SU1763654A1 - Method of controlling worked space roof - Google Patents

Description

one

(21) 4741096/03

(22) 08.22.89

(46) 09/23/92. Bul M 35

(71) Dzhezkazgan Research and Design Institute of Nonferrous Metallurgy

(72) E.I. Nikolayev and G.L.Nesterov (56) USSR author's certificate N 996731.kl. E21 C 41 / 04.1980.

USSR Copyright Certificate № 1537811.КЛ. E21 C 41/04, 1987

(54) METHOD OF MANAGING THE ROOFS OF THE DEVELOPED SPACE

(57) The invention relates to underground construction and can be used to control the roof of a goaf. It allows you to improve the safety of work while maintaining the reliability of the localization of the collapse. Under the ore, the entire production and boring of it into the collapsed rocks are a fan of wells, which are located in the direction of the contour of the collapse. In each fan, explosive charge exploded and the collapsed rocks moved towards the contour of the unbreakable roof. Displaced rocks propped up the wall. A well charge is placed at the marginal part of the collapse cone., 1 Il.

The invention relates to mining and can be used to control roofs with systems, leaving regular inter-chamber pillars to control rock pressure in the developed space with large mining areas, as well as localizing the zones of collapse and weakened areas to protect protected objects in areas of harmful influence of underground mining.

There is a known method of roof control, including the erection of lava in the developed space parallel to the excavation drifts of the row-and-row rows at a distance from each other equal to 1.10-1.25 pitch length of the primary settlement of the main roof 1.

The disadvantage of the known method is that it does not take into account the parameters of the developed space, the coefficient of loosening and the angle of funnel formation of the rocks, therefore when the overburden collapses.

4fc

W

Yo

it is not always possible to localize it.

The known method of roof control, adopted by us as a prototype, according to which the roof under the rock strip is loaded in the form of a triangular prism and blown up 2.

The disadvantage of this method is that it is dangerous to work along the collapsing roof in the developed space .. jjЈ r

The purpose of the invention is to improve the safety of work while maintaining the reliability of the localization of the collapse.

The goal is achieved by the fact that, according to a well-known roof control method, including the drilling of well fans, the well fans are located in the direction of the collapse of the rock mass in the roof and break

s

borehole charges — in bulk of rocks; by force of an explosion they move the collapsed rocks towards the contour of an unbroken roof,

The destruction of the roof of the overlying strata and pillars along the contour of the collapse occurs due to the accumulation of cracks in the elements as a result of the stress concentration in them. Filling the collapsed rocks of the worked-out space along the contour on the non-collapsed portion of the roof allows strengthening it and interchamber pillars. Later, when filling the gap between the collapsed rocks and the rock mass, as a result of its collapse, the rock pressure will be redistributed from the rock mass to the collapsed rocks . Due to the above mechanism of breakdown and distribution of rock pressure, the breakdown is localized in a specific direction or the breakdown as a whole.

Comparative analysis of the proposed solution with the prototype shows that the inventive method differs from the well-known fact that under the collapsed rocks, the excavation is carried out, from which the collapsed rocks are drilled, the well bore is in the direction of the collapse contour, and plane of unbroken roof. Thus, the claimed method meets the criteria of the invention of novelty. When studying other known technical solutions in this field of technology, the features that distinguish the claimed inventions from the prototype have not been identified, and therefore they provide the technological solution that meets the criterion of significant differences. Hitting the collapsed rocks will allow to move the mx in the right direction, namely, to embed the plane of the unbroken roof without people entering the worked-out space. At the same time, training is performed directly at the place of collapse, and not at a distance from it (as in the prototype).

The drawing shows the pattern of movement of the rock heap.

In the area where the development of the debris occurs, the level of heap of the crushed rocks increases. The collapse of the overlying rock formations on the soil of the developed space creates a pyramid in the form of a cone with an angle of repose a of 35.7 ° (for rocks of the Dzhezkazgan deposit). The angle of collapse of the overburden rocks is usually twice the angle of repose 65-75 °. The height of the collapsed rocks is usually greater than the power of mining from 1.5 to several tens of times. A void is formed between the bulk of the rocks and the non-broken roof, as a result of which a collapse may develop in one direction or another.

The method is carried out as follows.

Under the bulk of the collapsed rocks 1, the excavation 2 passes. Into the roof of the excavation of the drill a fan of wells 3 with an inclination in the direction of the collapse where it is necessary to localize it, the wells passing through the rock pile limit the surrounding pipes 4, explode explosives and blow them up. A downhole charge is placed on the edge of the collapse cone, along its front, in connection with which the explosion moves the collapsed rocks along the line of least resistance towards a stable roof. Part of the rock pile 5 moves to the side of the unbroken roof and fills the corner space between the bare roof and bulk. Displaced rocks propped up the wall and hindered the further development of the collapse.

The localization of the collapse can be applied in one direction, while the fan holes are located on one side, while localizing the collapse as a whole, it is possible to use the drilled rocks on the other side. The collapse can take several chambers and rows of pillars, therefore, the development must take place under two closer to the edge part, a series of pillars.

The proposed method makes it possible to localize the development of a collapse without people entering the developed space and in any necessary direction.

Claims (1)

Invention Formula The method of controlling the roof of the worked-out space, which includes drilling fan wells and blasting charges in each fan, characterized in that, in order to increase the safety of operations while maintaining the localization reliability of the breakdown, the mine completely drills out of the mine. wells, while the wells are drilled into the collapsed rocks and position them in the direction of the contour of the collapse, and the blasting of charges move the collapsed rocks towards the contour of the unbroken roof.