SU935627A1 - Support for installation layer - Google Patents

Description

one

The invention relates to mining, namely to mechanized fasteners, and can be used in the processing of the installation layer on thick steep coal seams.

A known lining of the installation layer, containing a base beam and sections of the same type, each of which includes an overlap, a base with a bracket, hydraulic rails, a fence that consists of lower and upper shields, the lower shield has a roller in the lower part, the upper part of which is pivotally connected to the base bracket and the upper shield are pivotally connected to the top, the lower part of which is connected to the base bracket by means of a link, a correction device, a pull and cassettes with rolled material. In each section. The bracket with the lower part of the upper shield is made of a longitudinal groove on the bracket and a slider located in it, which

fastened by means of a finger to the lower part of the upper shield; in this case, the ha is pivotally connected to the link and by means of a slide with the upper part, and the correction device is made of a sliding stop with a bevel that contacts the wedge and a tensioning element mounted on the base bracket tl.

The disadvantage of this support is the low carrying capacity of the support and insufficient stability.

Closest to the offer is a lining of the mounting layer containing the base beam with skis,

(5 sections, each of which includes an overlap, base, connected by means of a hydrojack, shifting with skis, hydroracks, support, fencing, consisting of

20 between each of the lower and upper shields, the lower of which has a roller and is hinged on the support, and the upper | The articulation is connected to the overlap, and the interlacing machine of flexible tapes mounted on the skis of the base beam C21. The disadvantage of this section is the insufficient stability of the lower shields and lining as a whole. The purpose of the invention is to improve the stability of the lining. This is achieved by the fact that the lower shield is made with longitudinal grooves, and the upper one has brackets with fingers that are placed in the grooves, while the support is installed on the skis of the base beam. FIG. 1 shows the lining of the mounting iHoro layer from the side of the bottom; Fig. 2 shows the lining section in the initial position; Fig. 3 is a view A of Fig. 2 in Fig. k is view B in FIG. 2; FIG. 5 shows a support section in a position shifted to the face; FIG. 6 view, B in FIG. 5, in FIG. 7 view G in FIG. five; in fig. 8 - section DD in FIG. 2. The support of the installation layer includes sections 1, base beam 2, with support 3 and hydro-resistant positioned inside it. Each lining section contains an overlap k, a base 5, two rear hydraulic supports 6, installed in a row in parallel, a face, a fence consisting of a lower shield 7 with a roller 8, connected by a hinge with support 3 of the base beam 2 and upper shield E pivotally connected to the overlap and by means of the top 10 shield of the shield and the longitudinal grooves 11 with the lower shield 7. With the roller 8, the lower shield rests on the flexible overlap 12, which is ejected over the soil of the layer into the developed space. Under the protection of the lower shields 7 on the base 2 there is a machine for interlacing flexible tapes 13 with cassettes 14 with rolls of metal tape. The rear hydraulic posts 6 of the section are enclosed in telescopic covers 15 with brackets 16 and are hingedly connected with an overlap by a thrust 17, made in the form of a fork, connected by two lower ends to the brackets 16, and by an upper end to the overlap by means of a slide 18. pivotally connected to the frame 20, designed to provide lateral stability of the lining section during the G-movement The section base 5 and the base beam provide wedge lugs 21 to prevent the support from moving along the dip of the formation during its movement. The base beam 2 and the lining section 1 are interconnected, the upper 22 and lower 23 jacks are mobile. ki, while the base beam has skis 2k and hydrorack 25. The support of the mounting layer works as follows. In the initial position, the harvester is hacked at the bottom of the lava, section 1 is open, the base beam 2 is extended and also opened. Following the removal of the coal strip, alternately from bottom to top, the support section is moved to the face. The overlap k rests on the frame 20, which ensures the lateral stability of the section. The longitudinal stability of the section is provided by the upper 22 and lower 23 jacks of the shifter, carrying out a synchronous feeding of the base and blocking the section to the base 2 of the support, unstuck with hydroresistant along its entire length. When the section is shifted to the bottom from the hydraulic rack 25 of the base beam of this section, the thrust should be removed. The hectare 17 prevents excessive rotation of the overlap relative to the base 5 in the presence of ledges or rock outflows in the roof of the reservoir due to restriction of the slide of the slide 18. beam 2, the upper shield 9 of the fence slides along the lower shield 7, g the brackets 10 of the upper shield 9 move in the longitudinal grooves 11 of the lower shield 7, thus eliminating a dip in the formation of the upper shield 9 relative to the lower shield 7 of the fence. After the coal strip has been completely removed, the combine is lowered in the bottomhole and shifting of all sections 1 of the lava and. The base beam 2 is advanced to the bottom. At the same time, the machine is interleaved by interlacing 13 with tape cassettes 14 and flexible overlap 12 is erected. When the base beam 2 moves with the lower shields 7, the bottom of the section is unstressed and through the upper shields 9, brackets 10 and grooves 11 ensure the stability of the lower shields lining. The use of lining assembly layer of this design allows you to ensure the stability of lining, stabilize the spilling of the collapsed rocks into the working space, improve the working conditions of the machine for interlacing flexible tapes on thick steep seams, increase the pace of the assembly layer and the productivity of workers.

Claims (2)

1. USSR author's certificate If 750091, cl. E 21 O 23/00, 1978. 2. USSR author's certificate No. 769005, cl. E 21 O 23/00, 1978 (prototype). Mjl Suit 2f ёE z. l T j 2 f U I Hv r 1 Jni TjiII jjj vA Z. or or