KR101571003B1 - Compressed air foam extinguisher - Google Patents

Abstract

The present invention relates to a compressed air foam extinguisher which composes various foam mixture ratios with a single device and be reused. According to the present invention, the compressed air foam extinguisher comprises: a compressed gas tank to store compressed gas; a foam solution tank to store a prescribed amount of foam solution; a firefighting water tank to store a prescribed amount of firefighting water to have a certain mixture ratio of the firefighting water and the foam solution, and store the foam water solution consisting of the foam solution and the firefighting water mixed together; a compressed gas supply pipe to supply the compressed gas stored in the compressed gas tank to the foam solution tank; a foam solution supply pipe to supply the foam solution stored in the foam solution tank to the firefighting water tank; a foam water solution supply pipe provided with an inlet disposed on a lower portion of the firefighting water tank, and connected to the outside of the firefighting water tank; a mixing chamber to mix the compressed air with the foam water solution to form compressed air foam; a supply hose connected to the foam water solution supply pipe; a constant pressure opening valve to open when a pressure of the compressed air foam formed in the mixing chamber reaches a predetermined pressure; and a spray nozzle connected to the supply hose or the pipe.

Description

[0001] COMPRESSED AIR FOAM EXTINGUISHER [0002]

The present invention relates to a compressed air foaming device, and more particularly, to a compressed air foaming device capable of forming various mixing ratios with one device and reusable.

Generally fire extinguishers are used to block or contain fire. These fire extinguishers are extinguished at the early stage of the fire by using the effects of cooling or air blocking of the fire extinguisher.

At this time, fire extinguishers are classified into fire extinguishers, powder fire extinguishers, halon fire extinguishers, carbon dioxide fire extinguishers, etc., and are used according to each situation.

Here, in the foam fire extinguisher, an aggregate of fine bubbles formed by foaming a foam in which water and a foaming agent are mixed at a certain ratio is blown by air, and the foam is covered by covering the surface of the combustible material,

Such a fire extinguisher has a form in which the catcher solution and the catcher solution preliminarily mixed with the digestion water are stored, which causes short life and increases the possibility of deterioration of the catcher solution.

In addition, there is a possibility that the mixture of the supernatant and the digestive water may be released in a state where the mixing ratio is not matched, so that the effect of the digestive action is reduced and the amount of use is increased.

As a method of mixing the fire suppression agent with the digestion water, there are a pump propor- tioner type, a pressure propor- tioner type, a line propor- tioner type, Side profileer type or the like is used.

Although fire and electric fire related to electric and electronic products are frequently occurring, there is no fire extinguishing device suitable for early evolution.

In the case of electrical and electronic products or electric fire, the fire extinguisher or gas fire extinguisher is used as the initial fire extinguishing equipment, but the fire extinguishing effect is not satisfactory.

Compressed Air Foam is the most effective way to extinguish fire in electrical and electronic products and fires. Compressed air can be quickly and completely extinguished by the effects of suffocation and cooling.

It is an object of the present invention to provide a compressed air foaming device capable of realizing various mixing ratios of foam and digestion water by using a single device.

It is another object of the present invention to provide a compressed air foaming device which can be manufactured in a compact package form.

The present invention relates to a compressed gas tank for storing a compressed gas; A holding tank for storing a predetermined amount of holding liquid; A digestion water tank capable of storing a predetermined amount of digestion water having a predetermined mixing ratio with the suppository solution and storing a catcher solution in which the suppository solution and the digestion water are mixed; A compressed gas supply pipe for supplying the compressed gas stored in the compressed gas tank to the reservoir tank; A holding fluid supply pipe for supplying the holding fluid stored in the holding fluid tank to the digestion water tank; A catcher solution supply pipe having an inlet at a lower portion of the water extinguishing water tank and connected to the outside of the water extinguishing water tank; A mixing chamber for mixing a compressed gas with the catcher solution to form a compressed air bubble; A supply hose connected to the catcher solution supply pipe; A static pressure opening valve that is opened when a pressure of the compressed air bubble formed in the mixing chamber reaches a predetermined constant pressure; And a spray nozzle connected to the supply hose or piping.

