KR102027263B1 - Cooling apparatus and water purifier having the same - Google Patents

Abstract

In order to solve the above problems, the present invention allows the air introduced into the heat dissipation block by the blower fan to be guided by the guide means, so that the air is smoothly discharged, and interference with surrounding components is prevented in the air discharge process. The present invention provides a cooling device and a water purifier including the same. The cooling device according to the embodiment of the present invention is contacted with a Peltier device and a cooling surface of the Peltier device. A Peltier module having a flow path structure having a flow path through which water is circulated and cooled; A heat dissipation block including a base part in contact with the Peltier module and a plurality of heat dissipation fins protruding at a predetermined thickness in one direction from a surface of the base part; A blowing fan installed at the center of a part of the heat dissipation fins of the heat dissipation block to supply air to the heat dissipation block; And a guide part that shields both ends of the heat dissipation fins in one direction and guides the air supplied from the blower fan to be discharged in the direction in which the heat dissipation fins protrude.

Description

Cooling device and water purifier including the same {COOLING APPARATUS AND WATER PURIFIER HAVING THE SAME}

The present invention relates to a chiller, and more particularly, to a chiller and a water purifier including the same used to produce cold water.

In general, a water purifier is a device for purifying and supplying raw water, such as tap water. The water purifier removes foreign substances using a filter and the like, and provides cold water and hot water by cooling or heating the same.

These water purifiers are applied in a variety of ways depending on the place, capacity, etc. installed, and a method having a water storage tank is used as a representative, and recently, a method for providing water, cold, and hot water in a direct manner without a water tank has been developed It is used.

Meanwhile, a water purifier is provided with a cooling device for cooling and supplying purified water, and a cooling device using a peltier module suitable for minimizing volume, instant cooling, and the like is utilized.

Conventional cooling apparatus is provided with a heat dissipation block for cooling the Peltier module, by using it to cool the Peltier module.

The Peltier module includes a flow path structure having a Peltier element that is cooled or heated by supply of electricity, a flow path structure having a flow path through which water for cooling is circulated in contact with the cooling surface of the Peltier element with the Peltier element therebetween It is provided.

The Peltier module cools and supplies water supplied into the flow path structure by the Peltier element, and discharges the heat absorbed by the Peltier element through the heat dissipation block.

The heat dissipation block includes a base part in direct contact with the Peltier module and a plurality of heat dissipation fins extending outwardly from the base part. The heat dissipation fins protrude vertically from the base and extend in one direction. The heat dissipation fin may dissipate heat transferred from the Peltier module in contact with air.

In addition, the heat dissipation block is provided with a blowing fan for supplying air to one side of the central portion to improve the heat dissipation performance. The blowing fan and the heat dissipation block are provided adjacent to the air inlet or outlet provided in the housing of the water purifier.

However, in the conventional cooling apparatus, when the blower fan is operated to supply air to the heat dissipation block, the air is interfered with other components in the process of discharging air to the periphery along the heat dissipation fin and causes noise and vibration. In addition, in the conventional cooling apparatus, as the heated air passes through the heat radiating fins and is discharged to the periphery of the heat radiating block, the heated air may not be smoothly discharged to the outside, thereby increasing the internal temperature and inhibiting heat radiating efficiency. It becomes the factor to do.

Republic of Korea Patent Registration No. 10-1079668 Republic of Korea Patent Registration No. 10-1050999

In order to solve the above problems, the present invention allows the air introduced into the heat dissipation block by the blower fan to be guided by the guide means, so that the air is smoothly discharged, and interference with surrounding components is prevented in the air discharge process. It is an object of the present invention to provide a cooling device and a water purifier including the same, which are minimized and thus prevent the occurrence of noise or vibration.

According to an aspect of the present invention, there is provided a cooling apparatus including a Peltier device and a Peltier module having a flow path structure having a flow path in which water is circulated and cooled in contact with a cooling surface of the Peltier device; A heat dissipation block including a base part in contact with the Peltier module and a plurality of heat dissipation fins protruding at a predetermined thickness in one direction from a surface of the base part; A blowing fan installed at the center of a part of the heat dissipation fins of the heat dissipation block to supply air to the heat dissipation block; And a guide part that shields both ends of the heat dissipation fins in one direction and guides the air supplied from the blower fan to be discharged in the direction in which the heat dissipation fins protrude.

