KR100820724B1 - Combined type fire extinguishing system - Google Patents

Abstract

The present invention relates to a complex fire extinguishing system that allows the use of inert gas and extinguishing water at the same time for extinguishing a fire, and more particularly, by installing a mixed nozzle on a discharge passage of an inert gas supplied from a gas tank. When spraying, the extinguishing water is automatically introduced into the nozzle, and the inert gas and the extinguishing water are premixed before the extinguishing spray nozzle installed in the room, so that the inert gas and the extinguishing water are sprayed through the extinguishing spray nozzle. It can be sprayed in the form of (Water mist), thereby making rapid fire extinguishing by simultaneous action of inert gas and extinguishing water to improve fire extinguishing performance more greatly. Simplify the piping structure for supply and prevent waste of inert gas The present invention relates to a complex fire extinguishing system that can greatly contribute to the cost savings of equipment and use.

To this end, the present invention is the fire sensor 11 and the fire extinguishing nozzle 12 is installed in the room, the fire extinguishing nozzle 12 is the discharge valve of the gas tank 14 in which the inert gas as a fire extinguishing agent is stored It is provided to inject inert gas and extinguishing water supplied through the gas discharge pipe 16 extending from the 14a and the drain pipe 17 extending from the water tank 15, and the discharge valve 14a of the gas tank 14 ) Is installed to be connected to the control box 13 for determining whether a fire has occurred by the signal input from the fire sensor (11), the gas discharge pipe extending from the discharge valve (14a) of the gas tank (14) 16 and the drain pipe 17 extending from the water tank 15 are connected in the mixing nozzle 18, and the digested water stored in the water tank 15 is mixed in accordance with the injection of the inert gas discharged from the gas tank 14. It is made to automatically flow into the nozzle 18, the mixing An inlet gas and extinguishing water mixed discharge pipe 19 extending from the bladder 18 is installed in connection with the extinguishing injection nozzle 12, and the discharge pipe 14a of the gas tank 14 is connected to the mixed discharge pipe 19. It is characterized in that the opening and closing valve 20 is connected to the control box 13 is installed, the opening operation of the discharge valve 14a and the opening and closing valve 20 by the control box 13 is the starting container 22 It is characterized in that the installation is made by.

Combined extinguishing system, spray extinguishing system, inert gas, extinguishing water

Description

Combined type fire extinguishing system

1 is a piping diagram showing a conventional composite fire extinguishing system.

Figure 2 is a piping diagram showing a composite fire extinguishing system according to the present invention.

Figure 3 is a cross-sectional view showing one embodiment of the mixing nozzle used in the composite fire extinguishing system according to the present invention.

<Explanation of symbols for main parts of drawing>

10: fire extinguishing system 11: fire detection sensor 12: injection nozzle

13 control box 14 gas tank 14a discharge valve

15 water tank 16 gas discharge pipe 17 drain pipe

18: mixing nozzle 19: mixing discharge pipe 20: on-off valve

21: safety valve 22: starting container 23: cable

181: nozzle 182: negative pressure chamber 183: mixing tube

184 Diffuser S Electronic Siren L Emission Indicator

The present invention relates to a complex fire extinguishing system that allows the use of inert gas and extinguishing water at the same time for extinguishing a fire, and more particularly, by installing a mixed nozzle on a discharge passage of an inert gas supplied from a gas tank. When spraying, the extinguishing water is automatically introduced into the nozzle, and the inert gas and the extinguishing water are premixed before the extinguishing spray nozzle installed in the room, so that the inert gas and the extinguishing water are sprayed through the extinguishing spray nozzle. It can be sprayed in the form of (Water mist), thereby making rapid fire extinguishing by simultaneous action of inert gas and extinguishing water to improve fire extinguishing performance more greatly. Extinguishing system by simplifying piping structure for supply and preventing waste of inert gas Lower costs of the equipment and use related to the digestive system so complex expressions can contribute.

