RU2540708C1 - Anchor for fixation of mine workings - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: device includes a hollow anchor, in the lower part of which there is an outer thread, and in the upper part there are at least two cuts to the distance of at least 0.1 of a rod length. In the upper part of the hollow anchor an arrangement is made for a cylindrical capsule tightly adjacent to the rod walls and the length of which is equal to length of the cuts. The capsule is made from an easily destructible material and filled with a composition expanded during hardening. The capsule is fixed in its lower part with a metal disc made from a material with a linear expansion coefficient that is larger than that of the anchor material. The disc is connected by means of a stiff rod to a threaded plug that is connected to the outer thread of the anchor rod by means of the inner thread.

EFFECT: improving reliability of anchorage of frozen rocks and avoiding dependence of carrying capacity of an anchor support on temperature conditions of a mine working.

5 dwg

Description

The invention relates to the mining industry and is intended for anchoring the mine workings in the permafrost zone, and can also be used in construction, for example, in the construction of tunnels for various purposes, including passable in previously frozen dispersed soils or rocks. Anchor can be used for fastening mine workings, passed in frozen dispersed rocks, the strength characteristics of which significantly change during thawing and freezing.

Known anchor support (patent No. 2166092 published 04/27/2001), in which the anchors are equipped with two nuts connected to the anchor with one left, the other with right-hand threads of different diameters and made with counter bevels, between which there is a sleeve made of easily deformable elastic material, for example rubber . Moreover, the geometric axis of the threaded connections is eccentric to the geometric axis of the nuts.

The disadvantages of this invention are the complexity of the installation and manufacturing technology, as well as the insufficient strength of the anchor in the hole.

An anchor is known (patent No. 2082008 published on 06/20/1997), the lock of which consists of a wedge pair with mutually parallel internal surfaces, one wedge of which is made at the end of the anchor rod that is placed in the hole, and the second is a side wedge, and the anchor rod is deepened on it the thickness of the groove, the bottom of which is a continuation of the wedge surface of the anchor rod. At the same time, part of the side wedge is configured to enter the groove, and protrusions are made on the mating surfaces of the anchor lock elements to limit their mutual movement. Moreover, the end wall of the groove and the side of the side wedge mating with it are parallel, and the end part of the side wedge is chamfered in the direction of its movement when the anchor is loaded.

The disadvantage of this invention is the change in the bearing capacity of the anchor when changing the temperature of rocks, for example, cooling in the winter.

Known anchor support (patent No. 20111841 published on April 30, 1994), including a rod in the form of a beam of high-strength reinforcement, on which a cylindrical spacer element of a metal alloy having a shape memory property with plastic pipes with an inner diameter located on its two sides is freely mounted corresponding to the diameter of the rod, and through longitudinal slots. The pipes are pressed against the spacer by means of stops rigidly connected to the rod. At the same time, between one of the pipes and one of the stops on the rod, a cylindrical sleeve made in the form of a pipe with a flange is installed along the anchor, and a rubber barrel-shaped shell is placed on the sleeve pipe with the possibility of supporting one end against the flange, and the other against the stop .

The disadvantage of this invention is the high cost, complexity of manufacture, as well as a change in the bearing capacity of the anchor when the temperature of the rocks changes, for example, cooling in the winter.

Known anchor (patent No. 2009328 published 03.15.1994), including a tubular rod with an oblique longitudinal section, the edges of which are connected with an overlap, spacer bodies in the form of balls placed in the cavity of the rod, and a base plate. Moreover, in connection with the overlap, the oblique edge of the cut of the tubular rod is placed on its outer side, and the oblique edge of the cut of the tubular rod is made stepwise.

The disadvantage of this invention is the reduction of the bearing capacity of the anchor when changing the temperature of rocks, for example, cooling in the winter.

