KR100519936B1 - Cooling device - Google Patents

Abstract

The present invention relates to a cooler for supplying a cooling water, the lower outlet is connected to the cooling water supply line for supplying cool cooling water to the cooling system, the upper inlet for recovering the cooling water heated by the heat exchange action in the cooling system In the cooler consisting of a coolant tank to which a coolant return line is connected,

A support frame composed of a plurality of vertical bars vertically installed, and a plurality of horizontal bars horizontally installed in an upper and lower multi-stage while both ends are fixed between the vertical bars facing each other; A cooling plate having a thin thickness and a wide width at both sides, and having a long length, the cooling plate being installed in a plurality of rows horizontally and vertically with a lower end fixed to a horizontal bar of the support frame body; A plurality of circulation connecting pipes installed in the vertical direction in the vertical direction in order to connect the cooling plates arranged in the vertical direction among the cooling plates so as to communicate with each other; It is installed horizontally on one side of each of the cooling plates arranged horizontally on the lowermost side of the cooling plate, a plurality of refrigerant inlet pipes for supplying a refrigerant to each of the lowermost cooling plates, the predetermined interval A refrigerant distribution pipe formed of; Is installed horizontally on one side of each of the cooling plates arranged horizontally on the uppermost side of the cooling plate, a plurality of for discharging the heated refrigerant to complete the circulation operation in each of the cooling plates of the uppermost side A refrigerant collecting pipe having a refrigerant outlet pipe formed at a predetermined interval; The refrigerant distribution pipe and the refrigerant supply pipe is formed to connect to the refrigerant supply line of the refrigeration cycle; The coolant collection pipe is an invention characterized in that the cooling unit is configured to be installed in the cooling water tank including a; refrigerant recovery pipe formed to connect to the refrigerant recovery line of the refrigeration cycle.

Description

Cooling device

The present invention is a factory for producing a product, such as an air conditioner in the production line, for example, die casting casting machine and plastic injection molding machine in the cooling water circulation system for cooling the product forming mold, or cooling water circulation tank for cooling the produced product It relates to a cooler for supplying cooling water to a cooling system such as.

In general, a factory producing various products operates a cooling system including an air conditioner, and the cooling system uses water or brine as cooling water.

9 is a schematic view of a conventional cooler 100, the cooler 100 is a heat exchange pipe 102 made of steel pipes or the like is installed in a zig-zag inside the sealed cooling water tank 101, The heat exchange pipe 102 is connected to the refrigeration cycle 200 by the refrigerant recovery line 201 and the refrigerant supply line 202, the refrigeration cycle 200 to circulate the heat exchange pipe (102) The compressor is heated by a heat exchange action to cool the cooling water stored in the cooling water tank 101 in the process, and then compresses the heated refrigerant recovered in the refrigerant recovery line 201, and condenses the refrigerant in a gaseous state of high temperature and high pressure. Condenser for making a high-pressure liquid refrigerant and expansion valve for rapidly expanding the liquid refrigerant to supply the low-temperature low-pressure liquid refrigerant to the refrigerant supply line 202 in the mist state.

In addition, the cooler 100 supplies the cooling water cooled in the cooling water tank 101 to the cooling system 300 through the cooling water supply line 301 and then recovers the cooling water heated by the heat exchange operation through the cooling water recovery line 302. Cooling and supplying it repeatedly.

The cooling system 300 includes all refrigeration apparatuses and air conditioners including a cooling water circulation system for cooling a molding die for molding a product in a factory or a cooling water tank for cooling a produced product.

However, the conventional cooler 100 as described above uses a relatively small diameter pipe in consideration of the capacity of the refrigeration cycle 200 for the heat exchange pipe 102 that is multi-piped in a zigzag shape inside the cooling water tank 101. Due to this, since the heat exchange area of the heat exchange pipe 102 itself is small, in order to increase the cooling efficiency, the space between the heat exchange pipes 102 must be tightly spaced so as to have a narrow state, so that the installation work of the heat exchange pipe is very difficult, and thus the time and manpower It is pointed out that not only is it necessary but also the manufacturing cost is expensive, and since the heat exchange pipe 102 uses steel pipes, not only the weight of the cooler itself is heavy but also the heat exchange efficiency is not very good. .

