SU1155273A1 - Method and apparatus for three-dimensional fire fighting - Google Patents

Abstract

The invention relates to the field of fire extinguishing, mainly for the elimination of fires in closed rooms with the help of halocarbohydrates, and allows you to increase the efficiency of extinguishing by improving the uniformity of the distribution of fire extinguishing composition in the protected volume. The device contains a tank 1 with liquid refrigerant and a siphon tube 2 connected to pipeline 3. The latter has a remote-controlled shut-off valve 4 and sprayers 5. The tank 1 is connected to the source 6 of compressed gas. An ejector 7 is integrated into the pipe 3 in front of the valve 4, and an additional pipe 12 with nozzles 13 is connected to the receiving branch pipe. The pipe is placed in the zones of local refrigerant leaks from the protected volume. The method of volumetric fire guttegg is implemented as follows. In the event of a fire, the temperature in the protected volume and above all in its upper part increases. The signal supplies compressed gas from source 6 to tank 1 and opens valve 4. Refrigerant is displaced from tank 1 and, passing through the siphon tube 2 and pipeline 3, I enters the injector 7, while creating a stream of liquid refrigerant in the ejector Under the action of which hot air from the trapped volume is sucked through the nozzles 13 and through the additional pipeline 12 to the ejector, where it is mixed with liquid refrigerant, and then supplied to the nebulizers 5. After supplying the refrigerant in an amount sufficient to create fire extinguishing concentration, a signal is given to close the valve 4. From this moment on, the extinguished concentration of fire extinguishing is maintained by additionally supplying refrigerant to the zones of its local leaks from the protected volume through the ejector inlet pipe through the additional pipe 12 and through the sprays 13. 2 sec. item f-ly, 2 ill.

Description

The invention relates to the field of fire extinguishing, mainly for the elimination of fires in enclosed spaces using halocarbons. ⁵

The aim of the invention is to increase the extinguishing efficiency by improving the uniformity of the distribution of the extinguishing agent in the protective volume.

Figure 1 is a diagram of the proposed device; figure 2 - ejector, section.

The volumetric fire extinguishing device 15 contains a reservoir 1 with a liquid chladone and a siphon tube 2 connected to the pipeline 3. The latter has a remote-controlled shut-off valve 4 and sprayers 20

5. The reservoir 1 is connected to a source 6 of compressed gas.

An ejector 7 is installed in the pipeline 3 in front of the valve 4, which includes a housing 8 with a chamber 9 and a nozzle 10. An additional pipeline 12 with atomizers 13 connected to the areas of local refrigerant leakage from the protected volume is connected to the intake pipe 11 of the ejector 7. thirty

The proposed method is implemented as follows.

When a fire occurs, the temperature in the protected volume, and especially in its upper part, rises. Upon a fire signal, compressed gas is supplied from source 6 to reservoir 1 and valve 4 is opened.

Freon is forced out of the tank and, passing through the siphon tube .2 and pipe 3, enters the ejector

7. In this case, the jet of liquid freon, accelerating in the nozzle 10, creates a vacuum in the chamber 9, under the influence of which hot air from the protected volume is sucked through the nozzles 13 and through an additional pipe 12 enters the ejector 7, where it is mixed with the liquid freon, and then is supplied to the sprayers 5. As a result, heating, stirring and smese- ³⁰ forming refrigerant with the air of the protected space is made in the pipe 3. sawing refrigerant with air leads to a better smeseob- $ mations than when sawing od th liquid refrigerant. This is primarily due to the operation of the atomizer in pulsed mode _f as well as the supply of the mixture in a pre-prepared form. In this case, a more uniform irrigation of the volume with a wide torch of droplets of increased dispersion and the accumulation of the finished vapor-gas mixture in the zone of location of the nozzles occurs.

It should be noted that in the proposed method, the absence of an external gas source necessary to improve sawing not only simplifies the design, but also does not increase the pressure in the room, the result of the latter would be a sharp increase in refrigerant leaks through gaps and openings of the protected volume.

In addition, the mixing of the mixture during sawing is also carried out by the upward air flow, which occurs when the latter is sucked by spray guns 13.

After the supply of refrigerant in an amount sufficient to create a fire extinguishing concentration in the protected volume, a signal is sent to close valve 4.

The signal can come either from a time relay at a normalized freon flow rate, or from a freon level sensor in tank 1 (not shown on graphic material). From this moment, the created extinguishing concentration is maintained by additional supply of freon: into the zones of its local leaks from the protected volume.

In the device, this is as follows.

After closing the valve h, the refrigerant remaining in the tank 1 is fed into the inlet pipe 1 1 of the ejector 7 ,. where it comes through an additional pipe 12 to the nebulizers 13. The latter are located in the areas of refrigerant leakage, that is, first of all, in the upper part of the protected volume, near the technological passages and holes. Sprayers 13 dispense the supply of refrigerant, that is, it is supplied only to the necessary zones and in an amount sufficient to maintain the extinguishing concentration.