In general, a continuous reaction between an ignition source, oxygen, and combustibles must exist in order for a fire to proceed continuously. Any of flammables, oxygen sources, or chain reactions, such as blocking the supply of oxygen or blocking the reaction of combustion, If it can be removed, it is possible to extinguish the fire, and based on this principle, a fire extinguishing system for extinguishing a fire at the time of a fire in a place such as various buildings or factories is installed and used in a protected area or a protected object.

Existing extinguishing systems are gas-based extinguishing systems that maintain the concentration of oxygen in the combustion range of about 15% or less using inert gas, or by directly extinguishing the extinguishing water within the combustion range. At the same time, it can be classified into an aqueous fire extinguishing system which induces asphyxiation effects around the object to be protected by water vapor generated by the evaporation of the extinguishing water.

Among the existing fire extinguishing systems, gas-based fire extinguishing systems have a relatively fast diffusion rate of inert gas, and thus can be quickly extinguished regardless of the shape of the protective zone or various obstacles. There was a disadvantage of low fire extinguishing resistance in the protected area, and the volume of the gas storage tank was very large when constructing a fire extinguishing system using an alternative fire extinguishing agent having a lower extinguishing performance than halon.

In the case of the water-based fire extinguishing system, it is possible to safely extinguish fire by directly injecting extinguishing water into the protected object to perform cooling and asphyxiation. Not only is this difficult, but the protection objects are wetted by the extinguishing water, so most of the protection objects and facilities must be replaced after the fire is extinguished. Therefore, there was a disadvantage that property damage occurred greatly.

As described above, by injecting nitrogen gas and distilled water at the same time through the fire extinguishing nozzle installed in the room so as to compensate for the disadvantages of the gas fire extinguishing system and the water extinguishing system and to utilize the advantages of the system. Distilled water sprayed through the sprayed like mist to extinguish the fire, thereby minimizing the damage of the protected object by distilled water and using nitrogen gas to simultaneously apply the extinguishing effect by nitrogen gas Distilled water atomization fire extinguishing apparatus is known and described in Korea Patent Publication No. 2003-93852 (published December 11, 2003).

As shown in FIG. 1, the conventional atomizing fire extinguishing device 1 as described above has the fire detection sensor 2 and the spray nozzle 3 installed in the ceiling C of the room. (2) is connected to the control box (4) by the cable (9), the injection nozzle (3) is connected to the nitrogen tank (5) and distilled water tank (7) by the discharge pipe (6) (8), respectively One of the nitrogen tanks 5 'of the nitrogen tank is connected to the distilled water tank 7 by the discharge pipe 6', the discharge pipe 6 for connecting the nitrogen tank 5 and the injection nozzle (3) And the discharge pipe (6 ') connecting the nitrogen tank (5') and the distilled water tank (7) is provided with an on-off valve (6a) and a pressure reducing valve (6b) connected by a control box (4) and a cable (9), respectively. In the discharge pipe 8 which connects the distilled water tank 7 and the injection nozzle 3, the filter 8a is provided.

Accordingly, a fire signal is input from the fire detection sensor 2 to the control box 4 and the control box 4 opens the on / off valve 6a and the pressure reducing valve 6b, thereby releasing the discharge pipe from the nitrogen tank 5. Nitrogen gas is supplied to the injection nozzle 3 side through (6), and nitrogen gas flows into the distilled water tank 7 from another nitrogen tank 5 'through the discharge pipe 6' and into the distilled water tank 7 ) Is also supplied to the injection nozzle (3) through the discharge pipe (8) by the inlet pressure of the gas, so that the distilled water together with the nitrogen gas is atomized through the injection nozzle (3) to extinguish the fire Will be.

However, the conventional fine atomizing fire extinguishing device 1 as described above is connected to the nitrogen gas and distilled water as the exhaust pipe 6 of the nitrogen gas and the discharge pipe 8 of the distilled water are connected in the injection nozzle (3) installed indoors. When the mixing point of the fire extinguishing nozzle (3) itself becomes a phenomenon, the fine spray function of distilled water by nitrogen gas is slightly reduced, which is the nitrogen before the distilled water is injected through the injection nozzle (3) This is because the time of complicated disturbance by the gas is insufficient.

