KR102205276B1 - Fire extinguisher - Google Patents

Abstract

The present invention relates to a fire extinguishing device capable of secondary foaming.
In detail, in the fire extinguishing device 1 capable of secondary foaming,
Secondary foaming module 300 that is coupled to the lower side of the valve module 200, extends, and allows the foaming agent (HF) filled in the body container 100 to be sucked and discharged to the outside when fire is suppressed; Is composed,
Secondary foaming module 300,
The primary foaming siphon pipe 310 having a first suction port 311 to which the first siphon S1 is coupled; and a second suction port 321 to which the second siphon S2 is coupled Foaming siphon pipe (320); And, the foaming agent (HF) and the compressor body (CG) sucked into the siphon pipe for the primary foaming 310 and the siphon pipe for secondary foaming 320, respectively, are mixed A mixing zone 330; And a pressure measuring tube 340 coupled to one side of the indication pressure gauge (P) displaying the pressure inside the main container 100,
The first siphon (S1) extending and positioned to the lower end side of the body container 100 is coupled to the first suction port 311 of the primary foaming siphon pipe 310, and the primary foaming siphon pipe 310 ) To inhale the foaming agent (HF),
The second siphon (S2), which is located only on the upper side of the body container 100, is coupled to the second inlet 321 of the siphon pipe for secondary foaming 320, and the siphon pipe for secondary foaming (320). By allowing the compressed body (CG) to be sucked,
It is characterized in that the foaming agent (HF) released to the outside can have the effect of secondary foaming.
At this time, the siphon tube for secondary foaming 320,
At least one is formed on one side of the primary foaming siphon pipe 310,
By allowing the effect of secondary foaming to occur in the foaming agent (HF) discharged to the outside, the expansion ratio and the release rate of the foaming agent (HF) are maximized to achieve complete digestion.
That is, by the organic combination of the foaming explosives (HF) having chemical, suffocating and cooling digestion capabilities, and the secondary foaming module 300, the foaming explosives (HF) having the maximum expansion ratio and release rate are transferred to the outside. By allowing it to be discharged, there is an advantage that the combustion surface (fire point) is applied, so that perfect fire extinguishing occurs.

Description

Fire extinguisher capable of secondary foaming{Fire extinguisher}

The present invention relates to a fire extinguishing device capable of secondary foaming, and more particularly, when extinguishing a fire, by allowing the foaming agent filled in the main container to be sucked into the secondary foaming module, the foaming agent discharged to the outside It relates to a fire extinguishing device capable of secondary foaming so that the secondary foaming effect occurs.

A fire extinguishing device is the most convenient device that can extinguish a fire at an early stage in the event of a fire in the protected space, equipment, or equipment of a fire-fighting object.It is directly operated by a person using water or an extinguishing agent, or automatically discharges the drug. Say what you can.

If you look at these digestive devices from a kinematic perspective,

Conventional fire extinguishing equipment has a siphon pipe for inhaling fire extinguishing agents in common.Siphon pipes formed on conventional fire extinguishing equipment are composed only of a pipe shape of a certain length, so that the layers are separated for various reasons. There is a limit to the release of mixed extinguishing agents.

That is, the first fire extinguishing agent foamed to the outside through a conventional siphon pipe for fire suppression is a fire extinguishing agent whose extinguishing ability is significantly lowered due to insufficient mixing, and further, the effect of the filled fire extinguishing agent is sufficiently improved. There is a problem in that it cannot be exercised, and it gives difficulty in fire extinguishing work.

In other words, the conventional fire extinguishing device is a siphon pipe formed in a simple pipe shape, so that the fire extinguishing agent is foamed without mixing the fire extinguishing agent during the first foaming and after the first foaming within a certain period of time. In addition to not being sufficiently exhibited, there is a problem in that the fire extinguishing agent is wasted and the fire extinguishing ability of the fire extinguishing apparatus decreases.

Also, from the point of view of the fire extinguishing agent charged in the fire extinguishing device,

Among the extinguishing agents that are filled in conventional digestive devices, Halon has little toxicity to the human body, does not leave any residual substances after taking it, and has excellent digestibility, so it is still the most widely used, but has been identified as a substance that destroys the ozone layer and is designated as a regulated substance. There is a problem that it is done.

