SU1641366A1 - Apparatus for producing high-expansion foam - Google Patents

Abstract

The invention relates to fire fighting equipment, in particular, to devices for producing foam used to extinguish a fire, and to improve the efficiency of the foaming process. The foaming solution enters the toroid chamber 1 through the tangential nozzle 2. Next, through the annular cross section, the flow enters the mixing nozzle 4 with the air supply channels 5, and the flow has a rotational-translational motion. Then, from the mixing nozzle 4, the flow enters through the conical chamber 6 onto the grid 8 of convex shape. The foaming solution is saturated with air through a nozzle 3 mounted coaxially with the toroidal chamber 1, the channels 5 and the air inlet 7. 1 il.

Description

The invention relates to fire fighting equipment, and in particular to devices designed to produce foam used to extinguish a fire.

The aim of the invention is to increase the efficiency of the foaming process.

The drawing shows a device for producing multiple foam, a longitudinal section.

A device for producing multiple foam contains a toroidal chamber 1 with a tangential nozzle 2 for supplying a foaming solution, a nozzle 3 for supplying air, a nozzle 4 for mixing with tangential channels 5, a conical chamber 6 with holes 7 for supplying air and a mesh 8.,

The device operates as follows.

The foaming solution enters the toroidal chamber 1 through the tangential pipe 2, where it acquires a rotational movement. As you approach the axis, the flow velocity increases inversely with the radius. From the toroidal chamber through the annular section formed by the outer surface of the nozzle 3 for air supply and the inner surface of the toroidal chamber, the flow of the foaming solution enters the mixing nozzle 4. Rotational-translational motion of the stream ensures its saturation with air through the nozzle 3 and the tangential channels 5 in the nozzle 4 of the mixing. When the flow exits from the mixing nozzle 4 into the conical chamber 5, additional air saturation occurs through the openings 7. Then, the foaming solution saturated with air enters the convex mesh 8, where the main foaming process takes place.

Claims (1)

Claim A device for producing multiple foam, containing a cylindrical body, at one of the trades of which a nozzle for supplying air is installed, and at the other end there is an outlet, a tangential nozzle for supplying a foaming 2θ solution and a mixing chamber provided with an outlet nozzle with a mesh, characterized in that , in order to increase the efficiency of the foaming process due to the intensification of mixing of the foaming solution with air, the outlet end of the nozzle for supplying air is installed in the outlet and a housing with an annular gap, an inlet for supplying foam solution is located at the end of the body 30, on which the nozzle and the outlet in the upper part is provided with additional openings for supplying air.