KR101058419B1 - Water screen nozzle - Google Patents

Abstract

PURPOSE: A water screen nozzle is provided to prevent a fire and improve durability by simultaneously generating a layer of a full cone and a wafer layer of a hollow cone between a heat source and a structure. CONSTITUTION: A body has a central path to receive and discharge water in a longitudinal direction. The body has a trumpet-shaped incline surface whose diameter becomes larger in the longitudinal direction. A hollow cone guide(2) is combined with one side of the body and includes a second water path(24) connected to the central path of the body and a first water path(22) formed along the outer side of the second water path. A funnel-shaped second opening is combined with the body, receives water discharged from the body and discharges water to the outside.

Description

Water Screen Nozzle

The present invention relates to a water screen nozzle for radiant heat shield, and more particularly, by forming a wide double water film between a heat source and a structure, the effect of radiation and convective heat generated from a heat source is to be protected. It relates to a water screen nozzle to be minimized.

The technical field to which the present invention is applied is as follows.

A water screen nozzle is a device for shielding radiant heat generated in the process of extracting and storing crude oil from a crude oil drilling facility and combusting the excess oil. The water screen nozzle radiates water into the air to effectively minimize heat transfer between the heat source and the plant structure. It is to.

For better understanding, see FIG. 8. The left picture of FIG. 8 is a picture of a marine plant structure emitting a flame, and the right picture of FIG. 8 is an enlarged view of a water screen nozzle emitting water of the left picture of FIG. 8, wherein the water screen nozzle of the present invention is It's a picture of what's working.

As can be seen in the right figure of Figure 8, the water is sprayed radially with a constant inclination angle at the middle side of the water screen nozzle body (body) of the present invention, this water film is a thin and wide hollow cone between the heat source and the structure ( hollow cone).

The name hollow cone refers to a hollow cone of water.

On the other hand, water particles, such as mist (fog) state is sprayed at the end of the water screen nozzle of the right view of Figure 8, eventually forming a fine cone water film in the form of a full cone (full cone). The full cone is named because water particles are finely sprayed in the form of a cone while filling the inside in the same state as haze.

The technology related to water screen nozzles that shield radiant heat from crude oil drilling facilities using general freshwater or seawater is a high value technology that can be applied in the future in construction sites or where combustion facilities are installed. The technology is insignificant.

In general, water spray nozzles known in Korea are commonly used in the periphery of the PVC pipe to pour water through the holes to form a semi-permeable thin water film or to illuminate the publicity, advertising, etc. It is utilized.

In the present invention, by developing a water screen nozzle that can form a double water film instead of a single water film between the heat source and the structure, to propose a water screen nozzle with a significantly improved heat shielding effect between the structure and the heat source to be protected.

SUMMARY OF THE INVENTION An object of the present invention is to propose a water screen nozzle capable of simultaneously producing a thin and wide hollow cone shaped water film and a full cone shaped water film between a heat source and a structure.

Through achieving the above object, it is possible to obtain the effect of improving durability, such as marine plant structure, worker protection, fire protection.

On the other hand, the present invention reveals that it is in accordance with the result of a research service called "Water screen nozzle and engineering for radiation heat shielding", a project carried out as part of a technology roadmap support project of an individual company organized by the Korea Institute of Science and Technology Information.

The present invention has been made to solve the above problems, looking at the configuration,

A body 1 having a central passage in which water is supplied from one side to discharge water to the other side in a longitudinal direction therein, and an outer side of the body 1 having an inclined curved surface 11 in the shape of a trumpet having a radius along the longitudinal direction; Wow

The first channel is coupled along the longitudinal direction of the body to one side of the body 1, the second channel 24 and the first channel is formed along the outer periphery of the second channel 24 in communication with the central passage of the body (1) A hollow cone guide 2 in which 22 is formed; Wow

A full cone guide (3) having a funnel-shaped second opening (31) formed for discharging to the outside after receiving water discharged from the body (1); And

A spiral vane (4) coupled to the inside of the pull cone guide (3), the spiral channel (41) formed on an outer surface of the spiral channel (41) so that the water discharged from the body (1) forms a vortex; The nozzle is presented.

By taking the above structure, the water supplied to the water screen nozzle with a constant pressure is discharged in the shape of a morning glory, forming a constant water film about 150 degrees from the middle position of the body, and at the end of the water screen nozzle, Since the same particulate water is sprayed together like clouds, it eventually forms a double water film.

The inclined curved surface 11 is not limited to the angle, but may be processed at various angles according to the use environment.

In the state where the hollow cone guide 2 and the body 1 are coupled, a first opening 21 is formed along the circumferential direction, and the first opening 21 communicates with the first channel 22. It is characterized in that the water can flow.