Closest to the proposed device is anchor support, (patent No. 2081332 published July 28, 1994) (prototype), including a hollow anchor rod with a longitudinal slit, a protrusion to support the base plate, a base plate and a substance placed in the anchor rod that can increase its volume when crystallization. At the same time, the design is equipped with a stopper and a collar for holding it, made at the mouth end of the rod, and a substance that can increase its volume during crystallization consists of granular and liquid components, the anchor rod being filled with a granular component so that it can be impregnated with a liquid component immediately before installation.

The disadvantage of this invention is the high consumption of components, the inability to use at negative temperatures of air and rocks, as well as a decrease in the bearing capacity of the tubular anchor due to violation of its integrity by a cut along the entire length.

The technical result of the invention is to increase the reliability of anchoring of frozen rocks and eliminating the dependence of the bearing capacity of the anchor support on the temperature of the mine.

The technical result is achieved by the fact that in a whole hollow anchor rod, an external thread is made in the lower part, and cuts are made in the upper part at a distance of at least 0.1 of the length of the rod and make them at least two. A cylindrical capsule, the length of which is equal to the length of the incisions, is placed in the upper part of the cavity. The capsule is made of easily collapsing material and is filled with a substance expanding during hardening with the release of a large amount of heat, for example, a suspension based on calcium oxide. In the lower part, the capsule is fixed with a metal disk made of a material with a linear expansion coefficient greater than that of the anchor material. The disk is connected using a rigid rod with a threaded plug, which is connected with the external thread of the anchor rod using an internal thread, pressing against the base plate. After the curing process of the material in the anchor, the plug with the disk is removed and replaced with a conventional clamping nut.

The device is implemented as follows. Mining, passed in dispersed rocks and operated under variable thermal conditions, is fastened with anchors. The maximum depth of thawing in the roof of the mine is 0.6 meters. For anchoring frozen rocks we use a hollow pipe made of elastic material, for example, steel, 1 meter long, on which four mutually perpendicular cuts are made in the upper part at a distance of 0.1 from the total length of the pipe, i.e. 10 cm. At the lower end of the anchor, a thread is made to a length that provides reliable fastening of the clamping nut to hold the base plate. In the place of incisions, in the cavity of the pipe we place a cylindrical capsule tightly adjacent to the walls of the rod, 10 cm long, i.e. equal to the length of the incisions made of easily collapsing material, such as polyethylene. The capsule, immediately before installation, is filled with a material expanding during hardening with the release of a large amount of heat (RTM), for example, with non-explosive disintegrating composition НРС-2.

LDC-2 contains ground calcium oxide from calcined limestone and gypsum, additionally contains calcium chloride, aluminum chloride and denatured ethyl alcohol with a mass ratio of calcium chloride 0.7-7.8; aluminum chloride 0.5-4.5; denatured ethyl alcohol 1.0-13.0; Calcium oxide from calcined limestone and gypsum - the rest. The anchor thus assembled is installed in the hole. A flanged conical washer is put on the lower end of the anchor, which protrudes from the hole into the mine, and clogs to the output contour, providing temporary anchoring of the anchor in the hole until the PTM is fully wedged and solidified in the anchor lock. A support plate is installed on the lower part of the anchor, which is held by a plug screwed onto the external thread of the anchor, which, in turn, is connected using a rigid rod to a metal disk made of a material with a linear expansion coefficient greater than that of the anchor material, for example, made of copper alloy. The length of the rod is selected so that the disk in the cavity of the pipe keeps the capsule from falling out. In this case, about 0.9 m. The diameter of the disk is chosen so that it fits snugly against the inner wall of the pipe. Fixing the anchor in the hole using RTM is as follows. As a result of hardening, the composition significantly increases in volume and breaks the polyethylene capsule. At the same time, the extrusion of the composition into the pipe is prevented by a metal disk, which, when heated, reliably wedges in the pipe, because has a greater coefficient of linear expansion. In addition, it is rigidly connected to the plug screwed onto the anchor, which serves as an additional stop, preventing PTM from being squeezed into the pipe. Due to the release of a large amount of heat around the anchor lock, a thawed zone is formed, the strength of the rocks in which is much lower than that of frozen ones. Simultaneously with the heating and thawing of the rocks, the process of expansion of the material. This leads to an increase in pressure on the walls of the anchor lock - the cut part of the pipe, which after 6-24 hours of hardening (depending on the composition) develops stresses that exceed the strength of thawed rocks in the place of the pipe cut. Those. the incised part of the anchor is opened and the “petals” are moved beyond the hole. Thus, in the upper part of the pipe, a cone is obtained, the upper diameter of which is larger than the diameter of the hole. The degree of disclosure depends on the strength of thawed rocks and can reach 30-70%. After the end of the hardening process, the thawed zone freezes back, which ensures reliable anchoring of the anchor in the hole. After the RTM hardening process is completed, the plug with the disc is removed and replaced with a conventional clamping nut. Thus, the multiple use of the device for holding the RTP in the pipe is achieved. Depending on the required strength of fixing the anchor in the hole, the cuts can be more or less, which is determined by calculation, or by physical modeling. But, at least two, so that it is possible to open the pipe at the top of the anchor. A characteristic feature of the proposed anchor is that when operating workings with variable thermal conditions, the strength of the anchor lock in the hole practically does not change. For reliable operation of the anchor, as shown by the practice of exploitation of mine workings in the permafrost zone, the length of the anchor should be at least 30% longer than the maximum depth of thawing of rocks in the roof of the mine.

