KR102034439B1 - Soju freezer for camping - Google Patents

Abstract

The present invention is suitable for camping by making the cooling means compact using thermoelectric semiconductor elements, and by placing a plurality of cooling panels in parallel without partitions on the heat sink to greatly increase the cross-sectional area and at the one side of the cooling panel passageway, The present invention relates to a camping shochu freezer capable of improving the heat dissipation efficiency of the heat sink and the cooling performance of the thermoelectric semiconductor element by installing a plurality of blower fans to quickly pass a passage having an increased cross-sectional area.
Its configuration includes a housing (2) through which the vent (2b) is to pass through the air; A freezer compartment 3 that is housed inside the housing 2 and stores the soju bottle B; A thermoelectric semiconductor element 4 for cooling the freezing chamber 3; One side is tightly fixed to the cooling surface of the thermoelectric semiconductor element 4 and the other side is tightly fixed to the freezing chamber 3, and the heat cooled by the thermoelectric semiconductor element 4 is transferred to the freezing chamber 3 to freeze the chamber ( A cool block 5 for cooling 3); A heat dissipation plate 6 fixed in close contact with the heat dissipation surface of the thermoelectric semiconductor element 4 to dissipate heat from the heat dissipation surface of the thermoelectric semiconductor element 4; A blowing fan 7 for cooling the heat sink 6 by rotating the wheel which is rotated by the power supply to pressurize external air to the heat sink 6; And a heat insulating material 8 filled in the housing 2 to surround the freezing compartment 3 and the cool block 5 to block the cooling heat of the freezing compartment 3 and the cool block 5 from being exchanged with external heat. do.

Description

Soju freezer for camping

The present invention relates to a camping shochu freezer, and more particularly, it is suitable for camping by making the cooling means compact using thermoelectric semiconductor elements, and the plurality of cooling panels are arranged in parallel without a partition on the heat sink to greatly increase the cross-sectional area. In addition, it is possible to improve the heat dissipation efficiency of the heat sink and the cooling performance of the thermoelectric semiconductor device by installing a plurality of blower fans on one side of the cooling panel passage to correspond to the freezer compartment so that the outside air can quickly pass through the passage of the increased cross-sectional area. It relates to camping shochu freezer.

In the hot summer months, you can't carry a large refrigerator or freezer, so you'll go camping with ice or ice in a icebox. When you arrive at the camping place, the ice melts due to the hot weather, making it iced, and the drinks and drinks stored together in the iced water are kept locked so you can drink as you like.

However, since the soju not only rises in hot weather from the time you take it out of the icebox, but also drinks without alcohol, you can not drink large amounts in a short time, so you can drink slowly while talking to the other party. Over time, the temperature rises and you cannot feel the cool taste.

Therefore, there is an urgent need for a freezer that can drink coolly until the last empty of the shochu, even if time elapses when drinking the shochu cooled in the summer camp.

A typical freezer compresses freon gas from a compressor and sends it to a condenser to condense it into a liquid phase. Then, the pressure is lowered so that evaporation proceeds through an expansion valve. The heat exchange is performed to cool the place where the evaporator (indoor) is installed. Such a conventional freezer is difficult to manufacture because it is equipped with the complex devices necessary to pressurize and circulate the Freon gas to the compressor, and to change the state in the circulation process. For this reason, camping freezers are not widely used in reality.

Only recently have small-size freezers manufactured using thermoelectric semiconductor devices. In the related art, there is a refrigerator using a thermoelectric device of Utility Model Registration No. 20-0251823. The prior art has a plurality of refrigerant tanks (10, 10-1, 10-2) are built in the refrigerant and the inlet 11 and the outlet 12, respectively, so as to communicate with each other by the connection hose (50) Sequentially connect;

A thermoelectric element 20 is attached to each of the refrigerant tanks 10, 10-1, and 10-2, but reverses polarities of the thermoelectric elements 20 attached to the respective refrigerant tanks;

A motor pump 30 is installed in any one of the connection hoses 50;

One of the coolant tanks 10 of the coolant tank 10 is provided with a heat dissipation fin 40, a heat sink 41 and a heat dissipation fan 42.

However, since the conventional technology has a structure for cooling the thermoelectric element 20 by using any one of the refrigerant tanks 10, the liquid is not suitable for camping because it is bulky as a conventional freezer by using a liquid refrigerant. there was.

