RU2094614C1 - Active fire-prevention stopping - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: it is erected in underground mine workings for isolation of aflamed section of mine from remaining part of mine. Such stoppings increase reliability of foam producing process and safety of operations. Active stopping has air inflated partition with excess-pressure valve. Located horizontally in partition is hollow cylindrical member with caps in ends which is made up of hollow rims interconnected to each other by parallel tubular rods. Also provided are sprayers for solution of foaming agent and nitrogen, foam-generating screen and gas-generating device located on end cap at side of operating work faces. Cap is provided with thermal-insulating coating and is made in the form of holder with individual built-in barrels with thermal-insulating walls and hermetic locks at side of operating work faces. Outlets of barrel bores in space of cylindrical member are provided with non-return valves. To produce foam of high inhibiting action, explosive cartridges are installed in barrels. This design allows for adjusting of foam-producing intensity without interruption for cooling of gas-generating device. EFFECT: high efficiency. 3 dwg

Description

 The invention relates to fire fighting structures erected in underground mines for emergency isolation of a fire-covered area from the rest of the mine.

 Known fire active bridge, including an explosion-proof partition with a pipe made in the form of a pipe, pipelines for supplying components for generating foam, a foam generator, a spray bottle (ed. St. USSR N 560069, class E 21 F 1/14, 1974).

 The lack of a jumper in the need to build a traditional capital insulating structure, which increases the isolation time, reduces the efficiency, safety and reliability of isolation and extinguishing fires. The jumper requires large labor and material costs for its construction and dismantling when opening the emergency section.

 The purpose of the invention is to increase the reliability of the process of obtaining inert foam and the safety of work on the elimination of accidents.

 This is achieved by the fact that with the improvement of the prototype, which includes a partition, a cylindrical element horizontally located in it with a foam-gas generator grid, in the cavity of which a foam-spraying solution is installed and an additional installation of a cartridge with a heat-insulating coating made in the form of a set cylindrical shafts with heat-insulating walls, having sealed gates located on the side of the active mine, while m the outputs of the channels of the trunks in the cavity of the cylindrical element are equipped with check valves.

 The proposed set of distinctive features (technical solution of the foam-gas generating device) allows to increase the working campaign of the process of generating inert foam with a high content of inhibitory composition without stopping to cool the charging store, while ensuring increased safety when using pyrocartridges.

 In FIG. 1 shows a fire active jumper; in FIG. 2 constructive solution of the cover with a gas generating device; in FIG. 3 is a view A in FIG. one.

 Fire active jumper contains an inflatable baffle 1 with an overpressure valve 2, a cylindrical element 3 horizontally located in the baffle with lids 4 and 5 at the ends. The cylindrical element 3 is made of hollow rims 6 and 7, interconnected by parallel tubular rods 8, which, in addition to the stiffening elements of the cylindrical element 3, also perform liquid nitrogen evaporators. At the same time, the hollow rim 6 is equipped with a nozzle 9 for supplying liquid nitrogen, and the rim 7 with nozzles 10 for dispensing nitrogen into the cavity of the cylindrical element 3, in which the atomizer 11 is located, which can be shifted to the lower position behind the nozzle 12 for supplying the foaming agent through the cylindrical element 3 people in the exploration of an emergency mining site.

 In the cover 4 with a heat-insulating coating 13, a gas-generating device is mounted in the form of a cartridge containing trunks 14 with heat-insulating walls, shutters 15 and check valves 16 for placement of pyrocartridges 17 of the GGU type in their cavities. The lattice frame of the cylindrical element 3 on the outer side is covered with a filter mesh material 18, designed to act as a foam-generating element.

 The active jumper works as follows.

 The jumper 1 with a built-in cylindrical element 3 is mounted in a mining at the near approaches to the area covered by the fire. Then, supply pipes (not shown) of liquid nitrogen and a foaming agent solution, respectively, are connected to the nozzles 9 and 12. In the trunks 14 lay the gas-generating squibs 17 with built-in elements of the remote start to work. After the installation is completed, liquid nitrogen is supplied through the pipe 9, and a foaming solution is supplied to the pipe 12. At the same time, one or two gas-generating cartridges 17 are put into operation, depending on the set foam generation rate, type of gas-turbine generator and the required content of foam aerosol with increased inhibitory effect. Due to the generated hot gases, liquid nitrogen evaporates in the tubular rods 8 and is sprayed as gas through nozzles 10 into the cavity of the cylindrical element 3, where the spraying of a stream of inert nitrogen gas, a foaming solution and inhibiting aerosols of the MGU is actively mixed with their extrusion through a foam generating element (mesh) 18 into the cavity of the inflatable partition 1 with the formation of foam aerosols with increased inhibitory effect. Excess foam through overpressure valve 2 to fill an isolated emergency mine site.

 After complete or partial combustion of the gas-generating cartridge in one or two shafts, the next squib (squib) is put into operation without stopping the injection of foam aerosols into the emergency section, and new squibs are installed through the shutters through the shutters 15. Check valves 16 provide reliability of tightness against pressure in the cavity of the cylindrical element 3.

 If necessary, to ensure the transportation of foam to fill the volume of the emergency section, in order to expose the foam aerosol directly to the combustion zone, pyrocartridges 17 with increased gas release are placed in the shafts 14, while providing a large supply of liquid nitrogen and a foaming solution, the yield of foam aerosol correspondingly increases.

 The proposed jumper allows you to ensure the reliability of the process of obtaining foam aerosols of increased inhibitory action, to regulate the process of its injection into the emergency section. This makes it possible to increase the efficiency and safety of fire extinguishing in mining, while reducing material and labor costs for the production of works.

Claims (1)

 A fire active jumper, including a baffle, a cylindrical element horizontally located in it with a foam-gas generating grid, in the cavity of which a foam spray nozzle is installed, characterized in that the jumper is equipped with a cartridge with a heat-insulating coating mounted on the end of the cylindrical element from the side of the working output, made in the form of a set of cylindrical barrels with heat-insulating walls, having sealed gates located on the side of the active mine, and the exits of the channels of the trunks into the cavity of the cylindrical element are equipped with check valves.

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