KR102339303B1 - Ice box with refrigeration function - Google Patents

Abstract

The present invention relates to an icebox having a refrigeration function, which exhibits a self-refrigeration function using a Peltier element to enable eco-friendly use and easy outdoor use by the improvement of mobility and portability. To this end, the icebox of the present invention comprises: an icebox body (10) forming a space to enable the storage of articles; a first Peltier element (20) provided in the icebox body (10) and cooled on the inner surface according to the application of power; a main heat sink (30) to which the first Peltier element (20) is attached and supported; a sub heat sink (40) provided on the outer side of the main heat sink (30) and integrally provided with a heat dissipation fin (41) on one side; a second Peltier element (50) attached to the inner side of the sub heat sink (40) and keeping in contact with the main heat sink (30); a cooling fan (60) provided at a position opposite to a heat dissipation fin (41) of the sub heat sink (40) to improve heat dissipation efficiency; and a power supply unit (70) applying power to the first and second Peltier elements (20, 50) and the cooling fan (60).

Description

Ice box with refrigeration function

The present invention relates to an ice box, and more particularly, to an ice box having a refrigeration function, which improves convenience of use by maintaining its own refrigeration function without a separate refrigerant.

In general, an ice box is used to keep items that are easily perishable, such as food, fresh in a hot and humid outdoor environment. A typical ice box is composed of a main body having a storage compartment with an open top to store food, beverage, and the like, and a cover for sealing the storage compartment of the main body.

However, the conventional icebox configured as described above is not only inconvenient to carry, but there is a limit to the cooling duration with only ice in terms of refrigeration storage efficiency over time. There was a downside.

On the other hand, in recent years, ice box products having a self-cooling function have been developed to improve these disadvantages, but there is a problem in that there is a limitation in mobility due to the use of Freon gas, which is harmful to the environment, and the weight is heavy.

Republic of Korea Utility Registration No. 339938 (Registered on 14.01. 2004) Korean Patent Registration No. 1828395 (Registered on 2018.02.06.)

The present invention has been proposed to improve the problems in the prior art, and is intended to improve movement convenience and use efficiency of the icebox by providing an icebox structure equipped with a self-refrigeration function without using Freon gas. There is a purpose.

To achieve the above object, there is provided an ice box with a refrigeration function of the present invention, comprising: an ice box body forming a space for storing items; a first Peltier element provided in the ice box body and cooled on the inner surface according to the application of power; a main heat sink to which the first Peltier element is attached and supported; a sub heat sink configured on the outside of the main heat sink and integrally provided with a heat dissipation fin on one side; a second Peltier element attached to the inner side of the sub heat sink and configured to be in contact with the main heat sink; a cooling fan configured to face the heat dissipation fins of the sub heat sink to improve heat dissipation efficiency; It characterized in that it comprises a; power supply for applying power to the cooling fan and the first and second Peltier elements.

In addition, a heat-conducting member for improving heat transfer efficiency according to contact with the cooling surface of the first Peltier element is configured inside the ice box body, and the heat-conducting member is an aluminum outer plate and stainless steel that makes surface contact with the first Peltier element. It is characterized in that the inner plate of the material forms a stacked structure.

The icebox of the present invention exhibits its own refrigeration function using a Peltier element, so that it can be used in an environment-friendly manner and can be easily used outdoors by improving mobility and portability.

1 is a schematic cross-sectional view of a refrigeration function ice box according to an embodiment of the present invention.
Figure 2 is an enlarged cross-sectional view of part A of Figure 1;
Figure 3 is an exploded cross-sectional view of the present invention ice box.
4 is a detailed view of part B of FIG. 3 .
Figure 5 is an exploded perspective view of the Peltier element part in the present invention.
6 is a block diagram of a refrigeration function ice box of the present invention.

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

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art.

Accordingly, the shape of the components expressed in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration in each drawing is sometimes illustrated with the same reference numerals. In addition, detailed descriptions of functions and configurations of known technologies that may unnecessarily obscure the gist of the present invention may be omitted.

First, the structure of the ice box having a refrigeration function according to an embodiment of the present invention will be described with reference to FIGS. 1 to 6 .

The ice box in this embodiment includes an ice box body 10 that forms a space for storing items, and a first Peltier provided in the ice box body 10 and cooled on the inner surface according to the application of power. The element 20, the main heat sink 30 to which the attachment and support of the first Peltier element 20 is made, and configured on the outside of the main heat sink 30, a heat dissipation fin 41 is integrally provided on one side and a second Peltier element 50 which is attached to the inside of the sub heat sink 40 and is in contact with the main heat sink 30, and the sub heat sink 40 A cooling fan 60 configured at a position opposite to the heat dissipation fin 41 of the cooling fan 60 to improve heat dissipation efficiency, and the cooling fan 60 and the first and second Peltier elements 20 by a control signal from a control unit (not shown); 50) and a power supply unit 70 for applying power.

The Peltier element in this embodiment is also called a thermoelectric element, and when power is applied, one side is cooled and the other side is heated using the principle that the first Peltier element 20 and the second Peltier element 50 are double stacked. By forming the structure, it is possible to maximize the cooling efficiency. The actual refrigeration function of the inner space of the icebox body 10 is made by the cooling heat generated by the first Peltier element 20, and the heat generated on the opposite side is the second It has a double structure so that the heat dissipation action is made quickly by the Peltier element 50 .

When such a double Peltier element stack structure is formed, the first Peltier element 20 is configured between the outer plate 81 and the main heat sink 30 to transmit cold air toward the outer plate 81 and the main heat sink The transfer of heat is made to the side (30), and the second Peltier element 50 is configured between the main heat sink 30 and the sub heat sink 40 to transfer cold air to the main heat sink 30 side and sub-heat. Heat is transferred to the sink 40 side.

