RU2512869C1 - Unit of fire extinguishing with water curtain - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: in the unit of fire extinguishing with water curtain comprising a water supply source, a network of main and distribution pipelines with deluge heads, the control and signalling system comprises a control and signalling valve and a signalling device, such as in the form of an alarm horn, each of the deluge heads comprises a hollow housing with a nozzle and the central core, at that the housing is formed with a channel for supplying liquid and comprises a coaxial sleeve, rigidly connected to it, with a nozzle fixed to its lower part, formed with three radial channels, the annular cavity is connected to the housing channel for supplying liquid, at that the tapered socket in its lower part is rigidly attached to a connector in the form of the end circular plate with at least seven radial lobes which are bent towards the annular gap between the nozzle and the socket, and on the side surface of the socket there are at least two rows of cylindrical orifices with axes lying in planes perpendicular to the axis of the socket, and in each row there are at least three holes.

EFFECT: improving the efficiency of fire extinguishing due to introduction of high-speed elements in the overall chain of 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 according to the RF patent No. 2429917, consisting of a water supply source, a network of main and distribution pipelines with deluge heads, a water supply with a filter lowered into the source, and connected to the main pipeline, and a recharge system, parallel to the line of the main water supply and including the auxiliary water feeding line and auxiliary automatic water supply, control o signaling system includes a main control valve and warning device, such as a siren, wherein the header pipe is connected to a network of distribution pipes, which are mounted deluge head (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 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 fire extinguishing installation with a water curtain consisting of a water supply source, a network of main and distribution pipelines with deluge heads, a water feeder with a filter lowered into the source and connected to the main pipeline, and a recharge system installed parallel to the main water feeder line and including includes auxiliary water supply feed line and auxiliary automatic water supply, the control-signal system includes a control-signal the 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 the deluge heads are mounted, each of the deluge heads contains a hollow body with a nozzle and a central core, and the body is made with a channel for supplying liquid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected to the middle threaded connection with a central core consisting of a cylindrical part and a conical bell aligned with it, installed with an annular gap relative to the inner surface of the cylindrical sleeve, and the annular gap is connected with at least three radial channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, and the annular cavity is connected with the channel of the housing for supply in this case, a socket in the form of an end round plate with at least seven radial petals, which are bent towards the annular gap between the nozzle and the bell, is rigidly attached to the conical socket in its lower part, and at least two rows of cylindrical throttle holes, with axes lying in planes perpendicular to the axis of the socket, and at least three holes are made in each row, and at least three conic holes are made in the end round plate throttle holes with an angle at the apex of the cone, lying in the range from 45 to 90 °, and on the inner surfaces of the cylindrical throttle holes made on the side surface of the socket, there are screw grooves.

Figure 1 presents a diagram of the installation of fire extinguishing, figure 2 - diagram of the deluge head.

The fire extinguishing installation with a water curtain (Fig. 1) consists of a water supply source 1, a main water supply 2 with a filter lowered into the source, and connected to the main pipeline 7, a recharge system installed parallel to the main water supply line 2 and including a secondary water recharge pipe 3 and an 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 the deluge 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 of at least 30 l / s for 1 hour.

The deluge head (Fig. 2) comprises a cylindrical hollow body 10 with a channel 12 for supplying liquid and a coaxial sleeve 11 rigidly connected to the body with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve 13, the upper cylindrical step 15 of which is connected by a threaded connection with a central core consisting of a cylindrical part 16 and a conical bell 17 coaxial with it, mounted with an annular gap 18 relative to the inner surface of the cylindrical sleeve 13. Rings the second gap 18 is connected with at least three radial channels 14, made in a two-stage sleeve 13, connecting it with an annular cavity 23 formed by the inner surface of the sleeve 11 and the outer surface of the upper cylindrical stage 15, and the annular cavity 23 is connected with the channel 12 of the housing 10 for fluid supply.

A conical socket 17, in its lower part, is rigidly attached to a socket in the form of an end circular plate 20 with at least seven radial petals 21, which are bent towards the annular gap 18 between the nozzle and the socket. At least two rows of cylindrical throttle holes 19 with axes lying in planes perpendicular to the axis of the socket 17 are made on the lateral surface of the bell, and at least three holes 19 are made in each row. In the end circular plate 20, at least three conical throttle holes 22 with an angle at the apex of the cone lying in the range from 45 to 90 °. On the inner surfaces of the cylindrical throttle holes 19, made on the lateral surface of the socket 17, there are helical grooves, which will increase the fine dispersion of the fluid flow due to the formation of turbulent vortices.

