RU207427U1 - FIRE CHAMBER FOR DETERMINING THE VALUE OF THE EXTINGUISHING GAS CONCENTRATION OF EXTINGUISHING GAS SUBSTANCES - Google Patents

Abstract

The utility model relates to fire-fighting equipment, experimental equipment of laboratories, in particular, to test benches designed to assess the compliance of the characteristics of fire extinguishing agents with the established requirements by extinguishing the fire source. The fire chamber for determining the value of the fire extinguishing concentration of GFFS contains a refractory glass body with a volume of 1 m3, consisting of four walls, a ceiling and a bottom, forming its inner closed space, and made with the possibility of accommodating four stainless steel burners in it. The burners are shielded with a protective screen and placed in an internal closed space of a refractory glass body at a distance of 50 ± 5 mm from the walls. At the same time, two burners are placed in opposite corners of the refractory glass body relative to the floor at a level of 10% and one burner each at levels of 50% and 75% of the height of the refractory glass body so that the jets of gas extinguishing substances from the nozzle do not directly affect them, in an opening is located in the center of the ceiling, through which gas extinguishing substances are released into the closed space of the refractory glass body. Ventilation openings are located on the bottom and ceiling, providing ventilation and pressure relief during the release of gas extinguishing agents. The refractory glass body is made with the possibility of installing oxygen analyzers in it at heights of 10%, 50% and 80% of its height. The technical result provided by the claimed utility model consists in the development of a fire chamber made of refractory glass, which makes it possible to monitor the test process using a minimum amount of GFFS. 2 ill.

Description

The utility model relates to fire-fighting equipment, experimental equipment of laboratories, in particular, to test benches designed to assess the compliance of the characteristics of fire-extinguishing agents with the established requirements by extinguishing the fire source.

The fire chamber is designed to determine the value of the fire extinguishing concentration of gaseous fire extinguishing substances (in the text - GFFS). The need for this arises during acceptance tests (verification) of GFFS entering production, to confirm the declared fire extinguishing concentrations, as well as when conducting research tests to determine the fire extinguishing concentration of new GFFS.

A stand for testing fire extinguishers is known from the prior art, containing a test fire extinguisher, a container for collecting spent fire extinguishing agent, recording equipment, a gas burner and a target, while the target is made of a heat-conducting mesh with thermocouples fixed to it, has a combustion center inside the cavity, is connected by a variable bracket length with a rotating fire extinguisher, has a control unit for a swivel arm for the mechanism for rotating the fire extinguisher (see RU 168399 U1, publ. 01.02.2017).

From the prior art, a stand is known for studying the processes of combustion and extinguishing of materials, including equipment for recording the magnitude of temperature and pressure, pipelines for supplying components of a combustible mixture and extinguishing compositions, while in order to provide the possibility of studying the processes of combustion and extinguishing under conditions of increased pressure and vacuum, it is made with a sealed tank mounted on a frame, divided by a partition into compartments, one of which is connected to pipelines for supplying a combustible mixture and extinguishing agents and is enclosed in a casing that, together with a sealed tank, forms a chamber connected to a pipeline for supplying water (see SU 333952 A, publ. 03/30/1972).

From GOST R 53280.3-2009 “Automatic fire extinguishing installations. Fire extinguishing agents. Part 3. Gas extinguishing agents. Test Methods "known research tests to determine the fire extinguishing concentration of new GFFS, which are carried out by the" cup burner "method. The known technical solution is the closest in technical essence.

The disadvantage of the known method is that it is not suitable for GFFS, which are at 20 ° C in a liquid state. To carry out these tests, it is recommended to extinguish model foci in a fire chamber.

According to GOST R 53280.3-2009, the dimensions of the fire chamber are from 30 to 150 m ³ . When conducting tests in such a volume, it is necessary to spend a large amount of GFFS.

The technical result provided by the claimed utility model consists in the development of a fire chamber made of refractory glass, which allows monitoring the test process using a minimum amount of GFFS.

