KR100639917B1 - Disaster Prevention Device - Google Patents

Abstract

The present invention relates to a disaster prevention pressurizing device capable of spraying water at high pressure during fire suppression. The pressurizing device includes a gas accommodating part accommodating a certain amount of liquefied nitrous oxide, a pressurizing part for preheating the nitrous oxide of the gas accommodating part to a predetermined temperature and decomposing it into nitrogen and oxygen to generate a high pressure, and the gas accommodating part and A check valve located between the pressurizing portions to prevent backflow of nitrous oxide transferred to the pressurizing portion, and a liquid for extinguishing the fire for the extinguishing of the fire and the liquid pressurized by the high pressure nitrogen and oxygen of the pressurizing portion A disaster prevention apparatus comprising a receiving portion and a nozzle installed in the liquid receiving portion to spray the pressurized liquid in proportion to the pressure, wherein the pressurizing portion includes an inlet through which the nitrous oxide flows and decomposed oxygen and nitrogen. A flow path body having an outlet for discharging and forming a flow path for guiding the movement of the fluid from the inlet to the outlet; ; A preheating part located on a flow path adjacent to the inlet and having a preheating space which is larger than the flow path and receives the nitrous oxide and is heated to a predetermined high temperature, and a heating coil is installed along the inner diameter surface of the space; A high pressure generating portion located on a flow path adjacent to the preheating portion and reacting with the nitrous oxide to decompose into oxygen and nitrogen having a relatively high pressure; The high pressure generation unit may include: a palladium catalyst which is partitioned on the flow path at regular intervals to cause chemical reaction with the nitrous oxide within the interval and to decompose into oxygen and nitrogen; It characterized in that it comprises a pair of mesh members located on one side and the other side to prevent the separation of the palladium catalyst from within the interval. Accordingly, it is possible to generate the necessary pressure without supplying power, and can be installed quickly in any place where a fire occurs, thereby maximizing user convenience and minimizing disaster damage. Since it is made completely and oxygen is released after the water has been discharged, the supply is helpful to the firefighters' activities, thus minimizing human injury.

Fire, disaster prevention, high pressure, pressurization, spraying, water, gas

Description

Disaster Prevention Device {EMERGENCY APPARATUS}

1 is a front view showing a disaster prevention apparatus according to the present invention,

2 is a cross-sectional view showing in detail the pressing portion of the disaster prevention apparatus according to the present invention.

Explanation of symbols on the main parts of the drawing

One ; Gas receiving part 3; Pressurization

5; Liquid container 7; Nozzle

9; Check valve 11; Euro main body

12; Heating coil 13; Preheater

15; High pressure generating unit 17; Palladium Catalyst

19; Mesh member

The present invention relates to a disaster prevention pressurizing apparatus, and more particularly, to a disaster prevention pressurizing apparatus capable of spraying water at high pressure during fire suppression.

In general, a disaster prevention apparatus for extinguishing a fire by injecting water presses a predetermined pressure on the water contained in the water tank and presses the injector outward through the nozzle, and is composed of a water tank, a pump, and a nozzle.

However, since such a disaster prevention device operates only when power is supplied to the pump in order to inject water at a predetermined pressure, it takes a long time to spray water by connecting a power supply in case of an emergency fire, and the fire suppression is delayed, thus suppressing the initial suppression. There is this difficult problem.

In addition, the volume is relatively large and heavy according to the capacity and pressure of the pump, there is a problem that it is difficult to quickly put into the fire site because the mobility is poor.

The present invention has been made to solve the above problems, while taking a relatively simple configuration, it is possible to generate the required pressure without supplying power, disaster prevention that can be quickly installed by installing anywhere in the fire occurrence area Provided is a pressurizing device for that purpose.

According to the present invention, there is provided a gas accommodating portion accommodating a certain amount of liquefied nitrous oxide, a pressurizing portion for preheating the nitrous oxide of the gas accommodating portion to a predetermined temperature and decomposing the same with nitrogen and oxygen to generate a high pressure. A check valve positioned between the gas accommodating part and the pressurizing part to prevent backflow of nitrous oxide transferred to the pressurizing part, and a fire suppression liquid is contained for extinguishing the fire and the liquid is A disaster prevention apparatus comprising a liquid receiving portion pressurized by oxygen and a nozzle installed in the liquid receiving portion to spray the pressurized liquid in proportion to the pressure, wherein the pressing portion includes an inlet through which the nitrous oxide flows; It has an outlet for discharging the decomposed oxygen and nitrogen and forms a flow path for guiding the flow of fluid from the inlet to the outlet It is the flow path body; A preheating part located on a flow path adjacent to the inlet and having a preheating space which is larger than the flow path and receives the nitrous oxide and is heated to a predetermined high temperature, and a heating coil is installed along the inner diameter surface of the space; A high pressure generating portion located on a flow path adjacent to the preheating portion and reacting with the nitrous oxide to decompose into oxygen and nitrogen having a relatively high pressure; The high pressure generation unit may include: a palladium catalyst which is partitioned on the flow path at regular intervals to cause chemical reaction with the nitrous oxide within the interval and to decompose into oxygen and nitrogen; It is achieved by a disaster prevention device comprising a pair of mesh members located on one side and the other side to prevent the separation of the palladium catalyst from within the interval.

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Hereinafter, with reference to the accompanying drawings will be described in detail the disaster prevention pressure device according to the present invention. 1 is a front view showing a disaster prevention apparatus according to the present invention, Figure 2 is a cross-sectional view showing in detail the pressing portion of the disaster prevention apparatus according to the present invention.

