KR100378671B1 - A purifier having a advanced ability for emitting thermal energy - Google Patents

Abstract

The present invention relates to a cold / hot water purifier having an improved heat dissipation system, and more particularly, having a plurality of holes at the bottom so that cold air flows in from the lower part of the cold / hot water purifier, and hot air in the cold / hot water purifier does not collect at the top of the water purifier. It relates to a cold and hot water purifier having a plurality of holes in the upper back cover to flow out. In addition, the present invention relates to a cold / hot water purifier further including a small box fan so as to quickly discharge hot air inside the cold / hot water purifier to the outside.

The heat dissipation system of the cold / hot water purifier of the present invention can quickly discharge the internal heat of the cold / hot water purifier to the outside, block the growth of microorganisms in the purified water tank, suppress the electricity consumption, and extend the life of the cold / hot water purifier.

Description

Cold water purifier with improved heat dissipation function {A PURIFIER HAVING A ADVANCED ABILITY FOR EMITTING THERMAL ENERGY}

The present invention relates to a cold / hot water purifier having an improved heat dissipation system, and more particularly, having a plurality of holes at the bottom so that cold air flows in from the lower part of the cold / hot water purifier, and hot air in the cold / hot water purifier does not collect at the top of the water purifier. It relates to a cold and hot water purifier having a plurality of holes in the upper back cover to flow out. In addition, the present invention relates to a cold / hot water purifier further including a small box fan so as to quickly discharge hot air inside the cold / hot water purifier to the outside.

In general, the most important factor to be preempted in the heat dissipation system of the cold and hot water purifier is whether the internal heat of the cold and hot water purifier is discharged to the outside as quickly and effectively as possible.

However, in the conventional cold and hot water purifier, the heat inside the cold and hot water purifier does not flow smoothly to the outside, causing serious problems as follows.

First, since the heat of the compressor and the heat sink are gathered together in the compact internal space of the cold water purifier, the internal temperature of the cold water purifier is excessively increased. Therefore, the heat dissipation performance of the heat sink is lowered. As the temperature rises to about ℃, the heat dissipation of the cold and hot water purifier was not good.

Second, the heat inside the cold water purifier is not easily leaked to the outside to stagnate inside to increase the temperature of the purified water tank, the temperature rise of the purified water tank has a problem of increasing the growth of microorganisms in the purified water tank.

Third, since the internal heat of the cold and hot water purifier is not easily leaked to the outside, the temperature of the cold water tank is increased to lower the thermal insulation performance of the cold water tank. As the thermal insulation performance of the cold water tank is deteriorated, the compressor is frequently operated. There was an increasing problem.

Fourthly, since the internal heat of the cold / hot water purifier is not easily leaked to the outside, the performance of the compressor is lowered, and the defect rate of the compressor is increased due to frequent operation of the compressor.

1 is a system diagram of a cooling system of a typical cold / hot water purifier.

In general, a cooling system includes a compressor (12) for compressing a refrigerant in a gas state, a condenser (14) for condensing the refrigerant by dissipating high heat contained in the high temperature refrigerant passing through the compressor to the outside, and the condenser (14). It is composed of a capillary tube 18 for changing the refrigerant condensed in the low temperature state to a low pressure state and a cooling coil 20 wound around the outer wall of the cooling tank to cool the cooling tank 16.

2 is a schematic diagram of a structure of a heat dissipation system of a conventional conventional hot and cold water purifier. As shown in the drawing, the heat dissipation system used in the domestic cold / hot water purifier has a disadvantage that it is difficult to discharge heat generated inside the cold / hot water purifier to the outside because the cooling tank and the hot water tank are installed together in a compact structure.

In the conventional cold and hot water purifier, heat is radiated by a natural heat dissipation method while air is circulated in the direction of the arrow. In other words, the cold air flows in from the bottom of the heat sink 22 at the rear of the cold / hot water purifier and is discharged to the upper side. However, this structure has the disadvantage of causing the following problems.