The technical result is achieved in that the fire chamber for determining the value of the fire extinguishing concentration of the GFFS contains a refractory glass body with a volume of 1 m ³ , consisting of four walls, a ceiling and a bottom, forming its inner closed space, and made with the possibility of placing four stainless steel burners in it , the burners are fenced with a protective screen and placed in the inner closed space of the refractory glass body at a distance of 50 ± 5 mm from the walls, while two burners are located in opposite corners of the refractory glass body relative to the floor at a level of 10% and one burner at the levels of 50% and 75 % of the height of the refractory glass body so that the jets of gas extinguishing agents from the nozzle do not directly affect them, there is an opening in the center of the ceiling through which the gas extinguishing agents are released into the closed space of the refractory glass case, ventilation openings providing ventilation and pressure relief during the release of gas extinguishing agents, the refractory glass body is made with the possibility of installing oxygen analyzers in it at heights of 10%, 50% and 80% of its height.

The claimed utility model is illustrated by the following figures.

FIG. 1 shows a general view of the fire chamber; in fig. 2 - burner.

The fire chamber for determining the value of the fire extinguishing concentration of GFFS contains a refractory glass body 1 with a volume of 1 m ³ , consisting of four walls 2, a ceiling 3 and a bottom 4, forming its inner closed space, and made with the possibility of placing four burners 5 of stainless steel thickness 5 mm. The inner diameter of the burner can be 80 ± 5 mm, the outer diameter is 90 ± 5 mm, and the height is 110 ± 2 mm. The burners are fenced with a protective shield 6 with an inner diameter of 140 mm and a height of 150 mm and are placed in the inner closed space of a refractory glass body at a distance of 50 ± 5 mm from the walls. At the same time, two burners are placed in opposite corners of the refractory glass body relative to the floor at a level of 10% and one burner each at levels of 50% and 75% of the height of the refractory glass body so that the jets of gas extinguishing substances from the nozzle do not directly affect them, in an opening 7 is located in the center of the ceiling, through which the gas extinguishing substances are released into the closed space of the refractory glass body. Ventilation openings (not shown) are located on the bottom and ceiling, providing ventilation and pressure relief during the release of gas extinguishing agents, the refractory glass body is made with the possibility of installing oxygen analyzers in it at heights of 10%, 50% and 80% of its height.

The chamber leakage parameter does not exceed 0.001 m ^-1 .

The declared fire chamber functions as follows.

Test conditions: ambient temperature from 15 ° C to 25 ° C, pressure from 84 kPa to 106.7 kPa, relative humidity from 40% to 80%.

Pour flammable liquid into the burners so that its level is (50 +/- 3) mm below the upper cut of the burner. The fuel is set on fire and a shutter speed (30 +/- 3) s is provided, providing air access to the chamber.

After the free combustion time has elapsed, air access is stopped, the chamber is sealed to the extent specified in the test conditions, and the supply of the tested GFFS is started.

The fact of extinguishing is registered visually or with the help of available technical means (thermocouples, etc.). The time of the GFFS supply and the time for extinguishing the burners are recorded.

Determine the amount consumed for extinguishing GFFS, for example, by reducing its mass.

Claims (1)

A fire chamber for determining the value of the fire extinguishing concentration of gaseous fire extinguishing substances (GFFS), containing a refractory glass body with a volume of 1 m ³ , consisting of four walls, a ceiling and a bottom, forming its inner closed space, and made with the possibility of placing four stainless steel burners in it , the burners are fenced with a protective screen and placed in the inner closed space of the refractory glass body at a distance of 50 ± 5 mm from the walls, while two burners are located in opposite corners of the refractory glass body relative to the floor at a level of 10% and one burner at the levels of 50% and 75 % of the height of the refractory glass body so that the jets of gas extinguishing substances from the nozzle do not directly affect them, there is an opening in the center of the ceiling through which the gas extinguishing substances are released into the closed space of the refractory glass body, ventilation holes are located on the bottom and ceiling, providing ventilation and pressure relief during the release of gas extinguishing agents, the refractory glass body is made with the possibility of installing oxygen analyzers in it at heights of 10%, 50% and 80% of its height.

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