Therefore, the present invention has been proposed in consideration of various matters appearing in the prior art as described above, and the thickness is thin and the wide cooling plates on both sides are installed in a plurality of vertically and horizontally spaced apart at regular intervals in the up, down, left and right directions. The cooling unit is manufactured separately from the cooling water tank and inserted into the cooling water tank to shorten the production time of the cooler. Also, the upper water of the cooling water stored in the cooling water tank is transferred to the lower side. It is another purpose to make the whole cooling water flowing into and inside the cooling water tank uniformly cooled by allowing the cooling water to be actively contacted with each cooling plate installed in the cooling unit vertically and horizontally. Cooling unit itself is made by forming the cooling plates of the unit It was invented for another purpose to make it possible.

The present invention as a means for achieving the above object,

A coolant supply line is connected to a cooling water supply line for supplying cool cooling water to the cooling system at the lower outlet, and a cooling water tank connected to a cooling water recovery line is connected to the cooling water recovery line for recovering the cooling water heated by the heat exchange action in the cooling system. In

A support frame composed of a plurality of vertical bars vertically installed, and a plurality of horizontal bars horizontally installed in an upper and lower multi-stage while both ends are fixed between the vertical bars facing each other;

A cooling plate having a thin thickness and a wide width at both sides, and having a long length, the cooling plate being installed in a plurality of rows horizontally and vertically with a lower end fixed to a horizontal bar of the support frame body;

A plurality of circulation connecting pipes installed in the vertical direction in the vertical direction in order to connect the cooling plates arranged in the vertical direction among the cooling plates so as to communicate with each other;

It is installed horizontally on one side of each of the cooling plates arranged horizontally on the lowermost side of the cooling plate, a plurality of refrigerant inlet pipes for supplying a refrigerant to each of the lowermost cooling plates, the predetermined interval A refrigerant distribution pipe formed of;

Is installed horizontally on one side of each of the cooling plates arranged horizontally on the uppermost side of the cooling plate, a plurality of for discharging the heated refrigerant to complete the circulation operation in each of the cooling plates of the uppermost side A refrigerant collecting pipe having a refrigerant outlet pipe formed at a predetermined interval;

The refrigerant distribution pipe and the refrigerant supply pipe is formed to connect to the refrigerant supply line of the refrigeration cycle;

The refrigerant collection pipe includes a refrigerant recovery pipe formed to connect to the refrigerant recovery line of the refrigeration cycle;

It is characterized in that the cooling unit is configured to be installed in the cooling water tank.

In addition, a coolant circulation pipe is installed at one side of the coolant tank at a lower position than a level of the stored coolant, and a lower end of the coolant tank is vertically positioned at a bottom of the coolant tank. A circulation fan is installed inside the upper end to transfer the upper water of the cooling water to the lower side, and a plurality of injection holes are formed in the extension pipe formed horizontally on both lower ends of the cooling water circulation pipe to eject the cooling water upward. It characterized in that it further comprises that the injection pipe of the horizontally installed side by side at a lower position than the lowermost cooling plate of the cooling unit while maintaining a constant interval,

In addition, each of the cooling plates of the cooling unit has a plurality of circulation passages for circulating the refrigerant in a zigzag shape therein, each of the cooling plate is the outer side of each of the circulation passages in order to increase the heat exchange area It is characterized by consisting of a curved surface protruding toward the convex and protruding protrusions to further increase the heat exchange area on at least one side of the inner, outer surface.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a state diagram of the use of the cooler for explaining the present invention, Figures 2 and 3 is a side and front view of the installation state of the cooling unit installed in the cooler of the present invention, Figure 4 is a cross-sectional view taken along line AA of FIG. 5 is a cross-sectional view taken along the line BB of Figure 3 for showing the connection state of the cooling plate constituting the cooling unit of the present invention, Figure 6 is a cross-sectional view of the cooling plate of the cooling unit of the present invention, Figure 7 is a 8 is a cross-sectional view showing another embodiment, and FIG. 8 shows another embodiment of the cooling unit of the present invention.