In addition, Halon is expensive, and it is difficult to commercialize it due to problems of maintenance, management, and initial cost.

Accordingly, the present invention has been invented to provide a fire extinguishing device that simultaneously solves the problems of the fire extinguishing ability and the fire extinguishing agent for the conventional fire extinguishing device as described above.

Accordingly, as a prior art for a fire extinguishing device capable of secondary foaming, as shown in Fig. 7 (a), "fire extinguisher" of Korean Patent Application Publication No. 10-2006-0116278 (hereinafter referred to as'prior art 1' Is,

A fire extinguisher body, a head mounted on the top of the fire extinguisher body and mounted on the top of the fire extinguisher body, and a fire extinguisher body by operation of the operation lever, in order to implement a system that easily fills the fire extinguisher used for education or practice and sprays the filled water. An injection port through which the injection liquid supplied from the fire extinguisher is injected is provided, an air injection part for filling air pressure into the inside of the fire extinguisher body is formed at the lower end of the fire extinguisher body, and a connection valve capable of injecting water into the side of the fire extinguisher body Is mounted, and a rubber siphon pipe that is located inside the fire extinguisher body and connected to the injection port to draw water by the internal pressure is in close contact or open by the operation of the operating lever. It relates to a fire extinguisher equipped with a possible air injection pump.

As another prior art, as shown in (b) of FIG. 7, "a fire extinguishing device equipped with a joint siphon tube" of Korean Utility Model Publication No. 20-0422301 (hereinafter referred to as'prior art 2'. )in,

In a conventional fire extinguishing apparatus comprising a fire extinguishing container main body in which the fire extinguishing agent is accommodated, and a siphon pipe connected by a foaming hose or metal pipe and a discharge port of the fire extinguishing agent installed inside the main body, the siphon pipe is a discharge port A first pipe connected to the first pipe, a connection pipe made of a flexible material and functioning as a joint, and a second pipe connected to the other side of the connection pipe so that the tip always faces toward the ground regardless of the posture of the body Joints consisting of a siphon tube consisting of, improving the siphon tube installed inside the fire extinguishing container body, and maximizing quality characteristics by releasing the fire extinguishing agent completely even when the fire extinguishing container body is upright as well as lying down. It relates to a fire extinguishing device equipped with a phone tube.

However, the siphon tube constructed in the prior art 1 to 2 is a tubular siphon tube commonly formed with one suction port, and does not solve the conventional problem to be solved by the present invention.

That is, as described above, the prior art 1 to the prior art 2 are inventions for a fire extinguishing device, and the present invention and the technical field are the same, but still have the problems of the conventional fire extinguishing device to be solved by the present invention.

In other words, the effects of the present invention to maximize the effect of fire extinguishing by improving the expansion ratio and release rate of the extinguishing agent discharged to the outside through a hose, prior art 1 to prior art 2 do not exhibit.

In addition, the fire extinguishing agent filled in the container of the fire extinguishing device is also the same as the conventional fire extinguishing agent, so that the conventional problem cannot be solved.

Therefore, the present invention, compared with the prior art 1 to the prior art 2, the problem to be solved, the solution means for solving it, and the effect exerted by solving it are different, there is a difference in technical characteristics.

Republic of Korea Patent Application Publication No. 10-2006-0116278 (2006.11.15.) Republic of Korea Utility Model Publication No. 20-0422301 (2006.07.19.)

Accordingly, the present invention was conceived to solve the above-described conventional problem,

For fire suppression, when the foaming agent filled in the body container is discharged to the outside, it is an object to provide a fire extinguishing device with maximum fire extinguishing performance by improving the expansion ratio and release rate of the foaming agent.

In addition, an object of the present invention is to provide a fire extinguishing device with excellent safety of the foaming agent to be filled in the body container by constituting the foaming agent released to the outside of an environment-friendly material.

Another object of the present invention is to provide complete extinguishing by remarkably reducing the possibility of secondary fire occurrence due to re-ignition when extinguishing a fire by filling a foaming explosive that has a long drainage time. Its purpose is to provide fire extinguishing equipment.

The present invention for achieving the above object is conceived to achieve the problem to be solved,

In a fire extinguishing device capable of secondary foaming,

A secondary foaming module that is coupled to the lower side of the valve module, extends, and allows the foaming agent charged in the body container to be sucked and discharged to the outside when a fire is extinguished.

