintenance-free and reduced labor intensity of the work, the roof in the zones of the front, rear bearing pressure in the zone the unloading is fastened by a discharge-free continuous composite beam, which is installed on the support sections located in the front and rear pressure zones, when the cleaning face goes to a distance of a multiple of the element of the composite beam, its end element in the rear pressure zone is removed, in the transport position, transported through the rear support zone the pressure zone, the discharge zone to the front support pressure zone, is installed above the support sections free from the composite beam, connected to the free end of the composite beam and supported by the support sections when the clearing inlet of the front and rear pressure zones is moved to the roof, the lining sections are respectively moved until the front group of the section emerges from under the attached end element of the composite beam and before the sections of the support section released from the end element come under the next element of the composite beam. 2. A method according to claim 1, characterized in that, in order to prevent hit the collapsed rock in the working space of the mine as the stope moves, unwinds along the drift side a flexible protective shield from the drum, which is installed on one of the lining sections adjacent to the lava in the rear support pressure zone, 3. Method according to claims 1 and 2, characterized in that, in order to ensure the stability and directional movement of the cell of the fixed beam and the support sections, their position is changed by a correction device.