RU2577647C1 - Kochetov drencher fire fighting system - Google Patents

Abstract

FIELD: recovery operations.

SUBSTANCE: invention relates to firefighting equipment. Technical result is achieved by the fact that the drencher fire fighting system consisting of a network of main and distributing pipelines filled with liquid fire extinguishing composition, with deluge heads, there is a water supply source, which is a water tank and water intake system with filter and a pump, two automatic water feeder, and in the main feed line signal is installed turbine, the drencher head comprises a hollow body in the form of a sphere with inlet and outlet throttling element; the body is arranged between branch and case, fixing it so that the plane of the inlet opening of the housing is located perpendicular to axis of symmetry of branch and case, and the output throttle is composed of cylindrical throttling holes uniformly located on the casing spherical surface, the axes of which are arranged on radial lines connecting the centre of the casing spherical surface with centre holes, note that here that perforation factor of perforated spherical surface of the body is within optimal range of - 0.5÷0.8.

EFFECT: higher efficiency of fire extinguishing ensured by introducing high-speed elements in the common circuit for automatic fire extinguishing system.

1 cl, 2 dwg

Description

The invention relates to fire fighting equipment.

The closest object to the claimed technical essence is a fire extinguishing device containing a housing and a distribution sleeve with holes, one of which is made in the form of a slit mounted for rotation relative to the housing. Using the rotation of the casing, one of the openings is installed opposite the outlet of the housing, providing the required mode of supply of the extinguishing fluid to the fire (French patent No. 2309283, B05B 1/20, 1976 - prototype).

The disadvantage of the prototype is the inability to create an optimal flow structure during the formation of long film curtains due to the large turbulization of the flow at the exit of the slit hole and the discontinuity of the flow as the flow of the outflowing fluid from the said hole is removed.

EFFECT: increased fire extinguishing efficiency due to the introduction of high-speed elements in the general circuit of an automatic fire extinguishing system.

This is achieved by the fact that in a deluge fire extinguishing system, consisting of a network of trunk and distribution pipelines, constantly filled with liquid fire extinguishing composition, with deluge heads, there is a water supply source, which is a water tank and a water intake system with a filter and a pump, two automatic water feeders, and a signal turbine is installed in the main supply line, while the deluge head contains a hollow body in the form of a sphere on which the inlet and outlet dross are placed while the housing is located between the nozzle and the holder, fixing it in such a way that the plane of the inlet of the housing is perpendicular to the axis of symmetry of the nozzle and the holder, and the output throttle element is made in the form of cylindrical throttle holes uniformly located on the spherical surface of the housing, the axes of which located on radial lines connecting the center of the spherical surface of the body with the center of the hole, with the perforation coefficient of the perforated spherical the surface of the body lies in the optimal range of values - 0.5 ÷ 0.8.

In FIG. 1 is a diagram of a deluge fire extinguishing system; FIG. 2 is a diagram of a deluge head.

The deluge fire extinguishing system (Fig. 1) consists of a network of trunk 8 and distribution 6 pipelines, constantly filled with a liquid fire extinguishing composition, with sprinklers (deluge heads 7) and is designed for local extinguishing and localization of the fire source in the room. The system consists of a water supply source, which is a tank 1 with water and a water intake system with a filter 10 and pump 2. For uninterrupted and reliable operation of the main supply main network 8, the device has two automatic water sources 3 (pneumatic tank) and 4 (water tank). A secondary highway 5 with rows of distribution pipelines 6 equipped with deluge heads 7 originates from the main network along the production premises of the building. A signal turbine 9 is installed in the main supply line.

