KR200385197Y1 - A structure for cooling tower - Google Patents

Abstract

The present invention, in the cooling tower structure made of wood, by connecting the post and the horizontal beam through a connecting bracket member of a predetermined shape, respectively, to improve workability and assemblability, to prevent collapse, the bending or buckling of the structure ( It relates to a cooling tower structure that can prevent iii).

The present invention is a cooling tower structure made of a wood material comprising a vertical post and a horizontal beam connected to the post to divide the post into a plurality of layers, at least two along the circumference of the post 21 It is configured to further comprise a connecting bracket member 30 that is assembled above, the bracket member 30 is connected to the rectangular body 30a and the body 30a perpendicularly of the horizontal beam 22 And a horizontal beam pedestal 30b having a 'c'-shaped cross section at which both ends are connected and supported, wherein the horizontal beam pedestal 30b is formed integrally with the body 30a or is connected by welding. do.

Description

Cooling tower structure {A structure for cooling tower}

The present invention relates to a cooling tower structure, in particular in a cooling tower structure made of wood material comprising a vertical post and a horizontal beam connected to the post to divide the post into a plurality of layers, the bracket member for connection of a predetermined shape By connecting each of the posts and the horizontal beam through the media, to improve the workability and assembling, to prevent collapse, and to prevent the bending or buckling of the structure relates to a cooling tower structure.

In general, the cooling tower (cooling tower) is to use the evaporation of water to flow water on the tower and blow air from the bottom, it is divided into counter-current type and cross-flow type according to the heat exchange method.

In addition, according to the ventilation method is divided into natural ventilation type and forced ventilation type, the forced ventilation type is used for the air conditioning equipment, there is a lot of filling stuffing inside. On the other hand, thermal power plants and chemical plants require a large amount of cooling water, and since it is difficult to continuously supply a large amount of high-quality industrial water, in general, water that has once been used and cooled has been reused. At this time, a cooling tower is used for large-scale cooling operation.

1 is a perspective view illustrating an example of a conventional cooling tower, and a fan 34 protected by a fan protection ring 36 is provided on an upper portion of each cell 32. A motor 38 for driving, a gearbox (not shown) is installed, and a liquid dispensing device 49 and a filling assembly 50, such as a dispensing header and a spray nozzle, are provided.

The filling assembly 50 is installed below the liquid dispensing device 49 and passes through the filling assembly 50 to allow water to fall into the lower collecting reservoir 46. At this time, the air is introduced into the cooling tower by the fan 34 and moves through the filling assembly 50, whereby heat transfer occurs between water and air.

Filler of the filling assembly 50 generally has a space for the liquid flows downward and the air flows upward to allow the heat transfer between the liquid and the air, one known type of filler, made of open-cell clay tile Fillers, which have a weight of 60,000 to 70,000 pounds for conventional sized air conditioning cooling towers.

Thus, conventional cooling tower structures are required to be rigidly installed because they must not only bear the load of cooling tower components, including such fillers, but also withstand wind and earthquakes.

2 is a perspective view showing an example of a conventional cooling tower structure. As shown, the cooling tower structure includes a plurality of vertical posts 1 and horizontal beams 2. The post 1 is divided into several layers by the horizontal beam 2 and a fan and a motor are mounted on the roof to allow air to flow upward. In the conventional cooling tower structure, the post spacing ('a' or 'b' in FIG. 2) is designed to be about 6 feet (1830 mm), and the horizontal beam 2 and the post 1 in the field are designed. By connecting the cooling tower was installed.

In this case, the conventional post 1 and the horizontal beam 2 are each a 'c' shaped channel, and a rectangular fixing bracket (not shown) is welded to the post 1 through a bolt and a nut. The post 1 and the horizontal beam 2 are connected to each other, so that the welding is welded only on a part of the fixing bracket, so that deformation occurs in the welding portion during the plating process, and the post 1 and the horizontal beam 2 ) Has a relatively thin thickness 'ㄷ' -shaped channel structure, so it is vulnerable to various vibrations when assembling a large structure, according to the constraint that the post (1) should be installed at intervals of about 1.8 ~ 1.9m.

As a result, the workability is greatly reduced along with the excessive installation time due to the assembly of the cooling tower structure, resulting in a rise in labor costs.

On the other hand, Figure 3 is a perspective view showing an example of a conventional cooling tower structure made of wood, assembling a horizontal beam 12 having a length of about 5.6m on both sides of the post 11, which is a three-man worker a plurality of bolts Workability and assemblability are greatly reduced as the assembly work is performed using the (13), and the horizontal beam 12 has a rectangular shape having a predetermined thickness or less, and after the assembly of the structure, the structure is collapsed due to weak durability. There was this.

In addition, in order to ensure the smoothness of the upper bolt assembly of the structure to assemble the upper bolt in the pre-assembled state in which the lower bolt of the structure is not assembled completely, there was a problem that the bending of the structure or buckling of the structure occurs. .

The present invention is devised to solve the above problems of the prior art, an object of the present invention is to provide a cooling tower structure that can improve the workability and assembly through the shortening of the assembly process.

Another object of the present invention is to provide a cooling tower structure that can prevent collapse by securing the durability of the cooling tower structure, and to prevent the bending or buckling of the structure.