Since the injection of the distilled water through the injection nozzle 3 is started before the disturbing action of the distilled water by the nitrogen gas is sufficiently performed as described above, the distilled water is not sprayed through the injection nozzle 3 in an atomized manner and the nitrogen gas is not sprayed. And distilled water is sprayed separately, which causes undesirable problems in terms of minimizing the damage of the protected object by distilled water and simultaneously applying a fire extinguishing effect by nitrogen gas.

In addition, since one nitrogen tank 5 'of the plurality of nitrogen tanks should be used as a gas driving source for the distilled water discharge, the nitrogen gas injected into the distilled water tank 7 to discharge the distilled water is The problem that causes waste of nitrogen gas by being discarded and cannot be used for substantial suppression, and two discharge pipes until just before the injection nozzle 3 to connect the nitrogen tank 5 and the distilled water tank 7 with the injection nozzle 3 (6) (8) is extended and a separate discharge pipe (6 ') is installed between the other nitrogen tank (5') and the distilled water tank (7) to complicate the overall piping structure forming the fire extinguishing device (1). There was a problem that, due to this there was a problem that the cost due to the installation and use of the fire extinguishing device (1).

The present invention has been made in order to solve the above conventional problems, the composite fire extinguishing system according to the present invention by installing a mixed nozzle on the discharge passage of the inert gas supplied from the gas tank to extinguish the water in the injection of the inert gas nozzle Inlet gas and extinguishing water are pre-mixed much earlier than the extinguishing spray nozzle installed in the room, and the inert gas and extinguishing water are sprayed through the extinguishing spray nozzle. To be able to be sprayed in such a way as to achieve rapid fire extinguishing by simultaneous action of inert gas and extinguishing water to improve fire extinguishing performance significantly, and to provide piping structure for supplying inert gas and extinguishing water. Costs associated with the installation and use of fire-extinguishing systems by simplifying It is made larger to contribute to the sense of the technical problem.

The present invention for achieving the above technical problem, the fire detection sensor and the fire extinguishing nozzle is installed in the room, the fire extinguishing nozzle is a gas discharge pipe extending from the discharge valve of the gas tank in which the inert gas as the extinguishing agent and It is installed to inject the inert gas and the extinguishing water supplied through the drain pipe extending from the water tank, the discharge valve of the gas tank is installed to be connected to the control box to determine the occurrence of fire by the signal input from the fire detection sensor. The gas discharge pipe extending from the discharge valve of the gas tank and the drain pipe extending from the water tank are connected to the mixing nozzle, and the extinguishing water stored in the water tank is automatically introduced into the mixing nozzle according to the injection of the inert gas discharged from the gas tank. And extinguish the inert gas extending from the mixing nozzle. The mixed discharge pipe is installed in connection with the fire extinguishing nozzle, the mixed discharge pipe is characterized in that the on-off valve is connected to the control box together with the discharge valve of the gas tank, the discharge valve and the open / close valve of the control box The opening operation is characterized in that it is installed to be made by the starting container.

Hereinafter, described in detail with reference to the accompanying drawings, the present invention for achieving the above object is as follows.

Figure 2 is a piping diagram showing a composite fire extinguishing system according to the present invention, Figure 3 is a cross-sectional view showing an embodiment of a mixed nozzle used in the composite fire extinguishing system according to the present invention.

In the composite fire extinguishing system 10 according to the present invention, as shown in Figure 2, the fire sensor 11 and the fire extinguishing nozzle 12 is installed in the room (preferably the ceiling surface of the room), The fire sensor 11 is connected to the control box 13 together with the electron siren (S) and the emission indicator (L) by a cable 23, the fire extinguishing nozzle 12 is a gas tank (14) The inert gas and the extinguishing water supplied through the gas discharge pipe 16 extending from the discharge valve 14a of the discharge valve and the drain pipe 17 extending from the water tank 15 are sprayed to the protective zone or the protection target in case of fire, This is made of almost the same configuration as the conventional atomizing fire extinguishing device.