As shown in FIG. 1, the disaster prevention apparatus includes a gas accommodating part 1 having a predetermined accommodating space and accommodating a predetermined amount (1 L or more) of nitrous oxide (N ₂ O) liquefied at low temperature in the space, and The nitrous oxide (N ₂ O) of the gas accommodating part 1 is heated and preheated to a predetermined high temperature to decompose into nitrogen and oxygen, respectively, and pressurized to form a high pressure of nitrogen (N ₂ ) and oxygen (0.5 O ₂ ) accordingly. Part 3 and a liquid accommodating part 5 containing a fire extinguishing liquid (usually water-H ₂ O) for extinguishing the fire and pressurizing the liquid by high pressure nitrogen and oxygen of the pressurizing part 3. And a nozzle (7) installed in the liquid container (5) for injecting the liquid pressurized toward the fire-producing side in proportion to the pressure.
Here, the gas accommodating part 1 is provided with an injection hole (not shown) for injecting the nitrous oxide, and is located between the outlet side of the gas accommodating part 1 and the pressurizing part 3 and the pressurizing part ( A check valve 9 for supplying nitrous oxide toward 3) is provided.

A check valve (not shown) is provided between the gas accommodating part 1 and the pressurizing part 3 to prevent backflow of nitrous oxide transferred to the pressurizing part 3. Here, the check valve is to prevent the backflow phenomenon that may occur as the pressure generated in the pressurizing portion 3 exceeds the pressure of the gas receiving portion (1).

As shown in FIG. 2, the pressurizing part 3 has an inlet through which the nitrous oxide flows in and an outlet through which decomposed oxygen and nitrogen are discharged, thereby forming a flow path for guiding fluid movement from the inlet to the outlet. A heating coil 12 along a flow path body 11 and a preheating space located on a flow path adjacent to the inlet and having a diameter larger than that of the flow path and accommodating the nitrous oxide to be heated to a constant temperature; The preheating unit 13 is provided, and the high pressure generating unit 15 located on the flow path adjacent to the preheating unit 13 and reacting with the nitrous oxide to decompose into oxygen and nitrogen having a relatively high pressure.
Here, the heating coil 12 applies a voltage from an external power source, that is, through a portable battery, thereby heating the preheating space to a predetermined temperature, thereby preheating the nitrous oxide to a high temperature.

In addition, the high pressure generation unit 15 is partitioned at regular intervals on the flow path to cause a chemical reaction with the nitrous oxide within the interval and at the same time to decompose the palladium catalyst 17 into oxygen and nitrogen, and within the interval In order to prevent separation of the palladium catalyst 17, it has a pair of mesh members 19 located on one side and the other side. Here, the palladium catalyst 17 has an element symbol PD and is composed of grains of about 2-3 mm, and the mesh member 19 is 1.5 mm or less.

The high pressure generating unit 15 generates a high pressure. The palladium catalyst 17 forms a chemical reaction of nitrous oxide as follows.

N ₂ O → N ₂ (high pressure) + 1/2 O ₂ (high pressure)

The pressurization part 3 as described above generates a high pressure from 80 atm to 100 atm, and strongly sprays about 100 L of liquid contained in the liquid accommodating part 5 through the nozzle by the high pressure. Let's do it.

That is, the preheating portion 13 of the pressurizing portion 3 preheats the nitrous oxide to a relatively high temperature or higher than a predetermined temperature, and the preheated nitrous oxide is high-pressure nitrogen (N ₂ ) by the palladium catalyst of the high-pressure generating portion 15. ) And oxygen (1/2 0 ₂ ) to decompose. Then, the liquid contained in the liquid accommodating portion 5 is strongly sprayed to the nozzle by nitrogen and oxygen under high pressure.
On the other hand, as confirmed by a number of experiments over a long period of time, oxygen and nitrogen decomposed through the catalyst were not released until the water was almost exhausted. That is, since the digestion is completed before all the water is released, the secondary ignition due to the oxygen generated by the decomposition of nitrogen monoxide did not occur. In particular, the supply of oxygen after the digestion is completed and the water is exhausted Rather, it helped firefighters.

As described above, the present invention can generate the necessary pressure without supplying power, and can be installed quickly in any place where a fire occurs, thereby maximizing user convenience and minimizing disaster damage. It is effective, especially because it is completely extinguished and oxygen is produced after the water has been discharged, so the supply can help the firemen's activities to minimize the casualties.

Claims (4)

A gas accommodating part accommodating a certain amount of liquefied nitrous oxide, a pressurizing part for preheating the nitrous oxide of the gas accommodating part to a predetermined temperature and decomposing it into nitrogen and oxygen to generate a high pressure, the gas accommodating part and the pressurizing part A check valve positioned between and preventing a reverse flow of nitrous oxide transferred to the pressurizing unit, a liquid containing unit for containing the fire suppression liquid for extinguishing the fire and pressurizing the liquid by high pressure nitrogen and oxygen in the pressurizing unit; And a nozzle installed in the liquid container and spraying the pressurized liquid in proportion to the pressure. The pressing unit, A flow passage main body having an inlet through which the nitrous oxide flows in and an outlet through which decomposed oxygen and nitrogen are discharged and forming a flow path for guiding fluid movement from the inlet to the outlet; A preheating part located on a flow path adjacent to the inlet and having a preheating space which is larger than the flow path and receives the nitrous oxide and is heated to a predetermined high temperature, and a heating coil is installed along the inner diameter surface of the space; A high pressure generating portion located on a flow path adjacent to the preheating portion and reacting with the nitrous oxide to decompose into oxygen and nitrogen having a relatively high pressure; The high pressure generation unit, A palladium catalyst which is partitioned on the flow path at regular intervals to cause chemical reaction with the nitrous oxide and decompose into oxygen and nitrogen within the interval; Disaster prevention device comprising a pair of mesh members located on one side and the other side to prevent the separation of the palladium catalyst from within the interval. delete delete delete

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