SU860773A1 - Gas generator for powder fire extinguisher - Google Patents

Description

one

The invention is pending to the fire fighting equipment, in particular to the gas generators for powder fire extinguishers.

A known generator, used in burners, fire extinguishers, for displacing the fire extinguishing powder 1. To create the required pressure in the fire extinguisher balloon in the gas generator, it is used firmly, the fuel, hot air at a certain temperature. Depending on the type of fuel, the temperature can be from 1200 ° K to 2700 ° K. As a means for cooling the gaseous products of combustion used a chemical that is part of the fuel.

The disadvantage of this generator is the low efficiency due to the high temperature of the generated gases, which leads to sintering of the fire extinguishing powder.

A gas generator is known, having a cylindrical housing with a sequential stirring, an igniter, a solid fuel charge, a nozzle for the release of generated gases and a gas cooler 2 in it.

The gas cooler is a cylinder with longitudinal gas channels, the walls of which are coated with a chemical that decomposes under high temperature. Known generator is also not sufficiently effective in operation.

5 This is explained by the fact that fast-moving combustion products not only heat the chemical coating, but also destroy it. Pieces of coating, moving together with gazamn, can block the flue

UO or powder aerator, what. in turn, lead not only to reduced performance, but even to an emergency. The same happens from the cracking of the chemical coating during its uneven heating. The complexity of the technology and one-time use reduces the effectiveness of this coating.

The purpose of the invention is to improve the efficiency of the gas generator by eliminating the listed disadvantages.

The goal is achieved by the fact that the gas cooler is made in the form of a labyrinth of coaxial cylinders made of heat absorbing material.

The invention is illustrated in the drawing.

The gas generator is a cylindrical cylindrical housing 1, in which a solid fuel combuster (not shown), a nozzle 2 for exit of geyiruyemykh gases and a gas cooler | e 3 consisting of three cylinders of heparin-absorbing material are located. In the lower part, cylinders 4 and 5 have plugs 6 and 7, and in cylinders 5 and 6 there are openings 8 and 9 for non-repetition of gases.

1 abotas1 generator as follows.

After the electric current is supplied to the igniter, the village ignites the solid fuel charge, and the generated miter through the nozzle 2 enters the internal cylinder of the gas cooler 3, from where through the annular gap between cylinders 3 and 4 and the aperture 8 fall into the next annular gap between cylinders 4 and 5. (.) sufficiently cooled gases through the openings 9 enter the aeration chamber of the fire extinguisher (not shown).

The desired temperature is easily obtained by varying the number of cylinders. their size, brand teilopoglots1.ay1n, his later. Increased service safety. Repeated use of the gas generator is allowed by recharging without replacing the elements of the gas cooling system.

Formula and 3 optics

The gas generator for a burst fire P1 containing a cylindrical body with successively placed igniter in it,. solid fuel charge, nozzle to release the generated gases and the gas cooler, which is designed to increase the efficiency of the gas generator, the gas cooler is made in the form of a maze of coaxial cylinders of heat-absorbing material.

Sources of information taken into account in the examination

1. The patent of Germany No. 1777644, cl. F 42 V 3/04, 1975.

2. Forward number 2660911 / 29-12, cl. And 62 C 13/22, 1978, according to which the decision to issue an author's certificate was made — the prototype.

Claims (1)

A gas generator for a powder fire extinguisher, comprising a cylindrical body with a sequentially arranged igniter,. solid-fuel charge, a nozzle for the exit of generated gases and a gas cooler, which requires that, in order to increase the efficiency of the gas generator, the gas cooler is made in the form of a labyrinth of coaxial cylinders of heat-absorbing material.