KR200305836Y1 - Assembly structure of multi-swirl nozzle - Google Patents

Abstract

The present invention relates to a multi-swirl nozzle assembly that is located on the ceiling of a certain space to quickly perform fire suppression in case of fire. The swirl nozzle assembly is installed in a pipe for conveying fire suppression water of a constant water pressure, the main body is screwed to the pipe and is fixed in a direction in which the fire extinguishing water is transported, and the fire extinguishing means at an end of the main body. And a nozzle coupler having a plurality of branches coupled in a radial direction having a predetermined inclination angle from the number transfer direction, and a swirl nozzle screw-coupled to the nozzle coupler to spray droplets of a predetermined size at a predetermined diffusion angle. It includes. Accordingly, since the maximum injection angle is almost doubled to eliminate the blind spot, there is an effect of maximizing the performance improvement to quickly perform initial suppression in the fire that occurs more widely.

Description

Multi swirl nozzle assembly {ASSEMBLY STRUCTURE OF MULTI-SWIRL NOZZLE}

The present invention relates to a multi-swirl nozzle assembly, and more particularly, to a multi-swirl nozzle assembly to be located on the ceiling of a certain space to quickly perform the fire suppression in the event of a fire.

In general, when a fire occurs, the fire suppression is performed by supplying a large amount of water almost equally for the purpose of physical extinguishing to lower the fire (fire) temperature in a sprinkler installed in a building battlefield.

Such a conventional sprinkler is formed with a waterproof port for water outflow to the head body, there is a support frame having a large strength of two stems corresponding to a part of the head body, the end of the support frame is waterproof when opening the sprinkler head A reflector is used to disperse the water, and by tightening the bolt at the center of the reflector, the entire heat sink is tightly pressed against the sprinkler head's waterproof opening. When the molten metal is melted by the fire during the fire, the balance of the forces between the assembled metals constituting the thermal part is broken, and the thermal part is dismantled or dropped from the head body, resulting in the sprinkler head being opened. Is configured to effect.

However, the sprinkler such as this supplies a large amount of water and rapidly lowers the temperature of the fire to extinguish the fire. Therefore, when a space equipped with high-performance electronic equipment cannot be used to protect expensive electronic equipment, it causes fatal economic losses. There is a problem.

In addition, when the temperature of the fire is very high, it is difficult to extinguish the fire with the water provided by the sprinkler, and thus there is a problem that the initial suppression is not possible. There is a problem.

In order to solve the problems as described above, the applicant has invented a swirl nozzle (2002-26162) filed as of May 13, 2002, the swirl nozzle is formed on the outer surface of the thread for coupling the pipe and hermetic screw And a nozzle body having a space therein for swirling the fire suppression water and an upper portion of the nozzle body in order to maintain a predetermined distance from the inner surface of the pipe and to reduce the resistance of the inflow of the nozzle inside the pipe. At least one swirl guide provided between the hemisphere-shaped water flow resistance attenuation portion and the water flow resistance attenuation portion and the nozzle body, and formed in a tangential direction to the inner diameter of the nozzle body to induce the vortex; Is screwed tightly to the lower portion of the nozzle body, the inner diameter of the nozzle body is gradually shaft There are certain parts of the configuration, including spraying in the size of the injection hole is formed in the end.

However, since the swirl nozzle has a maximum spray angle of 95 °, the range of fire suppression is narrow, so that there is a problem that the initial extinguishing fails in the case of a wide range of fires, or that the fire extinguishing is difficult. It should be installed a little more by narrowing the interval, which is a problem that increases the economic burden due to the increase in installation costs and unit costs.

The present invention was devised to solve the above problems, and the initial cost is increased by nearly doubled the spray angle, so that the initial suppression can be performed quickly in a fire that occurs more extensively, and the spacing between the nozzles can be more spaced. And to provide a multi-swirl nozzle assembly to reduce the maintenance cost, the purpose is.

1 is a plan view showing a multi swirl nozzle assembly according to the present invention,

Figure 2 is a cross-sectional view A-A showing a multi swirl nozzle assembly according to the present invention.

