KR101278177B1 - Fire extinguishing system - Google Patents

Abstract

PURPOSE: A fire suppression system is provided to effectively block air flows from outside and to have a structure which suppresses fire in an early stage. CONSTITUTION: A fire suppression system with increased fire suppression capability comprises a convergent duct(10) in which storing containers in which clean fire extinguishing agent is stored are arranged; a first supply tube(20a) in which a first pressure controller and a first switching valve are installed and which supplies the clean fire extinguishing agent with a constant pressure; a second supply tube(20b) in which a second unit pressure controller and second opening and closing valves are installed and which is connected to the other side of the convergent duct and supplies the clean fire extinguishing agent with a constant pressure; a curtain forming pipe(30) which sprays the clean fire extinguishing agent in a curtain form; a direct injection pipe(40) which sprays the clean fire extinguishing agent; a fire perception sensor(50) which senses fire according to signals of the fire perception sensor; and a controller(60) which opens the first and second opening and closing valves according to sensing signals of the fire perception sensor.

Description

Fire extinguishing system with increased fire suppression ability

The present invention relates to a fire suppression system for extinguishing fires generated in a structure early by using a clean extinguishing agent such as nitrogen gas or mixed gas. More specifically, the structure of Patent Registration No. 10-976172 A fire suppression system with improved fire suppression capability that enables early and rapid fire suppression by further improving the ability to block external air from entering the structure and to discharge the structure's internal air to the outside. .

[Document 1] Domestic Patent Registration No. 10-0976172, Registration of April 15, 2010

In general, a fire is a disaster that causes large-scale human and physical damages, and preventing fires is a top priority to effectively prevent human and physical damages.

However, fires come from a variety of causes, so preventing them all is practically impossible. Therefore, there is a need for a fire suppression system that minimizes the damage caused by a fire by extinguishing the fire at an early stage.

Conventional fire extinguishing systems include a fire water injection system, a fire extinguishing agent injection system, a fire extinguishing gas injection system, etc. The fire water injection system sprays fire water to extinguish the fire. Difficult to use depending on the object of suppression, the structure itself is damaged by the fire water sprayed at a high pressure during the fire suppression process, there was a disadvantage that the facilities and equipment inside the structure is damaged.

The extinguishing agent injection system is to extinguish the fire by spraying the extinguishing agent, but has an excellent extinguishing power and can be applied to a variety of ignition objects, due to the high price of the extinguishing agent is expensive to operate and toxic substances in the fire suppression process This causes not only the damage to life and air pollution, but also difficult to use due to low extinguishing power in open spaces and the structure itself is damaged by extinguishing agent remaining after extinguishing fire, or the facilities and equipment inside the structure cannot be used. there was.

The extinguishing gas injection system has the advantage of extinguishing fire by injecting inert extinguishing gas, having excellent extinguishing power, harmless to the human body, and easy to handle after extinguishing fire. Was damaged or facilities and equipment inside the structure is damaged, so there was a disadvantage in that the damper, etc. must be installed separately. In particular, since the damper is difficult to install in a wooden building designated as a cultural property, it was difficult to apply the extinguishing gas injection system.

For this reason, the fire suppression system that can be installed and operated at low cost in the industry, has excellent fire extinguishing power, is harmless to human body, can be applied in both closed room and open space, and can prevent damage of facilities and equipment in the fire suppression process. There is an active research on.

Through the efforts of this research, the fire suppression system for forming the nitrogen gas curtain of Document 1 was devised, which includes an assembly pipe in which nitrogen gas containers are collected, a supply pipe for supplying nitrogen gas, a curtain forming pipe for injecting nitrogen gas into a curtain form, It includes a direct injection pipe that directly injects nitrogen gas, a fire sensor that detects the occurrence of fire, and a controller that controls the flow of nitrogen gas supplied to the curtain forming pipe and the direct injection pipe to the supply pipe through an open / close valve.