First, the temperature of the heat sink is relatively high in the upper temperature, the flow of air to cool the heat is passed through the bottom of the heat sink after the primary heating to cool the top of the heat sink has a disadvantage in reducing the heat dissipation performance,

Secondly, since there is no air outlet at the top of the heat sink, that is, the upper part of the back of the cold / hot water purifier cover, hot heat is collected at the portion indicated by “A”, which greatly reduces the heat dissipation performance of the cold / hot water purifier and increases the temperature of the purified water tank.

Third, the natural heat dissipation method is that the heat flow is generated by the flow of air by the difference in specific gravity according to the temperature difference of the air, this conventional heat dissipation method has a disadvantage that the heat does not smoothly generated because the air flow is not generated.

The present invention has been made to solve the above problems, an object of the present invention to provide a cold water purifier system having an excellent heat dissipation effect by smoothly dissipating the heat inside the cold water purifier.

It is another object of the present invention to provide an economical cold and hot water purifier system which improves the cooling performance of the cold and hot water purifier and at the same time reduces the electricity consumption due to the smooth cooling performance.

Another object of the present invention to provide a sanitary cold water purifier system that can suppress the growth of microorganisms in the water purifier.

1 is a system diagram of a cooling system of a typical cold / hot water purifier.

Figure 2 is a schematic diagram of a conventional conventional hot and cold water purifier heat dissipation system structure.

Figure 3 is a schematic diagram showing the structure of a cold and hot water purifier having a plurality of holes on the bottom and a plurality of holes on the bottom of the cold and hot water purifier according to an embodiment of the present invention.

Figure 4 is a schematic diagram showing the structure of a cold and hot water purifier with a box fan installed on the heat sink according to an embodiment of the present invention.

<Description of Major Reference Marks in Drawings>

12 .. Compressor 14 .. Condenser

16 .. cooling tank 18. capillary tube

20. Cooling coil 22. Heat sink

24 .. Upper hole 26 .. Lower hole

28 .. Box Fan

In order to achieve the above object, the cold / hot water purifier system according to the present invention includes a plurality of holes at the bottom so that cold air flows from the bottom, and a rear cover to allow hot air in the cold / hot water purifier to flow out without gathering at the top. It is provided with a plurality of holes at the top.

In addition, according to another embodiment of the present invention, it further comprises a small box fan to quickly flow out the hot air inside the cold and hot water purifier to the outside.

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

3 is a schematic diagram showing the structure of a cold / hot water purifier having a plurality of holes 26 and a plurality of holes 24 on the bottom of the cold / hot water purifier according to an embodiment of the present invention.

The arrow shown shows the flow of air. As shown in FIG. 3, cold air is introduced through a plurality of holes 26 provided at the bottom of the cold / hot water purifier. The introduced cold air passes around the compressor and the heat sink 22 which dissipate the most heat among the insides of the cold and hot water purifier, absorbs the heat of the compressor and the heat of the heat sink, and is installed in the upper part of the rear of the cold and hot water purifier. ) Will be released to the outside. In the conventional cold / hot water purifier, since the cold air introduced only from the rear of the cold / hot water purifier is also introduced through the bottom of the cold / hot water purifier, a larger amount of cold air is introduced. In addition, since the plurality of holes 24 are provided at the upper rear side of the cold / hot water purifier, hot air absorbing the heat of the compressor and the heat sink is discharged to the outside through the plurality of holes 24 without gathering at the top of the heat sink. Therefore, according to the heat dissipation system of the present invention, since the cool air introduced through the bottom of the cold and hot water purifier absorbs the heat of the compressor and the heat sink and then discharges it to the outside through the upper hole 24, a more smooth air flow is generated. Compared with the conventional heat dissipation system, it is possible to perform heat dissipation more smoothly.

Figure 4 is a schematic diagram showing the structure of a cold and hot water purifier with a box fan installed on the heat sink according to an embodiment of the present invention.

Conventional cooling fans are mainly made of a method in which the condenser is made slightly larger than the outer diameter of the fan, and has a compact size to suck air from the condenser and discharge condenser heat by side venturation. However, such a conventional cooling fan motor attachment system is a method that can not be attached to a small cold water purifier due to excessive amount of money and excessive installation space.