The deluge head (Fig. 2) contains a housing made in the form of a central sleeve 12 with an external hexagonal and internal cylindrical surfaces, while internal threads are made on the two end sides of the central sleeve 12, and it is axisymmetrically attached to one of the end sides by means of a lock nut 15, a supply pipe 16, and to another, a spray element made in the form of a sleeve 11, the inner diameter of which is equal to the internal diameter of the supply pipe 16. To the sleeve 11 by means of arcs 17 arranged in a conical erhnosti fastened socket 18, which is a part of a spherical surface 21 bounded by the inner and outer hemispheres having a thickness «s». The center of the hemisphere lies on the line connecting the axis of the central sleeve 11 and the axis of the inlet pipe 16. On the spherical surface 21, from its outer side, at least three grooves 19 are made, the axes of which are located on radial lines with respect to the hemisphere, and the peripheral part of the hemisphere is made of at least three throttle holes 20, 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 16.

An axisymmetric to the spray element is a blocking valve made in the form of a ball 14, fixed by a spring 13 located inside the central sleeve 12, to a conical surface 22 made at the end of the inlet pipe 16 facing the spray element. In the lateral surface 13 of the central sleeve 12 with the external hexagonal and internal cylindrical surfaces, there are made at least three throttle openings 24 inclined towards the outlet 18, whose axes intersect at a point lying on the axis of the central sleeve 12 and make an acute angle with this axis in drawing planes.

Drencher heads 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 (not shown) is mounted on which the deluge heads are fixed, and the network is constantly filled with liquid fire extinguishing the composition intended for local extinguishing and localization of the fire in the room.

In the initial state, the spring 13 presses the ball 14 to the inlet pipe 16 to ensure tightness and the exclusion of fluid leakage from the distribution pipe (not shown). 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 squeezes the ball 14 with compression of the spring 13, and the fluid flow rushes in two directions: the first through the throttle holes 24, the axes of which intersect at a point lying on the axis the Central sleeve 12, and the second to the spray element 18, creating a water curtain.

When adjusting in the case of spontaneous drainage of the fluid by rotation of the sleeve 12, the spring 13 is compressed with an increase in the preload of the ball 14 until the supply pipe 16 is completely blocked and sealed. The final position of the sleeve is fixed with a lock nut 15. If there is no drainage from the sprinkler, the latter is adjusted by rotating the sleeve 12 in the opposite direction with the spring 23 open, decreasing the ball 14 pressing until a fluid duct appears and then turning the sleeve 12 slightly until the central opening of the inlet pipe 16 completely overlaps. Finally, the position of the sleeve is fixed by lock nut 15. Thus, in the distribution piping system, the extinguishing fluid in a ready state finds I always have input elements sprayer that provides virtually instantaneous operation spraying system and generally reduces the inertia of the operation of 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 fluoride-containing foaming agent "Sublayer" under conditions of smoke in the room.

Claims (1)

The deluge fire extinguishing system, consisting of a network of trunk and distribution pipelines, constantly filled with liquid fire extinguishing composition, with deluge heads, contains a water supply source, which is a water tank and a water intake system with a filter and a pump, two automatic water feeders, and a signal line is installed in the main supply line the turbine, while the deluge head contains a housing made in the form of a Central sleeve with an external hexagonal and inner cylindrical surfaces and, at the same time, an internal thread is made on the two end sides of the central sleeve, moreover, the inlet pipe is axially symmetrically attached to one of the end sides by means of a lock nut, and to the other a spray 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, through arcs located on a conical surface, a socket is attached that is part of a spherical surface bounded by internal and external hemispheres, with the center of the hemisphere lying um on the line connecting the axis of the Central sleeve and the axis of the inlet pipe, and on the spherical surface, on its outer side, at least three grooves are made, the axes of which are located on the lines radial with respect to the hemisphere, characterized in that in the peripheral part of the hemisphere are made at least three throttle openings, 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, and blocking the axisymmetric spray element the th valve, made in the form of a ball, fixed by a spring located inside the central sleeve, to a conical surface made at the end of the inlet pipe facing the spray element, and at least three are made in the side surface of the central sleeve with an external hexagonal and internal cylindrical surfaces throttle openings inclined towards the outlet, whose axes 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.

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