KR102193164B1 - Nozzle apparatus of automatic fire extinguisher - Google Patents

Abstract

The present invention relates to a nozzle apparatus of an automatic fire extinguisher. According to the present invention, the nozzle apparatus of an automatic fire extinguisher comprises: a nozzle body having a hollow formed therein, and having a space formed in a lower end thereof so that a spray angle adjusting part is inserted thereinto; a nozzle cap screwed to an outer side of a lower end of the nozzle body; and a spray body coupled to the spray angle adjusting part in the space formed in the lower end of the nozzle body, having a cylindrical shape, and communicating with the hollow of the nozzle body to spray a fire extinguishing agent. The spray angle adjusting part is installed to be inserted into the space formed in the lower end of the nozzle body and has a thread formed on the inner surface thereof to be screwed to the spray body. The spray angle adjusting part includes a first end surface and a second end surface that become an upper surface or a lower surface. When the first end surface is installed upward, the first end surface becomes the upper surface and the second end surface becomes the lower surface, and when the second end surface is installed upward, the second end surface becomes the upper surface and the first end surface becomes the lower surface. The first end surface is formed as an inclined surface having a first inclination angle, and the second end surface is formed as an inclined surface having a second inclination angle, so that the spray angle of the spray body is changed according to an installation position of the first end surface or the second end surface of the spray angle adjusting part. Therefore, a spray angle adjusting part can have two spray angles.

Description

Nozzle device for automatic fire extinguisher {NOZZLE APPARATUS OF AUTOMATIC FIRE EXTINGUISHER}

The present invention relates to a nozzle device of an automatic fire extinguisher, and more particularly, a nozzle of an automatic fire extinguisher capable of adjusting the spray angle of the extinguishing agent sprayed through the spray body by mounting an angle plate inside the nozzle device according to the expected fire area It relates to the device.

Currently, it is mandatory to install an automatic fire extinguisher in an area where a firearm such as a gas range is used in the kitchen of a general home or a kitchen of a restaurant.

FIG. 1 is schematically illustrated in a system in which such an automatic fire extinguisher is installed. Referring to FIG. 1, a primary fire detection sensor 3 and a secondary fire detecting an overheated state of the gas range 2 and an actual fire step by step. A block 6 on which the detection sensor 4 and the fire extinguishing nozzle 5 are installed is installed, and a block 6 is installed on the range hood 1.

The fire extinguishing nozzle 5 is connected to the fire extinguisher 7 and the injection pipe 8, and the primary fire detection sensor 3 and the secondary fire detection sensor 4 are connected to the controller 9.

The controller 9 is connected to the operating device 7a of the fire extinguisher, the gas circuit breaker 2a installed in the piping of the gas range 2, and a separate gas leakage alarm 2b.

This automatic fire extinguisher detects overheating of the gas range 2 by the primary fire detection sensor 3 and blocks the gas circuit breaker 2a by the controller 9. In addition, the secondary fire detection sensor 4 detects an actual fire in the gas range 2 and operates the operation device 7a of the fire extinguisher 7 by the controller 9.

In this way, by driving the operating device 7a of the fire extinguisher 7, the extinguishing agent of the fire extinguisher 7 is supplied to the fire extinguishing nozzle 5 through the injection pipe 8, and the gas range 2 through the fire extinguishing nozzle 5 It can be sprayed upwards to extinguish a fire early.

As a prior art related to such an automatic fire extinguisher, there is a technology disclosed in Korean Patent Publication No. 10-2010-0074362 (Patent Document 1) filed by the present applicant. In the nozzle device for an automatic fire extinguisher disclosed in Patent Document 1, the injection angle can be adjusted by an angle plate, but one injection angle is determined by one angle plate.

For example, if an angle plate with a spray angle of 5 degrees is assembled, the spray angle is determined to be 5 degrees, and when an actual fire occurs, the spray angle is sprayed through the extinguishing nozzle at 5 degrees. If the spray angle is applied to 10 degrees, an angle plate with a spray angle of 10 degrees must be assembled.