In addition, the base portion may include at least one through hole formed between the heat dissipation fins.

In addition, one side of the heat dissipation fins may include an air blocking guide installed to shield the periphery of the blowing fan.

In addition, the guide portion may have an inclined surface formed to be inclined in the air discharge direction, and the heat dissipation fin may be cut to correspond to the guide portion.

In addition, the guide portion may have a curved surface formed with a concave curvature in a direction in which air is discharged, and the heat dissipation fin may be cut to correspond to the guide portion.

In addition, an accommodating part may be formed in a portion of the heat dissipation fin so that the blowing fan is accommodated.

In addition, the water purifier according to another embodiment of the present invention for solving the technical problem as described above is a housing having a filter system for discharging the inlet, the outlet and the raw water introduced from the inlet to the outlet; And the aforementioned cooling device provided in the housing and cooling the purified water in connection with one side of the filter system.

In the cooling apparatus and the water purifier including the same according to the present invention, in the process of cooling the purified water, the discharge of air supplied for cooling of the water is facilitated, and the interference with surrounding components is minimized in the process of discharging the air. Therefore, the generation of noise or vibration can be prevented.

1 is a partial cutaway cross-sectional view showing the interior of the water purifier to which the cooling apparatus is applied according to an embodiment of the present invention.
2 is a perspective view of a cooling apparatus according to an embodiment of the present invention.
3 is an exploded perspective view of a cooling apparatus according to an embodiment of the present invention.
4 is a cross-sectional view of a cooling apparatus according to an embodiment of the present invention.
5 is a cross-sectional view of a cooling apparatus according to another embodiment of the present invention.

Certain terms are defined herein for convenience of understanding the invention. Unless defined otherwise herein, scientific and technical terms used herein have the meanings that are commonly understood by one of ordinary skill in the art. Also, unless specifically indicated in the context, the singular forms "a", "an", and "the" are intended to include their plural forms as well.

1 is a partial cutaway sectional view showing the inside of a water purifier to which a cooling device is applied according to an embodiment of the present invention, and FIG. 2 is a perspective view of a cooling device according to an embodiment of the present invention. 3 is an exploded perspective view of a cooling apparatus according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the cooling apparatus according to an embodiment of the present invention.

Hereinafter, a cooling apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

Cooling apparatus 100 of the present embodiment may be provided to cool the purified water in the water purifier 10 for supplying the purified water.

The water purifier 10 may be cooled by supplying purified water stored in the storage tank to the cooling device 100, or directly by cooling the raw water supplied from the raw water supply unit such as tap water.

The water purifier 10 forms an exterior and includes a housing 12 having a water outlet 11, and a filter system for purifying raw water in the housing 12, and connected to one side of the filter system to cool the purified water. It may include a cooling device (100). In addition, a pump or the like for supplying purified water to the cooling device 100 may be provided inside the water purifier 10.

In addition, the raw water supply unit for supplying raw water to one side of the housing 12 may be connected by a pipe or the like.

In addition, a plurality of heat dissipation holes 14 may be formed at one side of the housing 12 to supply air to the cooling device 100 and to discharge heat. Preferably, the cooling device 100 may be installed adjacent to the heat dissipation hole 14 for smooth cooling and discharge of heat.

In addition, the cooling apparatus 100 may include a Peltier module 150 for cooling the purified raw water and a heat dissipation block 110 for cooling the Peltier module 150.

The Peltier module 150 includes a Peltier element 152 in which one side is cooled by the applied current and the other side is heated, and water is circulated therein on the cooling surface of the Peltier element 152. A flow path structure 154 having a flow path to be cooled may be installed to be in contact with each other, and a packing for packing the Peltier element 152 and the flow path structure 154 to the outside thereof may be provided.

The flow path structure 154 may be supplied with purified water to the internal flow path through the pipe 16, and may be cooled by the Peltier element 152 while the purified water passes through the flow path. Thus, the purified water cooled in the flow path structure 154 may be supplied to the outlet of the water purifier 10 through the pipe 16, or may be supplied to a separate cold water storage tank.

