UA30006U - 'tornado' device for automatic fire-extinguishing - Google Patents

Abstract

'Tornado' device for the automatic fire-extinguishing consists of the housing with the head attached via the rubber ring and the pyrotechnical gas generator designed as the cartridge case with the electric igniter connected through the wires with the power supply. The current is applied to the electric igniter via the contacts of the heat-sensing device or the backup device of the manual actuation. The fire-extinguishing powder contained between the pads with the felt wad and the stretched plug is ejected due to the pulse in the gas chamber generated upon the flash of the powder charge actuated by the electric igniter upon the onset of the fire. The diameter of the air and powder cloud increases due to the conical shape of the outlet of the housing.

Description

Description of the invention

The useful model refers to automatic installations of powder fire extinguishing of impulse action with a pressure source in the form of a pyrotechnic element for extinguishing the area and volume of fires of classes A, B, C, as well as electrical installations under voltage in closed rooms and difficult places at energy supply facilities, automotive , railway transport and aviation, on ships of the sea and river fleet - in places where there are no fire safety controls and no people.

A well-known installation for fire extinguishing in closed volumes of cable tunnels and half-story industrial 70 buildings | see description of the utility model patent Mo23172, bull. Мо4 dated 31.08.1998), where the direct-flow spray heat exchanger has the shape of a flat box, and its front and rear walls, being screens, are made of heat-resistant material, while the working fluid supply system is connected to the hydraulic motor of the drive system of the direct-flow spray heat exchanger through those direct This installation, despite the additional equipment of a remote and automatic control system with thermal control sensors, is inefficient due to the use of water as a working fluid, which can freeze at low temperatures, and is not reliable due to the use of complex electrical mechanisms that can be de-energized during fires. At the same time, the above-mentioned installation is more expensive compared to others.

A vehicle fire extinguishing device is also known | see description for the utility model patent

Mo50623, blvd. Mob from June 15, 2005), which contains a fire alarm, a control unit, a disconnecting valve, an electromagnetic valve, which is connected through a pneumatic pipeline to a tank for fire-extinguishing powder compounds. This device is also inefficient and unreliable due to the use of an electric motor, where the fire extinguishing powder mixture is mixed with compressed air and may not be delivered to the flash point due to the failure of the electric motor when it is de-energized. In addition, this device is complex and expensive compared to analogues. 29 The closest in terms of technical essence to the claimed useful model is the description of the "Chance fire-extinguishing 2 powder device" | see the description of the declarative patent Mo1874, Bull. Mo from 16.06.2003 | where a bottom with a striker is installed in the cylinder body, as well as a piston for ejecting fire-extinguishing powder, a powder charge and an igniter in the form of a capsule. The bottom housing has a channel connecting the housing chamber between the bottom and the piston - with the atmosphere. This device is more progressive, it is fast-acting and safer to use, but when it is limited in its firefighting capabilities and is effective only for extinguishing fires in the initial stage of their outbreaks with the help of an operator.

The basis of the useful model is the task of improving and automating the process of impulse supply of fire-extinguishing powder from the installation by adjusting the amount of fire-extinguishing powder supply and thus increasing the fire-extinguishing capacity, improving the reliability of the installation with relative simplicity of construction and economic efficiency as a whole. co

The task is solved by the fact that a low-voltage electric exciter is used in the cylindrical body of the installation in the pyrotechnic gas generator, which is connected through connecting wires and a connector to a heat sensor with a power source, which is turned on by the heat sensor when a critical "temperature (fire) occurs, as a pyrotechnic gas generator, a sleeve is used hunting cartridge, allowing 70 to adjust the amount of powder charge and thereby the amount of fire-extinguishing powder used. Used o, c for sealing parts - a rubber gasket, which is installed in the rolled part of the case and a shutter with a "tightening" - in the output part of the case, exclude the ingress of moisture inside the case to the fire-extinguishing powder, which ensures the reliability of operation and use in any humid environment .

The placement of the powder charge in the housing of the hunting cartridge case and the independent puffing of this powder 5 charge excludes the ingress of moisture to the powder. Automatic fire extinguishing system "Tornado" is explained by the drawing (Fig. 1), which shows the general view in section and the connection diagram, and in Fig. 2, the electrical exciter of the installation is shown in section.