Therefore, when the fire detection sensor detects a fire, the valve opens and closes by the controller, and nitrogen gas is injected from the curtain forming pipe and the direct injection pipe to form a nitrogen gas curtain from the top to the bottom of the inner wall of the structure. Nitrogen gas is injected directly to reduce the concentration of oxygen in the internal space of the structure to extinguish the fire. Accordingly, since nitrogen gas is injected at a relatively low pressure, the structure and the facilities and equipment inside thereof are not destroyed while the fire is extinguished.

However, the fire suppression system for forming the nitrogen gas curtain of the document 1, the curtain forming pipe and the direct injection pipe is connected to the supply pipe at the same time interconnected structure so that when the nitrogen gas is injected during the fire suppression process is injected from the curtain forming pipe As the pressure of nitrogen gas decreases, the curtain cannot be formed properly.

Therefore, since the nitrogen gas is injected at a low pressure from the curtain forming tube to form a nitrogen gas curtain that blocks the inflow of external air, there is a problem in that it is impossible to achieve the purpose of suppressing the fire early by reducing the internal oxygen concentration of the structure. .

The present invention has been invented to solve the above problems, by connecting the curtain forming pipe and the direct injection pipe to a separate supply pipe to prevent the pressure drop of nitrogen gas injected from the curtain forming pipe to block the outside air in the event of fire It is an object of the present invention to provide a fire suppression system having a fire suppression capability having a structure capable of effectively extinguishing fire by effectively blocking the inflow of air from the outside by properly forming a curtain.

The fire suppression system with increased fire suppression ability according to the present invention for achieving the above object, in the fire suppression system for extinguishing a fire generated in the structure using a clean extinguishing agent, at least one storage container in which the clean extinguishing agent is stored Parallel connected assembly tube; A first supply pipe connected to one side of the collection pipe and provided with a first pressure regulator and a first opening / closing valve to supply a clean extinguishing agent at a predetermined pressure; A second supply pipe connected to the other side of the collection pipe and provided with a second pressure regulator and a second opening / closing valve to supply clean extinguishing agent at a constant pressure; A curtain forming tube connected to an end of the first supply pipe and installed around the inner wall of the structure in a loop shape to spray a clean extinguishing agent in a curtain shape; A direct injection pipe connected to an end of the second supply pipe and installed on the ceiling of the structure to spray a clean extinguishing agent; A fire detection sensor installed on the ceiling of the structure to detect a fire occurrence; And a controller electrically connected to the fire detection sensor, the first open / close valve and the second open / close valve to open the first open / close valve and the second open / close valve according to a detection signal of the fire detection sensor. .

An inner lower end of the structure is electrically connected to the controller is operated by the controller according to the detection signal of the fire detection signal characterized in that the blower for discharging the internal air of the structure to the outside is further installed.

The clean extinguishing agent is characterized in that composed of one of nitrogen gas, IG-01, IG-100, IG-541, IG-55.

The present invention by the means of solving the above problems, as well as the external air to the inside of the structure is reliably blocked by smoothly spraying the clean extinguishing agent without reducing the pressure, as well as quickly discharge the internal air of the structure to the outside of the structure By lowering the internal oxygen concentration to the level that can not be burned quickly, it is possible to further increase the fire suppression performance.

1 is an overall configuration diagram according to a preferred embodiment of the present invention.
Figure 2 is a longitudinal sectional view of the curtain forming tube according to a preferred embodiment of the present invention.
Figure 3 is an illustration of a fire suppression state in accordance with a preferred embodiment of the present invention.

The fire suppression system with increased fire suppression ability according to the present invention by promptly notifying the outside of the fire generated inside the structure by spraying a clean extinguishing agent directly from the ceiling of the structure to the floor and spraying in the form of a curtain from the top of the inner wall of the structure It is to extinguish the fire prematurely by lowering the level of oxygen in the structure to the uncombustible level.

In particular, the fire suppression system with increased fire extinguishing ability according to the present invention allows the clean extinguishing agent to be sprayed without pressure drop when sprayed from the top of the inner wall of the structure without dropping the pressure, thereby reducing the effect of blocking the outside air due to the pressure drop. It is a big feature to solve the conventional problem which cannot be suppressed early.

