KR0150594B1 - Freezing device for a water purifier - Google Patents

Abstract

The present invention relates to a water purifier cooling device of the water purifier to allow the cooling reservoir to be cooled more quickly by the heat dissipation means by the evaporation heat according to the evaporation of moisture and the wind blown from the fan, in particular, the purified water The heat dissipation means is absorbed by the heat transport means in the state contained in the cooling reservoir and radiated to the outside through heat dissipation means combined with the heat transport means. An absorbent for cooling, and a water supply member for supplying water to the absorber in a constant manner are provided.

Description

Water Purifier of Water Purifier

1 is a cross-sectional view of the water purifier provided with the present invention cooling water purifier.

2 is an exploded perspective view of the present invention for cooling water purification.

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

4 is a diagram showing the temperature difference between the normal temperature water tank and the cooling water tank according to the present invention.

* Explanation of symbols for main parts of the drawings

2 absorbent material 2a covering part

3: water supply member 3a: absorbent material

3b: inlet 3c: water pipe

4 clip member 4a

10: room temperature reservoir 20: cooling reservoir

40: heat transfer means 50: heat dissipation means

60: fan

The present invention relates to a water purifier of a water purifier, and more particularly, by installing a water cooling means in a heat dissipation means installed in a cooling reservoir to promote heat dissipation according to evaporative heat, thereby purifying the water purifier of the water purifier. It relates to a cooling device.

In general, the water purifier does not have a function of cooling the purified water, so in summer when the cold water is preferred, the purified water should be refrigerated and stored in a refrigerator. In addition, it is known that water has a hexagonal particle structure that is good for health, and as it gets cold, the closer it is to hexagonal water, the more recently, there is a tendency for water to be chilled regardless of season. However, the conventional water purifier has a problem that the utilization value of the product is lowered because there is no cooling water supply means.

In view of the conventional problems, the present inventors give a function that can always cool a part of purified water to develop a water purifier that allows a user to select uncooled room temperature water or cooled cooling water and drink it according to need. US Patent Application No. 94-25892. The present invention is to improve the cooling device of the pre-applied water purifier, the object of the present invention is to allow the heat dissipation means by the heat dissipation complex by the evaporation heat according to the evaporation of water and the wind blown from the fan, the cooling reservoir is cooled more quickly It is to provide a water purifier of the water purifier as possible.

In order to achieve the above object, the present invention is heat absorbed by the heat transport means in a state in which purified water is contained in the cooling reservoir, and also heat radiated to the outside through heat dissipation means combined with the heat transport means, the coating on the heat dissipation means And absorbed water is heated and evaporated to cool the heat dissipation means, and a water supply member for constantly supplying water toward the absorbent.

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

1 is a cross-sectional view of the water purifier provided with the present invention cooling water purifier. That is, the cooling reservoir 20 is installed in the room temperature water supply through the connection pipe 92 under the room temperature reservoir 10 in which purified water is stored. At this time, the cooling reservoir 20 is wrapped in the outer cylinder 70 filled with the heat insulating material 71 and is sealed by the cover 80 filled with the heat insulating material 71 at the top. On the other hand, the heat transport means 40 consisting of N-P semiconductor is installed on one side of the cooling reservoir 20. The heat transportation means 40 absorbs heat from the cooling reservoir 20 and radiates it to the outside, thereby making the purified water stored in the cooling reservoir 20 into cooling water.

The heat transfer means 40 is provided with a heat concentrating means 30 between the cooling reservoir 20 for heat absorption and a heat dissipation means 50 exposed to the atmosphere for heat dissipation. Meanwhile, the cooling reservoir 20 and the heat concentrating means 30 are preferably made of an aluminum material having excellent thermal conductivity, and the heat dissipation means 50 has a plurality of heat dissipation fins 51 for rapid heat dissipation. Meanwhile, the wind is blown toward the heat dissipation means 50 by the fan 60 driven by the motor 62, so that the heat dissipation fin 51 is air cooled. On the other hand, the water cooling means 1 is installed in the heat dissipation means 50, the heat dissipation fins 51 are cooled by the heat of evaporation.

2 is an exploded perspective view of the present invention, the water cooling means (1) has a cover portion (2a) bent in a zigzag form to surround a plurality of heat radiating fins (51), while absorbent material (2) having excellent water absorption; Water is applied to the clip member 4 holding the cover 2a and each heat radiating fin 51 and the absorbent material 2 so that each covering portion 2a of the absorbent material 2 comes into close contact with each of the heat radiating fins 51. It consists of a water supply member (3) for supplying.

The absorbent material 2 is wetted by absorbing the water to be supplied in a saturated state. The absorbent material 2 is mainly composed of a fabric material and is assembled by being fitted from the upper side to the lower side of each heat radiation fin 51. On the other hand, the clip member 4 has a plurality of pairs of pressing pieces 4a formed so as to correspond to each of the heat radiating fins 51 and the covering part 2a, and the rear of each heat radiating fin 51 so that each pressing piece 4a is fitted. The locking groove 52 is formed.

3 is a cross-sectional view taken along the line A-A of FIG. 1, wherein the water supply member 3 is formed in the form of a hollow tube and has a plurality of inlets 3b fitted on the upper surface of each covering portion 2a. In addition, a water pipe 3a for supplying water is formed in the upper center, and an absorber 3a for absorbing the supplied water in a saturated state is embedded therein and exposed toward each inlet 3b. In other words, the water absorbed by the absorbent material 3a in the state where the absorbent material 3a is in contact with the absorbent material 2 through each inlet 3b is absorbed toward the absorbent material 2. On the other hand, the absorbent material 3a is preferably a sponge that is excellent in water absorption and easy to reshape. Reference numeral 91 is a cock connected to the water pipe 90 to leak the coolant to the outside, 61 is a filter for filtering the air flowing in the rotation of the fan 60, 2b is installed in the lower portion of the heat dissipation member 50, the absorber Each drip tray receiving the water falling in (2) is shown.