The Peltier element 152 constitutes a closed path between two points where the metal and the semiconductor are connected, and when a current flows, one side is cooled and the other side is a Peltier effect.

This Peltier element 152 is operated upon application of an electric current, one side of the Peltier element 152 is cooled by the applied current and the other side is heated correspondingly. In order to lower the temperature of the cooling surface of the Peltier element 152, it is necessary to discharge the heat of the other surface. Accordingly, the heat dissipation block 110 may contact the heating surface of the Peltier element 152.

On the other hand, the Peltier module 150 may be installed to be in close contact with the heat dissipation block 110 by an elastic bracket 156 having elasticity. Preferably, a conductive paste may be applied between the Peltier module 150 and the heat dissipation block 110 to improve heat conductivity.

The elastic bracket 156 may be provided to have a predetermined elasticity so that the Peltier module 150 may be in close contact with the heat dissipation block 110 even when thermal deformation occurs as the Peltier element 152 is cooled or heated. The Peltier module 150 may be stably maintained in close contact with the heat dissipation block 110.

In this embodiment, the elastic bracket 156 may be provided in the form of a plate provided to cover the Peltier module 150, and both sides are formed with a vertically extending support part corresponding to the thickness of the Peltier module 150, and Peltier The pressing portion of the module 150 may be formed of an arcuate pressing portion that is curved to be convex. In the present embodiment, the elastic bracket 156 is provided in the form of a plate, but the arcuate pressing portion is described as pressing the Peltier module 150 by elasticity, but this structure is not limited and may be variously modified. For example, the elastic bracket 156 may be provided in a structure that generates an elastic force by installing an elastic member such as a spring on one side of the plate.

In addition, although the Peltier module 150 is used to cool the purified water in the present embodiment, when the cooling surface and the heating surface of the Peltier module 150 are installed in a different manner, the Peltier module 150 may be used to heat and supply the purified water.

Therefore, in the present embodiment, the cooling device 100 is utilized to cool and supply the raw water, but the scope of rights is not limited by the present embodiment and is utilized as a heating device for heating the raw water, or as a hot water mat. It is also possible to be used.

The heat dissipation block 110 may include a base portion 112 in contact with the Peltier module 150. The base unit 112 may be in contact with the heating surface of the Peltier element 152 of the Peltier module 150 to absorb heat generated by the Peltier element 152. In this embodiment, the base portion 112 may be formed in the shape of a long rectangular plate.

In addition, a plurality of heat dissipation fins 114 may be formed on the base 112 to dissipate the absorbed heat into the air.

The heat dissipation fins 114 may protrude to a predetermined thickness in one direction, for example, in the longitudinal direction of the base part 112, from the surface of the base part 112.

In addition, a blowing fan 120 for forcibly blowing air to the heat dissipation block 110 may be installed at the central portion of the heat dissipation fin 114. The air supplied by the blowing fan 120 may absorb and discharge heat transferred from the Peltier element 152 in the process of contacting and passing between the radiating fins 114 and the base portion 112.

The blowing fan 120 includes a blowing blade 122 rotatably provided by the motor 124, and a blowing housing 126 on which the motor 124 is mounted and provided to surround the periphery of the blowing blade 122. can do.

The blower fan 120 may rotate the blowing blades 122 by the motor 124 and supply air to the heat dissipation fin 114, and the air supplied to the lower portion of the heat dissipation fin 114 is the heat dissipation fin 114 and the base unit. It can be discharged to both ends in the longitudinal direction along 112.

On the other hand, the heat dissipation block 110 may be provided with a guide portion 130 for guiding the discharge of air on both sides in the longitudinal direction. The guide part 130 may shield both sides of the heat dissipation block 110 in the longitudinal direction to discharge air in front of the base part 112, that is, in the direction in which the heat dissipation fins 114 protrude.

That is, in the cooling apparatus 100 of the present embodiment, after the air is introduced from the front of the base portion 112 by the blower fan 120, the air introduced into the heat dissipation block 110 is a heat dissipation fin ( 114 may be moved to both sides along the base 112 and discharged to the front of the base 112 by the guide 130.

