RU2046614C1 - Device for detection and volumetric suppression of fire and smoke-forming compound - Google Patents

Abstract

FIELD: fire-fighting facilities. SUBSTANCE: device has fire-fighting facilities made in the form of a casing with an outlet accommodating a change of smoke-forming compound; connections and actuators of fire-fighting devices are made in the form of a safety fuse. EFFECT: enhanced reliability. 6 cl, 4 dwg

Description

 The invention relates to fire fighting equipment, and in particular to equipment for volumetric fire extinguishing.

 Known systems for volumetric fire extinguishing, containing means for detecting tanning, devices for extinguishing, means for connecting devices for extinguishing among themselves, means for activating these devices (for example, ed. St. USSR N 1546087, class A 62 C 35/64, 1987) .

 The closest technical solution to the proposed one is a system for volumetric fire extinguishing, containing means for detecting tanning, devices for extinguishing, means for connecting fire extinguishing devices with each other and with means for detecting fire and activating these devices (for example, US Pat. No. 3878897, class A 62 C 35/08, NKI 169-46, 1975).

 When this system is triggered, the start of all extinguishing devices is carried out from one means of activation, which reduces the reliability of the system in the event of an open circuit between the means of detection and means of involvement.

 Known systems for volumetric fire extinguishing, which used freon installations (for example, US Pat. UK N 2020971, CL A 62 C 37/00, NCI A5A, 1979).

 The disadvantages of such installations are the harmful effects of chladones on the environment, including the ozone-depleting effect, and a high level of toxicity at maximum extinguishing concentrations. In addition, these installations have sufficiently large overall dimensions, which reduces the effectiveness of their use for fighting fires in transport, for example in aviation.

 These disadvantages are partially eliminated in the device for volumetric fire extinguishing, comprising a housing with an outlet, a charge generating a fire extinguishing substance, and an initiation unit (see application UK No. 2028127, CL A 62 C 13/22, NKI A5A, 1980).

 In this device, when the initiation unit is triggered, a pyrotechnic or solid fuel charge is ignited, the gaseous products of combustion of which are extinguishing agent and, exiting through the outlet in the fire zone, extinguish it.

 However, this device has a lack of efficiency due to the low fire extinguishing ability of the gaseous products of combustion, which are inert diluents.

 The aim of the invention is to increase the reliability and efficiency of the volumetric fire extinguishing system.

 This is achieved by the fact that in a system for volumetric fire extinguishing, containing means for detecting tanning, devices for extinguishing, means for connecting devices for extinguishing with each other and with means for detecting fire and activating these devices, each extinguishing device is made in the form of a housing with an outlet and placed in it a charge of a smoke-generating composition with an initiation unit, and means for detecting tanning and means for connecting and activating devices for extinguishing are made in the form of a fire-conduit Hooray.

 This goal is also achieved by the fact that in the device for volumetric fire extinguishing, the charge is made of a smoke-forming composition containing 55-90 wt. alkali metal nitrate and / or perchlorate and 10-45 wt. combustible binder. The smoke-generating composition may also additionally contain 1-42 wt. fuel, 5-32 wt. ammonium perchlorate. As a fuel-binding binder, the smoke-forming composition may contain ballistic powder in the following ratio of components, wt. alkali metal nitrate and / or perchlorate 15-45, ballistic gunpowder 55-85.

 Ballistic gunpowder is a composition based on plasticized colloxivline.

 The proposed device for volumetric fire extinguishing can be used not only in the fire extinguishing system, but also independently, as an individual fire extinguisher.

 Figure 1 shows a system for volumetric fire extinguishing; figure 2 device for extinguishing with a channel charge, an example of implementation; figure 3 a device with a channelless charge and fastening elements to various surfaces of the protected object, an example implementation; in Fig.4 a device with a slotted outlet, an example implementation.

 The system for volumetric fire extinguishing contains extinguishing devices 1 with a charge of a smoke-generating composition, which are interconnected by fire-resistant cords 2, which are understood to be cords made of any material that transfers combustion.

 Each extinguishing device 1 comprises a housing 3 with an outlet 4, a charge 5 of a smoke generating composition with an initiation unit 6.

 The charge of the smoke-forming composition can be performed channel, for example with a Central channel 7, or channelless. In this case, the outlet of the housing 3 can be closed by a membrane 8 or the cover 9. The outlet 4 of the housing 3 can be made in the form of one or more slots 10 on the side surface of the housing 3. This makes it possible to effectively use the proposed device to extinguish a fire with limited transverse dimensions protected volume, for example in aircraft engines.

 The extinguishing device can be equipped with fastening elements 11 to various surfaces of the protected object, which provide the possibility of directional exposure during fire fighting.

 The proposed system works as follows.

 When a fire occurs, ignition of the fire wire cord 2 and the initiation unit 6 is activated from it, which, in turn, ignites the charge 5 of the smoke-forming composition. With increasing pressure in the housing 3, the membrane 8 or cover 9 is destroyed and the combustion products through the outlet 4 enter the protected volume.

 Table 1 shows examples of the smoke-forming composition of the charge used in the proposed device.

To confirm the effectiveness of the proposed devices, experiments were carried out on the volume quenching of various combustible materials in conditionally sealed chambers with a volume of 0.25 to 260 m ³ . The experimental results are presented in table.2.

 As follows from the table. 2, the fire extinguishing is provided by the fire extinguishing concentration obtained when the proposed device is 10 times smaller than when using the known device.

 The proposed device allows for effective volumetric fire extinguishing of gaseous, liquid and solid combustible substances in stationary premises, in rail and road transport, sea and river vessels, airplanes, including in purged compartments, for example, in aircraft engines. The advantages of the proposed device also include ease of maintenance, high reliability, a wide domestic raw material base, and the ability to prevent explosions of steam and gas mixtures in bulk after extinguishing.

Claims (6)

 A device for detecting and extinguishing a fire, including means for extinguishing a fire, an element for connecting fire extinguishing means to each other, and means for detecting fire and initiating fire extinguishing means, characterized in that, in order to increase the reliability of the action, each extinguishing means is made in the form of a housing with an outlet and a charge of a smoke-generating composition placed therein with an initiation unit, and means for detecting tanning and means for connecting and initiating means for extinguishing are made in the form of fire wire cord.  2. The device according to claim 1, characterized in that, in order to ensure the possibility of fire fighting in aircraft, the outlet in it is made in the form of one or more slots located along the extinguishing means forming on the side surface of the housing.  3. Smoke-forming composition, characterized in that as a smoke-forming composition is used, containing nitrate and / or perchlorate of alkali metals and a combustible binder in a ratio of 9 1 5.5 to 4.5.  4. The composition according to claim 3, characterized in that it additionally contains fuel in an amount of 1 to 42 wt.  5. The composition according to p. 3, characterized in that it additionally contains ammonium perchlorate in an amount of 5 32 wt.  6. The composition according to claim 3, characterized in that, in order to improve operational characteristics, a composition containing, by wt. Alkali metal nitrate and / or perchlorate 15 45
Ballistic gunpowder 55 85

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