RU2464425C1 - Method for determining value of undermining of consolidating stowing mass - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method involves formation of cavity in rock mass, burial of fixed rigid bar in it, supply of consolidating stowing mixture to the worked-out area, and measurement of open bar end length; at destruction of rock mass with some part of contact layer of consolidating stowing mass there determined is value of undermining of consolidating stowing as per difference of length of open bar end and length of bar burial in cavity of rock mass.

EFFECT: determination of consolidating stowing mass undermining value.

3 dwg

Description

The invention relates to the mining industry, namely to the underground mining of mineral deposits, filling the worked out space with a hardening tab, and is intended to determine the value of the underworking of the array of the hardening bookmark due to its destruction, for example, when seismic impacts on the filling array of drilling and blasting operations when ore is mined in adjacent mines , which affects the increase in the actual parameters of the workings in relation to the design dimensions.

There is a method of determining the value of the side job of the array of hardening bookmarks, which consists in determining the areas of the side job of filling material by surveying sections using a palette or planimeter (Karabtsova Z.M. Geodesy: Textbook. - Vladivostok: TIDOT FENU, 2002. - 151 p.).

The disadvantage of this method is the high error of the final value of the underworking of the array of hardening bookmarks, since the accuracy of determining the area is affected by the errors of field measurements of the cross sections of the workings, the errors of constructing the plan and measurements on the plan, as well as the deformation of the paper.

The closest in technical essence and the achieved result to the claimed one, is a method that includes forming a cavity in the rock mass and fixing a motionless rigid rod in it, feeding a hardening bookmark into the worked out space, measuring the length of the part of the rod protruding into the open space (Pile type gauging station. BSE , 3rd ed. - Moscow: Soviet Encyclopedia, Vol. 5 - 188 p., 1971).

The disadvantage of this method is the inability to determine the magnitude of the underworking array hardening bookmarks.

The objective of the invention is the provision of determining the magnitude of the underworking array hardening bookmarks.

The problem is achieved in that in the method for determining the value of the underworking of the array of the hardening bookmark, including the formation of a cavity in the rock mass and fixing a motionless rigid rod in it, feeding the hardening bookmark into the worked out space, measuring the length of the open end of the bar, when the rock mass is destroyed with part of the contact layer array hardening bookmarks determine the value of the underworking array hardening bookmarks on the difference between the length of the open end of the rod and the length of the recess of the rod in p Lost.

Using the proposed device allows to determine the value of the underworking of the array hardening bookmarks, which affects the increase in the actual parameters of the workings in relation to the design dimensions.

When the rock mass, in which the rod is fixed, is destroyed, this part of the rod is exposed, as well as the part of the rod, by the value of the underworking of the hardened bookmark array.

Deepening the rod in the cavity to a fixed depth allows mathematical calculations of the value of the underworking of the array of the hardening bookmark as the difference between the length of the open end of the rod and the length of the depth of the rod in the cavity.

Fixing the core in the array of the hardening bookmark allows it to be in its original position when the rock mass is destroyed and the array of the hardening bookmark is underworked.

The set of essential features - the destruction of the rock mass, the deepening of the rod in the cavity to a fixed depth, the fixing of the rod in the array of the hardening bookmarks allow to obtain the technical result, which consists in determining the value of the underworking of the array of the hardening bookmark, as the difference between the length of the open end of the rod and the length of the depth of the rod in the cavity .

The invention is illustrated by drawings - figures 1, 2, 3 (Roman numerals indicate the sequence of work in adjacent workings: I - open space after mining the first development; II - mined space of the first development, filled with a hardening tab; III - open space of the second development after mining reserves). Figure 1 - fastening in the working position. In Fig.2 - the position of the rod after filling the open mined space of the first development with a hardening tab. Figure 3 - the position of the rod after mining the rock mass of the second development and the creation of open space with the underworking of the array of hardening bookmarks of the first development.

The method is as follows. For example, with a layered development system with a notch of reserves of the layer with fillings and with filling out the worked out space with a hardening tab.

After practicing the first approach, a cavity is created on its wall in the rock mass, for example, by drilling a short hole, into which a rigid rod (for example, from metal) is inserted with an end to a certain depth (L ₁ ) and fixed motionless. The other part of the rod is in the open space of the entry. Then the developed space of this entry is filled with a hardening tab. After gaining the required strength by hardening, an adjacent approach is worked out by destroying the rock mass using known methods (for example, using blasting operations - blasting operations). In this case, the part of the rod located in the cavity in the rock mass is completely exposed, and the part of the rod located in the array of the hardening bookmark due to its destruction during blasting is also exposed. The immobility of the rod is ensured by the part of the rod located in the filling array. Next, measure the length of the open end of the rod, located in the workout, and calculate the value of the underworking of the array hardening bookmarks (Δ, m) by the formula:

Δ = L ₂ -L ₁

where Δ is the value of the underworking of the array hardening bookmarks;

L ₁ - the length of the rod located in the cavity of the rock mass;

L ₂ - the length of the open end of the rod, exposed after the destruction of the rock mass of the worked sunset.

The parameters of the rod — its total length, the length of the part of the rod placed in the cavity, the length of the part of the rod placed in the filling array, as well as the material and thickness of the rod should ensure both the integrity of the rod and the invariance of its spatial position after installation in the cavity during mining operations , for example with the help of BVR. These parameters are determined experimentally or calculated by known methods.

The number of installed rods is determined experimentally or calculated by known methods and depends on the necessary accuracy of the final result - the value of the underworking of the array of hardening bookmarks.

Using the proposed device allows to determine the magnitude of the underworking array hardening bookmarks.

Claims (1)

The method of determining the value of the underworking of the array of the hardening bookmark, including the formation of a cavity in the rock mass, deepening in it a rigidly rigid rod, feeding the hardening bookmark into the worked out space, measuring the length of the open end of the rod, characterized in that when the rock mass is destroyed with a part of the contact layer of the array of the hardening bookmark determine the value of the part-time hardening bookmarks by the difference between the length of the open end of the rod and the length of the recess of the rod in the cavity of the rock mass by the formula Δ = L ₂ -L ₁ ,
where Δ is the value of the underworking of the array hardening bookmarks;
L ₁ - the length of the recess of the rod in the cavity of the rock mass;
L ₂ - the length of the open end of the rod.

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