Reference numeral 1 denotes a cooler, which is composed of a coolant tank 2 for storing coolant and a cooling unit 3 for cooling the coolant.

At one side of the cooling water tank 2, an inlet 21 and an outlet 22 for circulating the cooling water to the cooling system 4 are formed.

The outlet 22 of the cooling water tank 2 and the cooling water inlet 41 of the cooling system 4 are connected to the cooling water supply line 4a, and the inlet 21 and the cooling system 4 of the cooling water tank 2 are connected. The cooling water outlet 42 of the cooling water recovery line (4b) is connected to the cooling water stored in the cooling water tank (2) is supplied to the cooling system (4) through the cooling water supply line (4a) to perform a heat exchange action after the cooling water recovery The circulation operation to be recovered to the coolant tank 2 through the line 4b is repeated.

The cooling unit 3 is manufactured outside the cooling water tank 2 and inserted into the cooling water tank. The cooling unit 3 is a lightweight material and has excellent thermal conductivity. The plate-shaped cooling plate 31 formed in a wide and long length is a structure in which a plurality of rows are installed in a vertical and horizontal direction to cool the cooling water stored in the cooling water tank 2. Hereinafter, the configuration of the cooling unit 3 will be described.

The cooling unit 3 includes a plurality of vertical bars 321 facing each other on both sides, and a support frame 32 including a plurality of horizontal bars 322 horizontally fixed to upper and lower stages on both vertical bars facing each other. And, a plurality of cooling plates 31 are installed on each of the horizontal bars 322 of the support frame 32, each of the cooling plates 31 are each of the horizontal bars 322 as shown in FIG. The cooling plate 31 is installed in a number of rows side by side in the longitudinal direction on the support frame 32 by being fixed at the same number and at the same interval.

Each of the cooling plates 31 is formed with circulation passages 312 for circulating the refrigerant between the partitions 311 spaced at regular intervals, as shown in FIG. 5, and the circulation passages described above. 312 has a structure connected in a zigzag form so that the refrigerant can circulate in a zigzag form.

In addition, the cooling unit (3) is a plurality of circulation connection pipe 33 for connecting the cooling plates 31 arranged in a row in a vertical direction of each of the cooling plate 31 installed in a plurality of rows in the vertical and horizontal direction ), And each of the circulation connection pipes 33 connects the upper and lower neighboring upper and lower cooling plates successively in stages. That is, as shown in FIG. 5, each of the circulation connection pipes 33 connects the lower end circulation path of the upper cooling plate with the upper end circulation path of the lower cooling plate. Therefore, each of the cooling plates 31 arranged in the vertical column is connected to the whole by the circulation connection pipe 33 so that the refrigerant introduced into the cooling plate 31 at the lowermost side is zigzag in the interior thereof. After passing through the formed circulation passage 312, it flows into the next cooling plate 31 disposed just above (second from the bottom of the drawing) through the circulation connection pipe 312, and by such a circulation operation to the lowest cooling plate The introduced refrigerant is sent to the freezing cycle (5) through the upper end circulation passage of the cooling plate 31 on the uppermost side by step through the cooling plates disposed above.

The cooling unit 3 further includes a refrigerant distribution pipe 34 for evenly distributing and supplying the refrigerant supplied from the freezing cycle 5 to each of the cooling plates 31 arranged in the transverse direction at the lowermost side thereof, and the refrigerant portion. A plurality of refrigerant inlet pipes (35) and lower portions of the refrigerant distribution pipes (34) installed at regular intervals on the upper part of the pipe and connected to the lower end circulation passages (312) of each of the lowermost cooling plates (31). And a component of the refrigerant supply pipe 36 installed to be connected to the refrigerant supply line 51 of (5).

The refrigerant distribution pipe 34 in the above is horizontally provided on one side of each of the cooling plates 31 at the lowermost side.