Preferably, the mixing chamber is provided on the catcher solution supply pipe in the fire fighting water tank, and is provided at a position higher than the maximum water level of the catcher solution in the fire fighting water tank.

The mixing chamber may include a catcher solution flow path through which the catcher solution passes and an orifice connected to the catcher solution flow path to allow the compressed gas inside the digestion water tank to be mixed into the catcher solution.

The mixing ratio of the catcher solution and the compressed gas can be adjusted by adjusting the number of the orifices or the diameter of the orifices.

The fire extinguishing water tank may further include a compressed air filling port for filling a compressed gas in the fire extinguishing water tank, a pressure gauge for detecting a pressure inside the fire extinguishing water tank, and an opening / closing valve for opening / closing the catcher solution supply pipe .

Preferably, the fountain solution supply pipe is connected to the lower portion of the fire extinguishing water tank.

The static pressure release valve may include a pressure switch for generating an open signal when the internal pressure of the extinguishing water tank reaches a predetermined pressure, and a motor valve opened by the open signal of the pressure switch.

The compressed liquid stored in the liquid tank is supplied to the digestion water tank by the pressure of the compressed gas supplied from the compressed gas tank through the pressure regulator, And the catcher solution is mixed with the compressed gas in the mixing chamber to form a compressed air bubble.

The compressed air fogging device according to the present invention stores the flow rate of the supernatant liquid and the digestive water stored in the concentrate tank and the digestion water tank in accordance with the quantitative ratio, thereby accurately adjusting the mixing ratio of the catcher solution having various mixing ratios Bring it.

In addition, the compressed air foaming device according to the present invention has a mixing chamber for mixing a catcher solution and a compressed gas in a water tank, so that the equipment can be easily manufactured in a small package.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a compressed air foaming device according to an embodiment of the present invention;
FIG. 2 is a view showing a mixing chamber of a compressed air foaming device according to the present invention,
FIGS. 3 to 5 are views for explaining the operation of the compressed air fogging device according to the embodiment of the present invention;
6 is a view illustrating a compressed air foaming apparatus according to another embodiment of the present invention.
FIG. 7 is a view illustrating a compressed air foaming apparatus according to another embodiment of the present invention. FIG.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall properly define the concept of the term in order to describe its invention in the best possible way It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention. It should be noted that 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, It should be understood that various equivalents and modifications are possible.

A compressed air spraying device is a device which extinguishes a fire by spraying compressed air.

Compressed air bubbles are generated by injecting compressed gas into the catcher solution.

Compressed gas can be a variety of gases, such as air, nitrogen, argon, and carbon dioxide, which are useful for digestion. In general, since compressed air is used, compressed air is referred to as a compressed air mixture in a catcher solution.

In addition, the catcher solution means a mixture of foam and digestion water.

Catcher solutions used for fire fighters, electrical / electronic products or fire related extinguishments are generally mixed with 1%, 3% and 6% of foam. The concentration of the concentrate in the catcher solution can be varied to 0.5% or other% due to the purpose of use and the development of the product.

In general, as a method for controlling the mixing ratio of the pouring liquid and the digestion water, a method of controlling the flow rate of the frying liquid and the digestion water injected into the mixer was used. In this case, the mixing ratio was adjusted by adjusting the supply flow rate by providing an orifice or the like on the supply pipe. In this case, the configuration of the apparatus had to be changed when the mixing ratio was changed. In addition, there is a form in which the foam liquid and the digestion water are mixed by using the mechanical quantitative mixing package. However, when the mechanical quantitative foam mixing apparatus is used, the size of the foam mixer is increased.

The present invention relates to a compressed air foaming device capable of forming and supplying various concentrations of catcher solution using a single device by storing the foaming liquid and the digestion water at a preset ratio and mixing them in a digestion water tank .

1 is a block diagram of a compressed air foaming apparatus according to an embodiment of the present invention.