According to the water screen nozzle of the present invention, a thin cone-shaped hollow cone-like water film and a full cone-like water film such as a mist state can be simultaneously generated (double water film formation) between the heat source and the structure. . Therefore, it is possible to obtain effects such as durability improvement, worker protection, and fire protection of offshore plant structures, etc., and it is sufficiently applicable to various construction and commercial sites.

1 is a cross-sectional view of the coupling of the water screen nozzle according to a preferred embodiment of the present invention;
2 is a photograph taken after separating the components (five) of Figure 1,
3 is a side cross-sectional view of the hollow cone guide of FIG.
4 is a view of the hollow cone guide of FIG. 2 seen from the left side;
5 is a side cross-sectional view of the spiral vane of FIG. 1, FIG.
FIG. 6 is a view of the spiral vane of FIG. 4 seen from the left side; FIG.
7 is a photographed picture corresponding to the drawing of FIG. 6;
8 is a scene in which water is sprayed using a water screen nozzle, and the right view shows a double water film sprayed from a water screen nozzle according to the present invention.
9 to 11 are photographs taken of the water screen nozzle according to another embodiment of the present invention,
10 is a cross-sectional view of FIG.
11 is an exploded view of FIG. 9.

Preferred embodiments of the present invention will be described in detail with reference to the drawings.

However, the scope of the present invention is not limited to the present embodiment, and any invention of the equivalent range applicable at the level of those skilled in the art will be apparent to be included in the scope of the present invention.

1 is a cross-sectional view of a combined water screen nozzle according to a preferred embodiment of the present invention, and FIG. 2 is a photograph taken after separating the components (five) of FIG. 1 separately.

The arrow of FIG. 1 shows the flow of water, and water entering from the left direction of the water screen nozzle is largely escaped through two passages. That is, there is water exiting radially toward the side of the body 1 and water exiting through the right end. These two types of outlets form a double water film for the purpose of the present invention.

The configuration of the present invention will be described first in detail.

The configuration of the present invention can be largely divided into three, and divided into specific components can be divided into five (see Figure 2).

Referring to FIG. 1, a body 1, a nut 5 connected to the left side of the body and a hollow cone guide 2, and a pull cone guide 3 and a spiral vane 4 connected to the right side of the body may be divided.

The photo of FIG. 2 lists the components of FIG. 1 in a combined order. Each component of FIG. 2 is a nut, hollow cone guide, body, spiral vane and full cone guide from the left.

A central passage for receiving water from one side of the body 1 (left side of FIG. 1) and discharging water to the other side (right side of FIG. 1) is formed in the longitudinal direction inside the center of the body 1.

The outer surface of the body 1 is formed in the shape of a trumpet that increases in radius along its longitudinal direction. Outside the body, the inclined curved surface 11 forms a constant angle with the horizontal direction.

The inclination angle of the inclined curved surface 11 can be variously modified according to the environment of the structure, and preferably 130 degrees to 160 degrees. If the angle is too large, the momentum of the water is reduced, making it difficult to form a wide thin film, and even if the angle is too small, the above problems occur.

As described above, water introduced into the first channel 22 of the hollow cone guide 2 of FIG. 3 exits through the first opening 21, and the flow direction is changed while passing through the inclined curved surface 11. After that, it is sprayed in the shape of a morning glory (cone shape) in all directions. The name Hollowcon is given by the shape of the meninge that occurs.

Referring to the coupling relationship between the hollow cone guide 2 and the body 1, the end of the body 1 is coupled along the longitudinal direction of the body 1, the long passage of the central portion of the body (1) And the second channel 24 (FIG. 3) communicate with each other to guide the water flowing in the horizontal direction. The water passing through the body 1 passes through the straight channel 42 and the spiral channel 41 at the center of the spiral vane 4 and finally exits through the second opening 31.

A first water channel 22 is formed along the outer circumference (circumferential direction) of the second water channel 24 (FIG. 3). By taking this structure, a part of the water drawn from the left side of FIG. After flowing along the outer circumferential surface of the first through the opening 21, the direction is changed on the inclined curved surface 11 to form a large funnel thin and wide in all directions to form a large funnel (see Fig. 8) is such a first opening The hollow cone guide 2 is a space that is made by fastening with the body (1).

Hereinafter, the process and structural principle of the water drawn through the central passage of the body 1 to form a water film such as the cloud of Fig. 8 will be described. The water film such as the cloud of FIG. 8 is sprayed in a sprayed form such as mist (or cloud of cloud) rather than forming a thin film of water particles are very small.

Water discharged from the body 1 flows into the full cone guide 3 coupled to the right side of the body 1, and a second opening 31 having a funnel shape is formed at an end of the full cone guide 3.

On the other hand, the spiral vane 4 is coupled to the inside of the pull cone guide 3, the exact shape of which is shown in Figs.