Another conventional technology is a thermoelectric device-type refrigerator of Patent No. 10-1791383. This technology is built in the case 10, the refrigerator compartment 20 for refrigerating and storing a plurality of refrigerated article, and the refrigerator 10 to surround the refrigerator compartment 20 inside the case 10 to partially cover the rear side of the refrigerating compartment 20 A heat insulation cover 30 having a cover fitting hole 32 to be exposed, and a cooling package 40 for refrigerating the refrigerator compartment 20 by being combined with the refrigerating chamber 20 after being fitted in the cover fitting hole 32. And, coupled to the cooling packaging 40, the heat dissipation packaging 50 for dissipating heat absorption generated in the process of cooling the refrigerating compartment 20, and is connected to the cooling packaging 40 inside the refrigerating compartment 20 As a heat absorbing block 60 for absorbing heat in the refrigerating chamber 20, rotatably installed in the refrigerating chamber 20, a rotating shelf table 70, a plurality of refrigerated articles are loaded, and the case ( 10) hinged to one side of the refrigeration A door 100 for opening and closing (20);

The rotary shelf table 70 is a table body composed of a plurality of vertical partitions 71c symmetrically installed between the upper and lower plates 71a and 71b spaced apart from each other and the upper and lower plates 71a and 71b. 71 and a plurality of shelves 72 provided between the vertical bulkheads 71c facing each other, a plurality of shelf mounting recesses 73 formed in the vertical bulkheads 71c, and the vertical bulkheads 71c. Is formed on the close end of the shelf 72 is in close contact with the shelf detachable protrusion 74 which is detachable to the shelf detachable groove 73, the shelf detachable protrusion 74 is the first detachable protrusion having grooves on both sides 74a and a second detachable protrusion 74b with a groove formed on one side thereof;

A plurality of flow path holes 75 are formed in each of the vertical bulkheads 71c to smoothly flow cold air between a space formed by one vertical bulkhead and a space formed by the other vertical bulkhead;

The shelf 72 installed between the vertical bulkheads 71c facing each other is provided with a jaw 72a to prevent the refrigerated article mounted when the table body 71 is rotated by being pushed down by centrifugal force.

However, the conventional technique also cools the liquid refrigerant circulating through the refrigerant pipe 52 through the heat dissipation block 51 as shown in FIG. 3, but not shown in FIG. 3. In addition, since the structure is complicated and bulky, the problem of water-cooled heat dissipation means, that is, the heat dissipation packaging 50 corresponding to the heat sink of the present invention is a water-cooled structure, so when the refrigerant pipe 52 is corroded due to prolonged use, the water leaks. The phenomenon occurs, and still has the problems of the water-cooled heat dissipation means.

If the refrigerant pipe 52 is filled with circulating freon gas, since it is the same as a conventionally known refrigeration apparatus, a compressor, a condenser, an expansion valve, an evaporator, etc., must be mounted on the path of the cold pipe 52, thereby increasing the complexity of the structure. can not avoid. In addition, if the coolant pipe 52 is filled with circulating coolant, another cooling means for cooling the coolant must be additionally installed on the outside, so that the structure is complicated and the size can not be avoided. If no additional cooling means is provided on the outside, when the cooling water cools the heat dissipation block 51, the cooling water is heated to pass the temperature in an elevated state, and then enters the heat dissipation block again. As a result, the temperature rises further, resulting in the same temperature as the heat dissipation block, and thus cooling performance cannot be expected.

Therefore, the conventional technology does not show the external cooling means for cooling the refrigerant in the drawings, but the structure is simple, in view of the cooling means that must be additionally installed outside, the refrigerator is not bulky and cannot be used for camping. There is.

Korea Utility Model Registration 20-0251823 (November 22, 2001 announcement) Republic of Korea Patent Registration 10-1791383 (As of October 31, 2017)

The present invention is to solve the problems of the conventional refrigerator or freezer as described above, the object of the present invention is to provide a camping shochu freezer suitable for camping by making the cooling means small using the thermoelectric semiconductor element.

Another object of the present invention is to arrange a plurality of cooling panels of the heat sink in parallel without bulkheads to significantly increase the cross-sectional area and to install a plurality of blower fans corresponding to the freezer compartment on one side of the cooling panel passage to increase the outside air cross-sectional area. It is to provide a camping shochu freezer that can quickly pass the passage to improve the heat dissipation efficiency of the heat sink and the cooling performance of the thermoelectric semiconductor element.