The module for secondary foaming,

A siphon pipe for primary foaming having a first suction port to which the first siphon is coupled;

A siphon pipe for secondary foaming having a second suction port to which the second siphon is coupled;

A mixing zone for mixing the foaming agent and the compressor body respectively sucked into the primary foaming siphon pipe and the secondary foaming siphon pipe;

Consists of; a pressure measuring tube coupled to one side of an indication pressure gauge indicating the pressure inside the body container,

The first siphon extending to the lower end side of the body container is coupled to the first suction port of the siphon pipe for primary foaming, so that the foaming agent is sucked into the siphon pipe for primary foaming,

The second siphon located only on the upper side of the body container is coupled to the second inlet of the siphon pipe for secondary foaming, so that the compressor body is sucked into the siphon pipe for secondary foaming,

It is characterized in that the foaming agent released to the outside can have the effect of secondary foaming.

At this time, the siphon tube for secondary foaming,

At least one is formed on one side of the siphon tube for primary foaming,

By allowing the effect of secondary foaming to occur in the foaming agent released to the outside, the expansion ratio and the release rate of the foaming agent are maximized to achieve complete digestion.

On the other hand, prior to this specification, terms or words used in the claims for patent registration should not be construed as being limited to their usual or dictionary meanings, and the inventor has the concept of terms in order to explain his own invention in the best way. Based on the principle that can be appropriately defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so various alternatives that can be substituted for them at the time of application It should be understood that there may be equivalents and variations.

According to the present invention as described above in the above configuration and operation,

When extinguishing a fire, the foaming agent filled in the main container is discharged to the outside through the secondary foaming module, so that the fire extinguishing performance is maximized.

That is, the expansion ratio and discharge speed of the foaming agent are maximized through the secondary foaming module.

In addition, the foaming explosives released to the outside are made of environmentally friendly materials to ensure the safety of foaming explosives.

In addition, since the drainage time of the foaming agent released to the outside is maintained for a long time, the possibility of a secondary fire caused by re-ignition is significantly reduced, so that perfect extinguishing is achieved.

In addition, it provides a fire extinguishing device with excellent fire extinguishing ability through the fire extinguishing effect of chemistry, suffocation and cooling of foaming explosives.

In addition, the foaming agent discharged to the outside through a hose is 3[times] to 5[times] heavier than air. When extinguishing a fire, it does not fly away by the wind, and is discharged to the fire point and sinks. The advantage is maximized.

In other words, compared to conventional water-based membrane cloths and extinguishing agents using halons, the fire extinguishing performance is maximized, but the safety after release and the expansion ratio at the time of release are improved, so that perfect fire extinguishing is achieved as described above, thereby causing a secondary fire. It is a very effective invention that eliminates the possibility of

1 is a block diagram showing a fire extinguishing device capable of secondary foaming according to the present invention.
2 is a schematic cross-sectional view of an embodiment of a fire extinguishing device capable of secondary foaming according to the present invention.
3 is a cross-sectional view of a first embodiment of a secondary foaming module among components of a fire extinguishing device capable of secondary foaming according to the present invention.
4 is a cross-sectional view of a second embodiment of a secondary foaming module among components of a fire extinguishing device capable of secondary foaming according to the present invention.
Figure 5 is a simplified flow chart showing the operational sequence of the present inventors a secondary foaming fire extinguishing device and the flow of the foaming agent.
6 is a schematic cross-sectional view of another embodiment of a fire extinguishing device capable of secondary foaming according to the present invention.
Figure 7 shows a representative diagram of the prior art for a fire extinguishing device capable of secondary foaming according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the functions, configurations and actions of the present inventors a secondary foaming fire extinguishing device.

1 is a block diagram showing a fire extinguishing device capable of secondary foaming according to the present invention, and FIG. 2 schematically shows a cross-sectional view of an embodiment of a fire extinguishing device capable of secondary foaming according to the present invention.

