EA012289B1 - Shaft waterproof bulkhead - Google Patents

Abstract

This invention relates to the mining industry, particularly to the construction of underground hydraulic structures and can be used in the exploration of mineral deposits that are situated in the difficult hydrogeological conditions. Proposed construction of the shaft waterproof bulkhead allows to raise a safety and effectiveness of the mining. Waterproof bulkhead includes front and back reinforced concrete walls, contacting with enclosing rocks, joint by reinforced concrete box-passageway, isolated from the rock mass by the chamber, filled by layer of crushed rock in its saturated water brine, the front wall, made in the form of arch dam, equipped with double-leaf swinging gates that compress itself at the expense of pressure of water, incoming in the working, the back wall, equipped with single-leaf gates of shed type, that open to the box-passageway ceiling with rotation by 90º, in that the inner surfaces of both gates openings and also side surfaces of its leafs are bevelled at designed angle to the box-passageway axis and lined with elastic chemical-resistant polymeric material.

Description

The invention relates to the mining industry, in particular to the construction of underground hydraulic structures, and can be used in the development of mineral deposits located in difficult hydrogeological conditions, including potash and other natural salts.

Known design mine waterproofing jumper, comprising a concrete wall in contact with enclosing rocks, a metal tube-hole with restrictive ribs, steel spatial reinforcement and an annular seal made of insulating elastic material in the form of sections with a U-shaped profile and transverse stiffeners [1 ].

The disadvantages of this design are the lack of delivery and evacuation of mining equipment and other technological objects in the overlapped part of the workings and the need for installation and dismantling of the covers of the pipe-manhole when using them. These shortcomings significantly complicate and reduce the efficiency of technological, repair and other underground works.

A known construction in contact with the enclosing rocks of a waterproofing lintel consisting of two walls, a metal pipe-manhole with a hatch and a chamber filled with compressed air [2] is a prototype. The disadvantages of this design are the presence of pipeline valves inside the manhole, which impedes the movement of materials, tools and equipment; insufficient waterproofing due to leakage from the air chamber; weak bearing capacity of the lintel, which does not prevent the development of fracture in the upper layer, which reduces the safety of mining operations.

The objective of the invention is to improve the safety and efficiency of mining operations in difficult hydrogeological conditions.

The task is achieved by the fact that in the mine waterproofing bridge, including front and rear reinforced concrete walls in contact with enclosing rocks, connected by a reinforced concrete duct, insulated from the rock massif with a chamber filled with a layer of crushed rock in its saturated brine, the front wall is made in the form of an arched dam, equipped with self-sealing due to the pressure of the double-wing swing gates entering the water production, and the back wall is equipped with a single wall rchatymi gate opening under potolochinu korobaprohoda rotated by 90 °, wherein the inner surface of the openings of both the target and the end faces are bevelled at their flaps calculated korobaprohoda angles to the axis and are lined with a flexible chemically resistant polymer material.

The figure shows the mine waterproofing jumper in the plan. It includes front 1 and rear 2 concrete reinforced walls in contact with host rocks 3, concrete reinforced box-passage 4, two chambers 5 filled with crushed rock in its saturated brine, double-wing swing gates 6, the inside surfaces of which, as well as end surfaces their flaps are bevelled at design angles to the longitudinal axis of the duct-passage and are lined with an elastic, chemically resistant polymeric material 12, single-leaf gates 7, the inner surfaces of which are openings, as well as end surfaces The spines of their valves are also beveled at design angles to the axis of the duct-passage 4 and are lined with an elastic, chemically resistant polymeric material 12.

Mine waterproofing jumper is built as follows.

To isolate the flooded workings in the enclosing rocks 3, wedge-shaped cut-outs 8 are created around the perimeter of the cross-section of the workings 11, the surface of the notches and the walls of the workings 11 are protected by a spray of concrete 9, and the enclosing casing and underlying rocks between the wedge-shaped cut 8, as well as behind them, are spaced 2 / 3 widths of production within the limits of the contour 13, determined by calculation, are treated with plugging solution through the wells 10, the cups are sealed with elastic chemically resistant polymeric material 12.

Between the cuts 8, formwork, steel reinforcement are installed and the monolithic box pass 4 is concreted with openings of the double swing swing gate 6 and single leaf gate 7, ensuring direct contact of the concrete of the box with the covering and underlying rocks. Gate area 6, 7 and cross-section of duct-passage 4 in the light is calculated on the basis of technological requirements for the movement of goods, equipment and personnel, ensuring sufficient mechanical strength of duct-walkway 4, taking into account the placement of controls for opening and closing of doors 6 and 7. The steel reinforcement of the front 1 and rear 2 walls is mounted with the insertion of its ends into the wedge-shaped grooves 8, the formwork and embedded parts of the doors 6 and 7 are installed, the front and rear walls are molded, ensuring tight contact with the end faces Tanks of the box and filling the space of the chamber 5 with crushed rock and its saturated brine. The presence of the chamber 5 prevents the dissolution of the rocks in contact with the lintel, increasing its reliability and durability. The inner surfaces of the door openings of gate 6 and 7, which are bevelled at design angles to the axis of the canal, are lined with elastic, chemically resistant polymeric material 12, and then double-winged swing gates 6 and single-leaf gates 7 are mounted. All (top, bottom and side) gate gate end surfaces 6 and 7, also beveled at design angles to the axis of the duct-passage 4 and in contact with the door openings and between themselves, have a lining of elastic, chemically resistant polymeric material. Urethane elastomers can be used as an elastic chemically resistant polymer material 12 (Chemical Encyclopedia, Vol. 5, p. 86, for example, SKU-7L). Due to the elasticity of the material about