This means that an angle plate with a spray angle of 5 degrees and an angle plate with a spray angle of 10 degrees must be provided in advance, and the manufacturing cost increases from the supplier's side of the automatic fire extinguisher nozzle device.

In addition, in addition to the angle plate, the nozzle device for an automatic fire extinguisher disclosed in Patent Document 1 must have a separate fixing plate in order to make a horizontal spray angle, which is 0 degrees, in addition to the angle plate. This means an increase in the production cost.

As a result, the prior art related to the automatic fire extinguisher has a disadvantage in that the manufacturing cost is increased, and the angle plate and the fixed plate manufactured in advance are wasted, thereby increasing industrial waste.

Korean Patent Publication No. 10-2010-0074362 (2010.07.02.)

The present invention has been conceived to solve the problems of the prior art as described above, and the problem to be solved in the present invention is to provide a nozzle device for an automatic fire extinguisher having one spray angle control unit having two spray angles.

The nozzle device of the automatic fire extinguisher according to the present invention for solving the above problems includes: a nozzle body having a hollow formed therein, and a space formed such that an injection angle control unit is inserted at the lower end; A nozzle cap screwed outside the lower end of the nozzle body; Includes; a spray body that is coupled to the spray angle control unit in a space formed at the bottom of the nozzle body, is formed in a cylindrical shape, and communicates with the hollow of the nozzle body to spray extinguishing agents, wherein the spray angle control unit includes the nozzle. It is installed internally in the space formed at the lower end of the body, and a threaded line is formed on the inner surface to be screwed with the spraying body, and the injection angle adjustment unit is internally installed in the space formed at the lower end of the nozzle body, and a screw line is formed on the inner surface of the body. It is screwed with the injection body, and the injection angle control unit includes a first end surface and a second end surface that become an upper surface or a lower surface, and when the first end surface is installed upward, the first end surface becomes an upper surface and the When the second cross-section becomes a lower surface and the second cross-section is installed upward, the second cross-section becomes an upper surface and the first cross-section becomes a lower surface, and the first cross-section is an inclined surface having a first inclination angle. It is formed, and the second cross-section is formed as an inclined surface having a second inclination angle, so that the injection angle of the injection body is changed according to the installation position of the first end surface or the second end surface of the injection angle adjusting unit.

In addition, in the nozzle device of the automatic fire extinguisher according to the present invention, one of the first end face and the second end face may be formed as a horizontal surface in which no inclination is formed, and the other one may be formed as an inclined surface having a predetermined angle.

In addition, in the nozzle device of the automatic fire extinguisher according to the present invention, a locking part protrudes outward from the top of the injection body, an elastic member is coupled to the lower end of the locking part, and the elastic member may be fixed by hanging on the nozzle cap.

In addition, the nozzle device of the automatic fire extinguisher according to the present invention may be provided with a screw for generating a vortex inside the spray body.

In addition, in the nozzle device of the automatic fire extinguisher according to the present invention, the outside of the middle portion of the spray body may be formed to protrude in a curved shape.

In addition, the nozzle device of the automatic fire extinguisher according to the present invention may be installed so that the spray body is exposed outside the lower end of the nozzle cap.

In the nozzle device of the automatic fire extinguisher according to the present invention, since one spray angle control unit has two spray angles, it is possible to minimize the production of additional spray angle control units, angle plates or fixed plates, thereby lowering the production cost and at the same time. It can prevent the increase of industrial waste.

1 is a schematic conceptual diagram of an automatic fire extinguisher installed
Figure 2 is a side view showing the nozzle device of the automatic fire extinguisher according to the present invention
3 to 6 are cross-sectional views showing the nozzle device of the automatic fire extinguisher according to the present invention

In describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

Since the embodiments according to the concept of the present invention can apply various changes and have various forms, specific embodiments will be illustrated in the drawings and described in detail in the present specification or application. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific form of disclosure, and the present invention should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. Should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle. Other expressions describing the relationship between components, such as "between" and "just between" or "adjacent to" and "directly adjacent to" should be interpreted as well.