The automatic fire extinguishing system "Tornado" consists of a housing - 3, in the rolled wall of which, with the help of a locking ring - 12 and with the help of a rubber gasket - 13, the head of the housing - 2 is fixed in the axial hole 20 of which a connection - 14 with an electric exciter is placed - 15, which is located in the pyrotechnic gas - generator - 5, installed through the nozzle - 16 and the body sleeve - 4 on the body head - 2. With the help of the camera sleeve - 6, which rests on the head - 2 and gaskets - 8 with a pjj - 17 - a formed gas chamber, which serves for the complete combustion of the powder charge and is calculated constructively depending on the mass and quality of the fire-extinguishing powder - 9, placed between the gasket - 8 and the felt pumice - 17 on one side and the plug 29 - 10 with tightening - 19 - with the other side, without stopping the emission of fire-extinguishing powder when the installation is activated. Through the connecting wires - 11 and their connector, the supply is carried out from the electric source located in the heat sensor - 18 to the electric alarm - 15 in the presence of a fire and activation of the contact of the heat sensor. To duplicate activation, the installation is equipped with a manual starter - 20, which is removed to a safe place. 60 The automatic fire extinguishing system "Tornado" works as follows: Body - C is installed in a hard-to-reach place of a possible fire source and directs to the space controlled by the heat sensor lump - 18. When an outbreak occurs, and in particular in its initial period, the contact of the heat sensor is triggered - 18, with the help of which electricity is supplied from the power source located in the body of the heat sensor - 18 through the connecting wires - 11 and the connector - to the electric exciter - 15. At the same time, the metal thread - 23 is heated in the electric exciter under the action of electric current and the ignition of the powder mixture - 24, which in turn ignites the powder charge of the pyrotechnic gas generator and the resulting powder gases, while the creation of an impulse in the gas chamber - 7 and the emission of fire-extinguishing powder - 9 with the help of gaskets - 8 and felt fluff - 17 - forms a light powder at the center of the flash cloud for bulk fire extinguishing. By

The slope of the cone-shaped exit opening of the housing - Z - increases the diameter of the light powder cloud, which is calculated constructively. In necessary cases, the number of cases (modules) can be increased, which will increase the fire-extinguishing capacity of the installation and expand the scope of application - in particular, it is: the space under the hood of motor vehicles, the space around engines, nodes and mechanisms of increased fire danger, including aviation equipment and sea (river) vessels, objects that are under voltage /o electric current, etc.

Claims (7)

The formula of the invention 1. Automatic fire extinguishing installation, consisting of a housing with a head located in it, secured by a retaining ring through a rubber gasket, and a pyrotechnic gas generator with an electric exciter and a powder charge connected to the power source through a connector and connecting wires, mounted on the head through a nozzle and a sleeve of the housing, installed in contact with the heat sensor, and, in the event of a fire, provide the supply of electric current to the electric exciter, which ignites the powder charge, as a result of which the release of powder gases is ensured, forming an impulse in the gas chamber and the emission of fire-extinguishing powder with the help of gaskets and a felt jacket, which differs in that , that the powder charge of the pyrotechnic gas generator ignites the electric exciter. 2. Installation according to claim 1, which differs in that the power source for the electric exciter is located in the heat sensor through a contact. C. Installation according to claims 1, 2, which differs in that a manual duplication starter is provided in the connection of the heat sensor and the electric exciter. - 4. Installation according to claims 1-3, which differs in that the head is installed with the help of a locking ring through a rubber gasket. 5. Installation according to claims 1-4, which differs in that a pyrotechnic gas generator in the form of a hunting cartridge sleeve is mounted on the head through the nozzle and casing sleeve. 6. Installation according to claims 1-5, which differs in that the shutter and the walls of the case have a conical shape for (а) increasing the area and volume of spraying of the air-powder cloud during the emission of fire-extinguishing powder. at 7. Installation according to claims 1-6, which differs in that an electric current is used to ignite the powder mixture of the electric exciter. about Zo "about - and? o o o o (42) 60 b5