KR101899380B1 - Local release type low impact spray nozzle for fire extinguishing system - Google Patents

Abstract

The present invention relates to a local release type low impact spray nozzle for a fire extinguishing system, which receives a fire extinguishing liquid supplied from a fire extinguishing liquid supply pipe of the fire extinguishing system to spray the fire extinguishing liquid to a fire occurring area. According to the present invention, the local release type low impact spray nozzle comprises: a nozzle body having an inlet protruding from one side to be connected to the fire extinguishing supply pipe and a moving space, which communicate with the inlet and has a greater diameter than the inner diameter of the inlet, formed therein; and a spray head having a coupling hole protruding from one side to be coupled to one side of an opposite side to the nozzle body, having a spray hole, which has an outwardly inclined scattering surface formed on an inner surface, protruding from one side of an opposite side, and having a plurality of first and second orifices communicating with the moving space, the coupling hole, and the spray hole. The first orifices are formed in a radial shape at predetermined intervals on the center of the spray head and are gradually inclined to the inside towards the spray hole from the coupling hole. The second orifices are formed in a radial shape closer to the center of the spray head than the first orifice at predetermined intervals on the center of the spray head and are gradually inclined to the outside towards the spray hole from the coupling hole. The first and second orifices are formed inside the spray head to allow the fire extinguishing liquid sprayed from the first and second orifices to cross each other.

Description

{Local release type low impact spray nozzle for fire extinguishing system for fire extinguishing system}

The present invention relates to a local discharge type low-impact spray nozzle for a fire extinguishing system, and more particularly, to a fire-extinguishing facility and a shock-sensitive facility such as a transformer and a plant, To a local release low-impact spray nozzle for a fire extinguishing system that emits fire extinguishing liquid.

Generally, fire extinguishers and fire extinguishers used in fire extinguishing systems are sprayed into fire-generating areas of buildings through spray nozzles in a liquid state.

However, in the case of the conventional injection nozzle, when the fire extinguishing liquid is injected, there is a problem that the fire is concentrated in the central portion of the fire generation area, and fire evolution is difficult.

Patent Document 1 discloses an injection nozzle for a fire extinguisher coupled to an injection path end of a chemical hose so as to eject an extinguishing agent including a reinforcing liquid; A nozzle body having a single-pipe-shaped nozzle body having a jetting port relatively larger in diameter than the jetting passage; And a plurality of protrusions protruding from a wall surface of the jetting port so as to collide with the extinguishing agent.

Patent Document 2 discloses a nozzle body that includes a stirring chamber and a first orifice communicating with the liquid inflow side of the stirring chamber and having a diameter smaller than the inside diameter of the stirring chamber and communicating with the liquid outflow side of the stirring chamber And a second orifice having the same diameter or smaller diameter as the first orifice.

However, at present, when injecting digestive liquid into a structure different from that of Patent Documents 1 and 2, it is necessary to use a facility that is susceptible to shocks such as a transformer and a plant when a fire occurs in a building, You want a nozzle.

KR 1192584 B1 KR 2007-76138 A

Accordingly, the present invention provides a local discharge type low-impact spray nozzle for a fire extinguishing system that injects a fire extinguishing liquid whose pressure is lower than that of a fire extinguishing liquid supplied from a fire extinguishing system, to a facility susceptible to impacts such as a transformer and a plant, And the like.

In order to achieve the above object, the present invention provides a local discharge type low-impact spray nozzle for a fire extinguishing system, which receives a fire extinguishing liquid from a fire extinguishing liquid supply pipe of a fire extinguishing system and injects the fire extinguishing liquid into a fire occurrence area of a building, And a moving body having a diameter larger than the inside diameter of the inlet port and communicating with the inlet port and formed with a fastener for being fastened to one side of the opposite side of the nozzle body, And a spray head having a plurality of first and second orifices communicating with the moving space, the fastener, and the ejection port, the spray head having a plurality of first ejection openings formed on the inner surface thereof, The orifices are radially formed at predetermined intervals in the center of the atomizing head, The plurality of second orifices forming a longer diameter than the first orifices and being radially formed at a predetermined spacing closer to the center of the spray head than the first orifices at the center of the spray head, Wherein the first and second orifices are formed inside the spray head so that the first and second orifices are mutually intersected so that the first and second orifices are crossed with each other. The present invention provides a local discharge type low-impact spray nozzle.