This feature connects the first supply pipe and the second supply pipe to one side and the other side of the collection pipe connected in parallel with one or more storage containers in which the clean extinguishing agent is stored, and the clean extinguishing agent is curtained on the inner wall of the structure. It is achieved by a structure configured by connecting a curtain forming pipe for spraying to the direct injection pipe for direct injection of a clean extinguishing agent to the ceiling of the structure to the second supply pipe.

That is, unlike the prior art, the curtain forming pipe and the direct injection pipe are respectively connected to the first supply pipe and the second supply pipe separately from each other, and the injection pressure of the clean extinguishing agent sprayed from the curtain forming pipe while the clean extinguishing agent is injected from the direct injection pipe. This structure prevents the closed end from falling.

Therefore, the clean extinguishing agent sprayed from the curtain forming pipe can be suppressed early by forming a curtain that blocks the inflow of outside air while being injected without a pressure drop.

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

1 is an overall configuration diagram according to a preferred embodiment of the present invention, Figure 2 is a longitudinal sectional view of the curtain forming tube according to a preferred embodiment of the present invention, Figure 3 is a fire suppression state according to a preferred embodiment of the present invention An illustration of the.

As shown in FIG. 1, the fire suppression system 100 having increased fire suppression ability according to an exemplary embodiment of the present invention includes an assembly tube 10, a first supply tube 20a, a second supply tube 20b, and a curtain forming tube. 30, the direct injection pipe 40, the fire detection sensor 50 and the controller 60 is large.

First, as shown in FIG. 1, one or more storage containers 11 in which a clean extinguishing agent is stored in a gas form are connected in parallel to supply the clean extinguishing agent as shown in FIG. 1.

At this time, the more the number of installation of the storage container 11 connected to the collection pipe 10, the better, but can only be limited by the constraints of space and the like. Therefore, according to the size of the structure (C) may be configured to supply enough clean extinguishing agent to fight the fire.

The clean extinguishing agent stored in the storage container 11 is most preferably composed of nitrogen gas having low cost and excellent extinguishing power, IG-01, IG-100, IG as disclosed in 2009-41 Notice It can also be configured as either -541 or IG-55.

The G-01, IG-100, IG-541 and IG-55 are all in the fire safety standards of clean extinguishing agent extinguishing equipment, G-01 is composed of argon gas, IG-100 is composed of nitrogen gas IG-541 is a mixture of nitrogen gas, argon gas and carbon dioxide, and IG-55 is a mixture of nitrogen gas and argon gas.

Next, the first supply pipe (20a) and the second supply pipe (20b) is installed separately connected to one side and the other side of the collection tube 10, as shown in Figure 1, which is a clean fire extinguishing stored in the storage container (11) The drug serves to supply a predetermined pressure to the curtain forming pipe 30 and the direct injection pipe 40, respectively.

Therefore, the first pressure regulator 21a for maintaining a constant pressure of the clean extinguishing agent supplied to the curtain forming tube 30 and the direct injection pipe 40 to the first supply pipe 20a and the second supply pipe 20b, respectively. And it is preferable that the second pressure regulator 21b is installed.

The first pressure regulator 21a and the second pressure regulator 21b may also perform a function of adjusting the pressure to reduce the pressure of the storage container 11 in which the clean extinguishing agent is stored to be less than or equal to the filling pressure of the clean extinguishing agent.

In addition, a first opening and closing valve 22a and a second opening and closing valve 22b are installed in the first supply pipe 20a and the second supply pipe 20b, respectively, which are electrically connected to the controller 60 to the electrical control signal. According to the opening and closing operation to control the flow of the clean extinguishing agent supplied to the curtain forming tube 30 and the direct injection pipe (40).

The first open / close valve 22a and the second open / close valve 22b may be configured as a solenoid valve to enable the opening and closing operation according to the electrical control signal of the controller 60. However, the present invention is not limited thereto, and other configurations are possible as long as the controller can control the flow of the clean extinguishing agent by opening and closing the control signal of the controller 60.

