RU2379517C1 - Mine excavations fastening method during potassium salt fields development and pit barring for its execution - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: mine excavations fastening method during potassium salt field's development concludes in anchor bolts installation with rock bolting support and counterforce elements, the rock bolting made of polymer material Cover the rock surface between anchors with a protection element, made of polymer cloth, which does not allow moisture and water vapors penetration, at least in one side direction The polymer cloth fixed to the rock surface by pressing it to the rock with support elements The pit bolting for the rock excavation fastening during potassium fields development contains anchor bolts made of polymer material as bearing rods with support and counterforce elements, support slabs, installed between support elements and a mine roof rock, claw nuts and the protection element as a polymer cloth, which does not allow moisture and water vapors penetration, at least in one side direction, fixed on the mine roof with support slabs.

EFFECT: decrease of water vapor and pit aggressive waters influence on a mining equipment, operation casts decrease, undergoing mining equipment lifetime increase.

4 cl, 1 ex

Description

This technical solution relates to mining, and in particular to a method of securing mine workings by means of anchor support, and may find application for securing mine workings in the development of potassium salt deposits.

When developing potash deposits, as a rule, fastening methods are used using anchor supports having metal elements that are exposed to mine water generated by the interaction of water vapor contained in the air supplied to the workings with sylvinite constituting the rock being developed (see , for example, RF patent No. 2310074).

A known method of fastening mine workings using anchor supports containing only synthetic materials and therefore not subject to such corrosion (see RF patent 2234604, M.cl. E21D 21/00). However, water vapor contained in the mine air supplied from the surface interacts with sylvinite, destroying the production circuit, in addition, the resulting aggressive mine water falls onto the downhole mine equipment used, prematurely incapacitating it.

The invention is aimed at solving the problem of creating a method of attachment and mine support for attaching mine workings in the development of potassium salt deposits, which can eliminate or minimize the effect of water vapor and aggressive mine water on the rock mass and mining equipment used in mining operations.

The technical result that can be obtained by using the invention is to reduce the cost of maintaining mine workings and to increase the life and reliability of underground mine equipment used in the development of potassium salt deposits.

The problem is solved due to the fact that in the method of fastening the mine workings during the development of potassium salt deposits, which consists in installing anchor bolts with supporting and spacer elements of the rod support, the elements of which are made of polymeric material, the surface between the anchors is covered with a protective element in the form of a polymer web, not passing moisture and steam at least in one direction, while fixing the polymer web to the surface of the rock is carried out by pressing it to the rock by means of support lementov.

In addition, the task is solved by creating a mine support for attaching mine workings during the development of potassium salt deposits, which contains anchor bolts made of a polymer material in the form of load-bearing rods with support and spacer elements, base plates installed between the support elements and the rock of the working roof, tension nuts and a protective element in the form of a polymer web that does not allow moisture and steam to pass in at least one direction, which is fixed to the roof by means of support plates.

It is possible to carry out mine support for attaching mine workings during the development of potassium salt deposits using a polymer sheet with double-sided protection against the passage of steam and moisture as a protective element.

It is preferable to use a polymer web as a protective element with a tensile strength of 200 to 400 N / 5 cm and a water vapor permeability resistance of more than 75 m ² · h · Pa / mg or 50 m according to DIN 52615 according to GOST 28574.

With this method of attaching mine workings during the development of potassium salt deposits, the roof rock, which accounts for the maximum amount of exposed potassium salt, is protected from moisture and water vapor coming together with fresh mine air supplied from the surface. As a result, rock oxidation does not occur and the formation of aggressive mine water, which destroys both the metal elements of the anchor support in case of their use, and the elements of the downhole mine equipment used in the development, is minimized. To improve the operation of the protective element, the polymer web used can be made with possible one-sided transmission of water vapor. In this case, the sheet passes water vapor from the side of the roof rocks, preventing the formation of condensate on the sylvinite and preventing water vapor from entering the roof rock from the mine air.

To ensure the reliability of the protective support element, the polymer web must have a tensile strength of 200 to 400 N / 5 cm and a water vapor permeability resistance according to GOST 28574 greater than 75 m ² · h · Pa / mg or 50 m according to DIN 52615.

The method is as follows. After cleaning the roof of the mine, which is to be further fixed, drill holes for the anchor support along the fixed surface of the roof. Then, anchor bolts are installed in the drilled holes, which are fixed in the holes by means of spacer elements. The design of the spacer element may be any known. In this case, only the absence of metal elements in the design of the anchor support is important. After fixing the anchor bolts in the boreholes, the protective polymer sheet, supplied in the form of rolls, is laid out along the fixed section of the roof. The edge of the polymer web is pressed against the roof surface by the supporting element of the lining and the anchor bolt is tensioned with the web pressed. For better performance, support the edges of the web. Next, the canvas stretches to the next anchor.

To implement this method, an anchor support is used, which includes an anchor bolt in the form of a load-bearing rod with a support element in the form of a base plate and a tension nut. All elements are made of polymeric material and can be either molded or molded using reinforcing elements to increase strength. As a protective element, a known polymer web with parameters satisfying the original technical requirements can be used.

An example of the method

When developing a shallow potash seam using a mining combine, reserves are mined by cameras in layers, leaving inter-chamber pillars. When working out the first layer along the length of the chamber, the roof is simultaneously fastened with anchor support. As a protective element, a Delta-Fol DS Peflex waterproof and vapor-tight polymer web with a tensile strength of 350 N / 5 cm, water vapor permeability resistance> 100 m and a weight of 170 g / m ^{2 is used} .

The width of the roll packaging of the specified polymer web is 1.5 m. Accordingly, the distance between the rows of anchors along the chamber is 1.4 m, and between adjacent anchors in the same row is 3 m. In this case, two adjacent protective elements are held by each anchor, which are fixed under the base plate of the anchor support, after which the anchor bolt is tightened by means of a tension nut.

The application of the indicated method of fastening and mine support of the proposed design will reduce the cost of maintaining the workings, extend the life of the mine equipment and increase its operational safety.

Claims (4)

1. The method of securing the mine workings during the development of potassium salt deposits, which consists in installing anchor bolts with supporting and expansion elements of the rod support, the elements of which are made of polymer material, characterized in that the rock surface between the anchors is covered with a protective element in the form of a polymer web that does not allow moisture and water vapor, at least in one direction, while fixing the polymer web to the surface of the rock is carried out by pressing it to the rock by means of supporting elements. 2. Mine support for attaching mine workings during the development of potash salt deposits, containing anchor bolts made of a polymer material in the form of load-bearing rods with support and spacer elements, support plates installed between the support elements and the rock of the working roof, tension nuts and a protective element in the form a polymer web that does not allow moisture and water vapor to pass through at least one side, fixed to the roof of the mine by means of base plates. 3. Mine support for attaching mine workings during the development of potassium salt deposits according to claim 2, characterized in that the polymer web is made with two-sided protection against the passage of water vapor and moisture. 4. Mine support for fixing mine workings during the development of potash salt deposits according to claim 2, characterized in that the protective element is made of a polymer web with a tensile strength of 200 to 400 N / 5 cm and a water vapor permeability resistance of more than 75 m ² · h · Pa / mg.