SU1706648A2 - Foam generator - Google Patents

Abstract

FIELD: fire protection engineering. The purpose of the invention is to increase the multiplicity and increase the range of foam supply due to the optimal distribution of pressure of the foaming mixture in the central and peripheral parts of the foaming network. The foam generator includes a housing 1 with an output neck 2, a spray gun 8, a fixed grid 3 installed in front of the neck, and an additional grid 4 of smaller diameter, installed between the fixed grid and the neck with the possibility of axial movement to close the neck. Inside the housing 1, a thin-walled pipe 9 with a diameter equal to the diameter of the additional grid 4 is mounted concentric to it, with the pipe 9 installed close to the fixed grid. 1 il.

Description

The invention relates to fire fighting equipment and is an improvement of the device according to ed. St. ΙΦ 1430036.

Known foam generator containing a housing with an outlet neck, a spray, a fixed grid and an additional grid of a smaller diameter, installed between the fixed grid and the neck with the possibility of axial movement to overlap the neck [1],

The disadvantage of the foam generator is the passage of most of the air ejected into the housing through the cells of the fixed grid, not covered by a moving grid of a smaller diameter, in the mode of operation of the foam generator, in which the moving grid is close to the fixed grid. This leads to a decrease in the multiplicity of the foam formed in the center of the foam generator, and to a decrease in the kinetic energy of the foam formed around the periphery due to losses when the direction of movement of the ejected air changes, which reduces the range of foam supply.

The aim of the invention is to increase the multiplicity and increase the range of the foam.

This goal is achieved in that the foam generator, comprising a housing with an outlet neck, a spray gun, a fixed grid installed in front of the neck, and an additional mesh of a smaller diameter, installed between the fixed grid and the neck with the possibility of axial movement to close the neck, is equipped with a thin-walled concentric mounted inside the body a pipe with a diameter equal to the outer diameter of the movable mesh and a length I, and the pipe is mounted close to the fixed mesh.

The invention consists in the following.

In order to blow bubbles of foam on the mesh cells, air is required which is created by ejection by the jet of the foaming solution. In the mode of operation of the foam generator, in which the movable mesh is located close to the stationary one, the resistance of the central section formed by the two grids is greater than the resistance of the peripheral section formed by only one fixed grid. As a result, the pressure in the central part inside the foam generator body is higher than in the peripheral part. A thin-walled pipe installed close to the fixed grid does not allow air from the space adjacent to the grid to enter the peripheral part of the body into the region with lower aerodynamic drag, which increases the amount of air involved in the foaming of the central part of the foam jet, which increases the multiplicity foam. The decrease in the amount of air passing from the central region of the foam generator to the peripheral one and creating additional resistance to the movement of the foaming solution through the annular channel formed by the casing and the pipe is due to a decrease in the kinetic energy loss of the jet of the foaming solution and low-level foam generated on the grid. The increase in the kinetic energy of low-level foam allows you to increase the range of the foam jet. In the mode of operation of the foam generator, in which the movable mesh touches the neck, the pipe plays the role of a stabilizer of the atomized jet of the foaming solution.

The drawing shows a structural diagram of a foam generator.

The foam generator consists of a housing 1 with an outlet neck 2, a fixed mesh 3, an additional mesh 4, a helm 5, a flexible shaft 6 connected to the helm 5, an axis 7 with a thread of the atomizer 8 and a thin-walled pipe 9.

The foam generator operates as follows.

Foaming solution through the nozzle 8 is fed to a fixed grid 3. With the location of the additional grid 4 close to the fixed grid 3, low-level foam is formed at the periphery, and high-fold in the center. Low-level foam has a higher kinetic energy and, entraining high-level foam, increases the range of its supply. When the additional net is located in the extreme position at which the neck 2 is overlapped, a high-fold foam is formed.

The use of a thin-walled pipe installed concentrically inside the housing close to the movable mesh allows to increase the range of foam supply and increase its multiplicity, which helps to increase the fire fighting efficiency.

Claims (1)

Claim Foam generator St. GF 1430036, which requires that, in order to increase the foam supply range by optimally distributing the pressure of the foam-forming mixture on the nets, it is equipped with a thin-walled pipe installed in the housing coaxially with it and adjacent to the fixed mesh, the diameter of which is equal to the outer diameter rolling mesh.