The terms used in the present specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present specification, terms such as "comprise" or "have" are intended to designate the presence of a set feature, number, step, action, component, part, or combination thereof, but one or more other features or numbers It is to be understood that the possibility of addition or presence of, steps, actions, components, parts, or combinations thereof is not preliminarily excluded.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a side view showing the nozzle device of the automatic fire extinguisher according to the present invention, Figures 3 and 4 are cross-sectional views showing the nozzle device of the automatic fire extinguisher according to the present invention.

2 to 4, the nozzle device of the automatic fire extinguisher according to the present invention includes a nozzle body 100 having a hollow formed therein, and a space formed at the bottom so that the injection angle control unit is inserted; Nozzle cap 200 screwed from outside the lower end of the nozzle body 100; Including a spray body 300 that is combined with the spray angle control unit 400 in the space formed at the bottom of the nozzle body 100, is formed in a cylindrical shape, and communicates with the hollow of the nozzle body 100 to spray fire extinguishing agents. It is composed by

At this time, the injection angle adjustment unit 400 is installed internally in the space formed at the bottom of the nozzle body 100, and a screw line is formed on the inner surface to be screwed with the injection body 300, but the injection angle adjustment unit 400 is at the top Including the first end face 410 and the second end face 420 that become the face or the lower face, when the first end face 410 is installed upward, the first end face 410 becomes the upper face and the second end face ( When 420 becomes a lower surface and the second end surface 420 is installed upward, the second end surface 420 becomes an upper surface and the first end surface 410 becomes a lower surface.

In the nozzle device of an automatic fire extinguisher according to the present invention, the first end surface 410 of the spray angle control unit 400 is formed as an inclined surface having a first inclination angle, and the second end surface 420 is formed as an inclined surface having a second inclination angle. Accordingly, the spray angle of the spray body 300 may be changed according to the installation position of the first end face 410 or the second end face 420 of the spray angle adjustment unit 400.

The nozzle body 100 has a threaded portion 102 formed on the outer circumferential surface, and a hollow is formed therein so that the extinguishing agent can pass. As shown in Fig. 3, the nozzle body 100 can be divided into an upper part and a lower part, and the lower part is formed to have a larger outer diameter than the upper part (when viewed from the cross section on the drawing, the lower part is formed to have a larger outer diameter than the upper part. }, a space may be formed so that the injection angle adjustment part 400 is installed inside the lower part.

The nozzle cap 200 is a component screwed at the lower end of the nozzle body 100 and serves to prevent the nozzle body 100 from being separated by being coupled to the nozzle body.

The spray body 300 is a component that is combined with the spray angle control unit 400 in the space formed at the bottom of the nozzle body 100, is formed in a cylindrical shape, and communicates with the hollow of the nozzle body 100 to spray fire extinguishing agents to be.

The injection angle adjustment unit 400 is a component that is installed in and in the space formed at the bottom of the nozzle body 100, and a screw line is formed on the inner surface to be screwed with the injection body 300. The spray angle adjustment unit 400 includes a first end surface 410 and a second end surface 420 that become an upper surface or a lower surface, and when the first end surface 410 is installed upward, the first end surface 410 ) Becomes the top surface, the second end surface 420 becomes the lower surface, and the second end surface 420 is installed upward, the second end surface 420 becomes the upper surface, and the first end surface 410 becomes the lower surface. It becomes cotton.

The first end face 410 of the spray angle adjustment unit 400 may be formed as an inclined surface having a first inclination angle, and the second end surface 420 may be formed as an inclined surface having a second inclination angle, for example, a first inclination angle This 5 degree and the 2nd inclination angle can be formed 10 degrees.

