KR101654583B1 - Cooling Apparatus for including Hole Type Support - Google Patents

Abstract

A cooling device including a hole-shaped beam is disclosed.
main body; A plurality of supporting columns installed at regular intervals with reference to an inner wall of the main body; A support structure having a plurality of support arrangements disposed between the inner walls in parallel with the ground; A plurality of hole-shaped beams including a plurality of holes, the plurality of hole-shaped beams being spaced apart from each other on the support array; And a plurality of fillers laminated on the plurality of hole-shaped beams.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cooling device including a hole-

The present embodiment relates to a cooling apparatus including a hole-shaped beam.

The following description only provides background information related to the present embodiment and does not constitute the prior art.

Industrial cooling towers are mostly made of concrete structure. In order to fix the internal filling material, the filling material is laminated on the beam using concrete beams. Water and cooled air should be heat exchanged inside the filler material. However, since water and air are not exchanged by the width of the concrete beam, the cooling efficiency is degraded. In addition, water that is clogged by the concrete beam and can not flow in the filler material stagnates inside the filler material, and the melt in the water is piled up inside the filler material, thereby blocking the inside of the filler material and causing a drastic decrease in heat exchange performance.

Accordingly, it is necessary to replace the concrete beams used in industrial cooling towers, so that water flowing inside the filling materials can pass therethrough while supporting the fillers. In order to increase the cooling effect by circulating the water and the air flowing in the filler material, it is necessary to support the filler material without blocking the flow of water and air.

 The main object of the present invention is to provide a cooling tower including a plurality of holes for allowing air to circulate into the filler material without blocking the flow of water flowing inside the filler material, and including a hole-shaped beam for supporting the filler material.

According to an aspect of the present embodiment, A plurality of supporting columns installed at regular intervals with reference to an inner wall of the main body; A support structure having a plurality of support arrangements disposed between the inner walls in parallel with the ground; A plurality of hole-shaped beams including a plurality of holes, the plurality of hole-shaped beams being spaced apart from each other on the support array; And a plurality of fillers laminated on the plurality of hole-shaped beams.

As described above, according to this embodiment, water and air are exchanged between the water and air in the filling material. However, there is a space where the heat exchange between water and air can not be performed by using the concrete structure for the existing filling material. However, The heat exchange efficiency between water and air can be enhanced between the filler material and the hole-shaped beam.

According to this embodiment, the existing filler material is installed at an array interval of 150 cm, and the holes are arranged at an interval of 900 cm, so that the area where the heat exchange between water and air is not blocked by the hole- The heat exchange efficiency of the air can be increased.

According to the present embodiment, since the conventional filler material supports the existing filler material, a groove is provided at regular intervals to support the filler material, and a separate fixing member is used to support the hole-shaped beam of the support. There is an effect.

1 is a perspective view schematically showing a cooling apparatus including a hole-shaped beam according to the present embodiment.
2 is a plan view showing the arrangement of a second support part included in the support structure according to the present embodiment.
3 is a view showing a hole-shaped beam according to this embodiment.
4 is a view showing a state in which the hole-shaped beam is fixed to the second support member by using the fixing member according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a cooling device 100 including a hole-shaped beam according to the present embodiment.

The cooling apparatus 100 including the hole shaped beam includes a rectangular columnar body 110, a support column 120, a support structure 130, and a filler 150.

The quadrangular prismatic body 110 is a quadrangular prismatic member. In this embodiment, the quadrangular prismatic prismatic body 110 is shown as a quadrangular prism. However, the quadrangular pyramid prismatic body 110 is not limited thereto. For example, it may have various shapes such as a cylinder, The square columnar body 110 is formed, for example, of a concrete structure.

The support pillars 120 are spaced apart from each other with reference to the inner wall of the square pillar-shaped main body 110. The support posts 120 support the support structure 130, the hole shaped beam 140, or the filler material 150. Here, the support pillars 120 are installed in the Z-axis direction with respect to the paper surface. In this embodiment, the supporting columns 120 are shown as rectangular columns, but the present invention is not limited thereto. For example, the supporting columns 120 may have various shapes such as cylinders, semicircular columns, and triangular columns. The support pillars 120 are installed at regular intervals of, for example, about 33 m in the X-axis direction, and are installed at regular intervals of, for example, about 44 m in the Y-axis direction. Further, the support columns 120 are formed of, for example, a concrete structure including a reinforcing bar or a concrete structure not including a reinforcing bar.