In addition, as a component corresponding to the main part of the present invention, the gas discharge pipe 16 extending from the discharge valve 14a of the gas tank 14 and the drain pipe 17 extending from the water tank 15 are mixed nozzles ( 18, the digestion water stored in the water tank 15 is automatically introduced into the mixing nozzle 18 in accordance with the injection of the inert gas discharged from the gas tank 14, extending from the mixing nozzle 18 The mixed discharge pipe 19 of the inert gas and the extinguishing water is connected to the injection nozzle 12 for extinguishing.

In addition, the mixed discharge pipe 19 is provided with an on-off valve 20 connected to the control box 13 together with the discharge valve 14a of the gas tank 14 by a cable 23, the mixed discharge pipe 19 At one end of the) is provided with a safety valve 21 for discharging the elevated pressure to the outside when the discharge pressure of the inert gas and the digestive water flowing through the inside of the mixed discharge pipe 19 exceeds a predetermined pressure.

As described above, the inert gas stored in the gas tank 14 of the composite fire extinguishing system 10 according to the present invention and used for extinguishing a fire is a halon gas, nitrogen gas, or other various extinguishing agents. It can be used, in the case of the digestive water stored in the water tank 15 may also be a general tap water or purified water or distilled water as in the prior art, a filter is installed in the drain pipe 17 for the discharge of the digestive water as in the conventional case It may be possible to be.

In addition, the mixing nozzle 18, as shown more clearly in Figure 3, the gas discharge pipe 16 in the body of the gas discharge pipe 16 is connected to the rear end and the drain pipe 17 is connected to the lower end And a nozzle unit 181 connected to each other is inserted to form a negative pressure chamber 182 in front of the nozzle unit 181, and a mixing tube 183 for mixing and discharging inert gas and digestive water to the front side thereof. ) And diffuser (Diffuser) 184 is sequentially connected, the mixing discharge pipe 19 is configured to be connected to the front end side of the diffuser 184 is installed.

Therefore, the inert gas stored at high pressure in the gas tank 14 passes through a narrow neck portion formed inside the nozzle portion 181 of the mixing nozzle 18 via the gas discharge pipe 16 (a shape of the nozzle portion). In accordance with the sonic speed or supersonic speed), whereby the negative pressure chamber 182 formed on the front side of the nozzle unit 181 is substantially vacuumed, so that the extinguishing water of the water tank 15 under atmospheric pressure is discharged to the drain pipe 17. It is introduced into the mixing nozzle 18 through.

As the digested water stored in the water tank 15 is automatically introduced into the mixing nozzle 18 during the injection of the inert gas through the mixing nozzle 18 as described above, the mixing tube 183 of the mixing nozzle 18 and The inert gas is discharged to the mixed discharge pipe 19 in a state in which the inert gas is mixed with the digestive water through the diffuser 184, and if the same function is performed, an industrial ejector or an injection pump other than those shown in FIG. Different types of jets can be used, such as jet pumps or fractionation pumps.

In addition, although the opening operation of the opening / closing valve 20 installed in the discharge valve 14a and the mixed discharge pipe 19 of the gas tank 14 may be directly performed by the control box 13, the discharge valve ( 14a) and opening / closing operation of the discharge valve 14a and the on / off valve 20 by the control box 13 so as to increase the capacity of the on / off valve 20 to more smoothly supply inert gas and digestive water. It is preferable to make this by the actuating cylinder 22 (Actuating cylinder).