1 to 2, the present invention,

In the fire extinguishing device (1) capable of secondary foaming,

Secondary foaming module 300 that is coupled to the lower side of the valve module 200, extends, and allows the foaming agent (HF) filled in the body container 100 to be sucked and discharged to the outside when fire is suppressed; Is composed,

Secondary foaming module 300,

A siphon pipe 310 for primary foaming having a first suction port 311 to which the first siphon S1 is coupled;

A siphon pipe for secondary foaming 320 having a second suction port 321 to which the second siphon S2 is coupled;

A mixing zone 330 for mixing the secondary foaming fire extinguishing agent (HF) and the compressor body (CG) sucked into the primary foaming siphon pipe 310 and the secondary foaming siphon pipe 320, respectively;

Consists of; a pressure measuring tube 340 which is coupled to one side of the indication pressure gauge (P) displaying the pressure inside the body container 100,

The first siphon (S1) extending and positioned to the lower end side of the body container 100 is coupled to the first suction port 311 of the primary foaming siphon pipe 310, and the primary foaming siphon pipe 310 ) To inhale the foaming agent (HF),

The second siphon (S2), which is located only on the upper side of the body container 100, is coupled to the second inlet 321 of the siphon pipe for secondary foaming 320, and the siphon pipe for secondary foaming (320). By allowing the compressed body (CG) to be sucked,

It is characterized in that the foaming agent (HF) released to the outside can have the effect of secondary foaming.

At this time, the secondary foaming siphon pipe 320, as shown in Figure 3,

At least one is formed on one side of the primary foaming siphon pipe 310,

By allowing the effect of secondary foaming to occur in the foaming agent (HF) discharged to the outside, the expansion ratio and the release rate of the foaming agent (HF) are maximized to achieve complete digestion.

In particular, when explaining in more detail the relationship between the siphon pipe for the primary foaming 310 and the siphon pipe for the secondary foaming 320,

The first suction port 311 of the primary foaming siphon pipe 310 and the second suction port 321 of the secondary foaming siphon pipe 320 are formed to have different diameters, and at the same time, (the first suction port 311 ) Of the diameter> the diameter of the second inlet 321)

The length of the first siphon S1 coupled to the first suction port 311 of the primary foaming siphon pipe 310 and the second suction port 321 of the secondary foaming siphon pipe 320 It is preferable that the length of the two siphon (S2) be formed to have different lengths (length of the first siphon (S1)> the length of the second siphon (S2)).

This is, in the case of fire suppression, the first siphon (S1), the foaming explosives (HF) located under the main container 100, the second siphon (S2), during storage, the foaming explosives ( The compressor body (CG) generated from the HF and the compressed body (CG) generated when filling the foaming agent (HF) are respectively sucked, and thus the siphon pipe for primary foaming through the first siphon (S1) ( As the foaming agent (HF) sucked into 310) is primarily foamed, the foaming agent (CG) sucked into the secondary foaming siphon pipe 320 through the second siphon (S2) The purpose of this is to greatly improve the expansion ratio and release rate of the foaming agent (HF) by applying a secondary force to the HF), so that the effect of secondary foaming is exhibited.

That is, using the difference in the suction speed of the foaming agent (HF) and the compressor body (CG) sucked into the primary foaming siphon pipe 310 and the secondary foaming siphon pipe 320, respectively, the main container 100 The foaming agent (HF) and the compressor body (CG), which were separated due to the difference in specific gravity and the state of the material, passed through the secondary foaming module 300, improving the performance of the foaming agent (HF). At the same time, it is to be sufficiently mixed in the mixing zone 330 formed in the secondary foaming module 300 so that the high-quality foaming agent (HF) for extinguishing is foamed to the point of fire. .

In other words, the force generated by the compressed body (CG) (the force according to the discharge speed of the compressed body (CG) to be released to the outside) in the foaming agent (HF) discharged to the outside through the hose (H) is At the same time to be applied further, before being discharged to the outside through the hose (H), sufficient foaming agent (HF) and the compressor body (CG) in the mixing zone 330 formed in the secondary foaming module 300 As is mixed, the foaming agent (HF) that can exhibit the best fire extinguishing performance is released.

At this time, in the mixing zone 330 formed in the secondary foaming module 300,

The foaming agent (HF) and the compressor body (CG) are more easily mixed, and the mixing ratio increasing element 331 to be discharged to the outside through the hose (H); may be further included and configured.

