RU23390U1 - POWDER FIRE EXTINGUISHER - Google Patents

Description

20011317711

Illiippjiilplllilplii Powder Extinguisher

The invention relates to fire fighting equipment and can be used to extinguish any fires, including technological installations, combustible materials, etc.

A powder extinguisher is known that contains a body with a fire extinguisher; it has a powder and a baffle cover, a gas source with a supply means connected to the cavity of the powder case in its bottom1; e with a gas to powder mass ratio of 1: 0.2 to 1: 7, locking and starting device and exhaust nozzles made in the form of a confuser-diffuser with an acoustic emitter (RF Patent No. 2135239 MKM A62 C 35/00 dated 08/18/98).

The disadvantage of this fire extinguisher is the low coefficient of powder use, because the remainder after work is 15-20% by weight of the powder and low volume quenching efficiency. In the proposed fire extinguisher, a gas source containing a mixture of carbon dioxide and ethanol and / or an aqueous-alcoholic solution of potassium and / or sodium compounds is connected to the powder fire extinguisher cavity through a siphon tube with a flow area of 0.05-0.2 of the flow area the outlet nozzle and fixed in the baffle cover, the lower end of the siphon tube located at a distance from the bottom of the housing of not more than 1/10 and not less than 1/50 of the height of the sloped extinguishing powder, and the outlet nozzles are made in e perforated tube with a cap, sealingly closing the perforation, wherein the perforation area ratio and the flow section vshusknogo nozzle is 0.3-0.8.

MKIA62 with 35/100

This design provides a 100% powder discharge and increases the volume quenching efficiency due to the increased consumption of the gas-powder mixture at the initial moment after the cap is removed. At the same time, a “shock wave” is formed in the front of the sprayed gas-powder mixture, which, spreading from top to bottom with a hemisphere, produces a flame failure, and subsequent portions of the extinguishing mixture do not allow the fire to reignite.

The absolute powder utilization is explained by the fact that in this design a mixture of liquefied gas and ethanol and / or an aqueous-alcoholic solution of potassium and / or sodium compounds is supplied through the siphon tube from top to bottom, while the mixture jet hits the bottom of the powder case and spreads over the entire area the bottom and, evaporating, fluidizes the powder, throwing it through the hole in the baffle plate in the outlet nozzles.

The drawing (Fig. 1) shows a powder fire extinguisher: 1 - gas source, 2, 4 - means of gas delivery, 3-trigger-locking device, 5 - fender cover,

6- powder housing

7- siphon tube

8- perforated top nozzles,

9- cap

10 - fire extinguishing powder,

11- perforation.

When you open the trigger-locking device 3, a mixture of liquefied gas and ethanol and / or an aqueous-alcoholic solution of sodium and / or potassium from a cylinder 1 through a pipe 2, 4 through a siphon tube 7, mounted in a baffle cover 5, enters the housing 6, containing a fire extinguishing powder 10. The liquefied mixture, flowing out through the lower cut of the siphon tube 7, is located at a distance of 1/50 ... 1/10 of the height of the powdered powder from the bottom of the body, spreads along the bottom, boils, and part of the resulting gas-powder mixture is thrown into the atomizer 8, and part, hitting the jackpot cr button 5, returns to cylinder body 6. When the pressure in the system “spray bottle reaches the calculated value, the gas-powder mixture, dropping the cap, breaks out through the perforations in the nozzle in the first second at a pressure-dependent speed into the lower hemisphere, forming in the spray front jump in compaction.

Comparative tests of the prototype according to the patent of the Russian Federation No. 2135239 and the proposed fire extinguisher were carried out on the remainder of the powder after operation and on the determination of the fire extinguishing concentration. The remainder of the powder in the prototype in three tests amounted to 17% of the original mass, in the proposed device, zero. The extinguishing concentration for the substance of the prototype was 180 g / m, for the proposed extinguisher 132 g / m, which is 1.36 times higher than the efficiency of the prototype. Authors / QJ), V. I. Seliverstov

V. I. Stenkova

)

Claims (1)

A powder fire extinguisher comprising a housing with a baffle cover and fire extinguishing powder, a locking and starting device, a gas source with a means of supplying it with a gas to powder mass ratio of 1: 0.2 to 1: 7 and an outlet nozzle, characterized in that the gas source, containing a mixture of carbon dioxide and ethanol and / or an aqueous-alcoholic solution of potassium and / or sodium compounds is connected through a siphon tube with a cross-section of 0.05-0.2 of the cross-sectional area of the exhaust nozzle, fixed in the baffle lid, with a body cavity with fire extinguishers powder, while the bottom end of the siphon tube is located at a distance from the bottom of the powder case not more than 1/10 and not less than 1/50 of the height of the powder extinguishing powder, and the outlet nozzles are made in the form of a perforated pipe with a cap that seals the perforation, and the area ratio perforation and the bore of the exhaust nozzle is 0.3-0.8.