The present invention has the effect of reducing the pressure of the digestive fluid supplied from the digestive fluid supply pipe through a moving space having a diameter longer than the inside diameter of the inlet.

That is, the pressure of the extinguishing liquid supplied from the extinguishing system is reduced, thereby reducing the pressure of the extinguishing liquid sprayed from the first and second orifices.

In other words, there is an effect that the pressure of the digestive juice supplied from the digestive system is prevented from being increased and injected in the first and second orifices.

The present invention has the effect that the digestive fluids are diffused through the first and second orifices tilted inward and outward, respectively, and at the same time, the digestive fluids are formed in the form of a plurality of particles by collision.

That is, there is an effect that the fire extinguishing liquid is diffused and sprayed in a spray form in a state where the pressure is lowered.

Since the longitudinal length of the moving space is longer than the diameter of the moving space, the pressure of the extinguishing liquid injected from the first and second orifices is further reduced.

In the present invention, since the diameter of the first orifice is shorter than the diameter of the moving space, there is an effect that the extinguishing liquid sprayed from the first orifice is strongly collided with the pressure rising.

That is, there is an effect that the digestive juice is further diffused and sprayed in a spray form.

Since the diameter of the first orifice is shorter than the diameter of the second orifice and the angle of the second orifice is made more inclined than that of the first orifice, the digestive fluid diffuses irregularly and diffuses, And is sprayed.

The present invention has the effect of preventing the extinguishing liquid from spreading toward one side because the extinguishing liquid injected from the first and second orifices collides with each other in a 1: 1 form.

In conclusion, the present invention has the effect of preventing equipment damage due to impact by spraying a fire extinguishing liquid to a facility susceptible to impact such as a transformer and a plant in a fire occurrence area of a building.

That is, there is an effect that the physical damage caused by the fire can be prevented from occurring to the physical damage that the equipment is damaged by the strong pressure of the injected digestive fluid.

In addition, the strong pressure of the fire extinguishing liquid prevents the spread of the fire in the fire occurrence area.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an installation view of a local discharge type low-impact spray nozzle for a fire extinguishing system according to an embodiment of the present invention;
2 and 3 are a cross-sectional view and a bottom view of a local release low-impact spray nozzle for a fire extinguishing system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration of a specific embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 3 are diagrams illustrating a local discharge type low-impact spray nozzle 100 for a fire extinguishing system according to an embodiment of the present invention, which is included in the fire extinguishing system 1, And is used to inject fire into the fire-generating area of the building (2) having facilities sensitive to impact such as a transformer and a plant.

Here, the fire extinguishing system 1 comprises a fire extinguishing liquid supply pipe 1a installed in the first to n-th zones of the building 2, a fire extinguishing liquid duct 2 connected to the fire extinguishing liquid supply pipe 1a, A valve 1c provided in the building 2 for supplying the extinguishing liquid to the extinguishing unit 1b and a valve 1c And a detector 1e installed in each of the first to nth zones of the building 2 for detecting the occurrence of a fire, .

The fire extinguishing system 1 is installed in the building 2 and includes a control unit 1f for controlling the startup unit 1d to emit a starting liquid upon receiving a fire generation signal from the detector 1e.

That is, the fire extinguishing system 1 is used to monitor fire occurrence of the building 2 and to evolve fire.

Thus, the local release low-impact injection nozzle 100 for a fire extinguishing system according to the embodiment of the present invention is connected to the digestive-fluid supply pipe 1a so as to face the first to n-th zones of the building 2, respectively.

The local injection type low-impact spray nozzle 100 for the extinguishing system has an inlet 11 connected to the digestive liquid supply pipe 1a protruded from one side thereof and communicating with the inlet 11, And a nozzle body 10 in which a moving space 12 having a diameter D2 longer than the inside diameter D1 is formed.

