RU2630786C1 - Fire fighting device with fire sprinklers - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: device consists of a network of main and distribution pipelines, constantly filled with liquid fire extinguishing composition with fire sprinklers, a water supply source representing a water tank and a water intake system with a filter and a pump, and two automatic water feeders. The fire sprinkler comprises a body which is made in the form of a straight case with windows at its lateral surface. At one end of the straight case, facing towards the spray device, a partition is disposed. The spray device is designed as a socket formed by the part of spherical surface with thickness "s", in which radial slots are made. The socket is attached to the end surface of the case by means of at least two arcs, disposed along the conical surface, the upper part of which is fixed at the partition, and the socket is attached to the lower part, which is the part of the spherical surface, limited by the inner and outer hemispheres. The hemispheres center lies on the line connecting the straight case axes and the partition axis. On the outer side of the spherical surface at least three grooves are made, the axes of which are located on the radial lines with respect to the hemisphere. At least three throat 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 throat 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.

EFFECT: increased efficiency of fire extinguishing due to addition of quick-acting elements to the common circuit of the automatic fire-extinguishing system.

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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 holes is installed opposite the outlet of the housing, providing the required mode of supply of the extinguishing fluid to the fire (RF patent No. 2405606, B05B 1/20 - 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.

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

This is achieved by the fact that in a sprinkler fire extinguishing system, consisting of a network of trunk and distribution pipelines, constantly filled with a liquid fire extinguishing composition with sprinkler sprinklers, a water supply source, which is a reservoir with water and a water intake system with a filter and a pump, two automatic water feeders, sprinkler sprinklers contain nipple, thermal lock, rods with hooks, adjusting element, which is made in the form of a sleeve having a passage channel and connected inside the nipple, the valve is pulled to the outlet of the sleeve, in addition, the valve is installed in a spray element having windows through which spring-loaded rods with protrusions in their middle part and having hooks at both ends pass, while the spray element occupies a fixed position between the adjustment element and the thermal lock , which pulls the ends of the rods to the center, and the thermal element is made of two metal plates welded by the Wood alloy, each of the plates having a bent end that is hooked by a corresponding rod.

In FIG. 1 shows a diagram of a sprinkler fire extinguishing device, FIG. 2 is a diagram of a sprinkler sprinkler; FIG. 3, 4 - options for sprinkler irrigators.

A fire extinguishing device with sprinkler sprinklers (Fig. 1) consists of a network of trunk 8 and distribution 6 pipelines, constantly filled with a liquid fire extinguishing composition with sprinkler sprinklers 7 and is intended 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 and pump 2. For the trouble-free and reliable operation of the main supply main network 8, the device has two automatic water feeders 3 (pneumatic tank) and 4 - (water tank). A secondary highway 5 with rows of distribution pipelines 6 equipped with sprinkler sprinklers 7 originates from the main network along the production premises of the building. The signal turbine 9 is installed in the main supply line.

The sprinkler sprinkler shown in figure 2, contains a nozzle 10 connected to the adjusting element 11, which is made, for example, in the form of a sleeve with an external thread and having a passage channel 12 for irrigation of finely sprayed water (OTV), providing by screwing into the internal threaded part the required pressure of the valve 22 with the seal 23 to the output of the sleeve, while the valve with the seal is installed in the spray element (outlet or deflector) 15, which has two windows 16 through which two spring-loaded rods pass 17, having a protrusion 18, passing through the windows of the spraying element and having a hook 19 and 20 at both ends, the hooks 20 are located in the annular groove 21 of the fitting 10 and are held in the groove with a clamp 22, and the hooks 19, made bent in opposite directions from the central axis of the sprinkler, designed to fix the spray element 15 in the OTW stream, and the thermal element 23 is made of two metal plates welded by the Wood alloy, each plate having a bent end that is hooked with a corresponding rod Thus atomizing element occupies a fixed position between the outlet passageway (regulating member 11) and a thermal lock which pulls the ends of the spring-loaded rod to the center.

The sprinkler sprinkler operates (Fig. 2) as follows.

In the initial state, the thermal lock 23 by rods 17 with hooks 19 tends to reduce the ends of the rods to the center, while the spray element 15 is fixed on the protrusions 18 through the windows 16 by the rods 17, the valve 13 with the seal 14 is pressed to the output of the passage channel 12 of the adjusting element 11. At the moment when the ambient temperature is reached, the temperature of the thermal lock is destroyed, i.e. the ends of the spring-loaded rods 17 with hooks 19 and earrings 24 begin to move away from the central axis of the sprinkler, the earrings come out of the hooks with the plate 23 and with the rods 17, while the spraying element 15, under the pressure of OTV, comes off together with the valve 13 and the seal 14 from the outlet of the passage channel 12 of the adjusting element 11, the protrusions 18 of the rods are displaced inside the windows 16, which releases the spray element 15 from fixing and it slides along the rods all the way into the hooks 19, the fluid flow, hitting the spray element, is crushed, about once torch PTV.

