RU2636722C1 - Sprinkler - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: sprinkler contains a housing, a spraying device and an automatic activation element for exceeded specified room temperature. The body is made in the form of a straight case with windows on its lateral surface. At one end of the straight case, facing the spraying device, a partition is disposed. The spraying device is designed as a socket formed by the part of spherical surface and in which radial slots are made. The socket is attached to the end surface of the case by means of at least two arcs arranged along a conical surface. The upper part of the arcs is fixed on the partition. A socket is attached to the lower part of the partition. It is a part of the spherical surface, bounded by the inner and outer hemispheres. The hemispheres center lies on the line, joining the straight case axes and the partition axis. On the outer side of the spherical surface at least three grooves are made. Their axes are located on the lines, which are radial with respect to the hemisphere. At least three orifice holes are made in the peripheral part of the hemisphere, the centers of which lie in a plane parallel to the diametral plane of the hemisphere, which is perpendicular to the axis of the straight case. The axes of the orifice holes intersect at a point lying on the axis of the straight case and form an acute angle with this axis in the plane of the drawing. The holes, made on the lateral surface of the straight case, are made throttling with a screw thread. The direction of the screw thread in the orifice holes is made with alternating left and right directions.EFFECT: increase of the fire-fighting effectiveness by means of introducing the spraying device, which allows to obtain a finely-dispersed flow of fire-extinguishing liquid or a foaming agent solution.3 cl, 1 dwg

Description

The invention relates to fire fighting equipment.

Closest to the claimed object is a sprinkler containing a housing, a spray device and an automatic response element to exceed a predetermined room temperature (RF patent No. 2456040, 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 due to the introduction of a spray device that allows you to get a fine stream of extinguishing fluid or a foaming agent solution.

This is achieved by the fact that in a sprinkler containing a housing, a spray device and an automatic response element to exceed a predetermined room temperature, the housing is made in the form of a cylindrical sleeve with windows on its side surface, and at one end of the cylindrical sleeve facing the spray device , a partition is located, and the spray device is made in the form of a socket formed by a part of a spherical surface with a thickness of "s", and in which radial cuts are made, while p the grid is attached to the end surface of the sleeve by means of at least two arcs located on the conical surface, the upper part of which is fixed to the partition, and the rosette is attached to the lower part, which is a part of the spherical surface bounded by internal and external hemispheres and having a thickness of “s "Lying in the range of 1 ÷ 5 mm, with the center of the hemispheres lying on the line connecting the axis of the cylindrical sleeve and the axis of the partition, and on the spherical surface, on its outer side, at least three grooves are made, si of which are located on lines radial with respect to the hemisphere, and at least three throttle openings are made in the peripheral part of the hemisphere, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the cylindrical sleeve and whose axes intersect at a point lying on the axis of the cylindrical sleeve, and make an acute angle with this axis in the plane of the drawing.

The drawing shows a sprinkler diagram.

The sprinkler comprises a housing made in the form of a cylindrical sleeve 1 with at least three throttling holes 6 on its side surface.

In the upper part of the sleeve 1, axisymmetrically, a fitting 2 for supplying an extinguishing agent is fixed, which is fixed to the sleeve using a lock nut 3. A conical groove 5 is made at the end of the fitting facing the spray device 11, into which the ball segment 4 enters, which is a blocking valve , and at the end of which a glass bulb 10 abuts, the other end of which abuts an elastic insert 9 located in the center of the partition 7, in which at least three holes 8 are made for passage of the extinguishing agent in Oron spray device 11.

The spray device 11 is made in the form of at least two arcs 12 located on a conical surface, the upper part of which is fixed to the partition 7, and a socket 13 is attached to the lower part, which is part of the spherical surface 14, bounded by internal and external hemispheres, and having a thickness "s" lying in the range of 1 ÷ 5 mm The center of the hemispheres lies on the line connecting the axis of the cylindrical sleeve 1 and the axis of the partition 7. At least three grooves 15 are made on the spherical surface from its outer side, the axes of which are located on lines radial with respect to the hemisphere, and in the peripheral part of the hemisphere is made of at least three throttle holes 16, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the cylindrical sleeve 1.

