KR200423819Y1 - Cooling Tower for Preventing Drift - Google Patents

Abstract

The present invention is to construct the air intake scattering plate as in the prior art without the use of a separate holder and a plurality of brackets to produce a louver (louver) integrally to simplify the structure and to minimize the production cost An air intake scattering plate of a cross flow cooling tower is proposed.

Cross Flow, Cooling Tower, Shatterproof Plate, Louver

Description

Cooling Tower for Preventing Drift

1 is a view showing the configuration of an air intake scattering plate integrally formed with a louver (louver) according to an embodiment of the present invention.

2 is a view showing a cross-flow cooling tower in which the air intake shatterproof plate 10 shown in FIG. 1 is installed.

 3 is a cross-sectional view of the air intake scattering plate 10 shown in FIG.

Figure 4 is a view showing the configuration of the air intake scattering plate separately attached to the louver according to the prior art.

FIG. 5 is an enlarged view of a portion of the air inhalation scattering prevention plate shown in FIG. 4; FIG.

<Description of the symbols for the main parts of the drawings>

10: Air suction shatterproof plate

12: fixed part

14: fastening hole

16: bolt

18: Louver

The present invention relates to a cross-flow cooling tower, and more particularly to a structure of an air intake scattering plate integrally formed louver (louver).

As is well known, the high temperature cooling water generated in the refrigerating and air conditioning apparatus or the industrial heat exchanger is cooled, circulated and reused, and a cooling tower is used as a means for cooling the cooling water. The cooling tower is a device that cools the cooling water to a low temperature by spraying the cooling water in a high temperature state to contact with the ambient air so that the cooling water can be reused.

A typical type of such a cooling tower is a cross-flow cooling tower that adopts a method in which high-temperature coolant flowing through a filler cools in the direction intersecting with the introduced air, that is, crosses orthogonally. It is divided into a double flow type (double flow type) to be introduced into the single flow type (single flow type) in which air is introduced only to one side.

On the other hand, the cooling tower of the type described above, as shown in Figures 4 and 5, the air suction scattering prevention plate (A) is separated into a plurality of configurations, specifically, the plate (1) corresponding to the rim and both sides Louver (3) (louver) that is fixed to the plate (1) to form a bevel inclined and a guide (7) for supporting the louver (3) in the center, and the louver (3) on one side of the plate (1) It consists of a bracket (5) for fixing to.

That is, in the conventional cooling tower, the bracket 5 is obliquely welded fixed to the inner surface of the plate 1 in order to form the air suction shatterproof plate A, and then the louver 3 on each bracket 5 is fixed. ) Is fastened with bolts while seated.

However, the conventional air intake scattering plate as described above is composed of a separate plate and a plurality of brackets and fixtures not only complicated structure but also requires a lot of manufacturing process and time, thereby requiring a number of workers Rising labor costs and product prices have been a problem.

Therefore, the present invention is to solve the problems as described above, the purpose is to integrally mold the air intake shatterproof plate integrally, the air suction shatterproof plate of the cross-flow cooling tower that can implement the simplification of the structure and the simplification of manufacturing work In providing.

In addition, another object of the present invention is to provide an air intake scattering plate of the cross-flow cooling tower that can realize a clean design and compact design.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following description will be presented a representative embodiment in the present invention to achieve the above technical problem. And other embodiments that can be presented in the present invention is replaced by the description in the configuration of the present invention.

In the present invention, in constructing the air inhalation preventing plate, the louver is manufactured integrally without using a separate holder and a plurality of brackets as in the prior art, thereby simplifying the structure and minimizing the manufacturing cost. An air intake scattering prevention plate of a cross flow cooling tower is proposed, and the technical configuration of such a prevention plate is shown in detail in FIGS. 1 to 3.

 1 is a perspective view showing the configuration of the air intake scattering plate integrally formed louver (louver) according to a preferred embodiment of the present invention, Figure 2 is a perspective view schematically showing a cross-flow cooling tower is installed, the prevention plate, Figure 3 It is sectional drawing of the prevention plate installed in the said cooling tower.

1 to 3, the upper surface is bent so that the air suction shatterproof plate 10 of the present invention is placed on one side upper surface of the cooling tower 100 (the upper edge surface in FIG. 2). A bent surface 10a is formed, and fixing portions 12 formed at both sides of the front 14 are formed at both sides of holes 14 for fastening with bolts 16 to one side of the cooling tower 100 while maintaining a predetermined interval. .

In particular, a plurality of louvers 18 are regularly integrally formed on both front sides of the air suction scattering prevention plate 10 of the present invention, and preferably, the louvers 18 are individually provided on the prevention plate 10. A plurality of louvers 18 are injection molded together with the air suction shatterproof plate 10 in a comb shape while maintaining a constant angle without being welded or bolted. At this time, the air suction scattering prevention plate 10 is formed by the louver 18 is integrally formed by a press operation or integrally formed in various ways.

As described above, the present invention implements the simplification of the structure and the simplification of the manufacturing work by integrally forming the louver on the air intake shatterproof plate, and also has the advantage of creating a clean and compact design. In addition, the labor cost can be reduced by significantly reducing the number of workers, and also there is an advantage of lowering the unit cost of the product.

Claims (2)

In the structure of the air suction scattering prevention plate 10 attached to one side of the cross-flow cooling tower 10, The air intake shatterproof plate of the cross-flow cooling tower, characterized in that the plurality of louvers 18 are integrally formed in the shape of a comb while maintaining a predetermined interval on the front of the air intake scattering plate (10). The method of claim 1, Air suction of the cross-flow cooling tower, characterized in that the fixing portion 12 having holes 14 for fastening to the cooling tower is integrally formed on the front upper portion of the air suction shatterproof plate 10 in which the louver 18 is formed. Shatterproof plate.

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