Camping shochu freezer 1 according to the present invention for achieving the above object has a size that can be carried, the doorway (2a) for accommodating the freezing compartment (3) is formed at the top, air can pass through the side A housing 2 through which the vent holes 2b pass;

A freezing chamber (3) accommodated in the housing (2) to correspond to the entrance (2a), and storing the soju bottle (B) therein;

A thermoelectric semiconductor element 4 for cooling the freezing compartment 3 by power supply;

One side is tightly fixed to the cooling surface of the thermoelectric semiconductor device 4 and the other side is tightly fixed to the freezing chamber 3, thereby transferring the heat cooled by the thermoelectric semiconductor element 4 to the freezing chamber 3. A cool block 5 for cooling the freezer compartment 3;

A heat dissipation plate 6 which is tightly fixed to the heat dissipation surface of the thermoelectric semiconductor element 4 and dissipates heat of the heat dissipation surface of the thermoelectric semiconductor element 4;

A blowing fan (7) installed at one side of the passage (C) of the heat dissipation plate (6) and rotating the wheel by power supply to feed the outside air to the heat dissipation plate (6) to cool the heat dissipation plate (6); And

A heat insulating material 8 filled in the housing 2 to surround the freezing compartment 3 and the cool block 5 to block the cooling heat of the freezing compartment 3 and the cool block 5 from being exchanged with external heat; do.

The freezing compartment 3 and the cool block 5 of the present invention are tightly fixed by the fastening bolt 9.

In the freezer compartment 3 of the present invention, the bottom surface is convexly protruded so as to be in close contact with the bottom surface of the soju bottle B, and a tab is formed at the bottom surface so that the fastening bolt 9 can be fastened and assembled.

In the heat sink 6 of the present invention, a plurality of cooling panels 62 are fixed in parallel to the fixed panel 61 in close contact with the heat dissipation surface of the thermoelectric semiconductor element 4;

The cooling panel 62 has a front fin having a continuous corrugated shape in which the longitudinal shape of the metal thin plate is connected to the first convex portion 63a and the first concave portion 63b by the first connection portion 63c. 63) extends in the longitudinal direction, and the second convex portion 64a and the second concave portion 64b are connected to the second connecting portion 64c behind the front pin 63 to have a continuous waveform shape. The rear pin 64 is positioned such that the position of the second convex portion 64a and the second concave portion 64b is inconsistent with the height of the first convex portion 63a and the first concave portion 63b. It extends in the longitudinal direction, a gap (H) is formed at the boundary of the first and second convex portions (63a) 64a, the boundary of the first and second concave portions (63b) (64b), the front pin (63) And the rear pin 64 are repeatedly arranged in the longitudinal direction alternately with each other;

The cooling panel 62 has a first convex portion 63a, a first concave portion 63b, a first connection portion 63c, a second convex portion 64a, a second concave portion 64b, and a second connection portion ( 64c are arranged in parallel so that the space between the first protrusions 63a, the space between the first recesses 63b, the distance between the second protrusions 64a, and the second recess 64b. The gap between the gaps forms the passage C.

In addition, a plurality of freezing compartments 3 of the present invention are arranged in a row, the fixing panel 61 of the heat sink 6 is extended in a single body form corresponding to the entire length of the freezing compartment 3, the blowing fan (7) Is installed in one side of the passage (C) of the heat sink 6 to correspond to the freezing chamber (3) in a 1: 1.

In addition, in the present invention, the auxiliary freezing cup 10 is accommodated in the freezer compartment 3 so as to cool the beer or beverage.

The present invention constituted as described above has the advantage of being suitable for camping because it can be made compact because it cools the cooling chamber using a thermoelectric semiconductor element.

In addition, the present invention by placing a plurality of cooling panels of the heat sink in parallel without a partition to significantly increase the cross-sectional area, and also to install a plurality of air blower fan corresponding to the freezer compartment on one side of the cooling panel passage passage path that the outside air cross-sectional area is increased By rapidly passing through to increase the heat dissipation efficiency of the heat sink, there is an advantage that can improve the cooling performance of the thermoelectric semiconductor device.

In addition, the present invention has the advantage that can be stored in the freezer compartment by storing the beer or beverage contained in a container that can not be stored in the freezer to drink cool.

1 is a perspective view of a camping shochu freezer according to the present invention
Figure 2 is a perspective view showing a state in which shochu is stored in the camping shochu freezer according to the present invention
Figure 3 is a front sectional view of the camping shochu freezer according to the present invention
Figure 4 is a side cross-sectional view of the camping shochu freezer according to the present invention
5 is an enlarged detail view of an assembly state of a freezer compartment, a cool block, and a heat sink according to the present invention;
Figure 6 is an enlarged side cross-sectional view before assembling the heat sink according to the invention
Figure 7 is an enlarged side cross-sectional view after assembling the heat sink according to the invention
8 is a perspective view of the heat sink fin of the heat sink according to the invention
9 is a detailed view showing a passage by expanding the assembled heat sink according to the present invention;
Figure 10 is a side cross-sectional view showing a state in which the auxiliary freezing cup is accommodated in the freezer compartment in another embodiment of the present invention

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the camping shochu freezer according to the present invention.

