RU2768270C1 - Suspended borehole stem - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining, to the field of drilling and blasting operations in rocks and can be used in various industries using blasting operations in rock massifs, in particular, in development of minerals by open method. Suspended well stemming comprises support structure larger than diameter of wellhead, and suspended part fixed by flexible link on support structure. Suspended part is made in the form of an inclined solid cylinder, the height of which is 15–35 % greater than the well diameter, and its side surfaces are skewed parallel to each other so that the diagonally opposite halves on the upper and lower ends of the cylinder are rounded in accordance with the well walls. In the upper part of the inclined solid cylinder, a corrugated elastic material is fixed with a permanent flexible link, the length of which is more than the height of the solid cylinder.

EFFECT: increased efficiency of well stemming.

1 cl, 3 dwg

Description

The invention relates to mining, to the field of drilling and blasting in rocks and can be used in various industries that use blasting in rock masses, in particular in the development of minerals in an open way.

Suspended borehole stemming is known, containing a support structure larger than the diameter of the wellhead, and a suspended part fixed by a permanent flexible connection on the support structure (patent RU 2401416 C1, 10.10.2010, IPC F42D 1/08 (2006.01), Bull. No. 28) adopted as a prototype.

The disadvantage of the prototype is the low efficiency of stemming.

This disadvantage of the well-known suspended borehole stemming is due to the lack of its suspended part, made in the form of a solid cylinder, the upper and lower ends of which are beveled, and have a small area of contact with the walls of the well, since the geometric shape of the beveled ends of the solid cylinder has the shape of an ellipse, thus , when it is installed in the working position in the well, the solid cylinder has only two points of contact with the walls of the well, these are the extreme points of contact of the edges of the upper and lower ends of the solid cylinder along the major axis of symmetry of the ellipse, which leads to the formation of a diametrical gap between the beveled ends of the solid cylinder and the walls of the well, as a result, to a partial overlap of the cross section of the well, thereby to the inefficiency of stemming. Thus, conditions arise for spillage of drilling fines into the resulting diametrical gap, which leads to the impact of drilling fines on the upper layers of the explosive, namely, to their compaction, which in turn reduces the detonation propagation velocity in the borehole charge, increasing the possibility of explosive transition substances into an inert state, which leads to failure of the downhole charge and a decrease in the quality of rock crushing.

The technical result of the claimed invention is to increase the efficiency of stemming wells.

This technical result is achieved by the fact that in a suspended borehole stemming containing a support structure larger than the diameter of the wellhead, and a suspended part fixed by a flexible connection on the support structure, according to the invention, the suspended part is made in the form of an inclined solid cylinder, the height of which is 15 35% more than the diameter of the well, and its side surfaces are beveled parallel to each other, so that the diagonally opposite halves on the upper and lower ends of the cylinder are rounded in accordance with the walls of the well, while in the upper part of the inclined solid cylinder, a corrugated elastic material is fixed by a permanent flexible connection, with a length greater than the height of a solid cylinder.

The inventive suspended borehole stemming is illustrated by drawings, where figure 1 shows a General view of the device, in the process of lowering into the well; in fig. 2 - suspended part of the device, section A-A, top view B-B, bottom view C-C, figure 3: a) the claimed device installed in the working position in the well, b) the distribution of the area of overlap of the cross-section of the well with an inclined solid cylinder S _PPS and diametrical clearance area S _dz in the cross section of the well.

The inventive suspended borehole stemming contains a supporting structure 1, which is larger than the diameter of the wellhead, and a suspended part 2, fixed by a flexible connection 3 on the supporting structure 1. The suspended part 2 is made in the form of an inclined solid cylinder 4, the height of which is 15-35% greater than the diameter of the well , and its side surfaces are beveled parallel to each other, in such a way that the diagonally opposite halves on the upper and lower ends of the cylinder are rounded in accordance with the walls of the well, while in the upper part of the inclined solid cylinder 4, a corrugated elastic material 6 is fixed by a permanent flexible connection 5, with a length greater than the height inclined solid cylinder.

The inventive suspended borehole stemming works as follows.

After drilling the block, the wells are charged, the detonating chain is installed, then the suspended part 2 is lowered into the well to the depth of the massif with intense fracturing (secondary fracturing formed from the impact of the previous explosion - 1.5-2.5 meters), the suspended part 2, fixed by the flexible connection 3, is lowered, for example , twine or rope, on the support structure 1, for example, a wooden beam made in the form of an inclined solid cylinder 4, for example, part of a rounded log, the height of which is 15-35% greater than the diameter of the well, which is sufficient to completely cover the cross section of the well when placing the device in working position.