That is, before the foaming agent (HF) is discharged to the outside through the hose (H) due to the mixing rate increasing factor 331 formed in the mixing zone 330, as described above, the difference between the specific gravity and the state of the substance As a result, the contact time and area of the separated foaming agent (HF) is extended and widened, and the effect of making it easier to mix the foaming agent (HF) is exhibited.

In more detail, as shown in Figure 4,

The blending rate increasing factor 331,

Foaming explosives (HF) that are sucked through the first suction port 311 and flow into the siphon pipe 310 for primary foaming, and sucked through the second suction port 321, to the siphon pipe 320 for secondary foaming. Foaming explosives (HF) in which a certain section is formed at a location where a part of the inflowing compressor body (CG) meets, and before being discharged to the outside through the hose (H), the layer is separated by the difference in specific gravity and the state of the substance Is sufficiently mixed, and even in a short period of time, the foaming agent (HF) sufficiently mixed in the mixing zone 330 by the mixing rate increasing element 331 generates bubbles and is discharged to the outside, while the combustion surface ( Fire point) to ensure active chemical, suffocation and cooling extinguishing.

On the other hand, looking at the components constituting the fire extinguishing device (1) capable of secondary foaming of the present invention,

As shown in Figure 2,

Body container 100 filled with foaming agent (HF);

A valve module 200 located above the main container 100 and including a valve 210 for sealing the ejection of the foaming agent (HF) in the main container 100;

Secondary foaming module 300, which is coupled to the lower side of the valve module 200 and in which the foaming agent (HF) in the body container 100 is sucked by the operation of the discharge lever control unit 400 when extinguishing a fire,

A discharge lever control unit 400 located above the valve module 200 and operated to discharge the foaming agent (HF) filled in the body container 100 to the outside through a hose (H) when extinguishing a fire ;

The valve module 200 is pressurized by the discharge lever operation unit 400 to allow the foaming agent (HF) filled in the main container 100 to be discharged to the outside, any of a hose (H) or a nozzle (N). Foaming agent discharge unit 500 formed of one or more;

It is located on one side of the body container 100, and an indication pressure gauge (P) for checking the pressure in the body container 100; consists of,

A fire extinguishing device 1 capable of secondary foaming to which the secondary foaming module 300 is applied is formed.

On the other hand, the foaming agent (HF) described in the present invention,

Compared to 1 [L] of aqueous solution within the range of 13 [%] to 25 [%] of aqueous film cloth,

Special gas is 0.5[kg] to 1.0[kg],

It is a fire extinguishing agent using a special gas as a foaming agent, filled in the main container 100 with a nitrogen pressure of 8.0 [kg/cm ² ] to 25 [kg/cm ² ].

As described above, the specific condition of the foaming agent (HF) is the condition in which the effect of the expansion ratio and release rate of the foaming agent (HF) released to the outside is the most excellent, and was derived by the experiment of the present applicant.

That is, through the specific conditions of the foaming explosives (HF) and the secondary foaming module 300, the expansion ratio is increased from 20 [times] to 60 [times] or more. to provide.

This increase in the expansion ratio can be easily explained as an example,

The foam (bubble) particles generated while the foaming explosive agent (HF) is released are hit again by the compressed body (CG) discharged through the siphon pipe 320 for secondary foaming, and are finely divided, At the same time as it is decomposed, since the discharge rate is increased by the discharge rate of the compressed body (CG), the expansion ratio and discharge rate of the foaming agent (HF) are maximized.

In addition, the foaming agent (HF) has advantages of less fluidity, longer drainage time, and excellent heat resistance than conventional firefighting agents.

At this time, the special gas constituting the extinguishing agent (HF) is an eco-friendly alternative to halon such as carbon dioxide, hydrochlorofluorocarbon admixture, heptafluoropropane, trifluoromethane, inert gas mixture, FLC, etc. Done.