In addition, it is preferable that the first safety valve 23a and the second safety valve 23b are respectively installed in the first supply pipe 20a and the second supply pipe 20b. The first safety valve 23a and the second safety valve 23b automatically drop the pressure when the pressure of the first supply pipe 20a and the second supply pipe 20b abnormally rises to prevent a safety accident. It plays a role.

Here, the first supply pipe (20a) and the second supply pipe (20b), respectively, the first connector (24a) and the second connector (24b) is installed to additionally connect the liquid storage container in which the clean extinguishing agent in the liquid state do.

Therefore, by connecting the liquid storage container with the carburetor to the first connector 24a and the second connector 24b, the clean extinguishing agent is more than the clean extinguishing agent stored in the storage container 11 of the collecting pipe 10 due to an emergency situation. It can be supplied smoothly when needed.

Next, the curtain forming tube 30 is connected to the end of the first supply pipe (20a) as shown in Figure 1 is installed around the top of the inner wall of the structure (C), which is the top of the inner wall of the structure (C) In spraying the clean extinguishing agent in the lower portion serves to form a curtain to prevent the outside air flow into the interior of the structure (C).

That is, as shown in Figure 2 by spraying the clean extinguishing agent downward through the curtain diffuser 31 installed on the outer surface of the curtain forming tube 30 to form a curtain on the door or window of the structure (C) to the outside air It will block the inflow of.

As shown in FIG. 1, the curtain diffuser 31 may be installed at a position where external air may be introduced into the structure C by communicating with the outside, such as an entrance door or a window of the structure C. . And the injection port is formed on the bottom surface of the curtain forming tube 30 is injected to the clean extinguishing agent is preferably formed in a position corresponding to the installation position of the curtain diffuser (31).

At this time, the pressure of the clean extinguishing agent sprayed from the curtain forming tube 30 is controlled by the first pressure regulator 21a, the spraying pressure is preferably composed of 10 ~ 12kg / ㎠.

And the curtain forming tube 30 is configured in the form of a loop connected to one end and the other side at the same time as the end of the first supply pipe (20a), as shown in Figure 1, which prevents the pressure drop of the end of the pressure to the clean extinguishing agent By spraying to the curtain to smoothly form.

Therefore, when the clean extinguishing agent is sprayed in the curtain type viewer 31 of the curtain forming tube 30 without pressure drop, external air is introduced into the structure C by forming a curtain from the top of the inner wall of the structure C to the bottom thereof. Can effectively block things.

Next, the direct injection pipe (40) is connected to the end of the second supply pipe (20b) as shown in Figure 1 is installed in the transverse direction to the ceiling of the structure (C), from the ceiling of the structure (C) Directly spraying a clean extinguishing agent serves to push the heavy air in the upper portion of the structure (C) to the bottom.

At this time, both sides and the bottom surface of the direct injection pipe 40 are respectively formed with a spray port to spray the clean extinguishing agent in both sides and downward. Therefore, the clean extinguishing agent is directly sprayed by both sides and downwards from the ceiling of the structure (C) by the direct injection pipe 40 to naturally move the air present in the upper portion of the structure (C) downward Allow to be discharged to the outside.

Here, the pressure of the clean extinguishing agent sprayed from the direct injection pipe 40 is controlled by the second pressure regulator 21b, and the spray pressure is 6-7 kg lower than the clean extinguishing agent sprayed from the curtain forming tube 30. It is preferable that it is comprised in / cm2.

Next, the fire detection sensor 50 is installed on the ceiling of the structure (C) while being electrically connected to the controller (60), which detects a fire occurring in the structure (C) and transmits it to the controller (60). Play a role.

At this time, the fire sensor 50 is preferably composed of a heat detection sensor 51 for detecting the heat and a smoke detection sensor 52 for detecting the smoke so as to quickly and accurately detect the fire.

Therefore, when a fire occurs in the structure (C), the fire detection sensor 50 detects the fire through the heat and smoke and generates a detection signal to send to the controller 60 to quickly send the fire occurrence situation to the controller 60 It is announced.

Next, the controller 60 is located outside the structure C, as shown in FIG. 1, and electrically connected to the first opening / closing valve 22a, the second opening / closing valve 22b, and the fire detection sensor 50. As connected, this serves to control the operation of the connected configurations.

