RU171877U1 - FOAM GENERATOR - Google Patents

Abstract

The proposed technical solution relates to the field of fire fighting equipment and can be used to obtain air-mechanical foam of low multiplicity in installations of sublayer fire extinguishing of oil storage tanks in case of fire. The essence of the proposed technical solution lies in the fact that in the generator of low-level foam for sub-layer fire fighting in a tank containing a housing with an opening for supplying air, an opening for the exit of foam from the housing and a nozzle for supplying a foaming solution made with a nozzle, a cylindrical mixing chamber installed in the case opposite the nozzle, a diffuser associated with the outlet of the mixing chamber, the nozzle nozzle is made with a diameter of at least the size of the inner diameter of the chamber Mechain, wherein the mixing chamber is fixed on the nozzle pipe, and on its side surface provided with holes for supplying air. In a preferred embodiment of the generator, the mixing chamber is fixed to the nozzle by means of a threaded connection.

Description

The proposed technical solution relates to the field of fire fighting equipment and can be used to obtain air-mechanical foam of low multiplicity in installations of sublayer fire extinguishing of oil storage tanks in case of fire.

The prototype of the proposed technical solution is a low-foam generator (patent for utility model of the Russian Federation No. 91293 "Low-level foam generator for under-layer fire fighting in a tank"). The known device consists of a housing with a hole for supplying air, a hole for the exit of foam and a nozzle for supplying a solution of a foaming agent. Inside the housing there is a cylindrical mixing chamber connected to a diffuser fixed to the walls of the combustion chamber adjacent to the outlet of the mixing chamber. The mixing chamber is located opposite the nozzle for supplying a foaming agent. The nozzle is made with a pipe, which is partially placed inside the mixing chamber.

The disadvantage of the prototype is the low reliability of its operation, associated with the complexity of ensuring in this design the alignment of the nozzle and the mixing chamber.

This drawback is due to the fact that in the known device the mixing chamber is connected with a diffuser fixed to the walls of the housing adjacent to the outlet. Thus, the mixing chamber together with the diffuser form a console fixed at one end. The free end of this console is the mixing chamber in the place where the nozzle nozzle for supplying the foaming agent is located inside it. To obtain the estimated amount of foam, it is necessary that the axis of the nozzle for supplying the foaming agent and the axis of the mixing chamber are on the same line. The nozzle nozzle is located inside the mixing chamber at the location of the free end of the console. During assembly of the product due to the presence of deviations in the constituent elements, as well as during transportation of the known device over long distances, deformation of the console, displacement of the free end of the console from its original position and, as a result, the nozzle and mixing chamber become incompatible, which leads to a decrease in the amount of foam when foam generator operation.

The aim of the proposed technical solution is to increase the reliability of the foam generator, including after transportation over long distances.

The essence of the proposed technical solution lies in the fact that in the generator of low-level foam for sub-layer fire fighting in a tank containing a housing with an opening for supplying air, an opening for the exit of foam from the housing and a nozzle for supplying a foaming solution made with a nozzle, a cylindrical mixing chamber installed in the case opposite the nozzle, a diffuser associated with the outlet of the mixing chamber, the nozzle nozzle is made with a diameter of at least the size of the inner diameter of the chamber Mechain, wherein the mixing chamber is fixed on the nozzle pipe, and on its side surface provided with holes for supplying air.

In a preferred embodiment of the generator, the mixing chamber is fixed to the nozzle by means of a threaded connection.

The distinguishing features of the utility model are:

1. The nozzle nozzle is made with a diameter, the size of which is not less than the size of the inner diameter of the mixing chamber - sign 1.

2. The mixing chamber is mounted on the nozzle nozzle - sign 2.

3. On the side surface of the mixing chamber holes are made for air supply - sign 3.

4. The mixing chamber is mounted on the nozzle nozzle using a threaded connection - sign 4.

The essence of the proposed technical solution is as follows:

The execution of the nozzle nozzle with a diameter of at least the size of the inner diameter of the mixing chamber (feature 1), provided that the mixing chamber is mounted on the nozzle nozzle (feature 2), and air holes are made on the side surface of the mixing chamber (feature 3) allows to increase the reliability of the foam generator, including after its transportation over long distances due to the lack of the possibility of misalignment of the nozzle and mixing chamber. Such fixing of the mixing chamber fixes its position relative to the axis of the nozzle. Fastening the mixing chamber to the nozzle nozzle using a threaded connection (feature 4) allows you to quickly install the mixing chamber.

The sketch shows a foam generator in section. The foam generator consists of an inlet flange (1), in which a nozzle (2) is placed for supplying a foaming solution. A mixing chamber (3) is fixed on the nozzle nozzle (2). The mixing chamber and the nozzle are placed inside the housing (4). The mixing chamber (3) is connected to the diffuser (5). The diffuser is made with flaring, which is adjacent to the output flange (6) of the housing. An opening (7) is made in the housing for supplying air into the cavity. Holes (8) are made on the side surface of the mixing chamber for supplying air from the housing to the mixing chamber.

The foam generator operates as follows. Foaming agent is supplied through the nozzle (2) into the mixing chamber (3). Due to the rarefaction resulting from the incoming jet, air is sucked into the mixing chamber through the air intake pipe (7) and openings (8). In the mixing chamber there is the formation of foam of low multiplicity, which after passing through the diffuser enters through the foam pipe into the tank to extinguish the fire.

Claims (2)

1. A low-level foam generator for sub-layer fire extinguishing in a tank, comprising a housing with an opening for supplying air, an opening for foam exit from the housing and a nozzle for supplying a foaming solution made with a nozzle, a cylindrical mixing chamber mounted in the housing opposite the nozzle, a diffuser associated with the outlet of the mixing chamber, characterized in that the nozzle nozzle is made with a diameter of at least the size of the inner diameter of the mixing chamber, the mixing chamber being fixed of the nozzle pipe, and on its side surface provided with holes for supplying air. 2. A low-level foam generator for sub-layer fire fighting in a tank according to claim 1, characterized in that the mixing chamber is fixed to the nozzle nozzle by means of a threaded connection.

Images