On the other hand, referring to Figure 5 briefly looking at the operation of the present inventors the second foamable fire extinguishing device (1) and the flow of the foaming agent (HF) resulting therefrom,

By manipulating the discharge lever operation unit 400, the foaming agent (HF) filled in the main container 100 is discharged (▶ S100, operation step of the discharge lever operation unit)

The valve module 200 is opened by the operation of the discharge lever control unit 400 (▶ S200, valve module opening step)

With the opening of the valve module 200, the foaming agent (HF) filled in the body container 100 is sucked into the secondary foaming module 300 in order to be discharged to the outside by a pressure difference, (▶ S300 , Secondary foaming module suction step)

Through the foaming explosives discharge unit 500, (▶ S400, passing step of the foaming explosives discharge unit)

Fire extinguishing agent (HF) is released to the point of fire, and it is extinguished with the extinguishing performance of chemical, suffocation and cooling (▶ S500, fire extinguishing step)

At this time, the secondary foaming module suction step (S300),

Siphon pipe suction step for primary foaming (S310) of inhaling foaming explosives (HF) located at the lower end side of the main body container 100 through the first suction port 311 (S310) );

Siphon pipe suction step for secondary foaming (S320) of inhaling the compressor body (CG) located on the upper side of the main body container 100 through the second suction port 321, through the siphon pipe 320 for secondary foaming ;

In order to improve the reaction power of the foaming agent (HF) and the compressor body (CG) sucked into the primary foaming siphon pipe 310 and the secondary foaming siphon pipe 320, respectively, the foaming agent (HF) is a hose Before flowing to (H), the foaming agent (HF), which was located at the lower side of the main container 100 in the mixing zone 330, and the compressor body (CG), which was located at the upper side of the main container 100 ) By further mixing, the foaming agent mixing step (S330) of allowing the foaming agent (HF) with the optimum performance to flow into the hose (H); consisting of,

The expansion ratio and release rate of foaming explosives (HF) are maximized.

In other words, the present invention solves its own problem that the foaming agent (aqueous film foam solution and special gas) is separated by the difference in specific gravity and the state of the substance, rather, by making it an advantage, and suppressing fire. At the time, the foaming agent (HF) and the compressor body (CG) are quickly sucked and mixed into the siphon pipe 310 for the primary foaming and the siphon pipe 320 for the secondary foaming, and flow into the hose (H) and outward. By being released, the fire extinguishing agent (HF) having the maximum fire extinguishing performance is filled, and the secondary foaming module 300 is applied to provide a fire extinguishing device.

For reference, the present inventor's foaming explosives (HF) filled in the fire extinguishing device 1 capable of secondary foaming are mainly fire extinguishing agents for extinguishing Class A (general fire) and Class B (oil, gas) fires. Suitable as,

As described above, the special gas mixed with HF is the most stable extinguishing agent among extinguishing agents that can replace Halon 1301 and Halon 1211, where non-conductive agents are needed or after the release of the agents, It is used to extinguish a fire in a place where a problem occurs or in a place where people always reside, and it is relatively safe compared to other fire extinguishing agents due to the low pressure of the container agent, and has the advantage of inexpensive post maintenance compared to the initial investment cost. Have.

In addition, the expansion ratio of the foaming agent (HF) described in the present invention,

In the case of a fire extinguishing device to which the secondary foaming module 300 is not applied, 20 [times] than the conventional foaming fire extinguishing agent only with the foaming explosive (HF) under specific conditions, the secondary foaming module 300 is applied together, In the case of the fire extinguishing device 1 capable of secondary foaming of the present inventor, 60 [times] or more than the conventional foaming fire extinguishing agent by combining the foaming explosives (HF) under specific conditions and the secondary foaming module 300 The expansion ratio is increased.

In addition, the term'drainage time' described in the present invention indicates the water retention ability of the fabric, and means the time it takes for the fabric to return to the original aqueous fabric solution.

This is also referred to as'foam 25% drainage time' because it usually means the time it takes for 25[%] of the weight to return to the original aqueous solution.

In addition, the present inventors secondary foaming possible fire extinguishing device (1), as shown in Figure 6, the secondary siphon (S1') on the upper side of the first siphon (S1); may be further configured and ,

With the auxiliary siphon (S1'), like the second siphon (S2), the compressor body (CG) located at the top of the main body container (100) is sucked, so that more active mixing of the foaming agent (HF) is achieved. Can be induced.

In addition, the compressor body (CG) in the present invention refers to a gas under normal temperature and pressure such as nitrogen and carbon dioxide, and a foaming agent (HF) in a liquid state as a liquefied gas. It refers to the gas produced from HF).

As described above, it is apparent to those of ordinary skill in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention.