The starting container 22 is a gas stored in the starting container 22 when the solenoid valve of the starting container 22 is operated by interlocking the fire detection sensor 11 and the control box 13 when a fire occurs. 1 liter, the storage pressure: about 0.65kg / cm ² to open the on-off valve 20 of the mixed discharge pipe 19 to the gas pressure, while operating the discharge valve 14a of the gas tank 14 to operate the gas discharge pipe ( 16) to discharge the inert gas, it can be referred to as a technical matter widely applied to various gas-based fire extinguishing system.

Hereinafter, the working relationship of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

First, when a fire occurs in a protective area or a protective object such as various buildings or factories in which the complex fire extinguishing system 10 is installed according to the present invention, the fire detection sensor 11 recognizes this and outputs a fire signal to the control box 13. And at the same time, while operating the electronic siren (S) in this process, the alarm sounds, the emission indicator (L) is lit to inform the outside that the fire extinguishing system 10 according to the present invention is operated.

When the fire occurrence signal is input to the control box 13 from the fire detection sensor 11 as described above, the control box 13 is an open / close valve of the discharge valve 14a of the gas tank 14 and the mixed discharge pipe 19 ( 20 is opened (opening operation of the valve is made by the starting container 22 when the starting container 22 is installed), thereby inert gas stored at a high pressure in the gas tank 14 to the gas discharge pipe 16 Inflow to the mixing nozzle 18 through the ().

When the inert gas is introduced into the mixing nozzle 18 as described above, the inert gas is formed inside the nozzle unit 181 while the inert gas passes through the nozzle unit 181 of the mixing nozzle 18 connected to the gas discharge pipe 16. It is injected at a very high speed by a narrow neck, and as a result, the negative pressure chamber 182 formed on the front side of the nozzle unit 181 is almost vacuumed, so that the extinguishing water of the water tank 15 under atmospheric pressure is discharged to the drain pipe ( 17 is automatically introduced into the mixing nozzle 18 through.

In the process of injecting the inert gas through the mixing nozzle 18 as described above, the digested water stored in the water tank 15 is automatically introduced into the mixing nozzle 18, and then the mixing tube 183 of the mixing nozzle 18 The inert gas is discharged to the mixed discharge tube 19 while the inert gas is mixed with the extinguishing water through the diffuser 184, and thus the mixture of the inert gas and the digestive water discharged along the mixed discharge tube 19 is installed in the room. By spraying the spray nozzle 12 in the form of a water mist (water mist), it is possible to extinguish the fire generated in the protected area or the object to be protected.

According to the composite fire extinguishing system 10 according to the present invention as described above, the gas discharge pipe 16 and the extinguishing water drain pipe 17 of the inert gas is located far earlier than the fire injection nozzle 12 installed in the room. By being connected in the mixing nozzle 18, it is possible to ensure sufficient time for the digestion water to be disturbed by the inert gas before the actual injection time of the inert gas and the digestion water by the extinguishing injection nozzle 12. .

As described above, the disturbing action of the extinguishing water by the inert gas is made sufficiently through the mixing nozzle 18 and the mixing discharge pipe 19, and then the mixed medicine (inert gas + digested water) through the extinguishing injection nozzle 12 is used. Since the injection proceeds, water droplets having very fine particles from the fire extinguishing injection nozzle 12 can be evenly sprayed to the protection zone or the protection target side together with the inert gas.

As described above, when water droplets having very fine particles from the fire-extinguishing injection nozzle 12 are sprayed evenly with the inert gas to the protection zone or the protection object side, the extinguishing water and the inert gas can be simultaneously minimized while minimizing the damage of the protection object by the digestion water. It is possible to quickly extinguish the fire early by the action, thereby enabling the fire extinguishing performance by the fire extinguishing system 10 to be significantly improved.

In addition, since the extinguishing water stored in the water tank 15 was automatically introduced into the mixing nozzle 18 during the injection of the inert gas through the mixing nozzle 18, one of the nitrogen tanks 5 of the plurality of nitrogen tanks 5 Unlike the conventional case of using ') as a gas driving source for distilled water discharge, it is possible to directly prevent the waste of the inert gas by directly using the entire amount of the inert gas for fire suppression.

