RU197424U1 - SECTION OF THE MECHANIZED FASTENERS WITH THE COAL ISSUE DEVICE - Google Patents

Abstract

The mechanized roof support section with the coal exhaust device comprises a base, a pivotally connected fence, a ceiling pivotally connected to the fence, two hydraulic posts connecting the ceiling to the base, a loading chute with a bottom connected to the opening made in the fence, and a screen pivotally connected with a guard, equipped with a hydraulic drive of rotation around a horizontal axis. The base edge of the base is provided with two parallel vertically oriented sidewalls, each of which is equipped with a through hole With a seal made in the upper part closer to the obstruction edge. The fence is pivotally connected to the base by means of these sidewalls. The upper edge of the sidewall is made with a slope in the inner space of the lining section, and the angle of inclination of the upper edge of the sidewall is taken from the condition of providing gravity transport of coal on the metal surface. The bottom of the gutter is laid on top of the sidewalls and its block edge is led out to the bottom parts of the opening behind the fence, the bottom is rigidly connected to the sidewalls. 3 ill.

Description

The technical solution relates to mining, in particular, to fastening the face and relates to the construction of mechanized supports designed to maintain the working space in the faces during the development of powerful seams with the forced release of coal from the subroof or interlayer strata.

The known design of the lining of the face of a powerful coal seam containing a base pivotally connected to the fence on one side and hydraulic struts with the top, a ceiling pivotally connected to the top and the fence on its other side, and a section of the conveyor belt. An opening was made in the fence for the release of the destroyed coal from the subroofing (interlayer) stratum to a blocking conveyor, which is closed by a screen from the side of the working space [A. Saginov Two-face coal mining on powerful shallow seams / A.S. Saginov, S.S. Zhetesov. - Alma-Ata: Science, 1982, p. 75, fig. 27 (analogue)].

The disadvantages of such a lining construction are: the need for a blocking conveyor in the lining workspace, a steep angle of installation of the fence with an opening, which determines the arrival of the destroyed coal from the subroofing (interlayer) thickness only due to the tangential component of gravity or rock pressure.

The known design of the section of powered roof supports, adopted as a prototype, containing a base pivotally connected to it in the form of a Chebyshev four-link fence, a ceiling pivotally connected to the fence and two hydraulic struts connecting the ceiling to the base. In the interior space of the section, there is a loading chute with a bottom connected to the opening made in the fence, and a screen pivotally connected to the fence, equipped with a hydraulic drive for turning around the horizontal axis and a perforator [Mechanized lining section of the face of a powerful seam with forced coal discharge / Pat. 2513952 of the Russian Federation; publ. 04/20/2014, bull. No. 11 (prototype)].

The disadvantage of the prototype is that the fence is connected to the base through the four-link Chebyshev, which in itself does not have sufficient rigidity. With a dynamic impact on the fenced rock enclosure, the four linker allows subsidence of the lower part of the enclosure, which also sags the upper edge of the opening, and with it the upper edge of the loading chute. Since the bottom of the gutter is installed at a certain angle to the base, this subsidence worsens the gravity conditions of the produced coal, which reduces the productivity of the section for production. In addition, the lining section works in the undercut layer of a powerful layer (layer near the soil). The power of this layer depends on the power taken out by the combine. In this regard, with a decrease in the power of the undercut layer, the installation height of the upper edge of the loading chute proportionally decreases, which reduces the efficiency of the exhaust support section.

This drawback reduces the effectiveness of the use of mechanized lining in the development of powerful coal seams.

The purpose of the technical solution is to increase the efficiency of the use of mechanized lining in the development of powerful coal seams with the forced release of coal under-roof thickness due to rigid fixation of the upper edge of the gutter in height.

This goal is achieved by the fact that in the section of powered roof support with a coal exhaust device containing a base, a pivotally connected fence, a ceiling pivotally connected to the fence, two hydraulic posts connecting the ceiling to the base, a loading chute with a bottom connected to the opening made in the fence, and the screen pivotally connected to the fence, equipped with a hydraulic drive of rotation around the horizontal axis, in accordance with the technical solution, the blocking edge of the base is equipped with two parallel vertically oriented sidewalls, each of which is provided with a through hole made in the upper part closer to the blocking edge, the fence is pivotally connected to the base by means of these sidewalls, the upper edge of the sidewall is made with a slope in the inner space of the lining section, and the angle of inclination of the upper edge of the sidewall is accepted from the condition ensuring gravity transport of coal on a metal surface, the bottom of the gutter is laid on top of the sidewalls and the obstruction edge is led out at the bottom of the opening beyond the fence, the bottom is rigidly associated with sidewalls.