The design and principle of operation of the anchor is illustrated by figures 1-5.

Figure 1 shows the anchor - 1, inserted into the hole - 2, fixed in the hole with a sleeve - 3, containing a capsule with RTM - 4, having four cuts - 5, equal in length to the capsule, which is pressed by a disk - 6, connected to using the rod - 7, with a plug - 8, screwed on the thread - 9 onto the anchor, to the base plate - 10. Figure 2 shows a section of the anchor along section AA. Figure 3 shows a view of the anchor in the direction of the cut B-B. Figure 4 shows a view of the anchor after hardening of the expanding composition (RTM), which shows that after expansion and hardening of the RTM, a strong lock has formed that holds the anchor in the hole. In addition, since the plug is no longer needed, a clamping nut -11 was used instead, with which the plug was replaced. This allows you to reuse the plug with the disk when attaching the output with anchors. Figure 5 shows a view of the anchor in the direction of C-C.

The differences of the anchor are that instead of filling the entire cavity of the RTM anchor, only a small part is filled, and the cuts are not one, but at least two, and not the entire length, but only on the locking part of the anchor, which increases its strength and load-bearing ability. Another difference is that during installation, a reusable device is used that does not allow the RTM to spread through the pipe and provides the formation of an anchor lock by bending the pipe parts in the notch places by an amount larger than the diameter of the borehole.

These differences from the known devices are significant, since only with their help the aim of the invention is achieved: improving the reliability of fastening of mine workings in dispersed rocks of the permafrost zone by sufficiently strong anchoring in the hole, regardless of the temperature regime of the rocks.

Claims (1)

Anchor for attaching mine workings, including a hollow anchor rod previously cut along the length, and a substance placed therein, increasing its volume during hardening, characterized in that an external thread is made in the lower part of the anchor protruding from the hole into the mine workings, and cuts made only in the upper, castle part of the anchor and made at least two at a distance of not less than 0.1 of the length of the rod, where a cylindrical capsule is placed tightly adjacent to the pipe walls, expanding during hardening with the release of b a large amount of heat with a substance whose length is equal to the length of the incisions, and in the lower part of the capsule is fixed by a metal disk made of a material with a coefficient of linear expansion larger than that of the anchor material and connected using a rigid rod with a threaded plug located in the lower part of the anchor behind the base plate and connected by an internal thread with an external thread of the anchor rod, the plug being made with the possibility of replacing, after the hardening process of the composition, a conventional clamping nut .

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