In addition, the cooling unit 3 is a horizontally installed refrigerant to circulate the internal circulation passage 312 of each of the cooling plates 31 arranged in the transverse direction on the uppermost side and to collect the refrigerant flowing into the upper circulation passage Refrigerant outlet pipe (38) connecting the collecting pipe (37) and the upper end side circulation passage (312) of the uppermost cooling plate (31) while being connected to the upper portion of the refrigerant collecting pipe at a predetermined interval and the refrigerant collection And a component of the refrigerant recovery pipe (39) for connecting the water pipe (37) to the refrigerant recovery line (52) of the refrigeration cycle (5).

Each of the cooling plates 31 constituting the cooling unit 3 has a curved surface 313 in which both sides of each of the circulation passages 312 formed therein protrude convexly outward to increase the heat exchange area. By forming both sides of each of the cooling plate 31 is composed of a plurality of curved surfaces 313 protruding in the same channel as the circulation passage 312 (see Fig. 6), and also the heat exchange area of each cooling plate 31 In order to further increase, a plurality of protrusions 314 may be formed on both inner and outer surfaces of each of the circulation passages 312. (See FIG. 7).

On the other hand, the refrigeration cycle 5 includes the same components as the conventional refrigeration cycle, such as a compressor, condenser, expansion valve, etc., the refrigeration cycle 5 in the present invention is each of the cooling plate (3) 31) is characterized by the function of the evaporator.

Next, the cooler 1 of the present invention includes a component of a coolant circulation pipe 6 for circulating the coolant stored in the coolant tank 2, wherein the coolant circulation pipe 6 is formed of the coolant tank 2. It is installed vertically on one side of the inner side, and the upper end is installed at a level slightly lower than the cooling water storage level, and the lower end is slightly more than the cooling plate 31 installed at the lowermost side of the cooling unit 3 in the transverse direction. It is installed at a low height. And the lower end of the cooling water circulation pipe (6) extending tube 61 is formed horizontally toward both sides, and the extension tube is formed in a plurality of horizontally formed under the lowermost cooling plate 31 of the cooling unit (3) The injection pipe 62 is formed, and each injection pipe 62 is bored with a plurality of injection holes 63 for ejecting the cooling water upwards.

In addition, a circulation fan 64 is installed inside the upper end of the cooling water circulation pipe 6 to forcibly circulate the upper water of the cooling water stored in the cooling water tank 2 to the bottom side of the cooling water tank 2 through the cooling water circulation pipe. , The circulation fan 64 is configured to rotate by a motor 65 provided on the upper surface of the cooling water tank (2).

On the other hand, although not shown in the figure, one side of the upper end of the coolant tank 2 is provided with a supplemental water supply line for replenishing the coolant so that the coolant stored in the coolant tank 2 can be maintained at an appropriate level at all times.

The operation of the present invention configured as described above will be described.

First, the operation of the cooling unit 3, when the refrigeration cycle (5) is operated when the refrigerant in the fog state is transferred to the refrigerant supply line 51 is supplied to the refrigerant distribution pipe 34 through the refrigerant supply pipe (36). After the refrigerant is introduced into the lower end of the circulation passage 312 of each of the cooling plates 31 arranged in the transverse direction on the lowermost side of the cooling unit (3), the refrigerant flows in this way As shown in the direction of the arrow 5, while circulating each circulation passage in a zigzag shape while taking heat from the cooling plate 31 is installed directly on each of the lowermost cooling plate through the circulation connection pipe 33 connected to the upper circulation passage The cooling plate 31 is transported to the lower end side circulation passage and is transported and circulated to each cooling plate 31 installed on the uppermost side while repeating the action of depriving heat in the process of circulating the circulation passage again. Likewise in the lowermost cold plate 31 The refrigerant passing through the circulation passages of the cooling plates 31 on the uppermost side of the cooling plate takes heat of the cooling water through the respective cooling plates to lower the water temperature. In this case, each cooling plate 31 has a thin thickness, Since the lower width is formed in a wide plate shape, since the heat exchange area is much larger than the pipe shape, the cooling efficiency is excellent, so that the cooling water stored in the cooling water tank 2 can be efficiently cooled.