Therefore, the sprayers 13 operate at much lower costs and have a different irrigation diagram from sprayers 5.

I 155273

The proposed method of volumetric fire extinguishing and the device of volumetric fire extinguishing can increase the uniformity of the distribution of the extinguishing composition in the protected volume and, therefore, the efficiency of fire extinguishing.

After creating a fire extinguishing concentration in the volume, the latter is maintained jq by additional supply of freon to compensate for local leaks.

At the same time, a more rational use of an expensive, 5 extinguishing agent is achieved and repeated fires are excluded.

Claims (2)

11 Of these, the firefighting area relates mainly to the elimination of fires in closed rooms with the help of halocarbons. The aim of the invention is to increase the extinguishing efficiency by improving the uniform distribution of the extinguishing agent in the MOM volume. Figure 1 is a diagram of the proposed device; figure 2 - the ejector section. The fire extinguishing device contains a reservoir 1 with a liquid refrigerant and a siphon tube 2 connected to pipe 3, the latter has a remote-controlled shut-off valve 4 and nozzles 5. The tank 1 is connected to the source 6 of compressed gas. An ejector 7 is installed in the pipe 3 in front of the valve 4, comprising a housing 8 with a chamber 9 and a nozzle 10. An additional pipe 12 with nozzles 13 located in the zones of local refrigerant leaks from the protected volume is connected to the ejector inlet 11 of the ejector 7. The proposed method is implemented in the following way. In the event of a fire, the temperature in the protected volume and above all in its upper part increases. The fire signal supplies compressed gas from source 6 to tank 1 and opening valve 4. Freon is forced out of tank 1 and, passing through the siphon tube .2 and pipe 3, enters ejector 7. At the same time, the stream of liquid freon is accelerated in the nozzle 10, it creates a discharge in the chamber 9, under the action of which hot air from the protected volume is sucked through the nozzles 13 and through an additional pipeline 12 enters the ejector 7, where it mixes with liquid refrigerant, and then goes to the nozzles 5. reheat, re eshivanie and mixture formation refrigerant to air in the protective room is performed rub boprovode 3. atomization refrigerant with air results in better charge operation than in the case of spraying is a liquid refrigerant. This is primarily due to the operation of the dispenser in a pulsed mode and the supply of 3 mixtures in a previously prepared form. When this occurs, a more uniform irrigation of the volume by a wide torch of droplets of increased dispersion and accumulation of the prepared vapor-gas mixture in the area of the sprayers occurs. It should be noted that in the proposed method, the absence of an external source of gas, which is necessary to improve atomization, not only simplifies the design, but does not lead to an increase in the pressure in the room, the latter would result in a sharp increase in freon leakage through the gaps and openings of the protected volume. In addition, mixing of the mixture during the spraying process is also performed by the upward ventilation air flow, which occurs when the latter is sucked by sprays 13. either from the time relay at the normalized flow rate of freon, or from the freon level sensor in tank 1 (not shown in the graphic material). From this moment on, the created fire extinguishing concentration is maintained by additionally supplying refrigerant: into the zones of its local leakage from the protected volume. In the device, this is done as follows. After the valve t is closed, the refrigerant remaining in the tank 1 is fed to the inlet 1 1 of the ejector 7 ,. from where it arrives via the additional pipeline 12 to the sprayers 13. The latter are located in the zones of leakage of freon, that is, first of all, in the upper part of the protected volume, near the technological passages and openings. The nozzles 13 dispense the refrigerant, i.e., it is supplied only to the necessary zones and in an amount sufficient to maintain the extinguishing concentration. Therefore, the drivers 13 operate at much lower costs and have a different irrigation diagram from the nozzles 5. The proposed method of volumetric fire extinguishing and fire extinguishing device allows to increase the uniform distribution of the fire extinguishing composition in the protected volume and, consequently, the effectiveness of fire extinguishing. After the extinguishing concentration has been created in the volume, the latter is maintained by additionally supplying chondone to compensate for local leaks. In this case, a more rational use of expensive extinguishing agent is achieved and repeated fires are eliminated. Claim 1. Fire extinguishing method, including supply and lashing of liquid refrigerant, characterized in that, in order to increase the extinguishing efficiency by improving the uniform distribution of the fire extinguishing composition in the protected volume, air is sucked from it simultaneously with spraying and mixed with the supplied liquid refrigerant, after which local refrigerant is supplied to its leakage areas from the protected volume, 2. A fire extinguishing device containing a reservoir with liquid refrigerant, connected to a source of compressed gas and connected by means of a pipeline that has a shut-off valve to the piping, characterized in that, in order to increase the extinguishing efficiency by improving the uniform distribution of the extinguishing agent in the protected volume , it is equipped with an ejector built in the pipeline between the tank and the valve and an additional pipe with nozzles placed in the ejector pipe connected to the ejector inlet zones of local leakage of refrigerant from zapftstsaemy volume. / J    at / N N N / te /