Therefore, since it can be implemented in various forms without departing from the technical idea or main characteristics, the embodiments of the present invention are merely illustrative in all respects and should not be interpreted as limiting, and various modifications may be made.

The present invention relates to a fire extinguishing device capable of secondary foaming, and is used in the manufacturing and sales business of manufacturing the same, and a structure for extinguishing fires, fire extinguishing devices used in emergency activities, and various activities related to firefighting and promotion of industrial fields. It can be applied to contribute.

1: Fire extinguishing equipment capable of secondary foaming
100: body container 200: valve module
210: valve 300: secondary foaming module
310: siphon pipe for primary foaming 311: first suction port
320: siphon pipe for secondary foaming 321: second suction port
330: mixing zone 331: mixing rate increase factor
400: discharge lever control unit 500: foaming agent discharge unit
S100: Operation step of the ejection lever control unit
S200: valve module opening step
S300: Secondary foaming module suction step
S310: siphon pipe suction step for primary foaming
S320: Secondary foaming siphon tube suction step
S330: Foaming explosive mixing step
S400: step of passing through the foaming explosives release section
S500: Fire extinguishing stage
H: hose N: nozzle
P: Indicator pressure gauge HF: Foaming agent
S1: first siphon S1': auxiliary siphon
S2: 2nd siphon

Claims (2)

