RU2644875C1 - Drencher - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to firefighting equipment. Drencher contains a housing and a spraying device with a spraying element. Housing is designed as a central sleeve with an external hexagon and an internal cylindrical surfaces. Spraying element is made as a sleeve, to which by means of arcs arranged along a conical surface, an outlet is formed, which is part of the spherical surface bounded by the inner and the outer hemispheres. At the lateral surface of the central sleeve with the external hexagonal and the internal cylindrical surfaces there are at least three throttle openings inclined to the outlet. Cross section of the arcs located along the conical surface and connecting the sleeve with the outlet is made of a profiled shape, for example helical, to increase the effect of finely dispersed spraying of the foamer solution. At least three throttle openings inclined to the outlet are made with a screw thread. Direction of the screw thread in the throttle openings is made with alternating left and right directions. To the end surface of the sleeve by means of at least three inclined rods located in spaces between the arcs, a truncated diffuser is attached by means of at least three horizontal rods connecting it with the outlet. Truncated diffuser is made as a shell formed by the conical surface of the truncated cone, the smaller diameter of which is connected to the horizontal rods, and the larger diameter is equal to the diameter of the outlet section of the diffuser.

EFFECT: technical result of the invention is to increase the effectiveness of fire extinguishing.

1 cl, 1 dwg

Description

The invention relates to fire fighting equipment.

The closest object to the claimed technical essence is the deluge containing the body and the spray device, the body is made in the form of a threaded fitting with a through conical hole and an end part, in which two cylindrical holes coaxial with the conical hole are made, while the end part of the threaded fitting is axisymmetric an arm consisting of two vertical volumetric stiffeners and two inclined prismatic ribs rigidly connected to them, is rigidly connected to the hollow of cylindrical sleeve, to which, perpendicular to its axis, is mounted a spray device in the form of rosettes with petals arranged relative to each other with a gap (RF patent №2408436, V05V 1/04, 31/02 A62S - prototype).

The disadvantage of the prototype is the inability to create an optimal flow structure during the formation of film curtains of great length, due to the large turbulization of the flow at the exit of the slit hole and violation of the continuity of the stream as the flow of the outflowing fluid from the said hole.

The technical result is an increase in the efficiency of fire fighting.

This is achieved by the fact that in the drencher containing the casing and the spray device, the casing is made in the form of a central bushing with an external hexagonal and inner cylindrical surfaces, while an internal thread is made on the two end sides of the central bushing, and it is axisymmetrically attached to one of the end sides by means of a lock nut the supply pipe, and to the other, a spray element made in the form of a sleeve, the inner diameter of which is equal to the internal diameter of the supply pipe, and to which by located on a conical surface, a socket is attached, and at least three throttle openings, the axes of which intersect at a point lying on the axis of the central sleeve, are made in the lateral surface of the central sleeve with the external hexagonal and internal cylindrical surfaces an acute angle with this axis in the plane of the drawing, and the cross section of arcs located on a conical surface and connecting the sleeve with a socket is made profile, for example screw, to increase the effect fine spraying of the foaming agent solution.

The drawing shows a diagram of the drencher.

The drencher contains a housing made in the form of a central sleeve 2 with an external hexagonal and internal cylindrical surfaces, while internal threads are made on the two end sides of the central sleeve 2, moreover, it is axisymmetrically attached to one of the end sides by means of a lock nut 5, the inlet pipe 6, and to the other - a spray element made in the form of a sleeve 1, the inner diameter of which is equal to the internal diameter of the inlet pipe 6. To the sleeve 1 by means of arcs 7 located on a conical surface, roses are attached The grid 8, which is part of the spherical surface 11, bounded by internal and external hemispheres and having a thickness of "s". The center of the hemisphere lies on the line connecting the axis of the central sleeve 1 and the axis of the inlet pipe 6. On the spherical surface 11, from its outer side, at least three grooves 9 are made, the axes of which are located on the lines radial with respect to the hemisphere, and in the peripheral part of the hemisphere is made of at least three throttle holes 10, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe 6.

Axially symmetrically to the sawing element there is a blocking valve made in the form of a ball 4 fixed by a spring 3 located inside the central sleeve 2 to a conical surface 12 made at the end of the inlet pipe 6 facing the spraying element. In the lateral surface 13 of the central sleeve 2 with the external hexagonal and internal cylindrical surfaces, there are made at least three throttle openings 14 inclined towards the socket 8, whose axes intersect at a point lying on the axis of the central sleeve 2 and make an acute angle with this axis in drawing planes.

Drencher works as follows.

