RU2702308C1 - Formwork for attachment of mine working - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: proposed invention relates to mining industry, namely to formwork for fixation of mine working, and can be used for fixing of capital and preparatory developments as shaping and support element for hardening mass. Formwork is made of fabric, which is reinforced by transverse stiffeners fixed in it in a row and with pitch along its longitudinal axis. Crosswise stiffeners are made with function of support for hardening mass. Fabric forms a sleeve with closed ends, having at least one hole with a flange for supply of hardening mass into the sleeve. Cross stiffening ribs are fixed on the fabric at the length of the perimeter section of the sleeve cross-section.

EFFECT: technical result consists in reduction of labor intensity of erection of support by means of formwork from reinforced with ribs of stiffness of fabric, by facilitating provision of required width and / or height of hardening mass, which fills space between formwork and outline of mine working.

8 cl, 2 dwg

Description

The present invention relates to the mining industry and can be used when attaching capital and preparatory workings as a shaping and supporting element for hardening mass.

Known end guard for the erection of a layer of concrete lining sunset, the design of which is a flexible shell in the form of a sleeve sewn from a filtering liquid fabric and having an opening for pumping hardening mass. (RF Pat. No. 69155 U1, IPC E21D 11/10, publ. 10.12.2007, Bull. No. 34)

The disadvantage of this design is the need to use additional formwork elements that hold the flexible shell, which leads to an increase in capital costs for fixing the mine.

A known design of flexible formwork, which is a flexible shell in the form of a sleeve sewn from a waterproof reinforced fabric having a cylindrical shape, the reinforcing fabric made in the form of rings of metal or non-combustible plastic. This design is intended to create a support that perceives the load along the longitudinal axis of the flexible sleeve when it is in a straight position. (RF Pat. No. 178518 U1, IPC E04G 13/02, E21D 11/10, published on 04/06/2018, Bull. 10)

The disadvantage of this design is that the flexible sleeve can easily be folded only along its longitudinal axis and, when its longitudinal axis is bent, it forms along the small radius of the fold, and the drawback is the need to use additional formwork elements that keep the flexible shell from sagging when the formwork is tilted.

Closest to the proposed invention, the technical solution is a flexible overlap used in the composition of the support of the mine, which is a tape made of fabric, which is reinforced with transverse stiffeners installed in increments along its longitudinal axis and made with the support function for the hardening mass. Flexible overlap can be rolled up, and after unfolding on the bearing part of the mine support, it is intended to be used as a formwork element for hardening mass, the layer of which is located below on a flexible overlap and adjacent to the contour of the mine above. (Pat. RF №175401 U1, IPC E21D 11/10, E21D 5/11, publ. 04.12.2017, Bull. 34)

The disadvantage of this design is the difficulty in ensuring the necessary width and / or height of the hardening mass, filling the space between the formwork and the contour of the mine, since it is necessary to use additional barriers to the end of the formwork to prevent the outflow of hardening mass.

The objective of the invention is to reduce the complexity of the construction of the lining using the formwork of reinforced ribs fabric, by facilitating the provision of the necessary width and / or height of the hardening mass, filling the space between the formwork and the contour of the mine.

To achieve the specified technical result, in the formwork for fastening a mine working made of fabric, which is reinforced with transverse stiffeners, fixed on it in a row and in increments along its longitudinal axis and made with the support function for the hardening mass, the following new features are applied.

The fabric forms a sleeve with closed ends having at least one hole with a flange for supplying a hardening mass to the sleeve. Cross stiffeners are fixed on the fabric along the length of the perimeter of the cross section of the sleeve.

There are the following special cases, the implementation of which ensures the receipt of the claimed technical result.

The length of the piece of fabric, the ends of which are fixed on the transverse stiffeners, is less than half the length of the perimeter of the cross section of the sleeve. In the particular case, the transverse stiffeners are fixed on the fabric without the possibility of longitudinal displacement of the fabric along them. In a particular case, the transverse stiffeners are made in the form of a rod, several times bent in the plane of attachment to the fabric.