In addition, the cooling plate 31 is a state in which both sides and the inner surface of each of the circulation passages 312 therein are formed with a curved surface 313 to increase the heat exchange area, and both the outer surface and circulation of both sides of the cooling plate 31. When a plurality of protrusions 314 are formed on the inner surfaces of the passages 312, the heat exchange area is increased as much as the protrusions to further increase the heat exchange efficiency of the refrigerant and the cooling water.

On the other hand, the refrigerant connected to each of the upper end circulation passages of each of the cooling plates 31 on the uppermost side while the heat exchange action is heated while passing from each of the cooling plates 31 on the lowermost side to each of the cooling plates 31 on the uppermost side. The refrigerant flowing out to the refrigerant collection pipe 37 through the outlet pipe 38 is recovered to the freezing cycle 5 through the refrigerant recovery line 52 connected to the refrigerant recovery pipe 39, and then compressed and condensed again. Through the refrigerant supply line 51 is supplied to each of the cooling plates 31 on the lowermost side of the cooling unit 3 to repeat the heat exchange action to take the heat of the cooling water.

Next, the operation of the coolant stored in the coolant tank 2 will be described.

When the motor 65 is driven, the circulation fan 64 rotates to forcibly transfer the cooling water to the lower side of the cooling water circulation pipe 6. Accordingly, the upper water of the cooling water is forced by the forced feeding force of the circulation fan 64. The cooling water circulated into the upper end of the cooling water circulation pipe 6 is transported downward, and the cooling water transported to the lower side is a plurality of injection holes drilled in each of the plurality of injection pipes 62 connected to the extension pipe 61 at regular intervals ( It is ejected at a high pressure toward the upper side through 63), the circulation fan 64 sucks the upper layer water and transports it to the lower side of the cooling water circulation pipe (6) and ejects the cooling water from each injection pipe (62). Cooling water stored in the cooling water tank (2) by the action to make the water flow phenomenon to move from the lower side to the upper side of the cooling unit 3 is formed so that the contact between the cooling water and each cooling plate 31 is actively made Will be According to the cooling efficiency of the cooling water is improved coolant stored in the coolant tank (2) will be able to maintain the temperature of the whole is evenly cooled.

Accordingly, the cooling system 4 is operated by supplying the cooling water cooled by the heat exchange action with the cooling unit 3 in the cooling water tank 2 to the cooling system 4 through the cooling water supply line 4a connected to the outlet 22. It is possible to, and the heated cooling water that has performed the cooling action in the cooling system 4 is transferred to the cooling water recovery line (4b) connected to the cooling water outlet 42, the upper layer portion of the cooling water tank (2) through the inlet (21) The heated coolant is introduced into the lower side of the coolant circulation pipe 6 by the suction operation of the circulation fan 64 and is distributed to each injection pipe 62 while the cooling unit 63 is injected through the injection hole 63. 3) is discharged upwardly and evenly distributed in the lower side of the lower side of the cooling and flows upward along the flow of water, while the cooling water 4 flows out through the outlet 22 so that the cooling system 4 can continue to operate normally. Will be.

According to the present invention as described above can be manufactured without a cooling unit in the cooling water tank to be manufactured separately and then inserted into the cooling water tank to manufacture a cooler, and also each of the cooling plate installed in a plurality of rows vertically and horizontally in the cooling unit As it is made of aluminum, which is a lightweight material, the weight of the cooling unit can be reduced, so it is easy to carry and handle, and the productivity of the cooler can be improved, and each cooling plate installed vertically and horizontally in the cooling unit has a large number of cooling plates. The heat exchange area is much larger, which improves the heat exchange efficiency and accordingly increases the cooling efficiency of the coolant. In addition, the upper water of the coolant stored in the coolant tank is sucked from the upper end of the coolant circulation pipe and dispersed in the lower side of the cooling unit. Cooling water to form a stream of water flowing from the bottom to the top Since the upper water of the coolant flows from the inlet side toward the top of the coolant circulation pipe, it is only possible to efficiently cool the heated coolant flowing into the coolant tank through the coolant return line after completing the heat exchange in the cooling system. However, the cooling water supply line of the cooling system provides sufficient cooling water to supply the cooling system continuously.