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 is installed (not shown in the drawing), on which deluge heads are fixed and the network is constantly filled with liquid extinguishing agent designed for local extinguishing and localization of the fire in the room.

In the initial state, the spring 3 presses the ball 4 to the inlet pipe 6 to ensure tightness and the exclusion of fluid leakage from the distribution pipe (not shown in the drawing). In the event of a fire hazard and the initiation of excess pressure from the main pipeline with a pressure of 4 ÷ 10 atmospheres, the latter presses the ball 4 with compression of the spring 3 and the fluid flow rushes in two directions: the first through the throttle holes 14, whose axes intersect at a point lying on the central axis bushings 2, and the second to the spray element 8, creating a water curtain.

When adjusting in the case of spontaneous drainage of the fluid by rotation of the sleeve 2, the spring 3 is compressed with an increase in the preload of the ball 4 to completely overlap the inlet pipe 6 and ensure tightness. The final position of the sleeve is fixed with a lock nut 5. If there is no drainage from the sprinkler, the latter is adjusted by rotating the sleeve 2 in the opposite direction with the spring 3 releasing, decreasing the ball 4 compression, the appearance of a fluid duct and the subsequent slight twisting of the sleeve 2 until the central opening of the inlet pipe 6 completely overlaps. Finally, the position of the sleeve is fixed by lock nut 5. Thus, in the distribution piping system, the extinguishing fluid is in a ready state yes inputs sprayer element that provides almost instantaneous operation sputtering system and generally reduces the inertia of response of the automatic fire protection system to a fraction of a second.

Drencher improves the speed and reliability of fire protection systems, improves the manufacturability and settings, tightness in the working position and allows you to irrigate one drencher, depending on the design and diameter of the through hole, 6 ... 36 m ² the floor area of the room. Instead of water, a foaming agent solution may be used as a fire extinguishing agent. 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.

It is possible that at least three throttling openings 14 inclined toward the outlet 8, made in the side surface 13 of the central sleeve 2 with external hexagonal and inner cylindrical surfaces, are made with a screw thread, and the direction of the screw thread in the throttling holes 14 is made with alternating left and right directions, and the cross section of arcs 7 located on a conical surface and connecting the sleeve 1 to the socket 8 is made profile, for example screw, to increase the effect KTA fine atomization foaming solution.

A variant is possible when a truncated diffuser 13 is attached to the end surface of the sleeve 1 by means of at least three inclined rods 11 located between the arcs 7 by means of at least three horizontal rods 12 connecting it to a socket 8, while the truncated diffuser 13 is made in the form of a shell formed by the conical surface of a truncated cone, the smaller diameter of which is connected to the horizontal rods 12, and the larger diameter is equal to the diameter of the output section of the diffuser 13.

Claims (1)

 A drencher comprising a housing and a spraying device, the housing is made in the form of a central sleeve with an external hexagonal and internal cylindrical surfaces, while internal threads are made on the two end sides of the central sleeve, and the inlet pipe is axially symmetrically attached to one of the end sides and the other - a spraying element made in the form of a sleeve, the inner diameter of which is equal to the inner diameter of the inlet pipe and to which by means of arcs arranged conically of the surface, a socket is attached, which is a part of the spherical surface bounded by the inner and outer hemispheres, with the center of the hemisphere lying on the line connecting the axis of the central sleeve and the axis of the inlet pipe, and at least three grooves are made on the spherical surface from its outer side, whose axes 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 a hemisphere plane that is perpendicular to the axis of the inlet pipe, and axisymmetrically to the spraying element there is a blocking valve made in the form of a ball, fixed by a spring located inside the central sleeve, to a conical surface made on the end of the inlet pipe facing the spraying element, and in the side surface central bushings with external hexagonal and internal cylindrical surfaces; at least three throttle bends are inclined towards the outlet holes, the axes of which intersect at a point lying on the axis of the central sleeve, and make an acute angle with this axis in the plane of the drawing, and the cross section of arcs located on a conical surface and connecting the sleeve with a socket is made of a profile, for example, screw, to increase the effect of fine spraying a foaming agent solution, characterized in that at least three throttling openings inclined towards the outlet, made in the side surface of the central sleeve with an external hexagonal and internal threaded surfaces, made with screw thread, and the direction of screw thread in the throttling holes is made with alternating left and right directions, while to the end surface of the sleeve through at least three inclined rods located in the spaces between the arcs, a truncated diffuser is attached by at least three horizontal rods connecting it to the outlet, while the truncated diffuser is made in the form of a shell formed by the conical surface of the truncated cone a, the smaller diameter of which is connected to horizontal rods, and the larger diameter is equal to the diameter of the outlet cross section of the diffuser.

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