The transverse stiffeners are fixed on the fabric with the possibility of wrinkling, due to the possibility of longitudinal displacement of the fabric along the stiffeners.

The fabric of the sleeve is made with the property of draining water of a hardening mass.

A hole with a flange for supplying a hardening mass to the sleeve is located in the central part of the sleeve, or there are several holes with a flange for supplying a hardening mass to the sleeve.

The present invention is illustrated by drawings, which shows the formwork for securing a mine working, filled with a hardening mass and located between the lining frame and the massif, where in FIG. 1 formwork for securing a mine working is shown in cross section; in FIG. 2 is a section along AA in FIG. one.

The formwork for attaching the mine working is made of fabric forming a sleeve 1. The fabric is reinforced with transverse ribs 2 stiffness, which, for example, are metal rods.

The stiffening ribs 2 are fixed on the fabric of the sleeve 1 in a row and in increments along its longitudinal axis and are made with the support function for the hardening mass 3 due to the strength and rigidity sufficient for this. The support function is realized when using the formwork for fastening the mine working, by supporting the ends of the stiffeners 2 on, for example, the supporting elements 4 of the frame support.

The ends of the sleeve 1 are closed, for example by clamps or by tying them into a girth. The sleeve 1 can be made with the possibility of output remaining after it is rolled into a roll of air out, for example by using breathable fabric. The fabric of the sleeve 1 can be made of synthetic non-combustible fibers and with the property providing drainage or evaporation of water constituting the hardening mass 3, as well as access of the air elements of the atmosphere for solidification of the hardening mass 3.

The sleeve 1 has at least one hole with a flange 5 for supplying a hardening mass 3 to the sleeve; several holes with a flange 5 can be made, for example, one of which is located in the middle of the length of the sleeve 1, and the other on its sides. The hole with the flange 5 can be located on the side of the stiffening ribs 2, or on the opposite side from them, as this is more convenient for bringing the hardening mass 3 into the sleeve 1. Flange 5 can be made in the form of a sealing unit for connecting the flexible pipe 6 s sleeve cavity 1.

The transverse stiffeners 2 are fixed on the fabric along the length of the perimeter of the cross section of the sleeve 1. In the particular case, the length of the piece of fabric whose ends are fixed on the transverse stiffeners 2 is less than half the length of the perimeter of the cross section of the sleeve 1.

In the particular case, the transverse stiffeners 2 are fixed on the fabric with the possibility of wrinkling, due to the possibility of longitudinal displacement of the fabric along the stiffeners 2, for this the stiffeners 2 can be made in the form of smooth cylindrical rods.

In a particular case, the transverse stiffening ribs 2 are fixed to the fabric without the possibility of longitudinal displacement of the fabric along them, for this stiffening ribs 2 can be made in the form of rods with thickenings, or in the form of a rod several times bent in the plane of attachment to the fabric. In this case, the larger the difference in the circumference of the cross section of the sleeve 1 and the stiffening ribs 2, the larger the number of hardening mass 3 can be placed in the sleeve 1 and the greater the gap can be closed between the supporting elements 4 of the frame lining and the contour of the mine 7.

The stiffening ribs 2 are installed in a row with a step along the longitudinal axis of the fabric of the sleeve 1, for example, by means of one or more narrow fabric ribbons 8, which are longitudinally aligned with it and sewn with its fabric in such a way that they surround the stiffening ribs 2. Also, the stiffening ribs 2 can be fixed to the fabric of the sleeve 1 in another way, for example, by binding with the fibers of its fabric.

As the hardening mass 3 can be used liquid sand-cement mortar with or without gravel, or other hardening compositions of substances with chemical hardening.

The formwork for securing the mine work as follows.

An empty sleeve 1, previously rolled up into a roll, is rolled out onto the supporting elements 4 of the frame support in such a way that the ends of the stiffening ribs 2 operate on its adjacent parts. Using the coupling 5, the cavity of the sleeve 1 is connected to the pipeline 6, through which then hardening mass 3 is supplied.