In addition, the gas discharge pipe 16 and the drain pipe 17 extending from the gas tank 14 and the water tank 15 to be joined in the mixing nozzle 18, the inert gas and extinguishing from the mixing nozzle 18 After the singulated water discharge pipe 19 is unified, the unified mixed discharge pipe 19 is connected to the fire extinguishing nozzle 12 installed in the room, and thus, from the nitrogen tank 5 and the distilled water tank 7 Two discharge pipes 6 and 8 are extended to just before the fire extinguishing nozzle 3 installed in the room, and a separate discharge pipe 6 'between the other nitrogen tank 5' and the distilled water tank 7 is also provided. It is possible to simplify the overall piping structure of the fire extinguishing system 10 as compared to the conventional case to be installed.

As described above, it is possible to minimize the damage of the protection target according to the suppression of the fire, to prevent the waste of inert gas used for extinguishing the fire, and to simplify the overall piping structure constituting the fire extinguishing system (10). Accordingly, it will be able to greatly contribute to the cost of using the fire extinguishing system 10 and the cost required to install the fire extinguishing system 10 in the protected area or the protected object.

As described above, the composite fire extinguishing system according to the present invention can secure sufficient time for the digestion water to be disturbed by the inert gas before the actual injection time of the inert gas and the extinguishing water by the fire extinguishing nozzle installed in the room. This allows the water droplets having very fine particles from the fire extinguishing spray nozzle to be evenly sprayed with the inert gas to the protective area or the protected object, thereby minimizing the damage of the protected object by the extinguishing water. Simultaneous action of inert gas enables the fire to be extinguished quickly in the early stages, thereby further improving the fire suppression performance.

In addition, in the process of injecting inert gas through the mixed nozzle, the extinguishing water stored in the water tank is automatically introduced into the mixing nozzle. The amount can be directly used for extinguishing fire to prevent the waste of inert gas, and the gas discharge pipe and the drain pipe are joined in the mixing nozzle, and then only the unified mixing discharge pipe is extended from the mixing nozzle. By connecting to the system, the overall piping structure of the fire extinguishing system is also simplified.

As described above, it is possible to minimize the damage of the protection target according to the suppression of the fire, to prevent the waste of inert gas used to extinguish the fire, and to simplify the overall piping structure of the fire extinguishing system, There is a very useful effect that can greatly contribute to the cost of installing a fire extinguishing system in an area or protected object and the cost of using a fire extinguishing system.

Claims (2)

A fire sensor 11 and a fire extinguishing nozzle 12 are installed indoors, and the fire extinguishing nozzle 12 extends from the discharge valve 14a of the gas tank 14 in which an inert gas as a extinguishing agent is stored. It is installed to inject the inert gas and the extinguishing water supplied through the gas discharge pipe 16 and the drain pipe 17 extending from the water tank 15, the discharge valve 14a of the gas tank 14 is a fire detection sensor ( In connection with the control box 13 to determine whether a fire has occurred by the signal input from 11), A gas discharge pipe 16 extending from the discharge valve 14a of the gas tank 14 and a drain pipe 17 extending from the water tank 15 are connected to the mixing nozzle 18 and discharged from the gas tank 14. The extinguishing water stored in the water tank 15 is automatically introduced into the mixing nozzle 18 according to the injection of the inert gas, A mixed discharge pipe 19 of inert gas and extinguishing water extending from the mixed nozzle 18 is installed in connection with the fire extinguishing nozzle 12, and the discharge valve 14a of the gas tank 14 is provided in the mixed discharge pipe 19. A combined fire extinguishing system, characterized in that the on-off valve 20 is connected to the control box 13 is installed with). The combined fire extinguishing method according to claim 1, wherein the opening operation of the discharge valve (14a) and the open / close valve (20) by the control box (13) is performed by an actuating cylinder (22). system.

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