The support structure 130 includes a first support arrangement 132 and a second support arrangement 134 disposed between the inner walls of the quadrangular main body 110 and parallel to the ground. Specifically, the support structure 130 includes a first support array 132 and a second support array 134 arranged in parallel to the plane defined by the X axis and the Y axis. Here, the second support portion arrangement 134 further includes a hole-like beam 140 in the first support portion arrangement 132. [ Accordingly, the first support part arrangement 132 is the same as the second support part arrangement 134 except for the hole-shaped beam 140, so that the detailed description of the first support part arrangement 132 is omitted, Which will be described later in detail with reference to Fig.

The hole-shaped beam 140 is installed at a predetermined interval, for example, 9 m, in parallel with the first support member included in the second support portion arrangement 134. The hole-shaped beam 140 is installed at regular intervals between one first support member included in the second support member arrangement 136 and another first support member adjacent to the first support member. The hole-shaped beam 140 includes a perforated beam and a grid-shaped beam. Here, the perforated beam and the lattice beam will be described later in detail with reference to FIG.

The filler material 150 is formed by repeatedly connecting the valleys and the floor, and is stacked on the plurality of hole shaped beams 140. In FIG. 1, the filling material 150 is shown to be installed only in the shaded area, but the present invention is not limited thereto. The filling material 150 may be installed as a whole within the rectangular columnar body 110. The cooling water injected from the injection nozzle (not shown) located at the upper end of the cooling apparatus 100 including the hole-shaped beam flows along the holes formed by the valleys and the floor of the plurality of fillers 150. The water flowing through the filler material 150 flows through the holes formed in the hole-shaped beam 140 supporting the filler material 150, so that water does not accumulate between the plurality of fillers 150, (Not shown). Therefore, the water flows smoothly through the plurality of fillers 150, and the contact time between water and air becomes longer, so that the cooling efficiency is increased.

Air generated by a fan (not shown) located at the lower end of the cooling device 100 including the hole-shaped beam passes along the holes formed by the valleys and the floor of the plurality of fillers 150. Since the air passing through the filler 150 passes through the hole of the hole 140 supporting the filler 150, the contact time of the filler with the water passing through the filler 150 becomes longer and the cooling efficiency becomes higher.

Although only the first support portion arrangement 132 and the second support portion arrangement 134 are shown in the support structure 130 in FIG. 1, the filler 150 is located at the lower end of the second support portion array 134, 3 support arrangement may be located.

2 is a plan view showing a second support arrangement 134 included in the support structure 130 according to the present embodiment.

The second support arrangement 134 includes a first support 210, a second support 220, a column 120, and a bore 140.

The first support 210 and the second support 220 are installed in a grid-like structure on the inner wall of the rectangular columnar body 110. The first supports 210 are installed in the X-axis direction, for example, at intervals of about 40 m. The second support rods 220 are installed in the Y-axis direction, for example, at intervals of about 33 m.

The column 120 is installed in the Z-axis direction with respect to the ground at each intersection of the first support 210 and the second support 220. The column 120 is installed in the Z-axis direction with respect to the ground at a contact point where the first support 210 and the second support 220 abut against the inner wall of the square columnar body 110.

The hole-shaped beam 140 is arranged between the first support 210 in the first support part arrangement 220 and the other first support part 210 in the vicinity of the first support part 210, Respectively. Here, the hole-like beam 140 is 0.6 times shorter than the length of the first support 210 in the X-axis direction, for example. The hole-shaped beam 140 is coupled to one end of one second support 220 and one end of the other second support 220 using a fixing member. In the present embodiment, the hole-shaped beam 140 is coupled to the second support table 220 using a fixing member. However, the present invention is not limited thereto, and a plurality of holes Shaped beam 140 can be combined.

3 is a view showing the hole-like beam 140 according to the present embodiment.

