RU20844U1 - FIRE EXTINGUISHER - Google Patents

Abstract

A fire extinguisher, which is a cylinder with a start-up head, consisting of a valve with a spray gun, the head is connected to a siphon tube, the cavity of the cylinder is filled with a propellant-containing fire-extinguishing composition under pressure, characterized in that the fire-extinguishing composition additionally contains tetrafluoroethane and hexane fluorodibromopropane, and the following as a propellor chloromethane - the ratio of components, wt.%: Hexane fluorodibromopropane - 20-25 Difluorochloromethane - 25-30 Tetrafluoroethane - The rest is up to 100

Description

FIRE EXTINGUISHER

The utility model relates to fire fighting equipment, namely to portable fire extinguishers used as a means of primary fire extinguishing.

A known fire extinguisher Patent of the Russian Federation 1472073, MKI A 62D 1/00, publ. 08.28.99, which is a cylinder with an electrovalve and replaceable nozzles The cavity of the cylinder is filled with a fire extinguishing composition containing chladones: trifluorochloromethane, trifluorobromomethane, hexafluorodibromopropane, tetrafluorodibromoethane. A fire extinguisher is used for professional fire extinguishing, as the pressure in the cylinder cannot be lower than 8 atm. Its use without personal protective equipment can cause isothermal injury, as the temperature of the jet at the outlet of the cylinder is minus 20 ° C.

As a prototype, a portable fire extinguisher was selected. RF Patent 2135237, МУИ А 62 С 13/00, publ. 08.27.99, which can be used as a primary fire extinguishing agent. A fire extinguisher is a cylinder with a launch head and a siphon tube made with a closed lower end and holes on the side surface. The cylinder cavity is filled with a gas that creates pressure, and a fire extinguishing fluid, which includes propellant. As you know, in the process of fire fighting, hydrocarbon vapors are formed that exacerbate the explosiveness of the situation. The extinguishing composition of the prototype does not contain components that reduce the likelihood of an explosion. In addition, in the prototype, a fire extinguishing jet is formed only with the help of the launch head, its spray, and thus there is exclusively directed spraying of the fire extinguishing composition, which leads to a decrease in the area of fire extinguishing.

2001100465

 I p 1 "65A62C13 / 00 The utility model is based on the task of creating a primary means

fire extinguishing, which reduces the likelihood of an explosion when extinguishing and capable of forming an increased area, there are fire extinguishing spots with a jet length of at least 4 m.In addition, the task is to increase the temperature range at which the fire extinguisher remains operational, as well as the possibility of its use without personal protective equipment ( elimination of the possibility of an isothermal burn).

The complex task is solved by the fact that in the fire extinguisher, which is a cylinder with a start-up head, consisting of a valve with a spray, the head is connected to a siphon tube, the cavity of the cylinder under pressure is filled with a propellant-containing fire extinguishing composition, according to the utility model, the new one is that the fire extinguishing composition is additionally contains tetrafluoroethane and hexane fluorodibromopropane, and as a propellant, difluorochloromethane in the following ratio of components, wt%: hexane fluorodibromopropane 20-25 difluorochloromethane 25- thirty

tetrafluoroethanol to 100

The utility model is illustrated by the Figure.

In the upper part of the cylinder 1, a launch head is installed, which is a valve 2 with a spray 3 having a manual actuator. The valve 3 is connected to a siphon tube 4, the lower end of which is located in the bottom region of the container. The cavity of the container is filled with a fire extinguishing composition of the following composition% wt.: Hexanofluorodibromopropane 20-25 difluorochloromethane 25-30

tetrafluoroethanol to 100

2 The contents of the cylinder are presented in two phases: 5 - gas under

Davlepiy, 6 - liquid.

The balloon is filled with the extinguishing agent in the following sequence. First, with the help of a metering device, hexane fluorodibromopropane (SzRbVgg), a phlegmatizing liquid with a draining ability, is poured into the balloon. Then, the valve is inserted and the edges are hermetically sealed, after which tetrafluoroethane (С2Р4Н2), which simultaneously performs two functions, is used as a blowing agent and a quenching component, and then the difluorochloromethane propellant (CFiCffl), which also has quenching capabilities, is introduced.

The essence of the utility model is described in more detail in the examples below.

Example 1

150 g of hexanofluorodibromopropane is poured into a 1 liter cylinder, then the cylinder is sealed and 400 g of tetrafluoroethane and 200 g of difluorochloromethane are fed. In this case, a pressure of 3-4 atm is created in the cylinder. When the trigger is pressed, the extinguishing agent is thrown out by a jet, the length of which reaches 4.3 m, the area of the fire extinguishing spot is 1.3 m.

Example 2

175 g of hexanofluorodibromopropane is poured into a 1 liter cylinder, then the cylinder is sealed and 400 g of tetrafluoroethane and 200 g of difluorochloromethane are fed. In this case, a pressure of 3-4 atm is created in the cylinder. When the trigger is pressed, the extinguishing agent is ejected by a jet, the length of which reaches 4.2 m, the area of the fire extinguishing spot is -1.2 m.

Sample

200 g of hexanofluorodibromopropane is poured into a 1 liter cylinder, then the cylinder is sealed and 400 g of tetrafluoroethane and 200 g of difluorochloromethane are fed.

3 At the same time, a pressure of 3-4 atm is created in the cylinder. By pressing the trigger

the extinguishing agent is emitted by a jet, the length of which reaches 4.1 m, the area of the fire extinguishing spot is 1.2 m.

High properties of a fire extinguisher are achieved mainly through the use of a new fire extinguisher; it has a mixture whose components and their ratio are selected experimentally.

The jet emitted by the fire extinguisher, due to the blowing agent included in the composition, has a finer-dispersed structure, which allows to increase the area of the fire extinguishing spot and to increase the length of the jet. The presence of a phlegmatizing liquid reduces the likelihood of an explosion when extinguishing. It was established that the fire extinguisher maintains its operability in the temperature range of ± 50 ° C.

The temperature of the jet of the outflowing fire extinguishing liquid is minus 2-3 ° C, which excludes the possibility of obtaining an isothermal burn and allows the use of a fire extinguisher without the use of personal protective equipment.

The indicated properties of the fire extinguisher allow it to be used as a highly effective and safe means of primary fire fighting.

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Claims (1)

A fire extinguisher, which is a cylinder with a start-up head, consisting of a valve with a spray gun, the head is connected to a siphon tube, the cavity of the cylinder is filled with a propellant-containing fire-extinguishing composition under pressure, characterized in that the fire-extinguishing composition additionally contains tetrafluoroethane and hexane fluorodibromopropane, and the following as a propellor chloromethane - the ratio of components, wt.%:
Hexane fluorodibromopropane - 20-25
Difluorochloromethane - 25-30
Tetrafluoroethane - Else up to 100