RU51887U1 - FIRE FIGHTING SYSTEM IN BUNKERS - Google Patents

Abstract

The utility model relates to fire extinguishing systems and can be used on loading bunkers of thermal and electrical centers and enterprises using bunker storage of bulk materials and fuel raw materials. The achieved result is an increase in the reliability and efficiency of the elimination of fire inside closed containers, in particular storage bins with coal, which reduces the structural complexity and cost of the system under conditions of autonomous and automatic operation. The result is achieved in that in a fire extinguishing system in bunkers, including an aerosol generator, an electro-pneumatic valve with the ability to supply aerosol through a supply pipe to the hopper, a control unit connected to an electro-pneumatic valve, an electric ignition device in the aerosol generator and combustion detection sensors, and installed in the bunker zone, according to the decision, the supply pipe is equipped with an outlet pipe with perforations located in the central zone of the hopper volume, and sensors are located inside the latter combustion, made in the form of thermocouples, and the perforations of the outlet pipe are shielded by conical fairings.

Description

The utility model relates to fire extinguishing systems and can be used on loading bunkers of thermal and electrical centers and enterprises using bunker storage of bulk materials and fuel raw materials.

The most important task when using fire extinguishing systems in closed containers with coal is the timely supply of aerosol to the combustion zone and the uniform distribution of the fire extinguishing composition within the volume of the tank. Often, a fire extinguishing composition is supplied to the outer surface of the ignited mass of coal, which is ineffective, and with a sufficient bulk density, even the aerosol does not reach the combustion center in large bunkers, which complicates fire fighting.

A device for eliminating a fire of a complex technological object, comprising a sensor block of a fire signal, at least three fire extinguishers with shut-off and start valves, connected through pipelines to at least two collectors equipped with nozzles with membranes, characterized in that a controller, a pressure extinguishing agent pressure sensor installed in the pipeline connected to the first collector, a unit for determining the direction and strength of the air flow, while the second manifold is installed the drive, the first, second and third inputs of the controller are connected respectively to the outputs of the fire alarm sensor unit, the unit for determining the direction and strength of the air flow, and

a pressure sensor of the extinguishing agent installed in the pipeline, and the first output of the controller is simultaneously connected to the control inputs of the shutoff-start valves of the first and second fire extinguishers, the second output of the controller is connected to the control input of the drive, and the third output of the controller is connected to the control input of the shut-off valve of the third fire extinguisher , and the outputs of the first and second fire extinguishers with the corresponding shut-off and start valves simultaneously through pipelines connected to the input of the first collector, the output of the third fire extinguisher with the corresponding shut-off and start valve through a pipeline is connected to the input of the second collector. / RU Patent No. 2179870, 2002 /. The known device is unnecessarily structurally complex, does not provide effective fire extinguishing inside bunkers with bulk materials, is not universal to various types of industries and is not reliable enough in operation.

A known fire extinguishing system comprising a fire detection means, at least two different types of fire extinguishing devices, switched on simultaneously or sequentially, means for initiating them, characterized in that an aerosol generator or aerosol generators of any type with an aerosol cooling means are used as one fire extinguishing device, and as another or others, an aerosol-powder generator or aerosol-powder generators with an aerosol cooler is used or used I and / or aerosol-liquid generator or aerosol-liquid generators with the possibility of initiating a fire extinguishing device automatically by a signal from the control panel, or from a sensor, for example, thermal, smoke, spectral,

or from a fire-resistant cord, or manually by switching on a toggle switch or other starting device, or a combination thereof, and fire extinguishing device initiating means are additionally interconnected by a fire-conducting or bicford cord, while different types of fire-fighting devices are fixed at different points of the protected object, while aerosol powder and aerosol-liquid generators are directed by means for extinguishing the extinguishing agent directly onto fire hazardous materials that can accumulate heat energy. / RU Patent No. 2118551, 1998 /.

The known system is not effective enough for fire extinguishing inside bunkers with bulk materials, is not universal for various types of production and is not reliable enough in operation.

