RU2625132C1 - Filtering dam - Google Patents

Abstract

FIELD: mining engineering.

SUBSTANCE: filtering dam is proposed that includes a flexible power frame anchored in mine, a flexible filter element, also attached to the walls of mine, equipped with an elastic muffler and clamping elements. Moreover, the power frame is made of two unequal parts, connected together through a horizontal support. Wherein, each part of the frame is made of a single cable, zigzagged fixed in vertical plane to the soil and the roof of mine.

EFFECT: reducing material consumption for dam power frame, improving its reliability and simplifying installation.

4 cl, 5 dwg

Description

The invention relates to the mining industry, and in particular to jumpers installed in the mine workings of mines and mines to hold the solid phase of the filling pulps and filter carrier fluid through them, and can be used in the process of filling works.

A jumper is known in which a flexible power cage is made with a stiffness exceeding the stiffness of a flexible filtering cloth and is represented by a rectangular mesh with a cell density increasing in the lower part of the jumper (A.S. USSR 1723337, IPC E21F 5/00 - Formwork / B.A. Borzakovsky, S.P. Mironov. - No. 4746984, decl. 09.10.89; publ. 30.03.92).

The disadvantage of this jumper is the high consumption of materials to create a power frame.

The closest in technical essence and the achieved result to the proposed one is a mine lintel containing a flexible mesh frame in the form of a rectangular mesh fixed in a mine working and a flexible filtering enclosing fabric installed with the possibility of support on the mesh frame and held by clamping elements with a seal that are attached along the perimeter of the production by anchors (RF Patent 2038484, IPC ⁶ E21F 15/00, E21F 15/02 - Flexible filling jumper / B.A. Borzakovsky, V.F. Rudakov. - No. 5058632/03, application 14.08.92; . June 27, 95).

This jumper has the following disadvantages: anchors have a limited bearing capacity, and therefore when installing jumpers in high workings, it is necessary to install a large number of them, since the cable tension depends on the height of the work. In the cellular power frame used in the specified jumper, it is difficult to achieve uniform tension of vertical and horizontal cables, which depends on their length and the magnitude of their deflection, because these values are variable in height and in the width of the mine. Therefore, to ensure uniformity of tension, it is necessary to use cables with a large safety factor for breaking strength, which leads to increased reliability of the jumper, but an increase in material consumption and the cost of the structure. The disadvantage of this jumper is also that after dismantling the power frame when installing it in a new place, it is necessary to change the length of the cables, which takes a lot of time. And in cases of a gradual increase in the height of the layer of the stowage array held by the jumper, the anchors installed in the excavation soil are difficult to extract due to the stowage array hanging over them.

The technical result is to reduce the consumption of material on the power frame of the jumper due to the use of only vertical and diagonal parts of the frame and increase its reliability and simplify the installation (dismantling) of the jumper elements through the use of solid cables.

The specified technical result is achieved by the fact that in the filtration jumper, including a flexible power frame fixed in the mine working by anchors, a flexible filter element also attached to the walls of the mine, equipped with an elastic seal and clamping elements, the power frame is made of two unequal parts interconnected through a horizontal support, with each part of the frame made of a solid cable, zigzag mounted in a vertical plane to the soil or roof of the mine.

The horizontal support of the power frame is installed from the working soil at a distance of 0.3-0.4 from the working height.

The horizontal support is made of rigid or flexible material.

The essence of the invention is illustrated by drawings, where in FIG. 1 shows a general view of the jumper; FIG. 2 is a section along AA, in FIG. 3 is a fragment of the fastening of the flexible horizontal support into the wall of the working, in FIG. 4 is a general view of a jumper with a rigid horizontal support; FIG. 5 is a section along BB.

In the drawings: 1, 2 - cables of the upper and lower parts of the power frame of the jumper; 3 - horizontal flexible support; 4 - eye; 5 - anchor; 6 - an eye fixed on a horizontal flexible support; 7 - a scrap of steel pipe; 8 - wedge; 9 - pins; 10 - a fragment of a filter cloth; 11 is a fragment of the carrier grid; 12 - anchors fixed to the wall of the mine; 13 - filling material; 14 - horizontal rigid support; 15 - jib.

An example of a specific embodiment is given for a jumper with a horizontal flexible support.

The jumper is set as follows.

The flexible power frame of the jumper consists of two unequal parts, each of which is made of a single piece of cable 1 and 2, fixed to the soil and the roof of the mine in a vertical plane in a zigzag shape (Fig. 1).

In the upper part of the lintel, the cable 2 is zigzagged through the eyes 4, fixed by anchors 5 to the roof of the mine and through the eyes 6, fixed to a horizontal flexible support 3, which has the form of a horizontally fixed cable. The lower part of the power frame of the jumper is dialed with a cable 1 and attached to the soil of the mine working and horizontal support in the same way (Fig. 1).

Thus, the jumper has two independent parts, interconnected by means of a horizontal flexible support 3, which, with a zigzag pattern for securing the cables 1, 2, allows to reduce the consumption of materials for assembling the power frame due to the absence of horizontal bearing parts. The height of the horizontal flexible support 3, which serves as an intermediate support for the cables of the power frame 1 and 2, from the working soil is not more than 0.3-0.4 of the working height or the height of the predicted layer of the filling material 13. When these conditions are met, the cable tension 1, 2 in the upper and lower parts of the power frame will be approximately the same (Fig. 2).

A horizontal flexible support 3 in the form of a cable is fixed in the walls of the mine with the help of scraps of steel pipes 7, into which the cable enters around the wedge 8. The scraps of steel pipes 7 are held by pins 9 (Fig. 3).

The backfill material 13 is held by a filtering web 10, which is hung on a supporting mesh 11 (a chain-link type mesh). The filter cloth and the supporting mesh are fixed along the perimeter of the working with eyes 4 of anchors 5 and anchors 12 to the wall of the working, through pressure, spring and sealing malleable elements, for example, a steel strip and a rubber cord. When installing the power frame in each branch of the zigzag provide a margin of length for deflection corresponding to the total load on the jumper (Fig. 1, 2).

The horizontal support 14 in the jumper can be made of rigid material, for example, from a log held by jibs 15 (Figs. 4, 5).

The use of the invention allows to reduce the cost of the filling jumper and increase its reliability, while the zigzag cable mounting scheme allows to reduce the installation time of the power frame. In addition, the small height of the lower part allows you to remove anchors from the excavation soil, even in the case of a gradual increase in the height of the layer of filling material at the bridge.

Claims (4)

1. Filtration jumper, including a flexible power frame fixed in the mine working by anchors, a flexible filter element also attached to the walls of the mine, equipped with an elastic seal and clamping elements, characterized in that the power frame is made of two unequal parts interconnected through a horizontal a support, wherein each part of the frame is made of a solid cable, zigzag mounted in a vertical plane to the soil and roof of the mine. 2. The jumper according to claim 1, characterized in that the horizontal support of the power frame is installed from the working soil at a distance of 0.3-0.4 from the working height. 3. The jumper according to claim 1, characterized in that the horizontal support is made of flexible material. 4. The jumper according to claim 1, characterized in that the horizontal support is made of rigid material.

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