RU2605113C1 - Sprinkler for fire fighting installation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to fire-fighting equipment and can be used in water and air-water sprinkler systems, as well as in drencher systems. Sprinkler fire fighting installation consists of a water supply of a network of main and distribution pipelines with sprinkler heads. Spray cup of sprinkler can be made in form of a hemisphere with an inner cavity, equidistant and congruent to outer spherical surface of Cup. Spray cup of sprinkler can also be made in form of a truncated cone with an inner cavity, directed towards a sleeve and made in form of a surface of a truncated cone, equidistant and congruent to outer surface of cup.

EFFECT: technical result is increased efficiency of fire extinguishing ensured by introducing high-speed elements in 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. By rotating the cage, 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 the sprinkler fire extinguishing installation, consisting of a water supply source, a network of trunk and distribution pipelines with sprinkler heads, the main water supply is additionally contained with a filter lowered into the source and connected to the main pipeline, and a recharge system installed parallel to the main water supply line and including the auxiliary water supply feed line and the auxiliary (automatic) water supply, and the control and alarm system The ma includes an alarm and control valve, for example, in the form of an audible siren, while the main pipeline is connected to a network of distribution pipelines in which sprinkler heads are mounted, each of which consists of a base, which is connected to at least two arcuate holders that hold the sleeve with a divider fixed on it, made in the form of a diffuser with a belt bent towards the base with located on the forming conical surface of the belt and inside the divider an atomizer is additionally installed, made in the form of a cup fastened by means of at least three radial, horizontally arranged flat petals to the inner surface of the divider, while the axis of the cup coincides with the axes of the through channel of the nozzle and the sleeve, its internal cavity is directed to the side bushings, and the glass bulb with its lower end rests on the valve through an elastic gasket mounted on the outer end surface of the valve, which, in turn, abuts the base in the form a fitting with a tapered thread and a through channel, the glass bulb with its upper end resting on a holder mounted in the lower part of the sleeve with a divider fixed to it, while the holder is installed in the lower part of the sleeve with a gap.

In FIG. 1 is a diagram of a fire sprinkler installation, FIG. 2 is a diagram of a sprinkler head.

The fire extinguishing sprinkler installation (Fig. 1) consists of a water supply source 1, a main water supply 2 with a filter lowered into the source, and connected to a main pipeline 7, a recharge system installed parallel to the main water supply line 2 and including a secondary water supply line 3 and auxiliary (automatic) water supply 4. The control-signal system includes a control-signal valve 5 and a signal device 6, for example, in the form of an audible siren. The main pipeline 7 is connected to a network of distribution pipelines 9 in which sprinkler heads 8 are mounted.

The network of main 7 and distribution 9 water pipes is located under the ceiling of the building and is filled with water under pressure created by automatic water supply 4 (water supply, water tank or hydropneumatic installation), capable of supplying at least 10 l / s for 10 min. Since this amount of water to extinguish the fire may not be enough, the main water supply unit 2 (pump, water supply or spare tank) is usually placed in the installation, which should provide a water flow rate of at least 30 l / s for 1 hour.

The sprinkler head (Fig. 2) contains a housing made in the form of a nozzle 10. The sprinkler sprinkler (Fig. 2) consists of a base 10 in the form of a nozzle with a tapered thread 11 and a through channel 12. The base 10 of the sprinkler is connected to at least two arcuate holders 13, which hold the sleeve 14 with a divider 15 fixed on it, made in the form of a diffuser with a belt 16 bent towards the base 10 with petals arranged along the conical surface of the belt 16. Inside the divider 15, an atomizer is additionally installed, made in the form of a cup 17, which is fastened by means of at least three radial, horizontally arranged flat petals 18 to the inner surface of the divider 15. The axis of the cup 17 coincides with the axes of the through channel 12 of the base and the sleeve 14, and its internal cavity directed towards the sleeve 14.

