RU1803583C - Sealing of blast-hole - Google Patents

Abstract

Usage: the invention relates to the mining industry, in particular to sealing devices for supplying fixing compositions to bore holes. Essence: to increase the operational capabilities of the sealant and simplify its design, the sealant contains a central pipe, a sealing element and a check valve, the sealing element is made of elastic material, and the pipe cavity and the cavity of the sealing element have one-way communication, a plug with adjustable resistance is installed at the pipe end end shear in the form of a stopper supported on a flange interacting with an annular knife. 2 C.p. f-ls, 1 ill.

Description

FIELD: mining. SUBSTANCE: invention relates to mining industry, in particular, to sealing devices for supplying fixing compositions to a hole while reinforcing rock masses.

The purpose of the invention is to increase operational capabilities and simplify its design.

The invention is illustrated in the drawing.

The borehole sealant consists of a central pipe 1 with end nozzles 2 and 3, an elastic sleeve 4 is put on the pipe with end sections hermetically pressed 1 to the pipe 1. Radial holes 5 are made in the middle part of the pipe, closed by flap valves 6. Communicating chambers are made in nozzle 3, in one of which a check valve 7 is located, and in the other, a stopper 9 of a deformable material (for example, polyethylene) resting on the shoulder, the side surface of the shoulder 8 is connected by a threaded connection to an annular knife 10, which can be interconnected Working with the periphery of the cork surface 9.

The sealant works as follows. After the sealant is inserted into the borehole, a fastening compound is fed under the nozzle 2 into the cavity of the pipe 1 under high pressure, which enters through the radial holes 2, opening the flap valves 6, into the space between the elastic sleeve 4 and the surface of the pipe 1, radially sleeve 4 and bursting it thereby: in the hole. In this case, the force of strife. evenly distributed over almost the entire length of the sealing element (with the exception of small areas in the area where its ends are sealed) and reaches a value determined by the shear resistance of the plug 9, set in advance (before installing the sealant) by rotating the ring knife 10 and mixing it along the thread on the shoulder 8 with the introduction of cork 9 into the material at a calibrated depth.

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After that, the pressure of the fixing composition causes the plug 9 to be cut off and the composition flows into the hole. In this case, the pressure inside the pipe 1 drops, however, the thrust of the sealing element remains unchanged, since the flap valves 6 prevent the composition from leaking from the sleeve cavity. The valve 7 does not prevent the filling of the borehole, since its elasticity is set to be negligible. After filling the hole, the pressure in it and the pipe 1 rises to the maximum value specified by the pressure source, while at the same time as the pressure in the hole rises above the level at which the plug 9 was cut off, part of the composition again enters the sleeve 4, increasing the pressure of the sealant. After that, as the pressure in the hole is compared with the pressure of the source (pump), the check valve 7 closes the cavity of the pipe 1, preventing leakage of the fixing composition from the hole.

Due to the implementation of the sealing element (sleeve) not only elastic but also elastic, the limit of its radial deformation is significantly increased, which allows the use of the proposed sealant in a wide range of hole diameters, while the diameter of the holes practically does not affect the thrust force, i.e. e. its reliability is improved. The introduction of a plug cut off at a given pressure made it possible to provide the necessary seal spreader before filling the borehole to reduce the resistance of the non-return valve spring and to ensure that the borehole pressure was actually equal to the pressure developed by the source (pump), whereas without a plug it would be required to achieve preliminary expansion the sealing element to have a sufficiently large resistance of the check valve, as a result of which the pressure in the hole would be less than the maximum source pressure by the ratio

the force of the check valve spring to the cross-sectional area it overlaps.

Thus, the proposed sealant has increased operational capabilities by expanding

adaptability to changing the diameter of the holes and the approximation of the pressure level in the hole and the level of the pressure source (pump), this ensures the spacing of the sealing element along the length of the hole and an increase in the thrust force in proportion to the increase in the pressure of the composition in the hole.

Claims (3)

1. Seal hole, including a Central pipe placed on it a sealing element made of elastic material and a check valve, characterized in that, in order to increase the operational capabilities of the sealant and simplify its design, the sealing element is made in the form of an elastic sleeve, and openings are made in the central pipe for one-way communication with the cavity formed by the outer surface of the pipe and the inner surface of the sleeve, while the output end of the pipe has an annular knife and a plug with adjustable shear resistance. 2. The sealant according to claim 1, on the one hand, and that the plug is made in the form of a flange, on which a stopper is supported from a deformable material, the periphery of the surface of which has the ability to interact with the ring knife. 3. The sealant according to claim 2, with the exception that the plug is made of polyethylene.