It is important to note that the side surfaces of the inclined solid cylinder are preliminarily beveled parallel to each other from the upper end to the edge of the lower end, and vice versa, from the lower end to the edge of the upper end along the circumference, cutting out the volumes V and V ₁ of the part of the rounded log, thus that the diagonally opposite halves on the upper and lower ends of the cylinder are rounded in accordance with the walls of the well, as shown in figure 2, which allows you to significantly increase the area of the conjugation of the ends of the inclined solid cylinder with the walls of the well, thereby increasing the area of their contact, as well as the area of overlapping the cross section of the well S _PPS , reducing the area of diametrical gaps S _d when installing the proposed device in the well in the working position.

The suspended part is lowered to the required depth parallel to the walls of the well, in order to prevent jamming of the proposed device in the well, while holding the ropes 3 and 3', which are attached at one end to the edges of the upper end of the inclined solid cylinder, and at the other: the end of the rope 3 is fixed on the support structure 1, and the end of the rope 3' remains free and is in the hands of the operator. The lengths of the ropes 3 and 3' correspond to the depth required to place the device in its working position.

Further, when the required depth is reached, the free end of the rope 3' is released, during which the inclined solid cylinder deviates from the axis of the well and rests with the beveled edge of the upper end against the well wall, fully mating with the well wall, while the beveled edge of the lower end rests against the opposite well wall , repeating its geometry, wedging into it, thereby wedging the inclined solid cylinder in the well, which is the working position of the proposed device, thereby providing an increase in the overlap area of the well cross-section.

After installing the device in the working position, the space between the suspended part and the day surface is filled with drilling fines 7, which acts on the fixed in the upper part of the inclined solid cylinder with a constant flexible connection 5, for example, twine, corrugated elastic material 6, for example, part of a polypropylene sleeve, sealing it and tamping, forming the necessary volume sufficient to cover the area of the diametrical gap S _d , thereby providing a complete (tight) overlap of the cross-section of the well, absolutely eliminating the possibility of spillage of drilling fines 7.

As a result, it eliminates the compaction of the upper layers of the explosive, the reduction of the detonation propagation velocity in the downhole charge, and in a particular case, the possibility of the explosive becoming inert and failure of the downhole charge.

An example of a specific application. The tests were carried out in the branch of the UK KRU "Taldinsky coal mine", an explosive block of rocks - siltstone, with a strength of f 6-8 on the scale of prof. Protodyakonova M.M.; well depth up to 15 m; water cut 2 m.

To test the proposed suspended well stemming, the block was drilled with a DMLJ No. 63 drilling rig with a well grid of 6 m × 6 m, a depth of 15 m and a well diameter of 215.9 mm. The wells were drilled vertically, the total number of wells is 50 pcs.

Installation of suspended well stemming into the operating position in the well was carried out according to the description of the illustrated drawing in FIG. 3, namely, after drilling the block, a TT-P850 9 checker was lowered into the bottom of the well on a detonating cord 8 and a borehole charge 10 RPGM-100 in the amount of 350 kg was formed, after which the suspended part of the device was lowered to the required depth on two polypropylene twines , one of which is fixed on a support structure (wooden block) placed above the wellhead, and the other is released, thereby bringing the device into working position. Then, for a dense (hermetic) overlap of the cross section of the well, drilling fines 7 were filled in.

After installation of the detonating circuit of the block, a selective measurement of the distance from the daylight surface to the top of the stemming material (drilling fines) in the well was made, which did not change during the charging of the entire block. These measurements allow us to assert the reliability of the well cross-section formed by the claimed device, more precisely, the impossibility of the existence of a diametrical gap between the suspended part of the device and the walls of the well, as well as the absolute elimination of spillage of drill fines.

A visual inspection and measurement of the fragmentation of the blasted rock of the experimental block was also carried out, according to the result of the lumpiness of the rock, determined by the average linear size of the piece, the crushing quality was noted as optimal.

It should be noted that the results of the explosion confirmed the increase in the efficiency of stemming wells and the quality of rock mass crushing.

Thus, suspended well stemming allows to achieve the claimed technical result, which consists in increasing the efficiency of stemming wells, by increasing the area of contacts of the proposed device with the walls of the well, while increasing the area of overlap of the cross-section of the well, eliminating spillage of drill fines into the diametral gap, by a complete (hermetic ) overlapping the cross section of the well, eliminating the failure of the operation of the downhole charge.

Claims (1)

Suspended well stemming containing a support structure larger than the diameter of the wellhead, and a suspended part fixed by a flexible connection on the support structure, characterized in that the suspended part is made in the form of an inclined solid cylinder, the height of which is 15-35% greater than the diameter of the well, and its side surfaces are beveled parallel to each other in such a way that the diagonally opposite halves on the upper and lower ends of the cylinder are rounded in accordance with the walls of the borehole, while in the upper part of the inclined solid cylinder a corrugated elastic material is fixed by a permanent flexible connection, the length is more than the height of the solid cylinder.

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