3 (a) is a cross-sectional view of the hole-shaped beam 140 cut at a right angle in the longitudinal direction. The cross-section of the hole-shaped beam 140 has a "C" -shaped shape and has protrusions slightly protruded from one end and connected to the other end. Since the hole-shaped beam 140 has a "C" shape, water or air is smoothly passed through the filler 150 because water or air is less disturbed from passing through the filler 150, so that the cooling efficiency is improved. In the present embodiment, the hole-shaped beam 140 is shown to have a "C" shape, but it is not limited thereto and may have a "C" shape or an "A" shape.

Fig. 3 (b) is a plan view of the perforated beam 142. Fig. The perforated beam 142 has a plurality of holes 310 having a diameter of approximately 15 cm so that the filler 150 and water or air are circulated smoothly. Here, the plurality of holes 310 are illustrated as having a hexahedral shape, but are not limited thereto, and may be provided in a circular or triangular shape. The plurality of holes 310 are located at regular intervals, and water flowing in the filler 150 passes through the plurality of holes 310. For example, air generated from a fan (not shown) may pass through the plurality of holes 310 provided in the filler 150 and pass between the fillers 150. The perforated beam 142 has an engaging hole (not shown) at one end so as to be engageable with the holding member. The perforated beam 142 is provided with a coupling hole at one end thereof and a coupling hole at one end thereof.

3 (c) is a plan view of the grid-shaped beam 144. FIG. The grid-shaped beam 144 has a rectangular hole 320, for example, formed between the filler material 150 and the lattice-like structure so as to smoothly circulate water or air. Here, the description of the grid-like beam 144 is the same as the description of the perforated beam 142, and therefore will not be described.

4 is a view showing a state in which the hole-shaped beam 140 is fixed to the second support 220 using the fixing member 410 according to the present embodiment.

The fixing member 410 shown in FIG. 4 includes two fixing grooves 420 and an engaging groove 430.

The fixing member 410 has an " a "shape and is joined to one end of the second support 220 at one end and to one end of the hole-shaped beam 140 at the other end. One end of the fixing member 410 has two fixing grooves 420 and is coupled to the second supporting table 220 using two fixing bolts 422. The other end of the fixing member 410 has two coupling grooves 430 and is coupled with the hole shaped beam 140 using the coupling bolt 432 and the coupling nut 434. In FIG. 4, the hole-shaped beam 140 is shown as being installed at the lower end of the second support table 220, but the present invention is not limited thereto.

The above description is merely illustrative of the technical idea of the present embodiment, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than limiting, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

110: square columnar body 120: supporting column
130: support structure part 132: first support part arrangement
134: second support part arrangement 140:
142: perforated beam 144: grid-shaped beam
210: first support frame 220: second support frame
310: hole 320: square hole
410: fixing member 420: fixing groove portion
422: Fixing bolt 430: Coupling groove
432: coupling bolt 434: coupling nut

Claims (8)

main body;
A plurality of supporting columns installed at regular intervals with reference to an inner wall of the main body;
A support structure having a plurality of support arrangements disposed between the inner walls in parallel with the ground;
A plurality of holes having a plurality of holes and spaced apart from each other on an array of the supports, the holes having a shape extending from the bottom in a longitudinal direction and having a plurality of holes in the bottom, Arranged; And
A plurality of fillers laminated on the plurality of hole-
Wherein the cooling device comprises a hole-shaped beam. The method according to claim 1,
The support arrangement comprises:
And a plurality of first supports and a plurality of second supports extending in a direction intersecting the first supports, wherein the first and second supports are arranged in a lattice-like structure. The method according to claim 1,
The hole-
Wherein the plurality of first supports are arranged at regular intervals in parallel with the plurality of first supports included in the support arrangement. 3. The method of claim 2,
Further comprising an "a" shaped fixing member connected to one side of the second support,
And the hole-shaped beam is connected to the second support by using the fixing member. 5. The method of claim 4,
The hole-
And a coupling hole is provided at both ends so as to be engageable with the fixing member. The method according to claim 1,
Characterized in that the shape of the hole-shaped beam has a cross-section of a " C "shape cut at a right angle in the longitudinal direction. delete The method according to claim 1,
The hole-
And a plurality of holes are formed in the lattice structure to smoothly circulate the filler and water or air.

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