5 is a side cross-sectional view of the spiral vane of FIG. 1, FIG. 6 is a view of the spiral vane of FIG. 4 from the left side, and FIG. 7 is a photograph taken corresponding to the diagram of FIG.

5 to 7, the spiral vane is induced to rotate the direction of the water in a spiral, causing a severe vortex (vortex) increases the irregularity of the water movement and eventually the water exiting the second opening 31 It is to play a role to be sprayed in all directions. The number of spiral channels 41 (six in FIG. 6) and the width of the spiral vane 4 can be varied in various ways.

The water screen nozzle capable of forming a double water film according to the present invention can effectively block radiant heat and convective heat generated from a heat source, so that the effect of improving durability of the structure to be protected, worker protection, and fire protection can be expected. do.

For reference, the amount of water (hollow cone water film) sprayed from the side of the water screen nozzle is freely adjustable, but the ratio of the amount of water (full cone water film) sprayed from the water screen nozzle end is freely adjustable, respectively. It is preferable to spray water at a rate of about 10.

Meanwhile, the full cone guide 3 and the spiral vane 4 shown in FIG. 1 may be installed and used in a fire cooler installed on an indoor ceiling as well as a water screen nozzle which is the main use of the present invention.

Meanwhile, FIGS. 9 to 11 show a second embodiment of the present invention.

In the present embodiment, unlike the first embodiment of FIG. 1, the full cone guide 3 and the built-in spiral vane 4 are not provided, and instead, the external spiral vane 6 is formed.

Referring to FIG. 10, when water introduced from the left side (in the drawing) into the water screen nozzle is passed to the right side, part of the water is discharged to the outside of the body 1 as shown in FIG. 1, and the other part of the external spiral vane 6. It is discharged to the formed nozzle hole 64.

The nozzle tip 65 takes the form of a pretzel of the outer strand, and the water escaped between them forms a vortex and strongly collides with the curved processing portions 61, 62, and 63 at high pressure to scatter the fine water.

The reason why the curved processing parts 61, 62, and 63 are inclined is to form a spray angle that is inclined with respect to the horizontal plane when high pressure water is injected.

At this time, the scattering angle of about 120 to 170 degrees is suitable for the water screen nozzle for offshore plants, but is not necessarily limited thereto.

Since this embodiment is hardly affected by foreign matters mixed into the water screen than the embodiment of FIG. 1, there is an advantage that the possibility of blocking each hole in the nozzle can be significantly reduced.

As described above, the present invention is not limited to the preferred embodiment of the present invention, and any invention of the equivalent range also belongs to the scope of the present invention.

1: Body 2: Hollow cone guide
3: full cone guide 4: spiral vane
5: Nut 6: External spiral vane
11: slope
21: The first opening 22: The first channel
24: The second channel
31: second opening 41: spiral channel
42: 61,62,63: Direct processing team
64: nozzle hole 65: nozzle tip

Claims (4)

A body 1 having a central passage in which water is supplied from one side to discharge water to the other side in a longitudinal direction therein, and an outer side of the body 1 having an inclined curved surface 11 in the shape of a trumpet having a radius along the longitudinal direction;

The first channel is coupled along the longitudinal direction of the body to one side of the body 1, the second channel 24 and the first channel is formed along the outer periphery of the second channel 24 in communication with the central passage of the body (1) A hollow cone guide 2 in which 22 is formed;

A full cone guide 3 coupled to the body 1 and having a funnel-shaped second opening 31 for discharging to the outside after receiving water discharged from the body 1;

Includes a spiral vane (4) coupled to the inside of the pull cone guide (3), a plurality of spiral channel 41 formed on the outer surface so that the water discharged from the body (1) is scattered while forming a vortex Featuring a water screen nozzle.
The method according to claim 1,
The inclined curved surface 11 is a water screen nozzle, characterized in that forming a horizontal and 130 to 160 degrees angle. The method according to claim 1,
In the state in which the hollow cone guide 2 and the body 1 are coupled, a first opening 21 is formed along the circumferential direction, and the first opening 21 is in communication with the first channel 22. Water screen nozzle, characterized in that water can flow.
A body 1 having a central passage in which water is supplied from one side to discharge water to the other side in a longitudinal direction therein, and an outer side of the body 1 having an inclined curved surface 11 in the shape of a trumpet having a radius along the longitudinal direction;

The first channel is coupled along the longitudinal direction of the body to one side of the body 1, the second channel 24 and the first channel is formed along the outer periphery of the second channel 24 in communication with the central passage of the body (1) A hollow cone guide 2 in which 22 is formed;

One side is coupled to the body 1, receives the water delivered from the body 1 to the nozzle hole 64 provided therein, the water forms a vortex and at the same time 120 degrees relative to the horizontal plane An external spiral vane (4) having a nozzle tip (65) formed in a pretzel shape to be scattered in a state having an angle width of 170 to 170 degrees;
Water screen nozzle comprising a.

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