As can be seen in the drawings, the configuration of the camping shochu freezer 1 according to the present invention is largely, a housing 2 constituting an external form, a freezing chamber 3 for storing shochu, and a thermoelectric for cooling the stored shochu. Cooling block (5) for transferring the cooling heat of the semiconductor element (4), thermoelectric semiconductor element (4) to the freezing chamber (3), heat dissipation plate (6) for dissipating the thermoelectric semiconductor element (4), heat sink (6) to the outside air Blowing fan 7, the freezing chamber (3) and the cooling block (5) to be transported to include a heat insulating material (8) to block them from heat exchange with the external heat.

The housing 2 is large enough to be carried by a user without any tools. The housing 2 has a space for mounting components therein, and an entrance 2a for accommodating the freezing compartment 3 is formed at an upper portion thereof, and a ventilation hole 2b for allowing fresh outside air to pass therethrough. Is penetrated. The ventilation holes 2b are formed at both sides, and a blowing fan 7 described later is mounted at a position corresponding to one side to allow external air to pass therethrough.

The freezing chamber (3) is made of a metal material with good heat transfer because it must be cooled by the heat conducting semiconductor element (4) and stored therein, and a cup having an upper opening to accommodate the soju bottle (B). It is composed of shapes. Since the bottom surface of the freezing chamber (3) is placed soju bottle (B) is in close contact with the bottom surface of the concave soju bottle (B) to protrude convex so as to increase the heat transfer efficiency. That is, the bottom surface of the freezer compartment 3 has the same shape as the bottom surface of the shochu bottle B so that the bottom surface of the freezer compartment 3 is in close contact with each other to increase the cooling efficiency.

In addition, a screw thread, that is, a tab is formed on the bottom surface of the freezing compartment 3 so that the fastening bolt 9 can be fastened and assembled, and the tab is not penetrated.

The height of the freezing chamber (3) has a height that can accommodate from the lower part of the shochu bottle (B) to the end of the straight section as shown in the figure. In this case, the shochu bottle B accommodated in the freezer compartment 3 is closely adhered to the freezer compartment 3 by its weight and the weight of the soju contained therein, and the side circumference is close to the wall of the freezer compartment 3 wall. Since the cooling heat of the freezer compartment 3 is transferred to the soju as it is, the heat loss is hardly generated and the storage temperature is significantly lowered. According to the experiment of the prototype of the present invention, the temperature of the bottom surface of the freezer compartment 3 is -13 ° C, and the lower and upper temperatures of the side surface are -11 ° C and -7 ° C, respectively. The performance was good, thereby making the name of the invention a freezer, not a refrigerator.

In addition, since the present invention is made for camping, it is equipped with three freezing chambers 3 so as to simultaneously cool three soju bottles B as shown in the drawing. It is not easy for a large number of people to drink three bottles of cold soju in a short time in summer. Moreover, every time the soju bottle (B) is emptied from the freezer (3), if a new soju bottle (B) cooled in ice water is filled in the ice box, Many people can drink enough soju for a long time.

The thermoelectric semiconductor device 4 has a thin plate shape, and when power is supplied, one side is cooled to become a cooling surface having a low temperature, and the other side radiates heat to continuously maintain the cooling surface. It becomes the heat dissipation surface which rises. If you change the polarity of the power supply, the cooling surface becomes the heat dissipation surface and the heat dissipation surface becomes the cooling surface. Therefore, the cooling surface and heat dissipation surface can be adjusted according to the user's power polarity selection.

The thermoelectric semiconductor device 4 is a standard product having a length of 40 mm in width x length and a thickness of 4 mm, and any one side of the thermoelectric semiconductor element is cooled when the power is supplied, and thus the temperature of the cooling surface is changed through the freezer compartment through the cool block 5. When delivered to (3) can be manufactured in a compact camping shochu freezer (1) of the present invention. In addition, the recently developed thermoelectric semiconductor device 4 has been reported to be able to control its own cooling surface temperature as low as -50 ℃ and the heat radiation surface temperature up to 80 ℃ it is expected to lead the refrigeration field in the future.