That is, the controller 60 receives the detection signal from the fire detection sensor 50 and then transmits a control signal to the first opening / closing valve 22a and the second opening / closing valve 22b, and thus the first opening / closing valve 22a and the first opening / closing valve 22a. The two open / close valves 22b are opened.

According to the control operation of the controller 60, the fire extinguishing agent is automatically sprayed from the curtain forming pipe 30 and the direct injection pipe 40 at the same time as the fire occurs, the clean wall of the structure (C) by the clean extinguishing agent The curtain is formed vertically and the ceiling of the structure (C) is filled with a clean extinguishing agent so that the internal oxygen concentration of the structure (C) drops sharply, preventing further combustion and extinguishing the fire early.

In this case, the controller 60 is provided with a display window 61 and a speaker 62 as shown in FIG.

Therefore, upon receiving the detection signal from the fire detection sensor 50, the controller 60 notifies the fire occurrence situation to the outside visually and audibly through the display window 61 and the speaker 62 to more effectively notify the fire occurrence situation. have.

Further, the manual switch 80 is further connected to the controller 60 so that the controller 60 can be manually operated regardless of the detection signal received from the fire detection sensor 50 as shown in FIG. 1. Therefore, even if the fire detection sensor 50 does not detect a fire, it is possible to operate the first opening and closing valve 22a and the second opening and closing valve 22b through the manual switch 80, thereby improving reliability of the fire suppression system. You can.

In addition, the first opening and closing valve 22a and the second opening and closing valve 22b are configured to be opened and closed manually, which may be caused by the inoperable state of the controller 60 in the event of a fire. When the two opening and closing valve (22b) is not automatically opened and closed to manually open the forced supply of a clean extinguishing agent.

Here, the blower 70 electrically connected to the controller 60 is further installed at the inner lower end of the structure C, which is the first opening / closing valve according to the control operation of the controller 60 when a fire occurs. It acts simultaneously with 22a) and the second open / close valve 22b to quickly discharge the internal air of the structure C to the outside.

In this case, the blower 70 is installed at the inner bottom of the structure C so that the air that is heavier than the clean extinguishing agent is pushed to the clean extinguishing agent to be located at the lower end thereof, thereby enhancing the effect of discharging air and discharging the clean extinguishing agent with the air. This is to prevent closure.

And the blower 70 is configured to operate for a set time by a timer provided separately in the controller 60, which is also to prevent the clean extinguishing agent is discharged to the outside with the air.

The operation time of the blower 70 is applied differently according to the volume of the structure (C). If the operation time is too long, the clean extinguishing agent is discharged to the outside, and if the operation time is too short, the air is not completely discharged. It is preferable to set the time to discharge 1/3 of the volume.

Therefore, the blower 70 rapidly discharges the air present in the lower end of the structure C to the outside while operating for a set time, thereby further improving the fire suppression performance by increasing the speed of lowering the oxygen concentration by the clean extinguishing agent. You can.

The blower 70 is manually operated by a manual switch 80 installed in the controller 60 in preparation for an inoperable state of the controller 60 such as the first open / close valve 22a and the second open / close valve 22b. It is preferred that it is configured to be operable.

And the entrance prohibition guide plate is installed to the lifting door of the structure (C). This is to prevent people from entering and exiting the fire, and to prevent safety accidents due to the clean extinguishing agent filled inside the structure (C).

At this time, the entrance prohibition guide plate is electrically connected to the controller (60). Therefore, the entrance prohibition guide plate is sprayed by a clean extinguishing agent through the curtain forming tube 30 and the direct injection pipe 40 at the time of fire and at the same time descending to block the entrance of the structure (C) to block the access of people.

Hereinafter, a detailed description of the fire suppression process through the fire suppression system 100 with increased fire suppression ability according to an embodiment of the present invention.

First, when a fire occurs in the structure (C), heat and smoke are generated therein. The heat detection sensor 51 and the smoke detection sensor 52 of the fire detection sensor 50 installed on the ceiling of the structure C are generated. ) Detects and generates a detection signal and transmits it to the controller 60.