However, as shown in FIG. 4, the cold / hot water purifier having the box fan 28 installed on the heat sink has a small air volume, but directly attaches a box fan suitable for attaching to a conventional small cold / hot water purifier directly to the heat sink to open the heat sink. By discharging the heat of the compressor and the heat inside the cold / hot water purifier to the outside, it is possible to improve the stability and heat dissipation performance of the cooling system and to suppress the increase of the internal temperature of the cold / hot water purifier.

EXAMPLE

Example 1

In order to examine the performance of the present invention, the temperature change of the cold / hot water purifier having the conventional heat dissipation system structure shown in FIG. It was.

Table 1 shows the results of examining the temperature of the compressor head and the heat sink of each cold / hot water purifier.

Table 1 Performance Comparison by Improving Air Flow

(test conditions; RT: 35 ° C., time: 30 ° C.)

Item Conventional method Method by the present invention (hole addition) Improvement System temperature Head temperature of compressor 92.1 ℃ 85.5 ℃ 6.6 ℃ ↓ Temperature of heat sink 64.5 ℃ 60.2 ℃ 4.3 ℃ ↓

As can be seen from Table 1, the head temperature of the compressor was lowered by 6.6 ° C, and the heat sink temperature was 4.3 when the plurality of holes were added to the bottom and the upper part for the heat dissipation of the cold / hot water purifier according to the present invention. It was found that the temperature was lowered to a more advanced heat dissipation system.

Example 2

In order to determine the heat dissipation performance of the cold / hot water purifier in the case of installing a cooling box fan, which is another embodiment of the present invention, the cold and hot water purifier having the conventional heat dissipation system structure shown in FIG. The temperature change inside the water purifier was investigated.

The temperature of the compressor head temperature, the compressor discharge temperature, and the heat sink of each cold / hot water purifier were investigated, and the results shown in Table 2 were obtained.

TABLE 2 Performance comparison before / after box fan

(test conditions: RT: 35 ° C, time: 30 ° C)

Item Conventional method Method by the present invention (hole addition) Improvement System temperature Discharge temperature of compressor 116.2 ℃ 97.4 ℃ 19 ℃ ↓ Head temperature of compressor 99 ℃ 80.8 ℃ 18 ℃ ↓ Temperature of heat sink 75 ℃ 65 ℃ 10 ℃ ↓

As can be seen from Table 2, the heat dissipation cold / hot water purifier system of the present invention with a box fan has a discharge temperature of 19 ° C., a head temperature of 18 ° C., and a temperature of 4.3 ° C. of the heat sink, respectively. It was found.

As described above with reference to the illustrated drawings, the cold and hot water purifier with increased heat dissipation performance according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, within the scope of the technical idea of the invention Of course, various modifications can be made by those skilled in the art.

The cold / hot water purifier having a plurality of holes at the bottom and the rear of the cold / hot water purifier of the present invention and / or installing a PC box fan on the heat sink has a smooth flow of air due to the specific gravity difference caused by the temperature difference of the air. It can be discharged to the outside smoothly, and also attached a small box fan to directly cool the radiator and suppress the temperature rise inside the cold and hot water purifier to greatly improve the heat dissipation performance of the cold and hot water purifier.

In addition, since the heat dissipation performance is improved, the temperature of the purified water tank is prevented from rising, thereby blocking the microbial growth phenomenon in the purified water tank due to the temperature rise, and the compressor is not frequently operated, thereby increasing the electricity consumption due to frequent operation of the compressor. Can be suppressed and the cause of failure of the compressor can be eliminated. Accordingly, it has the advantage of improving the life of the cold and hot water purifier.

Claims (2)

delete In a cold / hot water purifier that radiates heat inside by a heat sink, A plurality of holes at the bottom to allow cool air to flow from the bottom; A plurality of holes in the upper portion of the rear cover so that hot air in the cold / hot water purifier does not collect in the upper portion and flows out; And Cold and hot water purifier, characterized in that it comprises a small box fan to quickly flow out the hot air inside the cold and hot water purifier.