RU169023U1 - ROTARY SPRAY NOZZLE FOR FIRE EXTINGUISHING UNITS - Google Patents

Abstract

The proposed technical solution relates to the field of fire fighting equipment and can be used to form and adjust the direction of the jet of fire extinguishing agent when it is fed to the fire in the process of extinguishing a fire using a stationary fire extinguishing installation. The essence of the proposed technical solution is that in the nozzle-spray for installation water fire extinguishing comprising a housing provided with a jet forming unit and connected by means of a ball joint having a through hole in the ball to the base aniem equipped with a flange for connecting to the pressure line, the housing is equipped with a filter pipe, the through hole formed in the ball with an extension forming a cavity and a branch pipe with a filter placed within the cavity of the ball.

Description

The proposed technical solution relates to the field of fire fighting equipment and can be used to form and adjust the direction of the jet of fire extinguishing agent when it is fed to the fire in the process of extinguishing a fire using a stationary fire extinguishing installation.

The prototype of the proposed technical solution is a nozzle-sprayer (patent of the Russian Federation for utility model No. 132357 "Rotary nozzle-spray for installation of water-based fire extinguishing." The known device consists of a housing equipped with a jet forming unit. The housing is connected using a ball joint having a through hole with a base equipped with a flange for connecting to the pressure line of the extinguishing fluid supply.The presence of a ball joint allows you to configure the direction of flow of the jet during installation setting in the protected object.

The disadvantage of the prototype is the low efficiency of its use in stationary fire extinguishing installations, provided that contaminated water is used to obtain a foaming solution.

This drawback is due to the fact that when using contaminated water, inclusions can get into the nozzle-sprayer, which adversely affect the operation of the jet forming unit. For example, inclusions can partially block the nozzle opening of the foam generator and the resulting foam flowing out of such a generator will have insufficient multiplicity and will not provide the necessary amount of foam. As a result of this, it is necessary to mount a block with a filter on the supply pipe of the installation, which is associated with additional costs. In addition, in some cases, in confined spaces, installing a filter unit can be difficult.

The aim of the proposed technical solution is to increase the efficiency of the nozzle-spray when it is used, provided that contaminated water is used.

The essence of the proposed technical solution lies in the fact that in the nozzle-sprayer for the installation of water-based fire extinguishing, comprising a body equipped with a jet forming unit and connected by means of a ball joint having a through hole in the ball with a base equipped with a flange for connecting to a pressure line, the body is equipped a nozzle with a filter, the through hole in the ball is made with the expansion forming the cavity, and the nozzle with the filter is placed inside the cavity of the ball.

The distinguishing features of the utility model are:

1. The housing is equipped with a nozzle with a filter, - sign 1.

2. The through hole in the ball is made with the expansion forming the cavity - sign 2.

3. A pipe with a filter placed inside the cavity of the ball - sign 3.

The essence of the proposed technical solution is as follows:

The equipment of the casing with a nozzle with a filter (feature 1), provided that the through hole in the ball is made with an expansion forming a cavity (feature 2), and the fitting with a filter are placed inside the ball cavity (feature 3) allows to increase the efficiency of the nozzle-sprayer when it is used in stationary fire extinguishing installations, provided that contaminated water is used to produce a foaming solution. This is due to the ability to filter the solution using a filter located in the cavity formed by the expansion of the through hole in the ball.

The sketch shows a nozzle-spray rotary in section. The spray nozzle consists of a housing (1) equipped with a jet forming unit (2). The housing is connected with a ball joint (3) to a base (4) equipped with a flange (5). The through hole in the ball of the ball joint is made with the expansion forming the cavity (6). The housing (1) is equipped with a pipe (7) placed inside the cavity (6). The pipe (7) is equipped with a filter (8).

The spray nozzle operates as follows. The spray nozzle is mounted on the distribution pipe of a stationary fire extinguishing installation using a flange (5). The foaming solution passes through the base (4) into the cavity (6) of the ball joint and then through the filter (8) and the pipe (7) to the jet formation unit (2). The filter (8) delays inclusions in the foaming solution, which can adversely affect to the operation of the feed unit. Screened inclusions fall into the bottom of the ball. After the end of the nozzle, the ball joint is disassembled and the screened inclusions are cleaned.

Claims (1)

A spray nozzle for installing a water-based fire extinguishing system, comprising a body equipped with a jet forming unit and connected by means of a ball joint having a through hole in the ball, with a base equipped with a flange for connecting to a pressure line, characterized in that the body is equipped with a filter nozzle, a through hole in the ball is made with the expansion forming the cavity, and the nozzle with the filter is placed inside the cavity of the ball.

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