The controller 60 receives the detection signal and quickly notifies the outside of a fire situation through the display window 61 and the speaker 62, and simultaneously opens the first opening / closing valve 22a and the second opening / closing valve 22b. And blower 70 is operated and the entrance prohibition guide plate descends and is installed in the door.

Then, as shown in FIG. 3, the clean extinguishing agent supplied from the first supply pipe 20a is smoothly provided without a pressure drop in the form of a curtain on the inner wall of the structure C through the curtain type depressor 31 of the curtain forming tube 30. Spraying, and the clean extinguishing agent supplied from the second supply pipe 20b is directly sprayed to the ceiling of the structure C through the direct injection pipe 40.

At the same time, the blower 70 is operated for a predetermined time to discharge the internal air of the structure (C) to the outside, the entrance prohibition guide plate is also lowered to be installed in the door of the structure (C) to prevent the entry of people.

Therefore, by discharging the internal air of the structure (C) to the outside and blocking the inflow of external air to reduce the internal oxygen concentration of the structure (C) to the uncombustible level to quickly extinguish the fire generated in the structure (C).

As described above, the fire suppression system 100 having the increased fire suppression ability according to the present invention is separated from the curtain forming tube 30 and the direct injection pipe 40, and a blower 70 is further installed to reduce the pressure of the clean extinguishing agent. It can be sprayed smoothly and the internal air of the structure (C) can also be quickly discharged to the outside can further increase the effect of the initial fire suppression.

The above embodiments are merely exemplary, and other embodiments variously modified from those having ordinary skill in the art may be possible.

Therefore, the true technical protection scope of the present invention should include not only the above embodiment but also various other embodiments modified by the technical spirit of the invention described in the claims below.

10: assembly tube 11: storage container
20a: first supply pipe 21a: first pressure regulator
22a: first open / close valve 23a: first safety valve
24a: first connector 20b: second supply pipe
21b: second pressure regulator 22b: second opening and closing valve
23b: second safety valve 24b: second connector
30: curtain forming tube 31: curtain diffuser
40: direct injection pipe 50: fire detection sensor
51: heat detection sensor 52: smoke detection sensor
60: controller 61: display window
62: speaker 70: blower
80: manual switch 100: fire suppression system
C: structure

Claims (3)

In the fire extinguishing system to spray a fire extinguishing agent to extinguish the fire in the structure,
At least one storage vessel (11) in which a clean extinguishing agent is stored in parallel to the collection pipe (10);
A first supply pipe 20a connected to one side of the collection pipe 10 and provided with a first pressure regulator 21a and a first opening / closing valve 22a to supply clean extinguishing agent at a predetermined pressure;
A second supply pipe 20b connected to the other side of the collection pipe 10 and provided with a second pressure regulator 21b and a second open / close valve 22b to supply clean extinguishing agent at a predetermined pressure;
A curtain forming tube 30 connected to an end of the first supply pipe 20a and installed around the inner wall of the structure C in a loop shape to spray clean extinguishing agent in a curtain form;
A direct injection pipe (40) connected to an end of the second supply pipe (20b) and installed in a transverse direction on a ceiling of the structure (C) to inject a clean extinguishing agent;
A fire detection sensor 50 installed on the ceiling of the structure C to detect a fire;
The fire detection sensor 50, the first open / close valve 22a, and the second open / close valve 22b are electrically connected to each other so that the first open / close valve 22a and the second open / close switch are in response to the detection signal of the fire detection sensor 50. And a controller (60) for opening the valve (22b).
The method of claim 1,
In the inner bottom of the structure (C),
It is electrically connected to the controller 60 is operated by the controller 60 in accordance with the detection signal of the fire detection sensor 50 is characterized in that the blower 70 for discharging the internal air of the structure (C) to the outside is further installed. A fire suppression system with increased fire suppression ability.
The method of claim 1,
The clean extinguishing agent,
Fire extinguishing system with enhanced fire suppression capability comprising one of nitrogen gas, IG-01, IG-100, IG-541, and IG-55.

Images