The local discharge type low-impact spray nozzle 100 for the extinguishing system has a fastener 21 projecting from one side and fastened to one side opposite to the nozzle body 10, and an outwardly inclined diffusing surface 22a And a plurality of first orifices 23 and 24 communicating with the moving space 12 and the fastening holes 21 and the ejection holes 22 are formed in the inner side A spray head 20 is formed.

The plurality of first orifices 23 are radially formed at predetermined intervals at the center of the spray head 20 and are inclined inward toward the injection port 22 from the fastener 21.

The plurality of second orifices 24 are radially formed at a predetermined distance from the center of the spray head 20 and closer to the center of the spray head 20 than the first orifices 23, To the jetting port 22 as shown in FIG.

The first and second orifices 23 and 24 are formed in the spray head 20 such that the first and second orifices 23 and 24 face each other with the extinguishing liquid sprayed therebetween .

Also, the number of the first and second orifices 23 and 24 is the same.

That is, the first and second orifices 23 and 24 have the same angle.

The length L in the longitudinal direction of the moving space 12 is 1.5 to 2 times the diameter D2 of the moving space 12.

The diameter D3 of the first orifice 23 is 0.06 to 0.1 times longer than the diameter D2 of the moving space 12.

The diameter D4 of the second orifice 24 is 0.1 to 0.15 times larger than the diameter D2 of the moving space 12. [

The first orifice 23 is formed to be inclined to the inside of the spray head 20 by 10 ° to 20 ° toward the injection port 22 from the fastener 21.

The second orifice 24 is formed to be inclined to the outside of the spray head 20 by 15 ° to 25 ° from the fastener 21 toward the injection port 22.

The local release type low-impact spray nozzle 100 for a fire extinguishing system is formed in a shape similar to a pipe.

The operation and effects of the local release low-impact spray nozzle 100 for the fire extinguishing system according to the embodiment of the present invention will be described as follows.

1 to 3, when the detector 1e detects the occurrence of a fire in the first to nth zones of the building 2, the detector 1e transmits a fire occurrence signal to the control unit 1f The control unit 1f having received the fire occurrence signal controls the startup unit 1d to eject the starting fluid through the start pipe 1d '.

The valve 1c is then actuated by the starter fluid supplied from the starter tube 1d 'to supply the digestive fluid of the digestion section 1b to the inlet 11 of the nozzle body 10 through the digestive fluid supply tube 1a It will be.

Then, the extinguishing liquid supplied to the inlet (11) is moved to the moving space (12) of the nozzle body (10).

At this time, since the diameter D2 of the moving space 12 is longer than the inside diameter D1 of the inlet 11, the pressure of the extinguishing liquid supplied to the inlet 11 is lowered in the moving space 12. [

The length L in the longitudinal direction of the moving space 12 is formed to be 1.5 to 2 times longer than the diameter D2 of the moving space 12. Therefore, the pressure of the extinguishing liquid supplied to the inlet 11 Is further lowered in the moving space (12).

That is, the pressure of the extinguishing liquid supplied from the extinguishing unit 1b is lowered once in the moving space 12 of the nozzle body 10.

Then, the extinguished liquid whose pressure is decreased is injected through a plurality of first and second orifices (23) and (24) inclined inward and outward, respectively.

That is, the extinguished liquid whose pressure has decreased once in the moving space 12 is injected through the first and second orifices 23 and 24.

Since the diameter D3 of the first orifice 23 is shorter than the diameter D2 of the moving space 12 by a length of 0.06 to 0.1 times the length of the first orifice 23, The pressure is increased.

Since the diameter D4 of the second orifice 24 is shorter than the diameter D2 of the moving space 12 by a length of 0.1 to 0.15 times the diameter D2 of the second orifice 24, The pressure is increased.

Since the first and second orifices 23 and 24 are inclined inward and outward toward each other, the first and second orifices 23 and 24, respectively, They collide with each other and collide with each other.