1 is a state diagram used in the cooler for explaining the present invention.

2 and 3 is a side and front installation state of the cooling unit installed in the cooler of the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along the line B-B of Figure 3 for showing a connection state of the cooling plate constituting the cooling unit of the present invention.

6 is a cross-sectional view of the cooling plate of the cooling unit of the present invention.

7 is a sectional view showing another embodiment of the cold plate of the present invention.

8 is another embodiment of the cooling unit of the present invention.

9 is a prior art.

※ Explanation of code for main part of drawing

1: cooler 2: coolant tank

3: cooling unit 4: cooling system

5: freezing cycle 6: cooling water circulation pipe

21: inlet 22: outlet

31: cooling plate 32: support frame

33: circulation connection pipe 34: refrigerant distribution pipe

35: refrigerant inlet pipe 36: refrigerant supply pipe

37: refrigerant collection pipe 38: refrigerant discharge pipe

39: refrigerant recovery pipe 4a: cooling water supply line

4b: cooling water recovery line 51: refrigerant supply line

52: refrigerant recovery line 61: extension pipe

62: injection pipe 64: circulation fan

Claims (3)

A coolant supply line is connected to a cooling water supply line for supplying cool cooling water to the cooling system at the lower outlet, and a cooling water tank connected to a cooling water recovery line is connected to the cooling water recovery line for recovering the cooling water heated by the heat exchange action in the cooling system. In A support frame composed of a plurality of vertical bars vertically installed, and a plurality of horizontal bars horizontally installed in an upper and lower multi-stage while both ends are fixed between the vertical bars facing each other; A cooling plate having a thin thickness and a wide width at both sides, and having a long length, the cooling plate being installed in a plurality of rows horizontally and vertically with a lower end fixed to a horizontal bar of the support frame body; A plurality of circulation connecting pipes installed in the vertical direction in the vertical direction in order to connect the cooling plates arranged in the vertical direction among the cooling plates so as to communicate with each other; It is installed horizontally on one side of each of the cooling plates arranged horizontally on the lowermost side of the cooling plate, a plurality of refrigerant inlet pipes for supplying a refrigerant to each of the lowermost cooling plates, the predetermined interval A refrigerant distribution pipe formed of; Is installed horizontally on one side of each of the cooling plates arranged horizontally on the uppermost side of the cooling plate, a plurality of for discharging the heated refrigerant to complete the circulation operation in each of the cooling plates of the uppermost side A refrigerant collecting pipe having a refrigerant outlet pipe formed at a predetermined interval; The refrigerant distribution pipe and the refrigerant supply pipe is formed to connect to the refrigerant supply line of the refrigeration cycle; The refrigerant collection pipe includes a refrigerant recovery pipe formed to connect to the refrigerant recovery line of the refrigeration cycle; Cooler characterized in that the cooling unit is configured to be installed in the cooling water tank. The method of claim 1, An inner one side of the coolant tank is formed at a position lower than the level of the stored coolant, and the lower end is provided with a coolant circulation pipe vertically installed so as to be located at the bottom side of the coolant tank. There is provided a circulation fan for transferring the upper water of the cooling water to the lower side, and a plurality of injection holes are formed in the extension pipe formed horizontally on both sides of the lower end of the cooling water circulation pipe, and a plurality of injection holes for ejecting the cooling water upward. Cooler characterized in that the officer further comprises a horizontally installed side by side at a lower position than the lowermost cooling plate of the cooling unit while maintaining a constant interval. The method of claim 1, Each cooling plate of the cooling unit has a plurality of circulation passages for circulating the refrigerant in a zigzag shape therein, each of the cooling plate is the both sides of each of the circulation passages to the outside in order to increase the heat exchange area And a convex protrusion and a curved surface on which at least one of the inner and outer surfaces protrudes a protrusion for further increasing the heat exchange area.