Installation extinguishing works as follows.

Drainage systems are designed for automatic or manual extinguishing of a local fire, by creating directed water curtains in the openings of doors or windows, irrigating individual elements of technological equipment, etc. Automatically triggered deluge equipment is driven by a cable, pneumatic or electric launcher. Drencher sprinklers can be used in water and water-air deluge systems.

Drainer heads are screwed into the distribution pipe 9 every 3 ... 4 m, which makes it possible to irrigate one drencher 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 deluge units are used, filled with water only up to the control and alarm valves 5, after which compressed air is in the pipelines with deluge. When opening the heads 8, air first leaves, and then water begins to flow.

The operation of the deluge head is as follows.

Liquid under pressure is supplied to the cavity of the nozzle body 10 and then flows in two directions: the first into the annular cavity 23 through radial channels 14 into the annular gap 18 between the nozzle and the central core. At inlet pressures of more than 0.2 MPa, the liquid accelerates on the outer conical surface of the socket 17 to form a liquid film that does not tear off from the outer surface of the socket 17. Acceleration of the liquid on the conical surface is accompanied by a decrease in the static pressure in it and, as a result, vaporization and the formation of soluble gases. This phenomenon further prepares the liquid for crushing into small drops. Upon reaching a liquid flow of oncoming flows flowing from the cylindrical throttle holes 19, multiple film crushing occurs with the formation of a finely dispersed phase.

The second direction in which the fluid enters is through the channel 12 for supplying fluid to the cavity of the central core, and then to the conical socket 17, from which part of the fluid flows through the radial holes 19, and part through the conical throttle holes 22. In this case, multiple crushing of drip fluid streams flowing from throttle openings.

The presence of gas inclusions in a liquid additionally perturbs its surface, which leads to wave formation and volumetric crushing of the liquid film. The loss of mechanical energy during external acceleration (on the external conical surface) is reduced compared with the same acceleration in a closed channel.

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 of 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.

In order for the water curtain formed by the deluge heads 8 to have a directional character, they are oriented with the petals towards the source of a possible ignition.

For this orientation apply calibration ring gaskets located on the end surface of the annular flange 11.

Water enters the heads through group-action valves, which are automatically switched on using cables with fusible locks (not shown in the drawing) at a certain temperature. In the presence of an electrified valve, the installation is started by an automatic fire alarm. Water is supplied to deluge units at the rate of 0.1 l / (s · m ² ), and when installed in rooms of increased fire hazard (more than 200 kg of combustible materials per 1 m) - 0.3 l / (s · m ² ) .

To increase the efficiency of the installation, they are equipped with foaming sprinklers or devices for mixing the foaming agent with water.

Claims (1)

Fire extinguishing installation with a water curtain, consisting of a water supply source, a network of main and distribution pipelines with deluge heads, a water feeder with a filter lowered into the source, and connected to the main pipeline, and a recharge system installed parallel to the main water feeder line and including an auxiliary water recharge pipe and auxiliary automatic water feeder, the control and alarm system includes a control and alarm valve and a signal a device, for example, in the form of an audible siren, while the main pipeline is connected to a network of distribution pipelines in which the deluge heads are mounted, characterized in that each of the deluge heads contains a hollow body with a nozzle and a central core, while the body is made with a channel for supplying liquid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by m of a threaded connection with a central core consisting of a cylindrical part and a conical socket coaxial with it, installed with an annular gap relative to the inner surface of the cylindrical sleeve, and the annular gap is connected with at least three radial channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, and the annular cavity is connected with the channel of the housing for supplying liquid at the same time, a socket in the form of an end round plate with at least seven radial petals that are bent towards the annular gap between the nozzle and the bell, is rigidly attached to the conical socket in its lower part, and at least two rows of cylindrical throttle holes with axes lying in planes perpendicular to the axis of the socket, and at least three holes are made in each row, and at least three conical holes are made in the end round plate throttle holes with an angle at the apex of the cone, lying in the range from 45 to 90 °, and on the inner surfaces of the cylindrical throttle holes made on the side surface of the socket, there are screw grooves.

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