The diameter D3 of the first orifice 23 is set to be shorter than the diameter D4 of the second orifice 24 so that the diameter of the first orifice 23 is smaller than the diameter D4 of the second orifice 24. Therefore, Has an elevated pressure than the extinguishing liquid injected from the second orifice (24).

Also, since the first orifice 23 has a relatively larger inclined angle range than the second orifice 24, the digestive fluid injected from the second orifice 24 is injected from the first orifice 23, Is injected in a more inclined state than the digestive juice.

That is, in the first and second orifices 23 and 24, the digestive fluids are jetted at different angles and collide with each other at different pressures.

Since the first and second orifices 23 and 24 are made of the same number, the digestive fluids collide with each other in a 1: 1 form.

Then, the extinguishing liquid is diffused by the collision and formed into a plurality of particles having various sizes.

Further, the extinguishing liquid is further diffused while being struck against the diffusing surface 22a of the injection port 22, and is sprayed into the fire generation area of the building 2 in a spray form.

That is, through the local discharge type low-impact spray nozzle 100 for a fire extinguishing system of the present invention, the fire extinguishing liquid is supplied to the fire extinguishing system 1 at a pressure lower than that of the fire extinguishing liquid, (2).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes and modifications may be made by those skilled in the art.

10: nozzle body 11: inlet
12: Movement space 20: Spray head
21: fastener 22: nozzle
22a: diffusing surface 23: first orifice
24: second orifice
100: Localized low impact spray nozzle for fire extinguishing systems

Claims (7)

A local discharge type low impact injection nozzle for a fire extinguishing system for receiving a fire extinguishing liquid from a fire extinguishing liquid supply pipe (1a) of a fire extinguishing system (1) and injecting the fire extinguishing liquid into a fire extinguishing area of a building (2)
And has a diameter D2 that is longer than the inner diameter D1 of the inlet 11 and communicates with the inlet 11. The inlet 11 is connected to the inlet pipe 11a, And a nozzle body (10) having a nozzle body (12) formed therein,
And an injection port 22 formed on the inner surface of the nozzle body 10 is formed to project from one side of the opposite side of the nozzle body 10, And a spraying head 20 having therein a plurality of first orifices 23 and 24 communicating with the moving space 12 and the fastening tool 21 and the jetting port 22,
A plurality of the first orifices 23 are radially formed at a predetermined distance from the center of the spray head 20 and are inclined inward toward the injection port 22 from the fastener 21,
The plurality of second orifices 24 are longer in diameter than the first orifices 23 and extend from the center of the spray head 20 to the center of the spray head 20 And is formed so as to be inclined outward from the fastening hole 21 toward the injection hole 22,
The first and second orifices 23 and 24 are formed in the spray head 20 such that the first and second orifices 23 and 24 face each other with their extinguishing liquids crossing each other Wherein the low-impact spray nozzle is a low-impact spray nozzle. The method according to claim 1,
Wherein the length L in the longitudinal direction of the moving space 12 is 1.5 to 2 times longer than the diameter D2 of the moving space 12. The local discharge type low impact spray nozzle for a fire extinguishing system according to claim 1, The method according to claim 1,
Wherein the diameter D3 of the first orifice 23 is 0.06 to 0.1 times larger than the diameter D2 of the moving space 12. The local discharge type low impact spray nozzle for a fire extinguishing system according to claim 1, The method according to claim 1,
Wherein the diameter D4 of the second orifice 24 is 0.1 to 0.15 times longer than the diameter D2 of the moving space 12. The local discharge type low impact spray nozzle for a fire extinguishing system according to claim 1, The method according to claim 1,
Characterized in that the first orifice (23) is formed so as to be inclined to the inside of the spray head (20) from 10 to 20 degrees from the fastener (21) toward the injection port (22) Injection nozzle. The method according to claim 1,
Characterized in that the second orifice (24) is formed to slope outwardly of the spray head (20) from 15 to 25 degrees from the fastener (21) toward the injection port (22) Injection nozzle. The method according to claim 1,
Wherein the plurality of first and second orifices (23, 24) are formed in the same number.

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