The essence of the technical solution is illustrated by diagrams. In FIG. 1 shows a section of powered roof supports (side view); in FIG. 2 - the base of the lining section (axonometric projection); in FIG. 3 - section mechanized lining (axonometric projection).

The mechanized roof support section contains a base 1, a guard 2, in which an exhaust opening 3 is made, a ceiling 4, two hydraulic posts 5, a chute including side 6 and a bottom 7, and a feeder 8.

The base 1 from the obstructed side is equipped with two parallel vertically oriented sidewalls 9, in the upper part of each of which is closer to the obstruction edge a hole 10 is made, and the upper edge of each sidewall is made at a slope towards the bottom. The angle of inclination of the upper edge of the sidewall is taken from the condition of providing gravity transport of coal on a metal surface.

Using the holes 10, the base 1 is pivotally rotatably connected to the fence 2, the upper edge of which is pivotally connected to the ceiling 4. The ceiling 4 and the base 1 are interconnected by two hydraulic struts 5, providing a spacer force to the lining section.

In the inner space of the lining section, vertically oriented sides 6 are installed, rigidly linking them to the fence 2 on the sides of the exhaust opening 3.

In the space between the sides 6, on top of the sidewalls 9, a metal sheet 7 is laid - the bottom of the gutter, which is rigidly connected, for example, by welding to the sidewalls 9. In this case, the block edge of the sheet 7 is partially extended into the outlet opening 3 towards the worked out space.

Below the lower edge of the sheet 7 also in the space between the sides 6 set the feeder 8.

The upper edge of the outlet opening from the inside of the lining section is pivotally connected to the screen 11 and the hydraulic jack of its control 12.

With the release of coal subroofing, the lining section works as follows. With the screen 11 open, the crushed coal of the subroofing layer, under the action of gravity, enters the exhaust opening 3 and then to the bottom 7. At the same time, the bottom 7 receives the main dynamic load due to the fall of coal pieces of different masses and directs the rock mass to the feeder 8 for subsequent loading onto downhole conveyor (not shown), and the sides 6 form this flow in width.

Only part of the coal of the produced thickness will fall into the exhaust window, but the whole collapsed rock mass acts dynamically on the fence 2. This effect is transmitted through the articulated connection of the fence 2 to the sidewalls 9 to the base 1, thereby protecting the coal exhaust devices (sides, feeder) from excessive dynamic loads .

When moving the lining section, remove the spacer force from the struts 5. Racks 5 are reduced in length; due to the swivel joints of the fence 2 with the overlap 4 and the base 1, the lining section sags, providing an insignificant gap between the roof and the ceiling 4. At the same time, the bottom of the gutter 7 will not change its position, even if after moving the height of the lining section in the working position will be less or more .

Thus, due to the rigid fixation along the height of the upper edge of the gutter, the effective support of the lining section for the release of coal under-roof thickness is ensured regardless of the height of the lining section (power of the undercut layer) or perception of dynamic loads by the fence.

Claims (1)

Mechanized roof support section with a coal exhaust device, comprising a base pivotally connected to it, a ceiling pivotally connected to the fence, two hydraulic posts connecting the ceiling to the base, a loading chute with a bottom connected to the opening made in the fence, and a screen, articulated connected with the fence, equipped with a hydraulic drive of rotation around a horizontal axis, characterized in that the block edge of the base is equipped with two parallel vertically oriented sidewalls, each of which x is provided with a through hole made in the upper part closer to the blocking edge, the fence is pivotally connected to the base by means of these sidewalls, the upper edge of the sidewall is made with a slope in the inner space of the lining section, and the angle of inclination of the upper edge of the sidewall is taken from the condition of providing gravity transport of coal through metal the surface, the bottom of the gutter is laid on top of the sidewalls and the obstruction edge is led out at the bottom of the opening beyond the fence, the bottom is rigidly connected to the sidewalls.

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