SU840411A1 - Hydraulic insulation partition - Google Patents

Description

(54) WATERPROOFING LINKAGE

I

The invention relates to Underground structures and can be used to waterproof offshore workings, for example, in salt and potash mines.

A known waterproofing bridge includes a waterproof stanza installed in a cross section of a mine working in contact with the mining rocks, the body of which houses pipes for supplying cement slurry to press the contact of the waterproof wall with the mining mining rocks and connects with control chambers , executed on. the contact of the waterproof wall with the rocks of the excavation in the form of sectional slotted depressions dispersed along the outer perimeter of the waterproof wall filled with pro-. air impermeable to the cement slurry material, which is used as sand, treated with petroleum products 1.

Also known is a waterproof barrier, which includes a watertight wall installed in a cross-section made along the perimeter of the mine workings, a waterproof wall and in contact with enclosing rocks, a manhole pipe with a hatch installed on the side of a possible water inflow, along the perimeter of the manhole have holes with reinforced in them, fittings for creating in the waterproof wall of the dies for supplying the cement slurry for pressure testing the contacts of the waterproof wall with enclosing rocks, injection Shui offtake pipes with stop valve and a control chamber connected thereto vozduhogyudayuschey pipe and test equipment 2.

. However, the construction of jumpers in existing mining and mining workings, which are at risk of possible flooding, is associated with great technical difficulties, due to the need to turn off ventilation, transport lines and other utilities, to stop the operational part of the mine floor or the entire mine, to take special measures to providing the necessary conditions for yqacTffe construction of peremykam (sinking of additional shafts, etc.).

The purpose of the invention is the possibility of constructing a jumper in a mining site without shutting down general mine verification, restructuring the production processes of the mine and speeding up the construction of the jumper.

The goal is achieved by the fact that the jumper is additionally equipped with at least one manhole pipe with a hatch with an autonomous equipment for crimping the contacts of the waterproof wall and monitoring their tightness, and the control chamber is made in the form of sectional slit recesses distributed around the outer perimeter of the waterproof wall, while each slotted recess is filled with air-permeable and cement-tight material, which is used sand, oil-treated Food and packed in a label, which is attached in the recess by means of metal bars and anchors.

FIG. 1 shows the proposed jumper, a longitudinal section; in fig. 2 shows sections A-A and B-B in FIG. one; in fig. 3 shows a section B-B in FIG. one.

The bridge consists of a waterproof concrete wall 1, two metal pipes 2 and 3 with diameters providing free passage through the pipes, pressure 4 and an air vent 5 pipes with taps 6. Along the circumference of each tube, there are two independent tampers A system of shtutsers 7 reinforced in the holes, which drilled through the concrete wall of the cement hole bores 8, before the contact of the wall with the host rocks. On the side of the possible inflow of water on the torPs of the pipe-lases, metal hatches 9 are installed. On the perimeter of generation 10, on contact with the concrete wall in the enclosing rocks, KaMefpa II is made in the form of sectional grooves of cavities to control the tightness of the contacts with compressed air.

In the chambers are placed cloth bedchambers with sand 12, treated with petroleum products (oil, fuel oil, etc.). This is necessary in order to prevent the tampon from entering the chamber. It is important for the material used in the crimping of contacts. Meshchki reinforced in the control chambers with metal plates 13 and anchor bolts 14, installed in the host rocks. Control pipes 15 with cranes 16 and pressure gauges 17 are installed from lazy pipes in the control chambers. A formwork 18 is installed at the ends of the concrete wall in the form of brick walls or partitions. After mounting the lasers 2 and 3, the fittings of all lintel assemblies, the equipment of the control device II and the construction of the formwork 18 reproduce the filling of the lintels of the lintel with a cementing solution. The supply of mortar For the formwork 18 is carried out on the injection pipe 4, and the extraction of pressed air through the pipe 5. After the concrete wall is created, the contacts of the wall with enclosing rocks and concrete with the pipe-holes 2 and 3 are made by pressing cement mortar on the drills 8, drilled through the holes with fittings 7 in the cement slurry. Next, check the tightness of the lintel with compressed air using the test device 1I by supplying air through pipes 15. If there are air leaks from one or another part of the switch, which is fixed by the readings of mayometers 17, the permeable portions are additionally pressed to their full tightness.

The process of crimping jumper contacts, as shown by the practice of erecting them, is a complex, heavy operation and time consuming.

The presence in the bridge of two pipe lazes with independent plugging by themselves makes it possible to combine the two sets of works. While in tube-laser 2, work is done on crimping the bulkhead, pipe-hole 3 serves to ensure the normal operation of the mine, providing airing, emergency exits and cargo transportation.

After completion of the pressing operations in the tube-laser 2, they are transferred to the tube-hole 3, and the tube-hole 2 serves for the production needs of the mine. The change of the above types of work in the pipe-sleeves 2 and 3 is carried out until it reaches full hermetic-. buildings.

The invention allows the construction of lintels in existing mine workings without shutting down general ventilation, restructuring production processes of the mine and speeding up the construction time.

Claims (2)

1. USSR Author's Certificate for Application No. 2712236 / 22-03, cl. E 21 F 16/00, 01/08/17. 2. USSR author's certificate number 317809, cl. E 21 F 16/00, 1968. tiL Vf I  // y-