In the present invention configured as described above, the absorbent material 2 is fitted into each of the heat radiation fins 51 of the heat radiation means 50. At this time, the cover portion 2a of the absorbent material 2 is inserted from the upper portion to the lower portion of each of the heat radiation fins 51, and in this state, each pressing piece 4a of the clip member 4 is provided on both sides of the outer circumferential surface of each cover portion 2a. When the locking groove 52 is caught in the fitted state, each covering part 2a is in close contact with the heat dissipation fin 51. In addition, the clip member 4 is fitted to the upper and lower sides of the coating portion 2a to stably hold each coating portion 2a. On the other hand, the assembly is completed when each inlet (3b) formed in the lower portion of the water supply member 3 is placed on the upper portion of the coating portion (2a).

In the present invention assembled as described above, when water is supplied into the water supply member 3 through the water pipe 3c, the absorbent material 3a embedded therein absorbs water in a saturated state.

At this time, the water absorbed by the absorbent material 3a in contact with each coating part 2a through each inlet 3b is absorbed again to each coating part 2a, and the coating part 2a becomes saturated. In this state, each of the heat dissipation fins 51 is kept wet by the moisture of the covering portion 2a.

Meanwhile, when the water purifier is operated, purified water is supplied to the room temperature reservoir 10 and then flows into the cooling reservoir 20 through the connection pipe 92. In this state, when the heat transportation means 40 is operated, the heat is absorbed to one side and released to the other side. At this time, the heat of the purified water through the heat concentrating means 30 and the cooling reservoir 20 coupled to the heat absorbing side is absorbed toward the heat carrying means 30 and water is cooled in this process. In addition, the absorbed heat is radiated to the atmosphere through the heat dissipation means 50 coupled to the heat dissipation side.

At this time, the heat dissipation means 50 is heated and heat of the evaporation is generated as the water of the coating part 2a is heated by the heat. That is, the heat of evaporation is generated when water is evaporated by absorbing heat of the heat radiation fins 51, and the heat radiation fins 51 are instantaneously radiated due to the heat of evaporation. In addition, as the fan 60 is driven by the driving of the motor 62, air is blown toward the heat dissipation means 50, and as the evaporation property of the heating water buried in the coating part 2a is improved by the wind blown, each heat dissipation fin ( The heat dissipation of 51) is promoted.

4 is a diagram showing the temperature difference between the normal temperature reservoir and the cooling reservoir according to the present invention, when the heat dissipation means 50 is cooled by the rotation of the fan 60 at a time point of 90 minutes has elapsed from the normal temperature reservoir 10 When the temperature difference between the cooling reservoir 20 is 16 ° and the heat dissipation means 50 is air-cooled and water-cooled through the fan 60 and the absorbent material 2, the cooling tank 20 and the cooling reservoir 20 As the temperature difference is 20 °, the cooling property of the cooling reservoir 20 is improved. As a result, due to the air cooling by the fan 60 and the water cooling by the absorbent material 2, the heat dissipation means 50 is cooled in combination, and the heat dissipation is accelerated, and the purified water of the cooling reservoir 20 is quickly cooled.

As described above, according to the present invention, the purified water is supplied to the cooling reservoir and then purified by the heat transport means, and then the heat of the purified water is absorbed by the heat transport means to be discharged to the outside, whereby the coolant is transported. The heat dissipation means is radiated by the evaporative heat generated when the absorbed water is heated and evaporated while the absorbed water is coated with the heat absorbing means coupled to the heat dissipation side of the means. As a result, the cooling of the purified water in the cooling water bottle is accelerated.

Claims (6)

The purified water is absorbed by the heat transport means in the state of being contained in the cooling reservoir, and radiated to the outside through heat dissipation means combined with the heat transport means, wherein the water coated and absorbed by the heat dissipation means 50 is heated. The water purifier cooler of the water purifier having an absorbent (2) for cooling the heat dissipation means (50), and a water supply member (3) for constantly supplying water toward the absorbent (2). The water purifier of claim 1, wherein the absorbent material is a fabric having excellent water absorption. The water purifier cooler according to claim 1, further comprising a fan (60) for blowing air toward the absorbent material (2) to activate evaporation. According to claim 1, The heat dissipation means 50 is provided with a plurality of heat dissipation fins 51 exposed to the outside, the absorbent material 2 is a plurality of blood to be fitted in a zigzag form to each of the heat dissipation fins 51 A water purifier for a water purifier, comprising an abdomen (2a). 5. The clip member (4) according to claim 4, wherein a plurality of pairs of pressing pieces (4a) are provided on both sides of the outer circumferential surface of each of the coating parts (2a) to closely contact each of the coating parts (2a) and each of the heat dissipation fins (51). And a locking groove (52) formed at the rear end of each of the heat dissipation fins (51) so as to catch the front end of each pressing piece (4a). 5. The water supply member (3) according to claim 4, wherein the water supply member (3) is composed of a hollow tube and has a plurality of inlets (3b) formed at a lower portion thereof so as to be fitted to an upper portion of each coating portion (2a). An absorbent material 3a which is embedded in and interviews the respective coating portions 2a through the respective inlets 3b, and is formed on the water supply member 3, and is formed on the water supply member 3a. Water purifier cooling device of a water purifier, characterized in that it comprises a water pipe (3c) for supplying the water.