As shown in the figure, the compressed air foaming apparatus according to the present invention comprises a compressed gas tank 100 for storing a compressed compressed gas, a holding liquid tank 200 for storing a predetermined amount of a holding liquid, A digestion water tank 300 for storing a predetermined quantity of digestion water so as to have a predetermined mixing ratio with the digestion water and capable of storing a catcher solution mixed with the digestive juice, A pressurized gas supply pipe 150 for supplying the pressurized liquid stored in the pressurized liquid tank 200 to the pressurized liquid tank 200 and a pressurized liquid supply pipe 250 for supplying the pressurized liquid stored in the pressurized liquid tank 200 to the extinguished water tank 300 A catcher solution supply pipe 310 connected to the outside of the extinguishing water tank 300 and having an inlet at a lower portion of the extinguishing water tank 300 and a mixer 310 for mixing compressed gas with the catcher solution to form a compressed air A chamber 320, A static pressure release valve 330 opened when the pressure of the compressed air bubbles formed in the mixing chamber 320 reaches a preset constant pressure, and a connection port 340 connected to the supply hose or pipe (Not shown).

Compressed gas having an extinguishing effect such as air, nitrogen, argon, or carbon dioxide is stored in a compressed state in the compressed gas tank 100. The pressure regulator 110 is preferably provided at the outlet of the compressed gas tank 100 so that the compressed gas can be supplied after the pressure of the compressed gas is reduced to a predetermined pressure.

The compressed gas tank 100 is provided with an on-off valve 120 to supply the compressed gas to the con- tainer tank 200 by opening the on-off valve 120. [

The compressed gas supply pipe 150 connecting the compressed gas tank 100 and the reservoir tank may be provided with a check valve 130 for preventing the backward flow of the compressed gas.

The stock solution tank 200 stores the stock solution. The stored foam liquid is supplied to the fire extinguisher tank 300 by the pressure when the compressed gas is supplied.

The water storage tank (300) stores the water and provides a space for mixing the water and the water.

The present invention is characterized in that after the enriched liquid and the digested water are stored in the enriched liquid tank 200 and the extinguished water tank 300 according to a mixing ratio set in advance and the enriched liquid stored in the enriched liquid tank 200 is stored in the extinguished water tank 300, So that the supernatant and the digestion water can be mixed in the extinguishing water tank 300.

For example, when making the catcher solution capacity 100 L in the extinguishing water tank 300,

If the kind of the fountain solution to be used is 1%, 1 L of the fountain solution is stored in the fountain solution tank 200, 99 L of water is stored in the waterproof tank 300,

If the type of foam liquid to be used is 3%, 3 L of foam liquid is stored in the foam liquid tank 200, and 97 L of water is stored in the fire water tank 300.

This structure can be mixed accurately with the prescribed ratio of foam and digestion water, and it is possible to provide various catcher solution mixing ratios using a single device.

In addition, the present invention can be reused by replenishing the stock solution and the digestion water to the stock solution tank 200 and the digestion water tank 300 after use, so that the effect can be repeatedly used.

On the other hand, a catcher solution supply pipe 310 is provided in the digestion water tank 300, and a mixing chamber 320 is provided on the catcher solution supply pipe 310.

The mixing chamber 320 creates a compressed air bubble by allowing the compressed gas to mix with the catcher solution. At this time, it is preferable that the mixing chamber 320 is installed inside the fire water tank 300 and is formed at a position higher than the maximum storage water level of the catcher solution.

When the supernatant stored in the supernatant tank 200 is supplied to the water tank 300, the water level of the catcher solution in the water tank is mixed with the extinguishing water and the supernatant liquid to reach the maximum water level. In this case, (320) is not immersed in the catcher solution.

This is to allow the compressed gas in the water tank 300 to be smoothly supplied to the mixing chamber 320.

A safety valve 360 for preventing the explosion of the fire extinguishing water tank 300 is provided in the fire extinguishing water tank 300 when an excessive pressure is generated in the fire extinguishing water tank 300 due to a failure of the regulator 110 .

Meanwhile, the pouring liquid is supplied to the fire extinguishing water tank 300 through the foam liquid supply pipe 250, and at this time, the foam liquid supply pipe 250 is preferably connected to the lower part of the fire extinguishing water tank 300. This makes it possible to improve the mixing effect of the digestion water and the suppository liquid by causing the suppository liquid to be injected to be fed into the digestion water tank 300 while pushing the digestion water.

