RU27404U1 - DEVICE FOR ESTABLISHING A TEMPORARY ISOLATING JUMPER - Google Patents

Abstract

A device for erecting a temporary insulating bridge containing a fire-irrigation pipe of a mine with a branch pipe to a mine and a refrigerant supply pipe, characterized in that a fire-irrigation peak with fan-directed nozzles is connected to a pipe of a fire-irrigation pipe of a mine with fan-directed nozzles through a pipe channel, oriented to the breathable sail of the insulated part of the mine, and the supply of refrigerant to form a temporary insulating bridge is carried out in the lower part of the production under the spray flow of water along the installed separation plate through the spray pipe manifold of a heat exchanger, for example, a low-temperature nitrogen aerosol.

Description

Device for the construction of a temporary insulating jumper E21 F 5/00

The utility model relates to mining and rescue and can be used to isolate emergency mine workings.

A known method of creating an ice insulating jumper, which consists in pre-installing a tubular heat exchanger connected to a coolant and a coolant supply in a cross section of a mine, supplying refrigerant to a heat exchanger to freeze the water supplied to the surface of the heat exchanger (USSR copyright certificate No. 872775, class E 21 F 5/02, 1979).

The disadvantage of this method is the high cost of time, labor and material resources for freezing the ice bridge. The cooling effect of the coolant in the tubular heat exchanger when freezing the body of the bridge is reduced.

A known method of erecting a jumper using hardening chemical foams, such as foams, which consists in preparing and mixing the components to obtain a foam and pumping the resulting mixture into the deck space (USSR copyright certificate No. 848685, class E 21 F 1/14, 1974).

However, the known method requires the use of expensive chemical components and complex plants to obtain a foam and is not economically feasible for the construction of temporary jumpers.

The purpose of the utility model is to reduce the cost of the technical solution of the device for the construction of the jumper.

This is achieved by the fact that the mine’s mine is preliminarily supplied with a fire lance with its laying on board a mine containing a fire-irrigation pipe, to the branch pipe of which a fire lance is connected via a flexible hose, and its fan-directed nozzles are located along the pipe channel and oriented towards the breathable sail insulated parts of the mine, and the supply of refrigerant for the formation of a temporary insulating bridge is carried out in the lower part of the mine under the spray stream of water along an installed separation shield over the spray pipe manifold of a heat exchanger, for example a low temperature nitrogen aerosol.

The proposed set of distinctive features of the device of the utility model allows to provide a positive effect due to more reliable temporary isolation of the emergency site in hard-to-reach places; places due to the simplest pipe devices of the fire lance and the spray manifold.

The scheme includes a mine shaft 1 with a fire-irrigation pipe 2, equipped with a branch pipe 3 with a flow valve 4, a flexible hose 5 and a fire lance 6 connected to it with fan-guided nozzles 7 oriented to a breathable sail 8. A fire lance 6 is fixed at the top of the mine with fasteners 9 for its release in the idle position on board generation 1. The refrigerant for the erection of the bridge is laid in the lower part of the generation by pipeline 10 with its connection to the pipe manifold 11 with fan-shaped spray lyami 12, installed across the output 1 under the dividing shield 13.

The device operates as follows.

In mining 1 at branch 3 of the fire-irrigation pipe 2, a fire peak 6 is installed from its side, and a pipe collector 11 with fan-shaped nozzles 12 and a dividing shield 13 is connected to pipe 10. Then, a breathable sail 8 installed at the top of the mine is secured with its unfastening on the sides of the output.

For the formation of the body of the jumper, production 1 is pre-cooled with subsequent supply to the fire peak 6 with its fan-shaped nozzles 7. The cooling effect of the refrigerant in the form of a low-temperature nitrogen aerosol below 10 ° C freezes water droplets from the nozzles 7 and sprinkles them in the form of snow with the flow of refrigerant onto the sail 8, at this gaseous refrigerant passes into the insulated space to inertize the atmosphere of the fire section. The dividing plate 13 eliminates the possibility of freezing of the nozzles 7 of the fire lance 6.

The use of the proposed utility model of the device for the construction of a temporary insulating jumper provides an increase in the efficiency of the production of insulation work in the exploration and elimination of underground fires. In conditions of negative temperatures, jumpers can be long-term, and at positive temperatures they are used as temporary ones, for example, in technological schemes for reducing the boundaries of a fire section when periodic construction of jumpers and their destruction is required. In addition, the proposed device provides a reduction in the time of elimination of accidents, increasing the efficiency and safety of mining operations with minimal economic costs

Patent specialist R.V.Dikova

Authors --7 -... A.E. Chuprikov

Claims (1)

A device for constructing a temporary insulating bridge containing a fire-irrigation pipe of a mine with a branch pipe to a mine and a refrigerant supply pipe, characterized in that a fire-irrigation peak with fan-directed nozzles is connected to a pipe of a fire-irrigation pipe of a mine with fan-directed nozzles through a pipe channel, oriented to the breathable sail of the insulated part of the mine, and the supply of refrigerant to form a temporary insulating bridge is carried out in the lower part of the production under the spray water stream along the installed separation plate through the spray pipe manifold of a heat exchanger, for example, a low-temperature nitrogen aerosol.