KR20000037718A - Fire extinguishing method - Google Patents

Abstract

PURPOSE: A fire extinguishing method is provided which initially extinguishes fire automatically by fire-extinguishing chemical and generated gas pushing glass ampule to break the glass ampule and disperse the fire-extinguishing chemical when the temperature of the fire-extinguishing chemical in the ampule is higher than 90°C. CONSTITUTION: A fire extinguishing method is characterized that it performs fire extinguishing and prevention of combustion at the same time by solidifying liquid fire-extinguishing chemical by regulating water to be added to water glass in the formulation to control the dissolving time of the fire-extinguishing chemical to the flow rate of the inside of a pump and then receiving the solidified liquid fire-extinguishing chemical in an absorption pipe of the pump.

Description

Fire extinguishing method

In the early stages of the most important fire extinguishing, the liquid extinguishing agent is solidified in order to complete fire extinguishing and arson, and the dissolution time of the solidified extinguishing agent is added to the flow rate inside the pump by adding or subtracting the amount of water added to the water glass in the prescription. It adjusts adaptively, it is absorbed into the absorption tube of the pump and dissolves the extinguishing agent in water within the most effective time for initial extinguishing at the same time as the initiation of absorption. It also relates to a fire extinguishing method characterized in that it helps to prevent combustion by fire-resistant chemicals dissolved in water.

In general, four things are needed to get things going.

Firstly, combustibles

Second, the oxygen needed to burn with oxygen (air)

Third, the temperature required to burn with heat (ignition source) and

Fourth, the chain reaction is a chain oxidation reaction of combustion products, heat and oxygen, and the four elements of combustion are combined into one.

Among the elements of extinguishing, there is a method of extinguishing by reducing the concentration of oxygen by covering the combusted product with a non-combustible gas such as carbon dioxide gas, and blocking the supply of oxygen to the combusted product. There was a method of extinguishing fire by blowing water, etc. to reduce the temperature (heat) of the combusted product. A method of extinguishing fire by removing the combusted material was called extinguishing digestion. There was a method of blocking and suppressing the chain reaction between carbon and heat.In the case of fire, it was difficult to extinguish by using a fire extinguisher or spraying water. Except for fire extinguishing system (cooling extinguishing system), there is no way to extinguish fire in case of fire or to extinguish automatically when there is no people. And there are problems in the real wear casualties.

The present invention was invented to solve the conventional problems as described above, the object of the present invention is to extinguish the fire extinguishing agent and the gas generated by the extinguishing agent and the gas generated in the glass ampoule automatically when the fire in the glass ampoule is more than 90 ℃ · Its purpose is to extinguish and extinguish the fire by automatically extinguishing the fire automatically. The solubility of the extinguishing agent is related to the inclusion of extinguishing agent evenly in the amount of waterproofing within a certain time. This solubility is related to the inherent function of the pump such as water pressure. As the flow rate varies accordingly, it needs to be added or subtracted accordingly.

Although the degree of solidification is somewhat related to the pressure to be added, it can be added or subtracted by a solidifying agent. The principle of solidification is to add anhydrous sodium carbonate to water glass to make the solidifying agent.

Sodium carbonate contains 10 molecules of crystallized water, but the result of the experiment is to add and subtract water within the range, so that both can be mixed, and the total solubility of the other chemicals can be freely added or decreased.

In order to manufacture the extinguishing agent used in the present invention, first, the chemicals are dried, granulated by adding anhydrous volatile solvent, put into a mold, compressed and molded into a spherical shape.

Depending on the flow rate of each pump, the amount of water added to the prescribed glass of water is adjusted to dissolve within the required time.

The liquid extinguishing agent is not only impossible to transport in a glass container or the like due to volume expansion, but also to operate in the urgent case as in the present purpose.

An example of the composition of the spherical extinguishing agent in the present invention is as follows.

Ammonia Chloride 40㏄

Platinum Powder 70㏄

Ammonia Sulfate Powder 60㏄

Salt Powder 85㏄

Anhydrous soda 70 ㏄

Water glass 265㏄

Now, for example, the line pressure is 30 Ib, and the amount of arithmetic water is 91 gallons per minute, which is 455 gallons for maintaining the digestibility within 5 minutes, and the quantity of the extinguishing agent is formed into 10 spheres of about 0.7 kg each. A bag made of dark (flax) with an opening with a coarse wire mesh detachable at the distal end of the pump absorption tube, containing a fire extinguisher at all times, and a waterproof cellophane paper on the wire mesh at the opening. Attach to prevent the change of convention.

In addition, the end portion of the bag is equipped with a production softener, and the chemicals that generate gas in the present invention are ammonia chloride, ammonia sulfate, and sodium carbonate.

Other gas-generating chemicals include ammonia carbonate, etc.

NH ₄ HCO ₂ → NH ₃ + CO ₂ + H ₂ O to avoid the risk of loss of avoided.

←

The ammonia chloride and ammonia sulfate are heated by heating

NH ₄ CI = NH ₃ + HCI, (NH ₄ ) ₂ SO ₄ = 2 NH ₃ + H ₂ SO ₄ to generate ammonia gas to help digestion, sodium carbonate is secondly decomposed as follows.

Na ₂ CO ₃ + 2HCI = 2NaCI + H ₂ 0 + CO ₂

Na ₂ CO ₃ + H ₂ SO ₄ = Na ₂ S0 ₄ + H ₂ CO ₃

H ₂ CO ₃ = H ₂ O + CO ₂

Carbon dioxide gas is generated by decomposition of the above formula, and the ammonia gas is helpful for extinguishing together.

Here, the finished salt and forget-me-not are extremely absorbent, so that the waterproof water is retained on the surface of the temporary combusted product and then evaporated, which helps to prevent digestion and combustion for the endothermic effect.

Water glass and alum form anhydrous ammonium silicate, which helps to prevent combustion because it is invariant to heat, has strong adhesion and malleability, and protects the surface of the combustion body to prevent carbonization.

The effect of the total combustion effect is mentioned above.

The gas generating chemicals in the extinguishing agent generate ammonia gas or carbon dioxide gas for the first time by heating, and there is no fear that the gas will be unnecessarily lost before the waterproofing reaches the combusted product.

As described above, the present invention may be used as an embodiment in a glass ampoule of a fire extinguisher. In particular, as a place for installing a fire extinguisher, at home, a bed, a kitchen, a children's room, a staircase, a living room, and an easy-to-burn item may be used for business purposes. If it is installed on the ceiling or wall of the room, the fire extinguishing agent has an effect of initial suppression automatically. The extinguishing agent reacts according to the temperature rise, so there is no influence of shock and vibration, and if the glass ampoule is impacted, Even if the liquid leaks, the chemicals do not react at room temperature, so there is no carbon dioxide gas, and when the extinguishing agent is heated to a temperature of more than 90 degrees Celsius and less than 110 degrees Celsius, the container bursts automatically and the extinguishing agent diffuses and reacts. It acts as a cooling and oxygen blocking prevention at the same time, so it is extinguishing instantly. It can automatically extinguish the fire very effectively, and when it finds a fire, it can throw fire extinguisher glass ampoule at the fire ignition point to extinguish it. You can also get a great effect as a spray.

Claims (1)

In order to control the dissolution time of the extinguishing agent with respect to the flow rate inside the pump, the liquid extinguishing agent is solidified by adding or subtracting the amount of water to be added to the water glass in the prescription, and storing it in the absorption tube of the pump to combine fire extinguishing and combustion prevention. Fire extinguishing method characterized by.