On the other hand, inside the icebox body 10, a heat conducting member 80 for improving heat transfer efficiency according to contact with the cooling surface of the first Peltier element 20 is configured, and the heat conducting member 80 is a first Peltier element ( 20) and the outer plate 81 made of aluminum and the inner plate 82 made of stainless material, which are in surface contact with each other, have a stacked structure, and between the outer plate 81 and the inner plate 82, cooling is performed to improve heat conduction efficiency. Gel 83 is applied.

At this time, the cooling gel 83 is a super absorbent polymer 30-40 wt%, polyethylene glycol 20-40 wt%, calcium sulfoaluminate powder 10-30 wt%, organic gelling agent sorbitan olivate 1-10 wt%, poly It is preferable to achieve a mixed composition in a ratio of 1 to 10% by weight of urea.

In addition, the power supply unit 70 uses a rechargeable lithium-ion battery to prevent environmental pollution due to disposal.

Unexplained reference numeral 11 in the drawing denotes an opening/closing lid.

Let's take a look at the effects of the use of the refrigeration function ice box of the present invention having such a configuration.

In the ice box of the present invention, it is possible to refrigerate the internal storage items without the need to put a separate ice pack or ice pack inside.

That is, as power is applied from the power supply unit 70, heat is absorbed from the top surface of the first Peltier element 20 and heat is emitted from the bottom surface, and at this time, the heat conduction member 80 in contact with the top surface where the heat absorption is made. The cooling of the inner space of the ice box is achieved by the heat exchange action.

And, the heat emitted from the bottom surface is transferred to the main heat sink 30, at this time, since the upper surface of the second Peltier element 50 is in contact with the lower side of the main heat sink 30, the second Peltier element 50. Rapid heat absorption is achieved according to the action of

In addition, the bottom surface of the second Peltier element 50 is in contact with the sub heatsink 40 having the heat dissipation fins 41 so that heat is dissipated, and the heat dissipation efficiency by the cooling fan 60 is improved. be able to

On the other hand, since the first Peltier element 20 and the heat-conducting member 80 having a heat exchange action have a laminated structure of an aluminum outer plate 81 and a stainless steel inner plate 82, the loss of cold air is minimized. In the meantime, dense transmission can be achieved.

In particular, since the cooling gel 83 is applied between the outer plate 81 and the inner plate 82, heat conduction efficiency can be stably maintained.

In addition, since calcium sulfoaluminate is mixed in the cooling gel 83 in powder form, thermal conductivity and acid resistance can be improved, and sorbitan olivate prevents deterioration due to the activation action of the superabsorbent polymer, and polyurea represents the advantage that a stable adhesive state with the outer plate 81 can be maintained.

Accordingly, the icebox of the present invention exhibits a self-refrigeration function using a Peltier element, enabling eco-friendly use, and exhibits an effect of easy outdoor use due to improved mobility and portability.

And although specific embodiments of the present invention have been described and illustrated in the above, it is obvious that the structure of the refrigeration function ice box of the present invention can be variously modified and implemented by those skilled in the art.

For example, in the above embodiment, the configuration including the Peltier element and the heat sink has been described and illustrated on the bottom surface of the ice box, but this configuration can be selectively configured on the side of the ice box as well.

Accordingly, such modified embodiments should not be individually understood from the spirit or scope of the present invention, and such modified embodiments should be included within the appended claims of the present invention.

10: ice box body 11: opening and closing lid
20: first peltier element 30: main heat sink
40: sub heat sink 41: heat dissipation fin
50: second peltier element 60: cooling fan
70: power supply 80: heat conduction member
81: outer plate (aluminum) 82: inner plate (stainless steel)
83: cooling gel

Claims (5)

an ice box body 10 forming a space for storing items;
a first Peltier element 20 which is provided in the ice box body 10 and is cooled on the inner surface according to the application of power;
a main heat sink 30 to which the first Peltier element 20 is attached and supported;
a sub heat sink 40 configured on the outside of the main heat sink 30 and integrally provided with a heat dissipation fin 41 on one side;
a second Peltier element 50 which is attached to the inside of the sub heat sink 40 and is in contact with the main heat sink 30;
a cooling fan 60 configured at a position opposite to the heat dissipation fin 41 of the sub heat sink 40 to improve heat dissipation efficiency;
A power supply unit 70 for applying power to the cooling fan 60 and the first and second Peltier elements 20 and 50; includes;
A heat conduction member 80 for improving heat transfer efficiency according to contact with the cooling surface of the first Peltier element 20 is configured in the inside 10 of the icebox body, and the heat conduction member 80 includes the first Peltier element 20 ) and the outer plate 81 made of an aluminum material and the inner plate 82 made of a stainless material are laminated to form a structure,
A cooling gel 83 for improving heat conduction efficiency is applied between the outer plate 81 and the inner plate 82,
The first Peltier element 20 is configured between the outer plate 81 and the main heat sink 30 to transfer cold air to the outer plate 81 and transfer of heat to the main heat sink 30 side, , the second Peltier element 50 is configured between the main heat sink 30 and the sub heat sink 40 to transfer cold air to the main heat sink 30 side and the heat transfer to the sub heat sink 40 side is made under,
The cooling gel 83 is an ice box with a refrigeration function, characterized in that it has a mixed composition of a super absorbent polymer, polyethylene glycol, calcium sulfoaluminate, sorbitan olivate, an organic gelling agent, and polyurea. delete delete delete delete

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