An object of the present invention as described above is a cooling tower structure made of wood material comprising a vertical post and a horizontal beam connected to the post to divide the post into a plurality of layers, at least two along the circumference of the post It is configured to further comprise a connecting bracket member that is assembled above, the bracket member is a horizontal beam having a rectangular body, the 'b' shaped cross-section is connected to and perpendicular to the body, both ends of the horizontal beam is connected and supported A cooling tower structure further comprising a pedestal.

In this invention, at least two bracket members are assembled to the post, and the horizontal beam pedestal is characterized in that it is integrally formed with the body or connected by welding.

In addition, the horizontal beam pedestal in this invention is characterized in that it has a '' 'cross-section to facilitate the mounting of the horizontal beam.

In addition, the bolt through hole of the horizontal beam pedestal in this invention is characterized in that the long hole is formed in the horizontal or vertical direction to facilitate the assembly of the horizontal beam, or the ten-hole shape is formed.

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

Figure 4 is an exploded perspective view of the cooling tower structure according to an embodiment of the present invention, Figure 5 is an enlarged perspective view of the main portion of the cooling tower structure shown in FIG.

Referring to this, at least two horizontal beam connecting bracket members 30 may be assembled along the circumference of the post 21, and the bracket members 30 may have a rectangular body 30a and the body 30a. It is connected to the vertical and comprises a horizontal beam support 30b, both ends of the horizontal beam 22 are connected and supported.

In this case, the horizontal beam pedestal 30b may be integrally formed with the body 30a or may be connected by welding, and the horizontal beam pedestal 30b may be easily mounted on the horizontal beam 22. Has a cross-section.

In the bracket member 30 as described above, the bolt 31 is coupled to the nut 32 and the washer 33 through the upper and lower ends and the post 21 of the body 30a, and both ends of the horizontal beam 22 are coupled to each other. After being mounted on the horizontal beam pedestal 30b, the horizontal beam 22 is assembled by the bracket member 30 by being assembled by the bolt 31 and the nut 32 and the washer 33 passing therethrough. It is firmly connected to the post 21.

On the other hand, the bolt through hole through which the bolt 31 of the horizontal beam pedestal (30b) penetrates the long hole is formed in the horizontal or vertical direction to facilitate the assembly of the horizontal beam 22, or the ten-hole shape (hole) This may be formed.

Cooling tower structure according to the present embodiment is configured as described above, as shown in Figure 3 and 4, a plurality of horizontal beams 22 and the like through the two or more bracket member 30 around the post 21, etc. Are connected at intervals.

At this time, since the horizontal beam 22 is placed in the horizontal beam pedestal (30b) in a square shape, durability can be greatly improved compared to the horizontal beam 22 having a conventional rectangular shape.

That is, the conventional cooling tower structure has the disadvantage that the structure collapses due to weak durability after assembly, in the present design, since the horizontal beam 22 is firmly connected to the post 21 through the bracket member 30, the post 21 ) Can be installed at intervals of 2.4m. Accordingly, the cooling tower structure can be easily installed, thereby improving workability and assembly performance, preventing the collapse of the cooling tower structure, and preventing bending or buckling of the structure.

Although the cooling tower structure according to the present invention has been described with reference to the illustrated drawings, the present invention is not limited by the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the technical scope of the present invention. Of course it can.

As described above, the cooling tower structure of the present invention can be installed in a state in which the post spacing is widened because the post and the horizontal beam are firmly connected through the connecting bracket member, so that the cooling tower structure can be easily installed.

Accordingly, workability and assemblability are greatly improved, and there is a useful effect of preventing collapse, bending or buckling of the structure by securing durability of the cooling tower structure.

1 is a perspective view showing an example of a conventional cooling tower.

Figure 2 is a perspective view showing an example of a conventional cooling tower structure.

Figure 3 is a perspective view showing an example of a conventional cooling tower structure made of wood.

Figure 4 is an exploded perspective view of the cooling tower structure according to an embodiment of the present invention.

5 is an enlarged perspective view illustrating main parts of the cooling tower structure illustrated in FIG. 4.

<Explanation of symbols for main parts of drawing>

21: Post 22: horizontal beam

30: bracket member 30a: body

30b: horizontal beam support 32: cell

34: fan 36: fan protection ring

38: motor 46: collection reservoir

49 liquid dispensing device 50 filling assembly

Claims (4)

In the cooling tower structure made of wood comprising a vertical post, and a horizontal beam connected to the post to divide the post into a plurality of layers, It further comprises a connecting bracket member 30 is assembled along the circumference of the post 21, the bracket member 30 is connected to the rectangular body 30a and the body 30a perpendicularly Cooling tower structure characterized in that it further comprises a horizontal beam pedestal (30b) is connected and supported at both ends of the horizontal beam (22). The method of claim 1, At least two bracket members (30) are assembled to the post (21), and the horizontal beam pedestal (30b) is formed in one body with the body (30a) or cooling tower structure, characterized in that connected by welding. The method of claim 1, The horizontal beam pedestal (30b) is a cooling tower structure, characterized in that it has a '' 'cross-section to facilitate the mounting of the horizontal beam (22). The method according to any one of claims 1 to 3, The bolt through hole of the horizontal beam pedestal (30b) is a cooling tower structure, characterized in that the long hole is formed in the horizontal or vertical direction to facilitate the assembling of the horizontal beam (22) or the elongated (twelve) -shaped long hole is formed.