At this time, when the first end face 410 is installed upward, the first end face 410 becomes the top face and the second end face 420 becomes the lower face. Since the inclination angle of the first end face 410 is 5 degrees, The injection angle adjustment unit 400 is inclined to generate an inclination angle of 5 degrees based on a direction perpendicular to the ground. Since the injection body 300 is coupled to the inner bottom of the injection angle adjustment unit 400, an inclination angle of 5 degrees occurs based on the direction in which the injection body 300 is perpendicular to the ground.

In addition, when the second end surface 420 is installed upward, the second end surface 420 becomes the top surface and the first end surface 410 becomes the lower surface. At this time, since the inclination angle of the second end face 420 is 10 degrees, the spray angle adjustment unit 400 is inclined to generate an inclination angle of 10 degrees based on a direction perpendicular to the ground. Since the spray body 300 is coupled to the inner bottom of the spray angle adjustment unit 400, an inclination angle of 10 degrees occurs based on the direction in which the spray body 300 is perpendicular to the ground.

In addition, one of the first end face 410 and the second end face 420 may be formed as a horizontal surface in which an inclination is not formed, and the other of the injection angle adjusting part 400 may be formed as an inclined surface having a predetermined angle.

For example, as shown in FIG. 4, the first end face 410 of the injection angle adjusting unit 400 may be formed in a horizontal plane in which the inclination angle is not formed, that is, the first inclination angle may be formed at 0 degrees. In this case, the second inclination angle of the second end surface 420 may be formed to 5 degrees.

In this configuration, when the first end surface 410 is installed upward, the first end surface 410 becomes the top surface and the second end surface 420 becomes the lower surface, and the inclination angle of the first end surface 410 is 0 degrees. Because of this, the injection angle adjustment unit 400 is installed horizontally on the ground, and the injection body 300 is coupled to the inner bottom of the injection angle adjustment unit 400 so that the injection body 300 is installed horizontally on the ground. .

At this time, since the second inclination angle of the second end surface 420, which is the lower end, is formed at 5 degrees, an inclined surface is formed at the lower end of the spray angle adjustment unit 400. This inclined surface is formed by forming one side (left side) longer than the other side (right side) as shown in FIG. 4, and because the injection body 300 is screwed on the inner surface of the injection angle adjustment unit 400, the injection body 300 ) The upper end contacts the left side of the injection angle adjustment unit 400 first, and the screw connection is no longer advanced, so that the injection body 300 has an inclination angle corresponding to the first inclination angle.

In addition, when the second end surface 420 is installed upward, the second end surface 420 becomes the top surface and the first end surface 410 becomes the lower surface. At this time, since the inclination angle of the second end face 420 is 5 degrees, the injection angle adjustment unit 400 is inclined to generate an inclination angle of 5 degrees based on a direction perpendicular to the ground. Since the injection body 300 is coupled to the inner bottom of the injection angle adjustment unit 400, an inclination angle of 5 degrees occurs based on the direction in which the injection body 300 is perpendicular to the ground.

As described above, in the nozzle device of the automatic fire extinguisher according to the present invention, since one spray angle control unit 400 has two spray angles, it is possible to minimize the manufacture of an additional spray angle control unit or an angle plate or a fixed plate. It can reduce the unit price and prevent an increase in industrial waste.

In addition, in the nozzle device of the automatic fire extinguisher according to the present invention, the engaging portion 310 is formed to protrude from the top of the spray body 300, the elastic member 320 is coupled to the lower end of the locking portion 310, and the elastic member 320 May be configured to be fixed by hanging on the nozzle cap 320.

Since the nozzle device of the automatic fire extinguisher according to the present invention may be installed so that the injection angle adjustment unit 400 has a predetermined inclination angle, a predetermined inclination may occur on the lower surface of the injection angle adjustment unit 400. Therefore, it is not possible to stably support the nozzle cap 200 injection angle adjusting unit 400 due to the inclination of the bottom surface of the injection angle adjusting unit 400 when viewed with reference to the nozzle cap 200. In order to prevent this, the elastic member 320 is coupled to the lower end of the locking part 310, and since the elastic member 320 has sufficient elasticity, the slope of the lower surface of the spray angle adjusting part 400 can be supplemented. It is possible to stably support the nozzle cap 200 spray angle adjustment unit 400.