The glass bulb 21 with its lower end rests on the valve 20 through an elastic gasket (not shown), mounted on the outer end surface of the valve 20, which, in turn, abuts the base 10 in the form of a fitting with a tapered thread 11 and a through channel 12. Glass the bulb 21 with its upper end rests in the holder 19, mounted in the lower part of the sleeve 14 with a divider 15 fixed to it. The holder 19 is installed in the lower part of the sleeve 14 with a gap.

The nozzle cup 17 can be made in the form of a hemisphere with an internal cavity, an equidistant and congruent outer spherical surface of the cup (not shown in the drawing).

The nozzle cup 17 can be made in the form of a truncated cone with an internal cavity directed towards the sleeve 5, and made in the form of a surface of a truncated cone, an equidistant and congruent outer surface of the cup (not shown).

Sprinkler fire extinguishing system operates as follows.

Sprinkler heads are screwed into the distribution pipe 9 every 3 ... 4 m, which makes it possible to irrigate one sprinkler depending on the design and diameter of the through-hole 6 ... 36 m ^{2 of} the floor area of the room. In unheated rooms with an air temperature of 0 ° C and below, water-air sprinkler systems are used, filled with water only up to the control and alarm valves 5, after which compressed air is located in pipelines with sprinklers. When opening the heads 8, air first leaves, and then water begins to flow.

The practice of using sprinkler installations has shown that in buildings equipped with them, it is possible to extinguish more than 90% of emerging fires, including before the arrival of fire groups.

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

Sprinkler sprinkler works as follows.

The glass bulb 21 is an element of automatic response to exceeding a predetermined room temperature, which is made in the form of a glass bulb 21 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.

The liquid from the main pipeline of an automatic stationary fire extinguishing installation (not shown in the drawing), passing through the through channel 12 of the base and the hole in the sleeve 14, enters the divider 15 with the spray gun 17 installed inside.

The fluid flows interact with the central flow of the through channel 12 and sleeve 14, and, being reflected from it, form reflected flows, and the central flow continues its movement towards the atomizer, made in the form of a cup 17, with horizontally arranged flat petals 18, and the reflected flows are directed to side past the divider, and a uniform finely dispersed atomized liquid flow is formed.

When the temperature rises during a fire in a production building, the heat-sensitive element (thermal lock) - bulb 15 (at a response temperature of 68 ° C - red or 57 ° C - orange) breaks and a fire extinguishing agent is ejected through poppet valve 17, sprayed with a spray outlet 19 with petals 20, it enters the fire. 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 foam former "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. 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)

 The sprinkler fire extinguishing installation, consisting of a water supply source, a network of main and distribution pipelines with sprinkler heads, further comprises a main water supply with a filter lowered into the source and connected to the main pipeline, and a recharge system installed parallel to the main water supply line and including a recharge pipe auxiliary water supply and auxiliary (automatic) water supply, and the control-signal system includes a control the o-signal valve and the signal device, for example, in the form of an audible siren, while the main pipeline is connected to a network of distribution pipelines in which sprinkler sprinklers are mounted, each of which consists of a base, which is connected to at least two arcuate holders that hold a sleeve with a divider fixed on it, made in the form of a diffuser with a girdle bent towards the base with petals located on the conical surface of the girdle, and inside the gusset I have additionally installed a spray gun made in the form of a cup fastened by means of at least three radial, horizontally located flat petals to the inner surface of the divider, while the axis of the cup coincides with the axes of the through channel of the nozzle and the sleeve, and its internal cavity is directed towards the sleeve, glass the flask with its lower end rests on the valve through an elastic gasket mounted on the outer end surface of the valve, which, in turn, abuts the base in the form of a fitting with a tapered thread battle and a through channel, the glass bulb with its upper end resting on a holder mounted at the bottom of the sleeve with a divider fixed to it, the holder mounted on the bottom of the sleeve with a gap, characterized in that the spray cup of the sprinkler sprinkler is made in the form of a hemisphere with the inner cavity, the equidistant and congruent outer spherical surface of the cup, or the cup of the spray nozzle of the sprinkler sprinkler is made in the form of a truncated cone with an inner cavity directed toward the sleeve formed as a frustoconical surface, congruent and equidistant the outer surface of the cup.

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