RU2808783C1 - Method for installing bordering in well - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: drilling and blasting in rocks used in various industries that use blasting in rock masses, in particular in the development of minerals by surface mining. The method of installing a bordering in a well involves lowering a bordering made in the form of an inclined solid cylinder into the well to the depth of intense fracturing, the transverse ends of which are beveled parallel to each other, after which the bordering is secured to a support structure exceeding the diameter of the wellhead using a flexible connection. To install the bordering, a cavity is first created at a technologically specified depth from the wellhead by external influence on a section of the hole wall. A bordering is installed into the cavity, made in the form of an inclined solid cylinder with a height of 1.10–1.25 of the well diameter and a diameter of 0.7–0.9 of the well diameter, with parallel beveled transverse ends, which are obtained by excision of the upper and lower segments of a straight solid cylinder and form angles with its sides in the range of 50–70°. At the same time, the bordering is lowered using a flexible connection attached to it with the insertion of the pointed part of the beveled transverse end of the inclined solid cylinder into the formed cavity, after which the flexible connection is fixed on the supporting structure and inert material is placed on top of the bordering.

EFFECT: increase in the efficiency of hole completion, as well as an increase in the duration of action of gaseous detonation products on the fracture rock, and an increase in the efficiency of the explosion.

1 cl, 2 dwg

Description

The invention relates to mining, to the field of drilling and blasting operations
in rocks and can be used in various industries that use blasting in rock masses, in particular in open-pit mining.

It is known that an increase in the degree of crushing of rocks is determined not only by the magnitude of the explosive impulse, but also by the duration of action of the detonation products on the destroyed rock mass, which leads to the conclusion that it is necessary to create a method that ensures an increase in the efficiency of drilling a well, with an increase in the duration of the action of the explosion energy on the destroyed rock mass. breed.

The closest known invention, adopted as a prototype, is a suspended well stopper, the installation of which is carried out by lowering it into the well to the depth of intense fracturing, made in the form of an inclined solid cylinder, the transverse ends of which are beveled parallel to each other, after which the stope is secured to a supporting structure, exceeding the diameter of the wellhead using a flexible connection (RF patent RU No. 2768270, IPC F42D 1/08 (2021.08), publ. 03.23.2022, Bulletin No. 9).

The disadvantage of the prototype is the low efficiency of drilling the well, due to the low efficiency of installing the device in the well in the working position, which is a suspended part located at the required depth in the charging cavity of the well, secured by a flexible connection to the support structure above the wellhead. This working position of the known device is technologically irrational due to the fact that in this position the beveled transverse ends of the suspended part have weak, unstable contact with the walls of the well, exclusively limited by the surfaces of their edges, which does not ensure their reliable adhesion to the walls of the well and absolute penetration into the rock at the moment of explosion, thereby reducing the resistance of the face to the release of detonation products and leads to its unimpeded flight from the wellhead under the influence of pressure from gaseous detonation products, reducing the duration of the action of the explosion energy on the destroyed rock mass, reducing the efficiency of the explosion.

The technical problem to be solved by the claimed invention is to increase the efficiency of drilling the well, as well as to increase the duration of action of gaseous detonation products on the destroyed rock, and to increase the efficiency of the explosion.

The objective is achieved by the fact that in the method of installing a stopper in a well, which includes lowering a stopper made in the form of an inclined solid cylinder into the well to the depth of intense fracturing, the transverse ends of which are beveled parallel to each other, after which the stope is secured to a support structure exceeding the diameter of the wellhead in dimensions using a flexible connection, according to the invention, to install a stopper, a cavity is previously created at a technologically specified depth from the wellhead by external influence on a section of the well wall, into which a stopper is subsequently installed, made in the form of an inclined solid cylinder with a height of 1.10 -1 .25 of the borehole diameter and a diameter of 0.7–0.9 of the borehole diameter, with parallel beveled transverse ends, which are obtained by excision of the upper and lower segments of a straight solid cylinder and form angles with its sides in the range of 50–70˚, while lowering stopping with the help of a flexible connection fixed on it, followed by inserting the pointed part of the beveled transverse end of the inclined solid cylinder into the formed cavity, after which the flexible connection is fixed on the supporting structure and inert material is placed on top of the stopping.

The essence of the claimed invention is illustrated by drawings, where Fig. 1 shows a stopper installed in a well in the working position according to the claimed method; Fig. 2 shows a technological diagram of the location of the stope at the time of explosion.

The method of installing a stopper in a well is carried out as follows.

To implement the claimed method, a stope is initially prepared in the form of an inclined solid cylinder with a height of 1.10–1.25 of the well diameter and a diameter of 0.7–0.9 of the well diameter, with parallel beveled transverse ends, which are obtained by excision of the upper and lower segments of a straight continuous cylinder and form angles with its sides in the range of 50–70˚.

The above essential features of an inclined solid cylinder are technologically sufficient to ensure unhindered immersion of the face into the well to the required depth and its further placement in the working position, increasing which is impractical, and reducing them will lead to the absence of the required contact of the beveled transverse ends with the walls of the well, which will completely eliminate its suitability for placing inert material on top of it and locking gaseous detonation products in the well, as well as the value of the angle in the range of 50–70˚ between the beveled transverse end and the side of the inclined solid cylinder, ensures the simplicity and ease of inserting the pointed part of the beveled transverse end into a pre-formed a cavity at a technologically specified depth from the wellhead, a stable location of the stope and contact inside it, as well as the creation of a stop - a “fulcrum”, which will be required to turn the stope inside the charging cavity at the moment of explosion.

