SU1509089A1 - Generator of air foam - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to extinguishing agents and makes it possible to increase the efficiency of foaming. The generator has a cylindrical housing 1 with a mesh surface 2. In the housing coaxially, with radial clearance one relative to the other, are the outlet nozzles 3 and 4 of the supply of the foaming solution and air, and the outlet nozzle 4 of the air supply is located inside the output nozzle of the foaming solution 3, and the end the pipe 4 is located below the end of the pipe 3. In the housing, a divider 5 is installed coaxially with the pipes 3 and 4, directed by the apex of the cone towards the pipes 3, 4. 1 z. f-ly, 1 ill.

Description

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This invention relates to fire fighting agents.

The purpose of the invention is to increase the efficiency of foaming.

The drawing shows the generator of the air-mechanical foam.

The generator comprises a cylindrical body 1 with a mesh surface 2 and sprays made in the form of coaxially mounted pipes 3 for supplying a frother and 4 for supplying air. The end of the pipe 4 is installed below the end of the pipe 3. To the bottom of the cylindrical body 1 there is attached a conical divider 5 mounted coaxially with the sprayer 1M and directed towards the sprayer with the top. The divider 5 is attached to the housing 1 by the posts 6.

The generator works as follows.

Foaming the solution is fed into the nozzle 3, and the air into the nozzle 4, after which both streams flow parallel to the splitter 5. Due to the fact that the end of the nozzle 4 of the air supply is below the end of the nozzle 3 of the supply of the penny-forming solution, a guide plot, which provides stabilization of the flow of the foaming solution in the distribution of the latter on the conical divider 5.

Next, the process of sticking of both flows to the surface of the dissector 5 occurs due to the CANDA effect. G1 current neiHO-forming solution, due to the larger specific gravity of greater energy than the air flow, passes through the air flow, thereby forming a initially mixed air-liquid mixture on the surface of the dissector 5.

This mixture is then hit against the mesh surface 2 and finally foams with air mass. As a result

At the exit of the generator, a flow of air-mechanical foam is formed.

The curvilinear forming dissector 5 is designed in such a way that the nektor of the velocity of the foam flow is directed at an angle of 45 ° relative to the axis of the foam generator, which provides the maximum range of foam expansion, and the deposition of foam on the burning center occurs

Q is quieter than when hit by a foam jet, since foam falls only under its own weight.

The generator due to the use of a conical flow divider provides a large area of irrigation of the emergency-burning area, while the supply of air-mechanical foam occurs more calmly, which ensures reliable localization of the emergency strait.

In addition, due to the primary mixing of Q threads, better foaming occurs.

Claims (2)

1. An air-mechanical foam generator comprising a cylindrical body with a mesh surface and a dispenser, characterized in that, in order to increase the efficiency of foaming, it is equipped with a conical divider, installed coaxially with the dispenser made in the form of coaxially installed air inlets and frother, with the divider apex directed toward the sprayer, and the air inlet pipe is installed in the frother inlet pipe. 2. Generator according to claim 1, characterized in that the end of the air inlet is located below the end of the frother inlet.