Body container 100 filled with foaming agent (HF),
A valve module 200 located above the main container 100 and including a valve 210 for sealing the ejection of the foaming agent (HF) in the main container 100,
Secondary foaming module 300, which is coupled to the lower side of the valve module 200 and in which the foaming agent (HF) in the body container 100 is sucked by the operation of the discharge lever control unit 400 when extinguishing a fire,
A discharge lever control unit 400 located above the valve module 200 and operated to discharge the foaming agent (HF) filled in the body container 100 to the outside through a hose (H) when extinguishing a fire ,
The valve module 200 is pressurized by the discharge lever operation unit 400 to allow the foaming agent (HF) filled in the main container 100 to be discharged to the outside, any of a hose (H) or a nozzle (N). Foaming powder discharge unit 500 formed of one or more,
Located on one side of the main container 100, consisting of an indication pressure gauge (P) that allows you to check the pressure in the main container 100,
In the fire extinguishing device (1) capable of secondary foaming,
Secondary foaming module 300 that is coupled to the lower side of the valve module 200, extends, and allows the foaming agent (HF) filled in the body container 100 to be sucked and discharged to the outside when fire is suppressed; Is composed,
Secondary foaming module 300,
A siphon pipe 310 for primary foaming having a first suction port 311 to which the first siphon S1 is coupled;
A siphon pipe for secondary foaming 320 having a second suction port 321 to which the second siphon S2 is coupled;
A mixing zone 330 for mixing the foaming agent (HF) and the compressor body (CG) sucked into the primary foaming siphon pipe 310 and the secondary foaming siphon pipe 320, respectively;
Consists of; a pressure measuring tube 340 which is coupled to one side of the indication pressure gauge (P) displaying the pressure inside the body container 100,
The first siphon (S1) extending and positioned to the lower end side of the body container 100 is coupled to the first suction port 311 of the primary foaming siphon pipe 310, and the primary foaming siphon pipe 310 ) To inhale the foaming agent (HF),
The second siphon (S2), which is located only on the upper side of the body container 100, is coupled to the second inlet 321 of the siphon pipe for secondary foaming 320, and the siphon pipe for secondary foaming (320). By allowing the compressed body (CG) to be sucked,
Allows the foaming agent (HF) released to the outside to have the effect of secondary foaming,
The siphon tube for secondary foaming 320,
At least one is formed on one side of the primary foaming siphon pipe 310,
By allowing the effect of secondary foaming to occur in the foaming agent (HF) discharged to the outside, the expansion ratio and the release rate of the foaming agent (HF) are maximized to achieve complete extinguishing, and
The first suction port 311 of the primary foaming siphon pipe 310 and the second suction port 321 of the secondary foaming siphon pipe 320 are formed with different diameters, and the first suction port 311 is The diameter is formed larger than the diameter of the second suction port 321,
The length of the first siphon S1 coupled to the first suction port 311 of the primary foaming siphon pipe 310 and the second suction port 321 of the secondary foaming siphon pipe 320 The length of the 2 siphon (S2) is formed to have different lengths, the length of the first siphon (S1) is formed longer than the length of the second siphon (S2),
In the case of fire suppression, the first siphon (S1), the foam extinguishing agent (HF) located at the bottom of the main container 100, and the second siphon (S2), during storage, the foam extinguishing agent (HF) The compressed body (CG) generated from the compressed air (CG) and the compressed air (CG) generated when filling the foaming agent (HF) are respectively sucked, and the siphon pipe for primary foaming 310 through the first siphon (S1) As the foaming agent (HF) sucked into the foam is primarily foamed, the foaming agent (HF) by the compressor body (CG) sucked into the secondary foaming siphon pipe 320 through the second siphon (S2) By allowing a secondary force to be applied to the foaming agent (HF), the expansion ratio and release rate of the foaming agent (HF) are improved, and the effect of the secondary foaming is exhibited.
Using the difference in the suction speed of the foaming agent (HF) and the compressor body (CG) sucked into the primary foaming siphon pipe 310 and the secondary foaming siphon pipe 320, respectively, the specific gravity in the main container 100 And while the foaming agent (HF) and the compressor body (CG), which were separated due to the difference in the state of the material, passed through the secondary foaming module 300, while improving the performance of the foaming agent (HF), By sufficiently mixing in the mixing zone 330 formed in the secondary foaming module 300, high-quality foaming agent (HF) for extinguishing is foamed to the fire point,
In addition, the force according to the discharge speed of the compressed gas (CG) to be released to the outside generated by the compressed body (CG) is further applied to the foaming agent (HF) discharged to the outside through the hose (H). At the same time, before being discharged to the outside through the hose (H), the foaming agent (HF) and the compressor body (CG) are sufficiently mixed in the mixing zone 330 formed in the secondary foaming module 300, To ensure that the foaming agent (HF) that can exert fire extinguishing performance is released,
In the mixing zone 330,
The foaming agent (HF) and the compressor body (CG) are easily mixed, and the mixing ratio increasing element 331 to be discharged to the outside through the hose (H); consists of,
Before the foaming agent (HF) is discharged to the outside through the hose (H) due to the mixing rate increasing factor 331 formed in the mixing zone 330, the foaming agent separated due to the difference in specific gravity and the state of the material The contact time and area of (HF) are extended and widened, so that the mixing of the foaming agent (HF) is made easier, and
The blending rate increasing factor 331,
Foaming explosives (HF) that are sucked through the first suction port 311 and flow into the siphon pipe 310 for primary foaming, and sucked through the second suction port 321, to the siphon pipe 320 for secondary foaming. Foaming explosives (HF) in which a certain section is formed at a location where a part of the inflowing compressor body (CG) meets, and before being discharged to the outside through the hose (H), the layer is separated by the difference in specific gravity and the state of the substance Is sufficiently mixed, and even in a short period of time, the foaming agent (HF) sufficiently mixed in the mixing zone 330 by the mixing rate increasing element 331 generates a foam and is discharged to the outside, thereby reducing the fire point. By applying, chemical, suffocation and cooling digestion are also actively performed,
Foaming explosives (HF),
It is the optimal condition with the best effect of the expansion ratio and release rate of the foaming agent (HF) released to the outside.
Compared to 1 [L] of aqueous solution within the range of 13 [%] to 25 [%] of aqueous film cloth,
Special gas is 0.5[kg] to 1.0[kg],
Made of a fire extinguishing agent using a special gas as a foaming agent, filled in the main container 100 with a nitrogen pressure of 8.0 [kg/cm ² ] to 25 [kg/cm ² ],
Through the foaming explosives (HF) of the above specific conditions and the secondary foaming module 300, the expansion ratio is increased from 20 [times] to 60 [times] or more, providing a fire extinguishing device with overwhelming fire extinguishing performance With,
An auxiliary siphon (S1') on the upper side of the first siphon (S1); is further configured,
With the auxiliary siphon (S1'), like the second siphon (S2), the compressor body (CG) located at the top of the main body container (100) is sucked, so that more active mixing of the foaming agent (HF) is achieved. Characterized in that to be able to induce,
Fire extinguishing equipment capable of secondary foaming. delete

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