After drilling in the well, at the required distance from the day surface of the massif with intense fracturing, a cavity 1 is created by mechanically influencing a section of the well wall at a technologically specified depth from the wellhead, the parameters of which are sufficient for further placement of the sharp part of the beveled transverse end of the inclined solid one. cylinder.

After completion of the work on forming the borehole charge 2, the blasting network 3 is installed, according to the blasting project, after which the stopper is installed in the borehole, for this, an inclined solid cylinder 4 is lowered into the borehole with its beveled transverse end down, holding it by the flexible connection 5 and 5', fixed on it, in accordance with the drawing (Fig. 1) to eliminate deviation from the equilibrium position, jamming of the inclined solid cylinder and its unhindered immersion into the well, until reaching the previously formed cavity 1. For convenience and increasing the speed of installing the stope in the working position, pointed Part of the beveled transverse end is placed on the same side as cavity 1 when lowered.

Next, pulling the flexible connection 5, for example, twine, and holding it by 5', the pointed part of the beveled transverse end of the inclined solid cylinder 4, shifting towards the cavity 1, is inserted into the cavity 1, while simultaneously pulling the stopper by the flexible connection 5 and 5' along direction towards the wellhead until the beveled transverse end comes into close contact with the walls of the cavity 1, creating an area of stable contact - a “fulcrum point” T _o , such that the stem moves into a jammed position in the charging cavity of the well, blocking its cross section.

Then the end of the flexible connection 5 is fixed to the supporting structure 6, which is larger in size than the diameter of the wellhead, and 5' is released; finally, an inert material, for example, drilling debris, is placed on top of the stope; this position of the stope is considered working.

At the moment of the explosion, the gaseous detonation products expand and begin an upward movement towards the wellhead P , during which they fill all the free space of the well's charging cavity up to the bottom hole, reach it, and begin to act on the lower beveled transverse end of the inclined solid cylinder, resting against it, exerting pressure, thereby involving it in an upward movement, during which the pointed part of the beveled transverse end, inserted into cavity 1, begins to forcefully put pressure on the rock in the area of stable contact - the “fulcrum point” _To , compacting it, which leads to an increase The elastic force of the rock, counteracting the movement of gaseous detonation products, thus creates an obstacle to further movement of the stem towards the wellhead and causes a turn relative to the “fulcrum” _To (Fig. 2) in direction A, perpendicular to the well axis, with a gradual , its deeper penetration into the rock, thereby increasing the ability of the stope to resist the movement of gaseous detonation products, and, accordingly, increasing the efficiency of the explosion.

This deployed position of the face and the compaction of the rock around it create conditions for its greater jamming in the massif, which ensures an increase in the duration of the action of gaseous detonation products on the destroyed rock, since their further movement towards the wellhead requires additional work to overcome the elastic forces of the compacted rock. rock and progress of culling in it.

An example of the application of the proposed method. Charging was carried out in the JSC branch of "UK Kuzbassrazrezugol "Taldinsky coal mine"" rocks consisting of sandstone and siltstone with a hardness of f = 5.5 on the prof. scale. MM. Protodyakonov.

The block was drilled with a D50KS drilling rig with a well grid of 6 m × 6 m. The wells were drilled vertically, with a well diameter of 215.9 mm and a well depth of 15 meters, after which a cavity was formed in 10 wells by applying pressure, with a jack, to a section of the well wall at the required for installing a stopper in a deep well.

Next, we formed a borehole charge and installed an explosive network, after which we installed the stopper in the well, namely, lowered the stopper into the well with the beveled transverse end down, holding it by the twines 5 and 5', attached to an inclined solid cylinder, according to the drawing (Fig. 1 ), the length of which is commensurate with the technologically specified depth from the wellhead.

Next, the pointed part of the beveled transverse end of the stope was brought into cavity 1, then the twine 5 was secured to a supporting structure, for example, a wooden beam, and the twine 5' was released, after which a small amount of drill fines was placed on top to increase the resistance to the movement of gaseous detonation products at the time of the explosion.

After the explosion of the block, a visual inspection of the blasted rock was carried out for the quality of crushing, after which the quality of crushing the rock was assessed as optimal.

Thus, the described set of features determines the achievement of a technical result in terms of increasing the efficiency of hole completion, as well as increasing the duration of action of gaseous detonation products on the destroyed rock, increasing the efficiency of the explosion.

Claims (1)

A method for installing a stopper in a well, including lowering it into the well
to the depth of intensive fracturing of the stemming, made in the form of an inclined solid cylinder, the transverse ends of which are beveled parallel to each other, after which the stemming is fixed on a support structure larger in size than the diameter of the wellhead using a flexible connection, characterized in that for installation of the stemming it is preliminarily at a technologically specified a cavity is created from the wellhead to depth by means of external influence on a section of the well wall,
into which a stopper is subsequently installed, made in the form of an inclined solid cylinder with a height of 1.1–1.25 of the well diameter and a diameter of 0.7–0.9 of the well diameter, with parallel beveled transverse ends, which are obtained by excision of the upper and lower segments straight solid cylinder and form angles with its sides in the range of 50–70°, while lowering the stopper using a flexible connection fixed to it, followed by inserting the pointed part of the beveled transverse end of the inclined solid cylinder into the formed cavity, after which the flexible connection is fixed on supporting structure and place inert material on top of the stope.