NL7904287A - METHOD FOR SUPPORTING MINES AND THE LIKE ACCORDING TO MY MINES OR THE LIKE. - Google Patents

Description

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Johannes Petrus Antonius Roest, The Hague

Method for supporting mines and the like mines or the like arranged according to this method

The invention relates to supporting hollow spaces located at great depth, such as mine tunnels and tunnels.

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As mining progresses to ever greater depths, the problem of how to support the mines also grows bigger. The mountain pressure tries to push the corridors closed and as a result of this large tangential stresses arise on the wall of the mine tunnel in the rock, which cause scaling, calving or crumbling of the wall.

10. The disintegration thus created continues to expand over time and in extreme cases can lead to complete closure of the mine.

It is known to counteract this process by supporting the mine passage with the aid of support rings of steel 15. or concrete, which may or may not be slightly contractible, which must absorb the forces radially directed towards the mine passage and thus counter the disintegration of the wall . Tensile anchors are also provided which transmit radially directed forces to areas further away from the wall.

20. However, at great depths, such as those of 1000 m or more, these methods are often no longer sufficient to absorb the rock pressure and to keep the rock at the edge of the mine in a stable condition, apart from that that the insertion of concrete rings or steel rings entails great costs. Also, given that mining is going to deeper depths in the near future, it is likely that a new principle of support will have to be adopted.

The object of the invention is in the mine surrounding 3Q. rock to reduce the very high tangential stresses there. and thereby achieve a stable equilibrium condition around the mine 7904287 2 ri /%.

According to the invention, this object is achieved in that j. along the length of the mine, around the perimeter. distributed in a number of narrow zones thereof, the compressibility of which in the circumferential direction of the mine passage is greater than the compressibility of the rock surrounding the mine passage. The rock elements lying between <3rd narrow zones are thus relieved somewhat in the tangential direction and the "stresses" occurring therein can remain below the value at which disintegration occurs.

This new method can also be described as creating in the rock itself a compressible, partially relaxed tube around the mine.

The application of the narrow zones with greater compressibility can take place in various ways. Slots can be made in the wall of the mine tunnel and filled with material that has the desired compressibility, for example wood, cork, rubber or plastic. However, a method which is preferred for its simplicity is that in which rows of holes are drilled at some distance from each other to form the said narrow zones, so that narrow dams remain between the holes. The desired greater compressibility thereby arises because the drill holes can be pressed in whole or in part, so that a reduction of the tangential stresses in the parts of the rock located between the rows of drill holes occurs.

By applying the invention, stress concentration is diverted from the wall and a better stress distribution over the rock surrounding the mine passage is achieved.

30. The proposed techniques have been successfully tested on a laboratory scale.

It will. often desirable and under certain circumstances it may be necessary to arrange rows of tension anchors between the narrow zones with increased compressibility in combination with heavy mesh, or instead of using anchors as an auxiliary support instead of anchors. Such tension anchors 7904287

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3 - are known per se, but are probably only able to function efficiently in deep mines in combination with the narrow zones of increased compressibility. The same applies to any support that may be used as an auxiliary under 5, in itself insufficiently effective light arcs.

An embodiment of a mine corridor arranged according to the invention is shown in sketch in the drawing as an example.

10. FIG. 1 shows a cross section through the corridor,

Fig. 2 is a section through a row of boreholes taken on the line II-II in fig. 1.

In Fig. 1, 1 denotes the mine corridor or tunnel, the wall 2 of which has largely a circular course, 15. but is flat at the bottom of the corridor. Boreholes are indicated by 3 which are arranged radially with respect to the mine passage and which are arranged in rows as shown in Fig. 2. In the example given, are there seven rows of boreholes distributed around the perimeter of the mine? 20. their number may be greater or less due to the diameter of the mine or the nature of the rock, but it must always be at least four in order to achieve the desired goal. Between two rows of boreholes there are one or more rows of tension anchors 4, which are of one. known construction and abut against wall 2 with their end or closing plates 5 mounted thereon and can hold a dotted line of heavy mesh 7.

With regard to the dimensions of the drill holes, can a length of 1 to 2 m, a diameter of 3 to 5 cm be considered? 30, the dams between the boreholes can be of approximately the same dimensions as the diameter of the boreholes.

Variations are possible within the scope of the invention. For example, the rows of boreholes and tension anchors can run along a helix rather than a descriptive line of the mine. The drill holes may be inclined to the centerline of the mine passage 7904287. 4 5 'and can have a more or less conical, gradient, with the bre-. the side on the wall of the mine corridor. By "borehole" it is also to be understood that any cavity, however provided, has the same function, the boreholes may optionally decrease in diameter towards the end 5 in a conical or stepped manner.

As already mentioned, light steel arches can optionally also be used as auxiliary support.

-Conclusions- 7904287

Claims (6)

Method for supporting mine depths or the like of substantially or largely round cross-section located at great depth, characterized in that a number of narrow zones are distributed along the circumference along the circumference of the mine passage, of which a number of narrow zones are provided. the circumferential compressibility of the mine passage is greater than the compressibility of the rock surrounding the mine passage. A method according to claim 1, characterized in that the narrow zones are formed by slots 10. which are filled with material whose compressibility is greater than that of the rock. 3. A method according to claim 1, characterized in that the narrow zones are formed by rows of at least largely radially oriented bores spaced at a distance from one another. Method according to one or more of the preceding claims, characterized in that rows of tension anchors are arranged between the zones of greater compressibility. Method according to one or more of the preceding claims, 20. characterized in that steel arches are provided as auxiliary support against the wall. Mine tunnel or tunnel arranged in accordance with one or more of the preceding claims. 7904287