RU2193427C2 - Powder-type fire extinguisher - Google Patents

Abstract

FIELD: powder-type fire extinguishers; applicable in extinguishing of any fires, including those on production process plants, combustible materials, etc. SUBSTANCE: fire extinguisher has body with fire-extinguishing powder and baffle cover, starting-locking device, discharge nozzle and gas source with means for gas supply, with gas-powder weight ratio from 1:0.2 to 1: 7. Gas source is communicated with cavity of powder body through siphon tube secured to baffle cover and having flow area equaling 0.05-0.2 flow area of discharge nozzle. Lower end of siphon tube is located at a distance from bottom of powder body not above 1/10 and no less than 1/50 height of fire extinguishing powder column. Discharge nozzle is made in the form of perforated tube with cap hermetically closing perforation and calked by calibrated shear pin. Ratio of perforation area to discharge nozzle flow area is 0.3-0.8. EFFECT: complete withdrawal of powder, higher efficiency of volume fire extinguishing due to increased flow rate of gas-powder mixture at initial moment after cap removal. 2 dwg, 1 tbl

Description

 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, comprising a powder casing with a baffle cover and fire extinguishing powder, a 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 made in the form of a diffuser with acoustic emitter (RU 2135239 C1, 08.27.1999).

 The disadvantage of this fire extinguisher is the low coefficient of powder use, since the remainder after work is 15 ÷ 20% by weight of the powder, and the low volume quenching efficiency.

 The objective of the invention is the creation of a powder fire extinguisher, providing a technical result, consisting in providing a complete discharge of the powder and increasing the efficiency of volumetric extinguishing due to the increased consumption of the gas-powder mixture at the initial moment after the cap is broken.

 This technical result in a powder fire extinguisher, comprising a powder casing with a baffle cover and fire extinguishing powder, a starting and stopping 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 exhaust nozzles, is achieved by the fact that the gas source is connected through a siphon tube with a cross-section of 0.05 ÷ 0.2 of the cross-sectional area of the exhaust nozzle, mounted in the baffle cover, with a body cavity with extinguishing powder, while the lower end of the siphon tube is located on standing from the bottom of the powder casing is 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 hermetically closing the perforation and stamped with a calibrated cut-off check, and the ratio of the perforation areas and the passage section of the outlet nozzle is 0.3 ÷ 0.8.

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

 The absolute powder utilization rate is explained by the fact that in this design the liquefied gas is supplied through the siphon tube from top to bottom, while the stream of liquefied gas hits the bottom of the powder casing and spreads over the entire area of the bottom and, evaporating, fluidizes the powder and throws it out through the hole in the bump cover in the exhaust nozzles.

 Figure 1 presents a powder fire extinguisher; figure 2 is a view of I in figure 1.

1 - gas source,
2, 4 - gas delivery vehicle,
3 - starting-locking device,
5 - fender cover
6 - powder casing,
7 - siphon tube
8 - perforated exhaust nozzles,
9 - cap
10 - calibrated cut check,
11 - fire extinguishing powder,
12 - perforation.

 A fire extinguisher operates as follows.

 When opening the starting device 3, the liquefied gas from the cylinder 1 through the pipe 2, 4 through a siphon tube 7, mounted in the baffle cover 5, enters the powder casing 6 containing fire extinguishing powder 11. Liquefied gas flowing out through the lower cut of the siphon tube 7, located on 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 baffle cover 5, returns to the powder case 6 of the container. When the pressure in the balloon-atomizer system reaches the calculated value, the check calibrated for the calculated pressure is cut off, and the gas-powder mixture, dropping the cap, is ejected through the perforations in the nozzle in the first second at a pressure-dependent speed into the lower hemisphere, forming in the front spray "shock wave".

The results of the comparative tests of the fire extinguisher known from RU 2135239 C1 and the claimed fire extinguisher for the remainder of the powder after operation and for determining the extinguishing concentration are given in the table. The remainder of the powder in the fire extinguisher - prototype amounted to 17% of the original mass, in the claimed fire extinguisher - zero. The extinguishing concentration for the substance of the prototype fire extinguisher was 180 g / m ³ , for the claimed fire extinguisher - 132 g / m ³ , which is 1.3 times more effective than the known fire extinguisher prototype.

Claims (1)

 A powder fire extinguisher comprising a powder housing with a baffle cover and a fire extinguishing powder, a trigger and a shut-off device, a gas source with a means of supplying it at a gas to powder mass ratio of 1: 0.2 to 1: 7 and an outlet nozzle, characterized in that the gas source 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 cover, with a body cavity with extinguishing powder, while the lower end of the siphon tube is located at a distance from the powder bottom the case is not more than 1/10 and not less than 1/50 of the height of the extinguished extinguishing powder, and the outlet nozzles are made in the form of a perforated pipe with a cap hermetically closing the perforation and stamped with a calibrated cut-off check, and the ratio of the perforation areas and the passage section of the outlet nozzle is 0.3 - 0.8.

Images