The sprinkler sprinkler shown in FIG. 3, contains a fitting 24 with an aperture 25, two temples 26, a cowl 27, a cap 28, a thermo bulb 29, a spring membrane 30, a seal 31, an epoxy compound seal 32, a spray outlet 33. At the initial moment of assembly, the thermo bulb 29 occupies a certain position relative to the cowling 27 and the cap 28 is brought to rest against a sliding fit. A wedge gap with an angle V is made between the thermoball 29 and the cowling 27, filled with the material of the cap 28 during plastic deformation, and the spring membrane 30 is compressed and its chain moves of the inside of the hole 25, in addition, the yield strength of the material of the cap 28 is less than the stress caused by the technological force and less than the maximum allowable load (voltage) of the thermoball 29, but should exceed the voltage from the working load experienced by the thermoball 29 during operation and provides the necessary the pressure of the spring membrane 30 to the fitting 24, which allows, when removing the technological force on the cap 28, to somewhat shift to the spring membrane 30 in the opposite direction and ensure Ivanov cap 28 in the gap between the V termokolboy 29 and the cowling 27. In the final stages of assembly hole fairing 27 is filled with epoxy resin, which upon polymerization forms a seal 32.

Sprinkler sprinkler (Fig. 3) when extinguishing works as follows.

With an increase in the temperature of operation of the thermoball 29, it is destroyed, as a result, the flow of the extinguishing agent flushes the membrane 30 together with the seal 31 and the remnants of the thermoball 29, then the flow of the extinguishing agent, falling on the socket 33, is sprayed (sprayed) on the surface and volume to be protected.

Sprinkler sprinkler (Fig. 4) contains a housing made in the form of a cylindrical sleeve 34 with windows 39 on its side surface, which may be rectangular or elliptical in shape.

In the upper part of the sleeve 34, axisymmetrically, a fitting 35 for supplying an extinguishing agent is fixed, which is fixed on the sleeve using a lock nut 36. A conical groove 38 is made at the end of the fitting facing the spray device 44, into which the ball segment 37 enters, which is a blocking valve , and at the end of which a glass bulb 43 abuts, the other end of which abuts against an elastic liner 42. located in the center of the partition 40, in which at least three holes 41 for passage of the extinguishing agent are made in the direction of the spray device 44.

The spray device 44 is made in the form of at least two arcs 45 located on a conical surface, the upper part of which is fixed to the partition 40, and a socket 46 is attached to the lower part, which is part of the spherical surface 47, bounded by internal and external hemispheres and having 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 34 and the axis of the septum 40. On the spherical surface, on its outer side, at least three grooves 48 are made, the axes of which are located on the lines radial with respect to the hemisphere, and the peripheral part of the hemisphere is made of at least three throttle holes 49, 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 34. The axis of the throttle holes 49 intersect at a point lying a cylindrical sleeve axis, and form an acute angle with this axis in the plane of the drawing.

For the implementation of the proposed device, materials and thermal flasks are widely used by companies producing irrigators.

When the temperature rises during a fire in a production building, the thermosensitive element (thermal lock) of the bulb (at a response temperature of 68 ° C - red, or 57 ° C - orange) breaks and a fire extinguishing agent is thrown out through the poppet valve, while the flow of liquid, striking about the spraying element is crushed, forming the torch OTV.

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.

The device sprinkler fire extinguishing system works as follows.

In the production building, a system is installed consisting of a water supply source, which is a tank 1 with water and a water intake system with a filter and pump 2. Then, a network of trunk 8 and distribution 6 pipelines is mounted on which the deluge heads 7 are fixed and the network is constantly filled with liquid extinguishing agent designed for local extinguishing and localization of the fire in the room.

For uninterrupted and reliable operation of the main supply main network 8, two automatic water feeders 3 (pneumatic tank) and 4 - (water tank) are installed in the device. The main network 8 is connected to the secondary line 5 with rows of distribution pipelines 6 equipped with sprinkler sprinklers 7, and a signal turbine 9 is installed in the main supply line 8. When the temperature rises during a fire in a production building, a heat-sensitive element (thermal lock) is a bulb (at operating temperature 68 ° C - red, or 57 ° C - orange) breaks and a fire extinguishing agent is thrown out through the poppet valve, while the fluid flow, hitting the spray element, is crushed, brazuya torch PTV.

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.

Claims (1)

A fire extinguishing device with sprinkler sprinklers, consisting of a network of main and distribution pipelines, constantly filled with liquid fire extinguishing composition with sprinkler sprinklers, a water supply source, which is a water tank and a water intake system with a filter and a pump, two automatic water feeders, while the sprinkler sprinkler contains a housing, which 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 side well, a 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 slots are made, and the socket is attached to the end surface of the sleeve by means of at least two arcs arranged conically surfaces, the upper part of which is fixed to the partition, and the rosette is attached to the lower part, which is a part of a spherical surface bounded by internal and external hemispheres, while the hemispheres ntr lies on the line connecting the axis of the cylindrical sleeve and the baffle axis, and at least three grooves 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 are made at least three throttle holes, 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 cylinder Coy sleeve and form an acute angle with this axis in the plane of the drawing.

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