As such, in the cooling apparatus 100 of the present embodiment, air supplied for heat dissipation may be introduced to the front by the blowing fan 120 and then moved to both sides of the heat dissipation block 110 to be discharged to the front again. The heated air discharged as described above may be quickly discharged to the outside through the heat dissipation hole 14 provided in the housing.

Therefore, the cooling apparatus 100 of the present embodiment may prevent the heated air from staying in the inner space of the water purifier 10 housing to prevent unnecessary heating inside the housing, and may interfere with surrounding components or discharge irregular air. It is possible to prevent the occurrence of noise and vibrations.

Preferably, in this embodiment, the guide part 130 may have an inclined surface formed to be inclined in the direction in which the air is discharged so that the air blown to both sides of the heat dissipation block 110 can be smoothly discharged to the front.

In addition, both ends of the heat dissipation fin 114 may be cut to correspond to the guide portion 130. That is, the heat dissipation fins 114 may be cut in a length corresponding to the guide portion 130 from both ends inwardly protruding from the base portion 112, and the guide portion 130 is inserted into the portion. The air moving along the heat radiating fin 114 may be guided to be discharged forward along the inclined surface of the guide unit 130.

On the other hand, the cooling device 100, in the process of air is discharged forward from both ends of the heat dissipation block 110, to the heat dissipation block 110 by the blowing fan 120 installed adjacent to the front of the heat dissipation fin 114. It may be re-introduced into the heat radiation block 110 together with the air blown.

In this embodiment, in order to prevent the air discharged from the cooling device 100 is re-introduced by the blowing fan 120, an air blocking guide 140 may be installed to shield the surroundings of the blowing fan 120.

The air blocking guide 140 may be provided as a flat plate shielding the periphery of the blowing fan 120, and a blowing hole 142 may be formed in the center to allow air to flow into the blowing fan 120. In addition, the air blocking guide 140 may have extension portions 144 extending on both sides thereof to cover both side surfaces of the heat dissipation fins 114, and the heat dissipation fins may be formed by fastening members such as bolts fastened to the extension portions 144. 114).

In addition, the air blocking guide 140 may further include a blowing cover 146 covering the blowing hole 142. Blowing cover 146 is formed with a plurality of holes to allow the inflow of air into the blowing fan 120, it is possible to block foreign matters from flowing into the blowing fan 120.

Air blocking guide 140 may reduce the discharge area of the air so that the air is discharged to only a predetermined space from both sides of the heat dissipation block 110, the air discharged is discharged away from the blowing fan 120 As a result it can be prevented from being re-introduced to the blowing fan 120 again.

Meanwhile, at least one through hole 116 may be formed in the base part 112 between the heat dissipation fins 114. The through hole 116 may form a flow path through which the air introduced by the blower fan 120 is directly supplied to the Peltier module 150, and the Peltier module 150 may be directly contacted with the Peltier module 150 by cold outside air. 150 can further improve the cooling performance.

In addition, in the present embodiment, the blowing fan 120 may be installed at the front center of the heat dissipation block 110, that is, the plurality of heat dissipation fins 114, and preferably accommodated in the heat dissipation block 110 for space utilization. May be provided.

To this end, the heat dissipation fin 114 may be cut to a predetermined height so that the blowing fan 120 is accommodated in a portion of the section, and thus, a receiving portion for accommodating the blow fan 120 is provided in the cut-out portion of the heat dissipation fin 114. Can be.

Referring to the operation of the cooling device of the present embodiment configured as described above are as follows.

First, the cooling apparatus 100 of this embodiment is installed in the housing of the water purifier 10. The cooling device 100 is installed adjacent to the heat dissipation hole 14 of the housing. The water purifier 10 is supplied to the flow path structure 154 through the piping for cooling the purified water, and circulates the internal flow path of the flow path structure 154 to the outlet 11 or the cold water storage tank of the water purifier 10. do.

The flow path structure 154 is in contact with the Peltier module 150 provided in the cooling device 100 of the present embodiment is cooled by the Peltier element 152. The cooling surface of the Peltier element 152 is in contact with the flow path structure 154 to cool the purified water passing through the flow path structure 154, and the heating surface of the Peltier element 152 is in contact with the heat dissipation block 110 to radiate heat.

