RU2523333C1 - Sprinkler irrigator - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: in the sprinkler irrigator the poppet valve through a chain is linked to one of the volume reinforcement ribs, which enables to recharge the sprinkler irrigator as the valve after actuation remains on the sprinkler.

EFFECT: increased efficiency of fire-fighting and maintainability of the irrigator due to connection of the valve to one of the volume ribs of the irrigator.

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Description

The invention relates to fire fighting equipment and can be used in industrial and civilian facilities with increased fire hazard for localizing fire sources, as well as for effective fire fighting in industrial premises using automatic fire extinguishing systems.

The closest object to the declared technical essence is an irrigator containing a housing, a spray device and an automatic response element to exceed a predetermined room temperature (RF patent No. 2458746, B05B 1/20 - prototype).

The disadvantage of the prototype is the inability to create the optimal structure of the stream due to its turbulization at the output and violation of the continuity of the stream.

The technical result is an increase in fire extinguishing efficiency and maintainability of the sprinkler due to the connection of the valve through a chain with one of the volume ribs of the sprinkler.

This is achieved by the fact that in a sprinkler sprinkler containing a housing, a spray device and an automatic response element for exceeding a predetermined room temperature, the housing is made in the form of a nozzle with a through hole and a threaded part, and a sleeve with a filter screen fixed to it is placed in the through hole of the nozzle wherein the threaded fitting by means of an axisymmetric bracket, consisting of two vertical volumetric stiffeners and two inclined prismatic rigidly connected to them the ribs are rigidly connected to the hollow cylindrical sleeve with an internal thread interacting with a clamping screw, which presses the glass flask through the elastic gasket to the poppet valve, while the glass flask rests on the valve through an elastic gasket mounted on the outer end surface of the valve, which is connected by a chain with one of the three-dimensional stiffening ribs, and on the other hand, a spray device made with a flat continuous section, the edges of which are protruding, is attached to the sleeve perpendicular to its axis They are filled in the form of bent petals lying on a conical surface expanding towards the flow of liquid.

The drawing shows a diagram of a sprinkler sprinkler.

The sprinkler sprinkler contains a housing made in the form of a nozzle 1 with a through hole and a threaded part (the external thread by means of the threaded part of the sprinkler is mounted on distribution pipelines). In the through hole of the fitting 1 is a sleeve 11 with a filter screen 12 fixed to it.

The threaded fitting 1 by means of an axisymmetric bracket consisting of two vertical volumetric stiffening ribs 3 and two inclined prismatic ribs 13 rigidly connected to them is rigidly connected to the hollow cylindrical sleeve 2 with an internal thread interacting with the clamping screw 6, which compresses the glass through the elastic gasket 5 flask 4 to the poppet valve 8. In the cylindrical sleeve 2 from the side opposite to the internal thread, an opening 14 is made for clamping the screw 6.

The glass bulb 4 rests on the valve 8 through an elastic gasket 7, mounted on the outer end surface of the valve 8, which in turn abuts the valve seat 9 through the elastic gasket. The poppet valve 8 through a chain 10 is connected with one of the volumetric stiffeners 3, which allows you to recharge the sprinkler sprinkler, as the valve after operation remains on the sprinkler.

On the other hand, to the sleeve 2, perpendicular to its axis, the spray device 17 is rigidly fixed, which is made with a flat continuous section 15, the edges 16 of which are made in the form of bent petals lying on a conical surface that extends towards the fluid flow.

Sprinkler sprinkler works as follows.

Glass bulb 4 is an element of automatic response to exceeding a predetermined room temperature, which is made in the form of a glass bulb 4 with a diameter of 5 mm, which is a thermal lock. Depending on the operating temperature, the liquid in the flask has a certain color: 68 ° C - red, 57 ° C - orange. The response temperature is selected depending on the category of protected premises. In case of removal of the thermally sensitive element - flask - from the proposed sprinkler, it automatically becomes a deluge sprinkler.

Sprinklers can be made of the following types: with a flat outlet, which are installed vertically with the outlet down; with a concave socket, they are installed vertically upwards and universal ones are installed both with the socket down and the socket up. All of them are automatic flask type standard response sprinklers.

When spraying the generated fluid streams using a spray gun made with a flat section 15, a sprayed fluid stream is formed, flowing out in the radial-axial direction. When crushing such a stream on the petals of the edges 16 of the spray creates a uniform finely dispersed gas-droplet stream.

In the production building, a system is installed consisting of a water supply source, which is a water tank and a water intake system with a filter and a pump, a network of main and distribution pipelines (not shown) is mounted, on which sprinkler sprinklers are fixed, and a network is provided with a constantly filled liquid extinguishing composition intended for local extinguishing and localization of the fire source indoors. When the temperature rises during a fire in a production building, the heat-sensitive element (thermal lock) - bulb 6 (at a response temperature of 68 ° C - red, or 57 ° C - orange) - breaks and a fire extinguishing agent is ejected through poppet valve 8, which is sprayed with using a spray outlet 14 with petals, enters the fire. Sprinkler sprinklers are placed on distribution pipelines (not shown) of sprinkler installations under the ceiling of the room from the condition of irrigation with one sprinkler 9 ÷ 12 m ² floor area. It is possible to use with the following types of extinguishing agent: water, aqueous solutions, foam. The multiplicity of the foam is 13.2%, the concentration is 3%. As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foaming agent "Sublayer" under conditions of smoke in the room.

Sprinkler sprinklers can be used in water and water-air sprinkler systems, as well as in deluge systems.

These types of irrigators are intended for outdoor installation under the ceiling (general purpose irrigators), as well as for in-depth installation in the case of a shaped base (except for universal sprinklers, their installation in a shaped base is not recommended).

The design of the sprinklers is rosette.

According to the direction of flow of the extinguishing agent, the sprinklers are concentric; they spray a hemispherical shape.

Sprinklers can be performed without coating (bronze) and coated (chrome or white).

Technical parameters and characteristics:

Ambient temperature: minimum - -30 ° C, maximum - + 38 ° C.

Connection thread - ½ ″ NPT, external conical.

Flow coefficient: for sprinklers with a flat / concave outlet - 80. This coefficient is calculated by the formula Q = K · √ P, where K = 80, P is the pressure in front of the sprinkler (atm), Q is the flow rate through the sprinkler (l / min). The operating pressure of the system is 12.3 atm.

Each sprinkler sprinkler should be tested at the factory at a pressure of 25 atm.

Claims (1)

A sprinkler sprinkler containing a housing, a spray device and an automatic response element for exceeding a predetermined room temperature, the housing is made in the form of a nozzle with a through hole and a threaded part, and a sleeve with a filter mesh fixed to it is placed in the through hole of the nozzle, while the threaded fitting is axisymmetric bracket, consisting of two vertical volumetric stiffeners and rigidly connected with them two inclined prismatic ribs, is rigidly connected to a hollow cylindrical sleeve with an internal thread cooperating with a clamping screw, which presses the glass flask through the elastic gasket to the poppet valve, while the glass flask rests on the valve through an elastic gasket mounted on the outer end surface of the valve, which is connected through a chain to one of the volume ribs stiffness, and on the other hand, a spray device is attached to the sleeve perpendicular to its axis, the spray device is made with a flat solid section, the edges of which are ying-shaped bent lobes lying on a conical surface widening towards the fluid flow, characterized in that the poppet valve through the chain is associated with one volume of stiffeners that allow recharging of sprinklers, as the valve remains on after triggering the sprinkler.

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