SU1726766A1 - Method of erecting waterproofing dike in mine drifts - Google Patents

Abstract

The invention relates to the waterproofing of mine workings in underground mining of potash ores. The goal is to increase the reliability of the protection of mine workings from emergency water inflows by reducing the time spent on the construction of waterproof concrete bridges as a result of a decrease in the volume of laid concrete. Along the perimeter of production form a wedge-shaped cutting. Formwork was erected at the borders of the cut. After the formwork has been erected from the water inflow side in the wedge-shaped groove, a segment of tubings is additionally erected with a convex side against the direction of water inflow into the abutment with the side walls of the wedge-shaped groove. Then the cavity between the formwork and the tubing segment is filled with concrete. After that, formwork was erected from the side opposite to the water inflow, and the cavity between it and the tubing segment was concreted. After the body is formed, the lintel compresses its contact with enclosing rocks by supplying cement slurry through the holes. 2 Il. . SO with

Description

The invention relates to mining and can be applied in methods for isolating mine workings from emergency water inflow into the mine in the period before the completion of the construction of permanent bridges in the development of potash and salt deposits.

The purpose of the invention is to increase the reliability of protection of mine workings from emergency water inflows by reducing the time spent on erecting a temporary waterproof concrete lintel as a result of reducing the volume of laid concrete by additionally erecting a segment from tubing in a wedge-shaped section, which allows it to be protected in a short time. temporary jumpers to complete the construction of a permanent jumper, requiring significant labor costs and ensuring the safe operation of the mine All time of its existence.

Figures 1 and 2 schematically depict a temporary jumper.

The jumper consists of a wedge-shaped concrete body 1, in which holes have been drilled for cementing the contact of the jumper with rock 5. The temporary jumper is installed on the water flow path 4 near the water breakthrough site at site 2 with a minimum number of cracks and clay interlayers in the walls. Jumper

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provided with a segment, which consists of mine cast iron tubing 3 connected at the ends with each other by bolts 6. The segment is installed vertically in the front part of the jumper into the stop with the side walls of the wedge-shaped section of the mine 7 and convex part is located opposite to the water flow 4. Front and rear part of the jumper made in the form of hollow cylinders 8, the outer diameters of which are larger than the diameter of the excavation 2,

The proposed jumper is raised; in the following way.

Production is cut without drilling and blasting under a wedge-shaped jumper, then the front part of the concrete lintel is constructed from the water inflow side (not shown), crushed stone is filled in as the concrete filler in the lower front part and the segment is assembled from tubings 3, fastened together by bolts 6, convex side against the direction of water inflow into the support with the side walls of the wedge-shaped groove production. Through tubing holes 9 through the hoses pumped concrete solution (alternately through each tubing from the bottom row to the top) into the cavity between the convex side of the segment and the front formwork. The rear formwork of the lintel (not shown) is erected, after which crushed stone filler is poured into the lower part and concrete solution is laid. After the solution is set, the plugging holes 5 are drilled, along which the bridges with enclosing rocks are plugged into the contact cavity with the solution.

The jumper works as follows.

By the pressure of the water flow 4, the tubing segment 3, together with the wedge-shaped walls of the lintel 1, is wedged in the beveled walls of the groove of the mine 7, which sharply increases the strength properties of the lintel.

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Formula a and zo b rete n i

The method of erecting a waterproofing bridge in mine workings, including the formation of a wedge-shaped section along the perimeter,

the boundaries of the cutting of the formwork, the formation of the lintel body by supplying concrete in the space between the formwork and sealing the contact of the lintel body with the enclosing rocks by the supply of cement slurry

for boreholes, characterized in that, in order to increase the reliability of the protection of mine workings from emergency water sources by reducing the time spent on the construction of waterproof concrete

bridges as a result of a decrease in the volume of concrete being laid, after erection of formwork from the water inflow side a wedge-shaped section is additionally erected with convex tubings

side against the direction of water inflow into the support with the side walls of the wedge-shaped groove, then fill the resulting cavity with concrete between the formwork and the tubing segment, after which

formwork from the side opposite to the waterfall, and concretes the cavity between it and the tubing segment.

FIG. 2

Claims (1)

SUMMARY OF THE INVENTION A method for erecting a waterproofing lintel in mine workings, including forming a wedge-shaped cut along the perimeter of the working, erecting formwork at the cutting edges, forming a lintel body by supplying concrete in the space between the formwork, and sealing the contact of the lintel body with the surrounding rocks by grouting the borehole, characterized in that that, in order to increase the reliability of protection of mine workings from emergency water inflows by reducing the time spent on the construction of waterproofing of concrete lintels as a result of a decrease in the volume of laid concrete, after erecting the formwork from the side of the water inlet in the wedge-shaped groove, an additional segment is erected from the tubing with the convex side against the direction of the water inlet with an emphasis with the side walls of the wedge-shaped groove, then the concrete cavity between the formwork and the segment from the tubing is filled with concrete after which the formwork is erected from the side opposite to the water inflow, and the cavity is concreted between it and the tubing segment. FIG. I <7 ‘ FIG. 2