On the other hand, the heat dissipation block 110, the outside air flows from the heat dissipation hole 14 of the housing by the blowing fan 120 is supplied between the heat dissipation fins 114 of the heat dissipation block 110. The air supplied to the heat dissipation fin 114 is in contact with the heat dissipation fin 114 and absorbs heat, and is moved to both ends of the heat dissipation block 110 through a flow path formed between the base 112 and the heat dissipation fin 114.

The air moved to both ends of the heat dissipation block 110 is discharged to the front of the heat dissipation block 110 by the guide unit 130.

The guide portion 130 is in contact with the air discharged between the base portion 112 and the heat dissipation fin 114, the air is discharged from the heat dissipation block 110, the discharge direction is bent forward along the inclined surface of the guide portion 130. .

At this time, the air discharged from the heat dissipation block 110 is limited to the discharge direction by the air blocking guide 140, thereby preventing re-introduction to the blowing fan 120. The air discharged from the heat dissipation block 110 is discharged to the outside through the heat dissipation hole 14 of the water purifier housing 12.

Meanwhile, in the present exemplary embodiment, the guide part 130 is described as having an inclined surface formed to be inclined in the air discharge direction, but the shape of the guide part 130 is not limited and may be modified in various forms.

As an example, Figure 5 is a cross-sectional view of a heat dissipation block according to another embodiment of the present invention.

Referring to FIG. 5, the guide part 130 ′ may have a curved surface formed with a concave curvature in a direction in which air is discharged. In addition, the heat dissipation fin 114 may be cut in a shape having a concave curvature corresponding to the guide portion 130 '.

The guide part 130 ′ may minimize the flow resistance of the air supplied between the base part 112 and the heat dissipation fin 114 along the curved surface of the guide part 130 ′ and may be discharged forward.

As mentioned above, although this invention was demonstrated, those of ordinary skill in this technical field should add, change, delete or add a component within the range which does not deviate from the idea of this invention described in the claim, and this invention. It will be able to variously modify and change, which will also be included within the scope of the invention.

10: water purifier 12: housing
110: heat dissipation block 112: base portion
114: heat radiation fin 116: through hole
120: blower fan 130: guide portion
140: air blocking guide 150: Peltier module
152: Peltier element 154: flow path structure

Claims (7)

A Peltier module having a Peltier element and a flow path structure having a flow path contacting the cooling surface of the Peltier element and having water circulated and cooled therein;
A heat dissipation block including a base part in contact with the Peltier module and a plurality of heat dissipation fins protruding at a predetermined thickness in one direction from a surface of the base part;
A blowing fan installed at the center of a part of the heat dissipation fins of the heat dissipation block to supply air to the heat dissipation block; And
A guide part which shields both ends of the heat dissipation fins in one direction and guides the air supplied from the blower fan to be discharged in the direction in which the heat dissipation fins protrude;
Including,
It is provided in the form of a plate covering the Peltier module, both sides are formed with a vertically extending support portion corresponding to the thickness of the Peltier module, the portion for pressing the Peltier module is formed of an arcuate pressing portion bent convex to the Peltier module Cooling apparatus further comprises an elastic bracket for pressing the Peltier module in close contact with the heat dissipation block.
The method of claim 1,
The base unit has a cooling device including at least one through-hole formed between the radiating fins.
The method of claim 1,
Cooling apparatus comprising an air blocking guide is installed to shield the periphery of the blowing fan on one side of the heat radiation fins.
The method of claim 1,
The guide portion has an inclined surface formed to be inclined in the direction in which air is discharged,
The heat dissipation fin is a cooling device that is cut in correspondence with the guide portion.
The method of claim 1,
The guide portion has a curved surface formed with a concave curvature in the direction in which air is discharged,
The heat dissipation fin is a cooling device that is cut in correspondence with the guide portion.
The method of claim 1,
Cooling device is formed in the portion of the heat dissipation fin is cut to accommodate the blowing fan is received.
A housing having a water inlet, a water outlet, and a filter system for purifying raw water introduced from the water inlet and discharged to the water outlet; And
The cooling device according to any one of claims 1 to 6, which is provided in the housing and cools the purified water in connection with one side of the filter system;
Water purifier comprising a.

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