RU186592U1 - FOAM GENERATOR - Google Patents

Abstract

The proposed solution relates to the field of fire fighting equipment and can be used to obtain air-mechanical foam and supply its jet to the fire.

The essence of the proposed technical solution consists in the fact that in a foam generator containing a hollow body, the nozzles and at least two cellular elements are connected at the outlet of the body, one of which is mounted coaxially inside the other, the body is made with a rectangular cross section, and cellular elements are made in the form of hollow tetrahedral prisms.

In a preferred embodiment of the foam generator, the apex of the inner cellular element is connected to the walls of the housing.

Description

The proposed solution relates to the field of fire fighting equipment and can be used to obtain air-mechanical foam and supply its jet to the fire.

The prototype of the proposed technical solution is the foam generator "Generator of high-multiple air-mechanical foam" (RF Patent for utility model No. 40594, 2004). The known device consists of a hollow body, spray guns and two cellular elements located at the outlet of the body. The cellular elements are made in the form of cones. The cones are mounted coaxially relative to each other and are interconnected. One of the cones is installed inside the other.

The disadvantage of the prototype is its low foaming ability.

This drawback is due to the fact that the cellular elements on the surface of which foam is formed are made in the form of cones having a low surface area.

The aim of the proposed technical solution is to increase the foaming ability of the foam generator.

The essence of the proposed technical solution is that in a foam generator containing a hollow body, nozzles and located at the outlet of the body, are interconnected by at least two cellular elements, one of which is installed coaxially inside the other, the body is made with a rectangular cross section, and the cellular elements are made in the form of hollow tetrahedral prisms.

In a preferred embodiment of the foam generator, the apex of the inner cellular element is connected to the walls of the housing. The distinguishing features of the utility model are:

1. The housing is made having a rectangular cross section - sign 1.

2. The cellular elements are made in the form of hollow tetrahedral prisms - sign 2.

3. The top of the inner cellular element is connected with the walls of the body - sign 3.

The essence of the proposed technical solution is as follows:

The implementation of the generator housing having a rectangular cross-section (feature 1), provided that the cellular elements are in the form of hollow tetrahedral prisms (feature 2), can increase the foam-forming ability of the generator, because with equal height, the surface of the tetrahedral prism is larger than the surface of the cone. The connection of the top of the inner tetrahedral prism with the walls of the casing (feature 3) allows you to increase the surface of the inner tetrahedral prism, because allows you to increase its height while ensuring the strength and rigidity of the foam generator.

The sketch shows a foam generator. The foam generator consists of a hollow body (1) having a rectangular profile in cross section. Inside the cavity of the body there are sprayers (2) of the foaming agent solution. At the outlet of the housing two cellular elements are fixed. One cellular element (3) is made in the form of a hollow tetrahedral truncated prism, and the second cellular element (4) is made in the form of a hollow tetrahedral prism. Cellular elements are interconnected. The cellular element (4) is installed coaxially with the cellular element (3) and is located inside it. The edges of the apex of the cellular element (4) are connected with the body of the foam generator.

The foam generator operates as follows. The foam generator is connected to the pressure line of the foaming agent solution. The foaming agent is supplied through the nebulizers (2) into the body cavity (1). The flow of foaming agent coming from the nozzles, passing through the surface of the cellular elements, is sprayed, and then mixed with air, forms an extinguishing foam, which is fed to the fire.

Claims (2)

1. A foam generator containing a hollow body, nozzles and located at the outlet of the body, at least two interconnected cellular elements, one of which is mounted coaxially inside the other, characterized in that the housing is made in a rectangular section, and the cellular elements are made in the form hollow tetrahedral prisms. 2. The foam generator according to claim 2, characterized in that the top of the inner cellular element is connected with the walls of the housing.

Images