The hardening mass 3 under pressure penetrates into the cavity of the sleeve 1 and expands it until the gap between the supporting elements 4 of the frame lining and the contour of the mine 7 is closed. In this case, the hardening mass 3 becomes enclosed in the volume of the cavity of the sleeve 1 and does not flow from the ends of the erected lining of the mine working.

In the particular case, when the length of the piece of fabric, the ends of which are fixed on the transverse stiffeners 2, is less than half the length of the perimeter of the cross section of the sleeve 1, the compactness of the rolled sleeve 1 increases, so less wrinkles of its fabric are formed. Moreover, in the particular case, due to the fact that the stiffeners 2 are made in the form of rods with thickenings, or in the form of a rod bent several times in the plane of attachment to the fabric, the stiffeners 2 are fixed on the fabric without the possibility of longitudinal displacement of the fabric along them and there is a more reliable achievement of the required width of the sleeve 1 filled with the hardening mass 3. In the particular case when the stiffeners 2 are made in the form of a rod bent several times in the plane of attachment to the fabric, the support function of the ribs 2 is further improved spine, as the sleeve is reduced sagging fabric 1 therebetween.

In the particular case, when the transverse stiffeners 2 are fixed on the fabric with the possibility of wrinkling, due to the possibility of longitudinal displacement of the fabric along the stiffeners 2, which are made in the form of smooth cylindrical rods, when filling the sleeve 1 with a hardening mass 3, a larger gap between the supporting elements can be closed 4 frame lining and the contour of the mine 7 by reducing the width of the filled sleeve 1, which may be necessary with large irregularities in the contour of the mine 7.

After filling the sleeve 1 with a hardening mass 3, disconnect the pipe 6 from the sleeve 1, sealing the cavity of the sleeve 1, for example, by dragging the bore of the sleeve 6 with a clamp and then cutting it. Hardening of the hardening mass 3 is expected, after which the hardened hardening mass 3 receives a bearing capacity, which is realized in the future together with stiffening ribs 2. In the particular case, when using the fabric of the sleeve 1 with the possibility of drainage component of the hardening mass 3 of water, the solidification process of the hardening mass 3 takes place in a more optimal mode.

Thus, at the time of construction of the lining, no additional costs are required to ensure the protection of its end part from the outflow of hardening mass 3, it is easier to provide the necessary width and / or height of the hardening mass 3, filling the space between the formwork and the contour of the mine working 7, and the complexity of erecting the lining with using formwork of reinforced ribs 2 fabric stiffness.

Claims (8)

1. The formwork for securing the mine working, made of fabric, which is reinforced with transverse stiffeners, fixed on it in a row and with a step along its longitudinal axis and made with the support function for the hardening mass, characterized in that the fabric forms a sleeve with closed ends, having at least one hole with a flange for supplying a hardening mass to the sleeve, transverse stiffeners are fixed on the fabric along the length of the perimeter of the cross section of the sleeve. 2. The formwork for securing the mine working according to claim 1, characterized in that the length of the piece of fabric, the ends of which are fixed on the transverse stiffeners, is less than half the length of the perimeter of the cross section of the sleeve. 3. The formwork for securing the mine working according to claim 2, characterized in that the transverse stiffeners are fixed on the fabric without the possibility of longitudinal displacement of the fabric along them. 4. The formwork for securing the mine working according to claim 3, characterized in that the transverse stiffeners are made in the form of a rod, several times bent in the plane of attachment to the fabric. 5. The formwork for securing the mine working according to claim 1, characterized in that the transverse stiffeners are fixed on the fabric with the possibility of wrinkling, due to the possibility of longitudinal displacement of the fabric along the stiffeners. 6. The formwork for securing the mine working according to claim 1, characterized in that the sleeve fabric is made with the property of drainage of water of hardening mass. 7. The formwork for securing the mine working according to claim 1, characterized in that the hole with a flange for supplying hardening mass to the sleeve is located in the central part of the sleeve. 8. The formwork for securing the mine working according to claim 1, characterized in that there are several holes with a flange for supplying a hardening mass to the sleeve.

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