In addition, the mixing nozzle 210 may be provided at a portion where the fountain solution supply pipe 250 is connected to the fire extinguisher tank 300. The mixing nozzle 210 is provided for enhancing the mixing effect by allowing the liquid to be vortexed into the digestion water tank 300 by a screw method or a volute method.

The control liquid supply pipe 250 may be provided with a check valve 230 for preventing backflow of the liquid.

The compressed air bubbles generated in the mixing chamber 320 pass through the static pressure release valve 330 and then are injected through the injection nozzle 350 via the supply hose or the pipe 340.

The static pressure release valve 330 is opened when the pressure is higher than a predetermined pressure, so that the compressed air can be supplied after a certain pressure is reached. This allows the compressed air injected into the water tank 300 to be discharged after smooth mixing of the fire water and the fire extinguisher, so that the compressed air can maintain a constant discharge pressure.

2 is a block diagram of a mixing chamber of a compressed air foaming device according to the present invention.

As shown in the figure, the mixing chamber 320 is provided on the catcher solution supply pipe 310 inside the digestive water storage tank so that the compressed gas can be smoothly mixed with the supplied catcher solution.

As shown, the mixing chamber 320 includes a catcher solution channel 322 connected to the catcher solution supply pipe 310 and an orifice 324 connected to the catcher solution channel 322.

The catcher solution flow path 322 may be formed in a venturi form, as shown.

When formed in a venturi shape, the orifice 324 is connected to a portion where the flow rate in the catcher solution flow path 322 is increased and the pressure is lowered.

However, the catcher solution flow path 322 is not necessarily limited to the venturi type. The compressed gas can be mixed with the catcher solution even if the catcher solution flow path 322 is not of the venturi type.

The mixing ratio of the catcher solution and the compressed gas is generally in the range of 3 to 15 times the volume of the catcher solution, and the mixing ratio of the compressed gas may be varied depending on the application.

If the mixing ratio of the catcher solution and the compressed gas is less than 1:10, it can be used for most fire with WET gun. If it is 1:10 or more, DRY can be used for electric fire.

3 to 5 are views for explaining the operation of the compressed air spraying apparatus according to the embodiment of the present invention.

4 shows a state in which the open / close valve is opened and the supernatant is mixed in the extinguishing water tank. Fig. 5 shows a state in which the constant-pressure valve is opened and the compression And the air bubbles are injected into the nozzles.

First, referring to FIG. 3, since the open / close valve is closed, it is stored in the stock tank of the enriched liquid, and the water is maintained in the digested water tank.

3, when the open / close valve 120 is opened, the compressed gas stored in the compressed gas tank 100 is supplied to the holding liquid tank 200, and the holding liquid is injected into the water tank 300 .

In the water tank 300, a mixture of the liquid and water is mixed. The compressed gas stored in the compressed gas tank 100 is continuously injected into the extinguished water tank through the con- tainer tank 200 even after the enriched liquid is injected into the extinguished water tank 300. [

The catcher solution mixed in the fire water tank 300 is supplied through the catcher solution supply pipe 310 and the compressed gas is mixed in the mixing chamber 320 to become compressed air.

A static pressure release valve 330 is provided on the path through which the compressed air is discharged through the catcher solution supply pipe 310 so that the static pressure release valve remains closed until the compressed air can reach a predetermined pressure.

When the compressed air bubble reaches a certain pressure due to the continuous supply of the compressed gas, the static pressure release valve 330 is opened as shown in Fig. 5, and the compressed air bubble is injected through the nozzle.

FIG. 6 is a view illustrating a compressed air foaming apparatus according to another embodiment of the present invention.

This embodiment is characterized in that a compressed gas filling port 370, a pressure gauge 280 for detecting the pressure inside the extinguishing water tank, an open / close valve 390 for opening and closing the catcher solution supply pipe 310, And further comprising:

The present embodiment is intended to detect breakage or damage of the fire extinguishing water tank 300 by filling a constant pressure in the fire extinguishing water tank 300.

Compressed air spraying apparatus is used in case of fire, and it is often used to maintain the standby state for a long time before use, so that the normal operation of the fire extinguishing apparatus can be checked at any time.

For example, when the pressure inside the water tank is filled at 5 bar through the compressed air filling port 370, a pressure of 5 bar is detected in the pressure gauge 380. However, if the airtightness of the fire extinguisher tank 300 is damaged due to a long standby state, the pressure of the pressure gauge 380 indicates a pressure lower than the filled pressure of 5 bar, .