Explanation of symbols on the main parts of the drawing

One ; Pipe 3; main body

5; Nozzle coupler 7; Swirl nozzle

9; Nozzle body 11; Jet

According to the present invention, in the multi-swirl nozzle assembly installed in the pipe for conveying the constant pressure of the fire extinguishing water, the main body is screwed to the pipe and fixed in the conveying direction of the fire extinguishing water and And a nozzle coupler having a plurality of branches coupled to the end of the main body in a radial direction having a predetermined inclination angle from the transport direction of the fire suppression water, and screwed to the nozzle coupler so that droplets of a predetermined size are sprayed at a predetermined diffusion angle. Achieved by a multi swirl nozzle assembly comprising one swirl nozzle.

Here, the inclination angle of the nozzle coupling sphere is preferably inclined between 40 ° ~ 60 °.

In addition, the nozzle coupler is preferably arranged at equal intervals so that the droplet diffusion angle of the swirl nozzle is formed up to 180 °.

Hereinafter, with reference to the accompanying drawings, a multi-swirl nozzle assembly according to the present invention will be described in detail. 1 is a plan view showing a multi swirl nozzle assembly according to the present invention, Figure 2 is a cross-sectional view A-A showing a multi swirl nozzle assembly according to the present invention.

1 and 2, the multi swirl nozzle assembly is installed in a pipe 1 for transporting fire suppression water of a constant water pressure.

The pipe 1 is hermetically coupled to a main body 3 which is screwably fixed to the conveying direction of the fire suppression water. Here, the main body 3 is provided with a space in which the fire extinguishing water is accumulated. At the end of the main body 3 adjacent to the space, there are provided nozzle couplers 5 branching in a radial direction with a three-dimensional constant inclination angle from the conveying direction of the fire extinguishing water. The inclination angle of the nozzle coupling sphere 5 is formed of a three-dimensional inclination angle of the cone shape, the angle has a distribution between 40 ° ~ 60 °.

The nozzle coupling hole 5 is screw-connected with a swirl nozzle (7) in which a droplet of a predetermined size is injected at a three-dimensional diffusion angle in the form of a cone of 95 °. At this time, the nozzle coupler 5 is arranged at equal angle intervals along the circumferential direction in a range where the three-dimensional diffusion angles 95 ° of the swirl nozzle 7 do not overlap each other. For example, if three nozzle fittings 5 are arranged at equal intervals of 120 °, the overall diffusion angle of the droplets should not exceed 180 ° within the range that the diffusion angles of the swirl nozzles 7 do not overlap. It has a layout structure.

According to the arrangement method, according to the degree of diffusion angle of the swirl nozzle 7, the equiangular intervals of the nozzle fitting holes 5 may be adjusted so as to be arranged in plural so that the overall diffusion angle of the droplets does not exceed 180 °.

On the other hand, the swirl nozzle (7) is formed on the outer surface of the screw thread for coupling the main body 3 and the hermetic screw, and when the fire extinguishing water flows therein, a cylindrical space for vortex (vortex) is omitted. The nozzle body 9 and the nozzle body 9 which are formed in a constant size and are airtightly screwed to the lower part of the nozzle body 9, and the inner diameter of the nozzle body 9 is gradually reduced in diameter to a predetermined size at the end thereof. It has the injection part 11 in which the injection hole is formed.

The present invention as described above is connected to a pipe for transporting fire extinguishing water having a constant water pressure to separate the fire extinguishing water into fine water droplets in the event of a fire, and to spread it up to 180 ° toward the flame, so Water vapor is generated, which evaporates, temporarily shutting off the oxygen supply to the flame. Therefore, it is possible to extinguish a flame completely and extinguish it completely.

The present invention eliminates blind spots by doubling the maximum injection angle almost twice, thus maximizing the performance improvement of rapid initial suppression in a wider fire.

In addition, since the space between the nozzles can be installed more spaced, it is possible to reduce the initial cost and maintenance costs, thereby reducing the economic burden.

Claims (3)

In the multi-swirl nozzle assembly is installed in the pipe for conveying a constant pressure of fire extinguishing water; A main body screwed to the pipe and fixed to the conveying direction of the fire extinguishing water; A nozzle coupler having a plurality of branches branched in a radial direction having a predetermined inclination angle from the transport direction of the fire suppression water at an end of the main body; And a swirl nozzle which is screw-coupled to the nozzle coupler so that droplets of a predetermined size are sprayed at a predetermined diffusion angle. The method of claim 1; The inclined angle of the nozzle coupling sphere is inclined between 40 ° ~ 60 ° multi swirl nozzle assembly. The method of claim 1; The nozzle combination spheres are arranged at equal intervals so that the droplet diffusion angle of the swirl nozzle is formed to be up to 180 ° multi swirl nozzle assembly.