- 1 012289 faces 12 when the gate is closed, reliable sealing of the contact points between the gate leaves 6 between themselves and with the opening of gate 6 and, respectively, the doors of gate 7 with opening of the gate 7 is ensured.

The inner surfaces of the openings and all (lower, upper, side) end surfaces of the doors of gates 6 and 7 are beveled at a wedge at design angles to the longitudinal axis of the shaft waterproofing bridge, as shown in the figure. The bevel angles are calculated depending on the hydrostatic pressure and the physicomechanical properties of the elastic polymer material. The chemical composition of the rock to fill each chamber 5 is chosen close to the average composition of rocks forming the outer wall of the chamber 5. The front wall 1 of the mine waterproofing lintel has the shape of an arched dam, facing the convex part toward the flooded part of the mine. This form allows the wall 1 to withstand a more significant hydrostatic pressure in comparison with a flat wall, performing in conjunction with the rear wall 2, the duct-passage 4 and the rock filling the chamber 5, the role of an artificial pillar. This increases the safety of mining operations, reduces the consumption of concrete, steel reinforcement and reduces the time of erection of the wall 1. Gate 6, depending on the size of the door opening and the calculated hydrostatic pressure can be flat or at high values of the calculated hydrostatic pressure - convex in the direction of the flooded parts of production. Gate 7 is flat. The design of the mine waterproofing jumper allows, if necessary, to automate the opening and closing of gates 6 and 7, to eliminate labor-intensive installation and dismantling of pipe-manhole covers compared to the prototype, and also provides self-sealing of the contact surfaces of the gates 6 and 7 between themselves and the gate opening.

Mine waterproofing jumper works as follows.

In case of breakthrough of groundwater or brines into the isolated part of the mine workings 11 and the subsequent increase in their level, hydrostatic pressure on the wall 1 and the double gates 6 of the shaft waterproofing bridge increases, which creates the potential danger of breakthrough of water or brines to the mining zone. However, along with the increase in the pressure force on the doors of the gate 6, there is a wedging indentation in the opening of the gate 6 and centering, thanks to the flexibility of the elastic, chemically resistant polymeric material 12, and the forces directed perpendicular to the contact surfaces of the doors and opening of the gate 6 increase proportionally. and sealed contact. Thus, with increasing hydrostatic pressure on the doors of gate 6, gate 6 is self-consolidating. Moreover, due to the presence of vertical components of forces perpendicular to the contact surfaces of the leaves and gateway 6, the resistance of wall 1 to the destructive effect of rock pressure increases and more reliable maintenance of the roof is ensured working out.

In the event of an emergency breakthrough of water or brines into the space between the walls 1 and 2 of the shaft waterproofing lintel, the same mechanism will cause self-sealing of gate 7 and increase the resistance of wall 2 to rock pressure.

When using the lintel, the delivery and evacuation of mining equipment and other technological objects to the overlapped parts of the workings is carried out without long and laboriously underground operations of mounting and dismounting the elements of the mine waterproofing lintel.

To reduce the possible filtration bypassing the lintel, along its contact surface with the rock, a cement curtain is arranged throughout the lintel by injecting special solutions with the help of wells 10.

Thus, the proposed design of the shaft waterproofing jumper allows to increase the safety and efficiency of mining operations, and the set of its essential features can be repeatedly used in mining operations in difficult hydrogeological conditions.

Information sources

1. Patent AI 2219350, publ. 12.20.2003.

2. A.S. 8I 317809, publ. 03/15/1978 - the prototype.

Claims (2)

CLAIM 1. Mine waterproofing bridge, including the front and rear reinforced concrete walls in contact with the host rocks, connected by a reinforced concrete duct-passage, isolated from the rock mass by a chamber filled with crushed rock in its saturated water brine, characterized in that the front wall is made in the form an arch dam equipped with double-wing swing gates self-sealing due to the pressure entering the water production, and the rear wall is equipped with single-wing garage doors type, opening under the ceiling of the duct passage with a 90 ° rotation, while the inner surfaces of the openings of both gates and the end surfaces of their wings are beveled at design angles to the axis of the duct passage and lined with an elastic chemically resistant polymer material. 2. Mine waterproofing lintel according to claim 1, characterized in that the double-wing swing gates are made convex in the direction of the flooded mine.