In this case, it is necessary to provide an open / close valve 390 that can maintain the airtight state of the water extinguishing water tank 300. Normally, the open / close valve 390 must be kept closed, Both the on-off valve 120 and the on-off valve 390 of the extinguishing water tank 300 may be opened.

7 is a block diagram of a compressed air foaming apparatus according to another embodiment of the present invention.

The present embodiment is characterized in that the opening and closing of the fire extinguishing water tank 300 is controlled by the electric valve 400 and the pressure switch 410 is operated according to the pressure of the fire extinguishing water tank 300, 410 so that the motor-operated valve 400 is controlled.

For example, when the set pressure of the pressure switch 410 is 6 bar, when the compressed gas is supplied to the extinguishing water tank 300 so that the pressure inside the extinguishing water tank 300 reaches 6 bar, 410 are connected to generate an open signal, and an open signal is transmitted to the motor-operated valve 400 to open the motor-operated valve 400.

In other words, the present embodiment implements the static pressure release valve with the electric valve 400 and the pressure switch 410.

It is to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present invention will be indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as any equivalents thereof, be within the scope of the present invention.

100: Compressed gas tank 110: Pressure regulator
130: Check valve 150: Compressed gas supply pipe
200: Foaming liquid tank 210: Mixing nozzle
230: Check valve 250: Foaming liquid supply pipe
300: fire water tank 310: catcher solution supply pipe
320: mixing chamber 330: constant pressure opening valve
340: Supply hose or piping 350: Spray nozzle
360: Safety valve 370: Compressed gas filling port
380: pressure gauge 390: opening / closing valve
400: Electric valve 410: Pressure switch

Claims (8)

A compressed gas tank for storing a compressed gas; A holding tank for storing a predetermined amount of holding liquid; A digestion water tank capable of storing a predetermined amount of digestion water having a predetermined mixing ratio with the suppository solution and storing a catcher solution in which the suppository solution and the digestion water are mixed; A compressed gas supply pipe for supplying a compressed gas stored in the compressed gas tank to the reservoir tank; A holding fluid supply pipe for supplying the holding fluid stored in the holding fluid tank to the digestion water tank; A catcher solution supply pipe having an inlet at a lower portion of the water extinguishing water tank and connected to the outside of the water extinguishing water tank; A mixing chamber for mixing a compressed gas with the catcher solution to form a compressed air bubble; A supply hose or pipe connected to the catcher solution supply pipe; A static pressure opening valve that is opened when a pressure of the compressed air bubble formed in the mixing chamber reaches a predetermined constant pressure; And a spray nozzle connected to the supply hose,

Wherein the mixing chamber includes a catcher solution channel through which the catcher solution passes and an orifice connected to the catcher solution channel,
The mixing chamber is provided at a position higher than the maximum water level of the catcher solution in the fire extinguishing water tank on the catcher solution supply pipe in the fire extinguishing water tank so that the compressed gas in the fire extinguishing water tank is mixed with the catcher solution through the orifice And the compressed air is compressed.
delete delete The method according to claim 1,
By adjusting the number of the orifices or the diameter of the orifices,
Wherein the mixing ratio of the catcher solution and the compressed gas is adjusted.
The method according to claim 1,
The digester water tank
A compressed gas filling port for filling compressed gas in the water tank,
A pressure gauge for detecting a pressure in the water extinguishing water tank,
Further comprising an on-off valve for opening and closing the catcher solution supply pipe.
The method according to claim 1,
The fountain solution supply pipe
And connected to a lower portion of the water-extinguishing water tank.
The method according to claim 1,
The static pressure release valve
A pressure switch for generating an open signal when the internal pressure of the extinguishing water tank reaches a predetermined pressure; and a motor-operated valve opened by an open signal of the pressure switch.
The method according to claim 1,
The compressed liquid stored in the liquid tank is supplied to the digestion water tank by the pressure of the compressed gas supplied from the compressed gas tank through the pressure regulator, And the catcher solution is mixed with the compressed gas in the mixing chamber to form a compressed air bubble.

Images