SU1453024A1 - Method of supporting a mine working - Google Patents

Abstract

The invention relates to mining. The goal is to reduce the cost of maintaining production. After sinking supporting production (PV) 1 and the ventilation drift 2, a split furnace is conducted, consisting of two straight angled sections 3 and 4. Section 3, adjacent to PV 1, is oriented at an angle to it ahead of section 4 in the lava advancement direction by 2/3 of the length of the stable span of the roof, if the span is 30 m n more, and by the magnitude of the stable span of the roof, if the span is less than 30 m. The width of the advanced part is equal to the magnitude of the advance. When the lava moves in front of it, the coal of the rack of the arched attachment PV 1 is removed from the side of the massif to be removed to create free passage into the lava of people and drive the lateral conveyor. After passing the leading part of the lava, instead of the previously extracted arch support, an additional rack, which functions as an upper, is installed from the side of the worked-out space, to ensure horizontal support of the support. When the coal is excavated, the immediate roof collapses. Along MI 1, within line 6, starting from the intersection of sections 3 and 4 and parallel MI 1, the rocks of the main roof do not collapse, but hang in the form of a cantilever, under which the collapsed rocks crawl out of the open space 7, forming a natural rock-filled strip 8. For the bottom of the reservoir, it is the last in weak rocks at a distance of 2/3 of the stable span of PV 1 from the interface of the leading part of the lava with the rest at an angle of 45 ° C; to the boundary of the collapsed rocks set the scrapers. 4 3. p. Of f-ly, 3 ill. S (L el 00 ohc 4

Description

The invention relates to mining and can be used to support workings in the development of inclined coal seams with columns along strike.

The aim of the invention is to reduce the cost of maintaining production.

FIG. Figure 1 shows a scheme for supporting the development of clean-up work for hard rocks for the value of a stable roof span, greater than or equal to 30 m; in fig. 2 - the same for weak rocks with a stable roof span less than 30m; in fig. 3 is a section A-A in FIG. 1 and 2.

The method of maintaining workings behind the lava is dried as follows. After the mined production of 1 (conveyor drift) and ventilation 2 drift is driven, a split furnace is conducted, which in plan has the shape of a broken line and consists of two straight angled sections 3 and 4. One mechanized complex and B each site 3 and 4 on one combine and one lavalny conveyor.

Section 3, adjoining, to the supported production 1, is oriented at an angle to it, with section 4 advancing in the direction of the lava advance by 2/3 of the length of the stable roof span, if the stable span of the roof is 30 m and more, and on the value of the stable roof span if the span is smaller than 30m. The width is fast; its sections, i.e., the distance from the supported production to the intersection of sections 3 and 4, are equal to the magnitude of the advance.

When the lava moves in front of it, from the side of the ejectable mass, the coal of the arch of the arch support of the supported output 1 DL is created to create a free passage that is crowded into the lava and the drive of the lateral conveyor unhindered. The mating is supported by lining mating. After passing the advanced part of the lava in the supported excavation, instead of the previously extracted arch support, an additional support 5 is installed from the side of the worked-out space, which performs the function of a top to ensure the horizontal compliance of the support.

When the coal is excavated, the immediate roof collapses immediately behind the lava support. The main roof behind section 3 will not collapse, since the length of the advanced section 3 is less than or equal to the length of the stable span of the roof.

The intersection of sections 3 and 4 in the form of a ledge is a concentrate of destructive naprazheniya, which contributes to the destruction of the rocks of the main roof. Therefore, the collapse of the rocks of the main roof of the plot 4

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occurs along line 6, starting from the intersection of sections 3 and 4 in parallel supported production 1. Along production 1 within line 6, the rocks of the main roof do not collapse and hang in the form of a cantilever under which collapsed from the developed space 7 crawl to form a natural rock-filled strip eight.

In weak rocks with a length of stable span of the roof less than 30 m, the application of the method differs in that to the sections of the mechanized support, located from the supported production 1 at a distance greater than the width of the advance section, the scrapers 9 set obliquely at an angle of 45 ° to the boundary of the collapsed rocks with the help of ropes or chains of different lengths. The maximum fastening length is equal to 2/3 of the length of the stable span of the roof of the scraper, which is connected to the support section that is the first from the line B of the leading section. The scraper connected to the lining section remote from line 6 by 2/3 of the length of the stable roof span is minimally removed. When moving, the lashing scraper is placed along the line that is the base of an isosceles triangle with sides equal to 2/3 of the length of the stable span of the roof. When shifting the lining, such an arrangement of scrapers creates a directional movement of the rocks of the immediate roof collapsed into the excavated space 7 towards the supported development and provides a more complete filling of the collapsed rock with the space under the breed console of the lead-in section.

Claims (5)

1. A method of supporting the development, including excavation of coal in the lava ahead of the supported development, breaking the roof in the developed space after moving the lava and installing arch support, characterized in that, in order to reduce the cost of maintaining development, the advanced part of the lava is oriented the acute angle to the supported development, the width of the advanced part is taken equal to the magnitude of the advance, while following the advancing part of the lava in the supported development from the side of the developed Ostrostva give horizontal flexibility lining. 2. A method according to claim 1, characterized in that in hard rocks the advance value is taken to be 2/3 of the stable roof span. 3. The method according to claim 1, characterized in that in weak rocks the value of advance is taken to be equal to the value of the stable roof span. 4. The method according to claim 1, characterized in that it produces additional podbuchivannaya rocks of the collapsed roof of the rock-filled strip adjacent to the supported development. 5. A method according to claim 4, characterized in that in order to subdure the rock-filled strip in weak rocks at a distance of 2/3 of the stable passage of the excavation from the point of junction of the leading part of the lava with the rest, the scraper is installed at an angle of 45 °. 7 fie.Z