RU27405U1 - INSTALLATION FOR ESTABLISHING AN INSULATING JUMPER - Google Patents

Abstract

Installation for the construction of an insulating bridge, containing a fire and irrigation pipe of the mine with a branch pipe to the mine, a gasification unit with grouting apparatus having inlet and outlet pipes, a formwork with filing pipes for a filler pulp, characterized in that the pipe formwork pipes are provided with three internal spaces built-in dispersers of the flows of the components of the filler pulp, namely the terminal section of the fire-irrigation pipeline with the perforated section t tubes made in the form of a semicircle with its vertical exit to the cylindrical body of the opening ice, an annular collector for the supply of grouting foaming solution and an annular gas supply manifold of compressed inert gas equipped with fan-shaped nozzles, while the annular gas supply manifold is located in the lower part of the inner deck space.

Description

           7E21F5 / 00

Installation for the construction of an insulating jumper

A useful model of the installation relates to mining and can be used to isolate sections of mines during emergency operations.

A known method and device for creating an ice insulating jumper and its elimination, which consists in freezing the body of the jumper by means of an installed tubular heat exchanger with the supply of liquid nitrogen through it with simultaneous supply of water to the heat exchanger, and with the destruction of the heat carrier (USSR author's certificate No. 872775, class E21F5 / 02, 1979).

The disadvantage of this technique is the short duration of operation in conditions of positive temperatures, and to maintain the jumper material costs are required in the form of a flow of liquid nitrogen and its constant maintenance.

The known method of Chzshrikov is the construction of an isolating bridge and its elimination, including the installation of a collector with gaskets supplying: and diverting .. nozzles communicated in series with the source of supply of the working agent in the form of an non-explosive destructive composition, forming the body of the insulating bridge and supplying an non-explosive destructive collector to the inlet pipe funds (USSR author's certificate No. 1680980, class E21C 37/00, 1989).

The disadvantage of this method is the absence of visible signs of tube filling and control of filling with the working fluid of the entire space of the collectors 2 and 6, which limit the trilina of the jumpers, i.e. limit the scope.

The purpose of the utility model is to improve the known method and means by reducing material and labor resources, expanding the scope of application of technical solutions for the isolation and extinguishing of underground fires.

This is achieved by the fact that in the installation for the construction of an insulating jumper containing a fire and irrigation pipe of the mine with a branch pipe to the mine, a gasification unit with a grouting apparatus having inlet and outlet pipes, a formwork with pipes for supplying a mixture of filler pulp, while the pipes of the formwork of the jumper equipped in the inner deck space with three built-in dispensers for the flow of components of the filler pulp, namely the terminal section of the fire-irrigation pipe in the inside palubochnom space has a perforated pipe portion formed in a semicircle, with a vertical outlet to proemnuyu lyadu annular manifold flow of cement slurry and an annular gas supplying pressurized inert gas collector provided with veeronapravlennymi nozzles, wherein the gas supply annular manifold located at the bottom of vnutriopalubochnogo space.

The proposed set of distinctive features made in the form of structurally foam flows of components of the filler pulp in the form of three types will allow, in comparison with the prototype, to have the following advantages:

there is a complete filling of the inner deck space with the components of the mixture;

this allows foaming of the components of the mixture, which reduces the consumption of the original insulating materials;

mobility of the technical process of isolation in connection with the movements of the installation;

complete mixing of the components of the filler mixture is achieved with their continuous phased dispersion.

The drawing shows a schematic diagram of a possible variant of the device for implementing a useful installation model.

The scheme includes an emergency mine 1, isolated by a formwork 2 with an aperture 3, equipped with a branch 4 of a fire-irrigation pipe 5, with a flow valve 6 and a working pressure gauge on the pipe branch 4, which is equipped with a perforated half-ring 7 with its vertical exit to the cylindrical body 8 of the opening Lyady 3. The fire-irrigation pipeline 5 has an additional pipe branch 9 equipped with consumable valves, including for filling the apparatus 10 of the AT-250 grouting type located on the gasification platform 11 Fitting "COMBI (RosNIIGD design a set of equipment for mechanization and safe isolation) having a reservoir 12 for storing and dispensing liquid nitrogen and productional evaporator 13. gasification installation has conduits 14 and 15 connected to perfoiM-fiy i s

The shaped annular manifolds 16 and 17 for feeding into the formwork space 18 of the formwork 2. The piping 15 for supplying the compressed nitrogen gas to the annular manifold 17 has a working pressure gauge 19 and a flow valve 20 for regulating the supply of the gaseous product. The fire-irrigation pipe at the outlet has a working pressure gauge 21.

Installation works as follows:

When isolating emergency sections of the mine, explosive-proof insulating jumpers are formed from quick-hardening materials, including foamed suspensions (copyright certificate No. 1278466). During the formation of the body of such jumpers in order to reduce the consumption of insulating materials and their subsequent elimination during re-preservation or opening of the emergency section, the starting material of the bridge is foamed.

The scheme includes three options for dispersants made in the form of

perforated annular collectors 7, 16 and 17, which, during the supply of water (or foamed suspension) to them, a foaming flow stabilizer and a compressed gaseous product in the form of gaseous nitrogen or its aerosol with a reduced negative temperature of T 100 ° C, can minimize the consumption of insulating components filler mixture. At the same time, the grouting apparatus 10 may include not only a foaming stabilizer of the structure, but also various solutions of grouting additives to isolate the fracturing of the lateral rocks surrounding the bridge.

The use of the proposed methods for the creation of insulating bridges significantly increases the safety and efficiency of mining operations during isolation and de-preservation of underground emergency sites in coal mines and mines

Patent specialist

The authors

2

Claims (1)

Installation for the construction of an insulating bridge, containing a fire and irrigation pipe of the mine with a branch pipe to the mine, a gasification unit with grouting apparatus having inlet and outlet pipes, a formwork with filing pipes for a filler pulp, characterized in that the pipe formwork pipes are provided with three internal spaces built-in dispersers of the flows of the components of the filler pulp, namely, the terminal section of the fire-irrigation pipeline with the perforated section t tubes made in the form of a semicircle with its vertical exit to the cylindrical body of the opening ice, an annular collector for the supply of grouting foaming solution and an annular gas supply manifold of compressed inert gas equipped with fan-shaped nozzles, while the annular gas supply manifold is located in the lower part of the inner deck space.