The axis of the throttle holes 16 intersect at a point lying on the axis of the cylindrical sleeve, and make an acute angle with this axis in the plane of the drawing.

The sprinkler works as follows.

Glass flask 10 with a diameter of 5 mm is an element of automatic operation when the specified room temperature is exceeded, i.e. 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.

When the sprinkler fires, the glass bulb 10 explodes, freeing the supply of the extinguishing agent through the nozzle 2, since the ball segment 4, which is a blocking valve, is removed by the extinguishing agent flow through the windows 8. Then, the extinguishing agent flow moves in two directions: the first through the windows 6 in the cylindrical sleeve 1, and the second toward the spray device 11 with a socket 13, which is part of a spherical surface 14, bounded by internal and external hemispheres and having a thickness "s" lying in the range 1 ÷ 5 mm. The formation of a fine stream of extinguishing agent occurs on the socket 13 in the radial grooves 15 and throttle holes 16.

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 sprinklers are fixed and the network is constantly filled with liquid extinguishing agent, intended for local extinguishing and localization of the fire in the room. When the temperature rises during a fire in a production building, the heat-sensitive element (thermal lock) - the bulb 10 breaks and a fire extinguishing agent is thrown through the nozzle 2, sprayed with a spray outlet with petals, it 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" in the 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).

It is possible that the throttling holes 6, made on the side surface of the cylindrical sleeve 1 of the housing with the number of at least three holes, are made with a screw thread, and the direction of the screw thread in the throttling holes is made with alternating left and right directions.

A variant is possible when a diffuser 16 is attached to the peripheral part of the surface of the partition 7, in which at least three openings 8 for passage of the extinguishing agent towards the spray device 11 are made, axisymmetrically to the glass flask 10.

It is possible that in the diffuser 17, made in the form of a truncated conical surface, perpendicular to its axis, to the inner surface, an axis 18 is fixed, located in the middle between the socket 13, as a part of the spherical surface 14, and the output section of the diffuser 17, while on the axis 18, rotary nozzles 19 and 20 are mounted symmetrically relative to the axis of the housing 1 and are made in the form of cylinders with helical grooves on the surface, and the helical grooves of the rotary nozzles 19 and 20 have the opposite direction Eden.

Claims (3)

1. A 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 cylindrical sleeve with holes on its side surface, and a partition is located at one end of the cylindrical sleeve facing the spray device, moreover, the spray device is made in the form of a socket formed by a part of a spherical surface with a thickness of "s" and in which radial slots are made, the socket is attached to the end the surface of the sleeve through at least two arcs located on a conical surface, the upper part of which is fixed to the partition, and the bottom is attached to the socket, which is part of a spherical surface bounded by internal and external hemispheres, while the center of the hemispheres lies on a line connecting the axes the cylindrical sleeve and the axis of the partition, and on the spherical surface from its outer side at least three grooves are made, the axes of which are located on lines radial with respect to the hemisphere, and in the periphery At least three throttle openings are made on the hemisphere’s longitudinal part, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the cylindrical sleeve, and the axis of the throttle holes intersect at a point lying on the axis of the cylindrical sleeve, and make an acute angle with this axis in the plane of the drawing, characterized in that the holes made on the side surface of the cylindrical sleeve of the housing with at least three holes are throttled with a screw thread, moreover, the direction of the screw thread in the throttling holes is made with alternating left and right directions. 2. The sprinkler according to claim 1, characterized in that a diffuser is attached axisymmetrically to the glass flask to the peripheral part of the surface of the partition, in which at least three holes are made for passage of the extinguishing agent to the side of the spray device. 3. The sprinkler according to claim 1, characterized in that in the diffuser, made in the form of a truncated conical surface, perpendicular to its axis, an axis is fixed to the inner surface, located in the middle between the socket as part of a spherical surface and the outlet cross section of the diffuser, while on the axis rotating nozzles are mounted symmetrically relative to the axis of the housing and are made in the form of cylinders with helical grooves on the surface, and the helical grooves of the rotating nozzles have the opposite direction.

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