The closest is a fire extinguishing system, including a fire detection means, at least one fire extinguishing device, each fire extinguishing device having a guide nozzle or nozzles or guide nozzle or nozzles with a gas dynamic nozzle and a fire extinguishing combined charge consisting of either an aerosol generating fire extinguishing charge or charges, or an aerosol generating fire extinguishing charge or charges with heat absorbing charge, or from an aerosol-generating fire extinguishing charge or charges with a powder fire-extinguishing charge with a powder content of 30-100 wt.%, moreover, if there is more than one fire extinguishing device in the system

work simultaneously or sequentially, and device containers are interconnected gasdynamically. / RU Patent No.2113873, 1998.06.27 /

The known system is not effective enough for fire extinguishing inside bunkers with bulk materials, is not universal for various types of production and is not reliable enough in operation. The objective of the utility model is to increase the reliability and efficiency of the elimination of ignition inside closed containers, in particular storage bins with coal, reducing the structural complexity and cost of the system.

The problem is solved in that in a fire extinguishing system in bunkers, including an aerosol generator, an electro-pneumatic valve with the ability to supply aerosol via a supply pipe to the hopper, a control unit connected to an electro-pneumatic valve, an electric ignition device in the aerosol generator and combustion detection sensors, and installed in the bunker zone, according to the decision, the supply pipeline is equipped with an outlet pipe with perforations located in the central zone of the hopper volume, and detection sensors are located inside the latter Oren, designed as a thermocouple, and perforations outlet screened tapered fairing. Distinctive features are:

- the supply pipeline is equipped with an outlet pipe with perforations located in the central zone of the hopper volume (which allows to increase the efficiency of the system by supplying an aerosol to the center of possible combustion with a uniform distribution over the volume of the hopper);

- inside the outlet pipe there are combustion detection sensors made in the form of thermocouples (which simplifies the design and increases the reliability of the system).

- perforations are shielded by conical fairings, (which ensures that loose particles do not fall into the outlet pipe during operation of the hopper, which increases the manufacturability in normal operation and the reliability of operation during the elimination of fire.);

Comparison of the proposed solutions with analogues and other known solutions did not allow to identify in them the features that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "inventive step". The invention is illustrated by drawings, where Fig. 1 is a schematic diagram of a system with a section of a hopper, Fig. 2 is a section along A-A of the outlet pipe, and Fig. 3 is a section along BB, an enlarged fragment of a conical fairing.

The fire extinguishing system in the bunkers contains an aerosol generator 1, a control unit 2, combustion detection sensors 3, an electro-pneumatic valve 4, a supply pipe 5, a hopper 6, an outlet pipe 7 with perforations 8 and conical fairings 9, an electric ignition device 10 in the aerosol generator.

The fire extinguishing system in the bunkers operates as follows. In the process of filling and operating the hopper 6, the internal cavity of the outlet pipe 7 and the perforation 8 are in a free state without filling with a bulk product, because shielded conical

fairings 9 directed by the apex against the direction of motion of the granular product, such as coal chips. When creating conditions for the occurrence of combustion in the hopper 6, for example, a long emergency stop and an increase in temperature, a signal is sent from the combustion detection sensors 3 to the control unit 2 with the subsequent command to open the electro-pneumatic valve 4 and to the electric ignition device 10 in the aerosol generator 1. Aerosol flow through feed pipe 5 enters the outlet pipe 7 and through the perforations 8 is evenly distributed under pressure throughout the volume of the hopper, which ensures the elimination of fire.

The fire extinguishing system in the bunkers improves the reliability and efficiency of the elimination of fire inside closed containers, in particular storage bins with coal, and reduces the structural complexity and cost of the system under conditions of autonomous and automatic operation.

Claims (3)

1. A fire extinguishing system in bunkers, including an aerosol generator, an electro-pneumatic valve with the ability to supply aerosol via a supply pipe to the hopper, a control unit associated with an electro-pneumatic valve, an electric ignition device in the aerosol generator and combustion detection sensors installed in the bunker zone, characterized in that the supply the pipeline is equipped with an outlet pipe with perforations located in the central zone of the hopper volume, and combustion detection sensors are located inside the latter. 2. The fire extinguishing system according to claim 1, characterized in that the perforations of the outlet pipe are shielded by conical fairings. 3. The fire extinguishing system according to claim 1, characterized in that the combustion detection sensors are made in the form of thermocouples.