Referring to FIG. 5, in the nozzle device of the automatic fire extinguisher according to the present invention, the outside of the middle portion of the spray body 300 may be formed to protrude in a curved shape. That is, the middle portion of the spray body 300 may be formed in the same shape as a part of the sphere, and the intermediate portion is protruded so that the spray body 300 can be configured in a shape that is caught by the nozzle cap 200, and the nozzle cap (200) It is possible to prevent the ejection body 300 from separating.

In this configuration, since the intermediate portion is formed protruding, the locking portion 310 is not required, and the elastic member 320 may be fitted to the intermediate portion of the spray body 300. As shown in Figure 5, the elastic member 320 is completely fitted between the spray body 300 and the nozzle body 100, the spray body 300 and the nozzle cap 300, and stably supports the spray body 300 You can do it.

In addition, the nozzle device of the automatic fire extinguisher according to the present invention may be installed with a screw 500 for generating a vortex inside the spray body 300. For example, if the screw 500 forming the spiral guide surface 510 is inserted into the interior of the spray body 300, the extinguishing agent passing through the spray body 300 is on the guide surface 510 of the screw 500. As it is guided, it generates vortices, so it can be sprayed quickly and is more effective in extinguishing fires.

Although the technical idea of the present invention described above has been specifically described in the preferred embodiment, it should be noted that the above-described embodiment is for the purpose of explanation and not for the limitation thereof. In addition, those of ordinary skill in the technical field of the present invention will understand that various embodiments are possible within the scope of the technical idea of the present invention. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: nozzle body 110: upper part
120: lower part 200: nozzle cap
300: spray body 310: locking portion
320: elastic member 400: spray angle adjustment unit
410: first cross section 420: second cross section
500: screw 510: guide surface

Claims (6)

In the nozzle device of an automatic fire extinguisher,
A nozzle body having a hollow formed therein and having a space formed therein so that a cylindrical spray angle control unit is inserted at the lower end;
A nozzle cap screwed outside the lower end of the nozzle body;
Including; a spray body that is coupled to the spray angle control unit in the space formed at the bottom of the nozzle body, is formed in a cylindrical shape, and communicates with the hollow of the nozzle body to spray fire extinguishing agents; and
The spray angle adjustment unit is installed inward in the space formed at the bottom of the nozzle body, and a screw line is formed on the inner surface to be screwed with the spray body,
The spray angle adjustment unit includes a first end surface and a second end surface that become the top or bottom surface, and when the first end surface is installed upward, the first cross section becomes the top surface and the second cross section becomes the bottom surface. And, when the second cross-section is installed upward, the second cross-section becomes the top surface and the first cross-section becomes the bottom surface,
The first cross section is formed as an inclined surface having a first inclination angle, and the second cross section is formed as an inclined surface having a second inclination angle,
The spray angle of the spray body is changed according to the installation position of the first end face or the second end face of the spray angle adjustment unit,
The nozzle body is formed in a step shape and divided into an upper end and a lower end, wherein the lower end is formed to have a larger outer diameter than the upper end, and a space is formed so that the injection angle adjustment unit is installed inside the lower end,
A locking part protrudes outward from the top of the injection body,
An elastic member is coupled to the bottom of the locking part,
The nozzle device of an automatic fire extinguisher, characterized in that the elastic member is fixed by hooking the nozzle cap.
The method of claim 1,
One of the first cross section and the second cross section is formed as a horizontal surface in which no inclination is formed, and the other is formed as an inclined surface having a predetermined angle.
delete The method of claim 1,
A nozzle device for an automatic fire extinguisher, characterized in that a screw for generating a vortex is installed inside the spray body.
delete The method of claim 1,
Nozzle device of an automatic fire extinguisher, characterized in that the spray body is installed to be exposed to the outside of the lower end of the nozzle cap.

Images