The cool block 5 is closely assembled between the freezing chamber 3 and the thermoelectric semiconductor element 4 to transfer the temperature of the cooling surface of the thermoelectric semiconductor element 4 to the freezing chamber 3. A metal material having good thermal conductivity, such as aluminum or copper, can be used. An aluminum material that is light, easy to purchase, inexpensive, and resistant to corrosion may be used. The reason why the cool block 5 is used is that the thermoelectric semiconductor device 4 is a small sized product as described above, so that the cooling block 5 does not come into contact with the bottom surface of the freezer compartment 3 having a large area so that the cooling performance is not deteriorated. For that. Therefore, if the cool block 5 is in close contact with a sufficient area over the entire bottom surface of the freezing chamber 3, the low temperature of the cooling surface of the thermoelectric semiconductor element 4 may be rapidly transmitted to the bottom surface of the freezing chamber 3, thereby improving cooling performance. One of the reasons why the bottom surface temperature of the freezer compartment 3 of the present invention reaches −13 ° C. is also the reason for the large formation of the cool block area.

In the case of the cool block 5, tabs are formed on the upper surface in contact with the freezing compartment 3 so that the fastening bolts 9 can be fastened and assembled.

On the other hand, the freezing chamber 3 and the cool block 5 is tightly fixed to the fastening bolt 9 as shown in the present invention. Since the fastening bolt 9 fastens and assembles them between the freezer compartment 3 and the cool block 5, they can be firmly assembled in an intimate state, and in the assembled state, the fastening bolt 9 is not visible to the naked eye. This has a beautiful advantage.

The heat dissipation plate 6 has a function of dissipating heat from the heat dissipation surface of the fixed panel 61 in close contact with the heat dissipation surface of the thermoelectric semiconductor element 4. As described above, the thermoelectric semiconductor device 4 has a cooling surface on one side and a heat dissipation surface on the other side, but the temperature of the cooling surface cannot be lowered unless the temperature of the heat dissipation surface is lowered. In other words, the lower the temperature of the heat dissipation surface, the lower the temperature of the cooling surface. Therefore, since the lowering of the temperature of the heat dissipation surface of the thermoelectric semiconductor element 4 as much as possible is directly connected to the cooling performance, the heat dissipation plate 6 which lowers the temperature of the heat dissipation surface is a very important factor.

Therefore, the ideal design of the air-cooled heat sink makes it possible to radiate its heat in the air sufficiently in contact with the air that is pressurized by the blower fan and pass through as large a area as possible, and thereby the heated air can pass through quickly without stagnation. So as not to disturb the flow of air.

The heat sink 6 of the present invention meets this ideal design. 6 to 9, the heat dissipation plate 6 of the present invention is fixed to the fixing panel 61 in close contact with the heat dissipation surface of the thermoelectric semiconductor element 4, the plurality of cooling panels 62 are fixed in parallel to the fixed panel ( The groove 61a may be formed in the 61 to press-fit one end of the cooling panel 62, and then the portion of the cooling panel 62 may be fixed by brazing. Alternatively, the groove 61a may be directly fixed by brazing without forming the groove 61a.

Since the cooling panel 62 radiates its heat into the air while being in contact with the air passing through the cooling panel 62, the heat exchange efficiency is good only when the cross section is in contact with the air. As shown in the drawing, a plurality of cooling panels 62 are arranged in parallel to each other so that a passage C for guiding the flow of air is formed between the adjacent cooling panels 62.

6 and 9, the individual cooling panel 62 has a continuous shape in which the body longitudinal shape of the metal sheet is connected to the first convex portion 63a and the first concave portion 63b by the first connection portion 63c. The front pin 63 having a wavy shape is extended in the longitudinal direction, and the second convex portion 64a and the second concave portion 64b are connected to the second connecting portion 64c behind the front pin 63. To have a continuous waveform shape, but the positions of the second convex portion 64a and the second concave portion 64b are located in front of the first convex portion 63a and the first concave portion 63b, and the height of the height. The rear pin 64 extends in the longitudinal direction so that the gaps are different, and the gap H is formed at the boundary of the first and second convex portions 63a and 64a and at the boundary of the first and second concave portions 63b and 64b. The front pin 63 and the rear pin 64 are alternately arranged in the longitudinal direction alternately with each other, so that the first and second convex portions 63a and 64a and the first and second concave portions 63b are viewed from the side. ) 64b is arranged in a zigzag fashion.

In the heat sink 6 of the present invention configured as described above, a plurality of the cooling panels 62 are closely assembled in parallel to each other so that each cooling panel 62 is assembled with the first convex portions 63a spaced therebetween. The first recesses 63b are assembled at intervals, the second protrusions 64a are assembled at intervals, and the second recesses 64b are assembled at intervals. Therefore, the spacing between the first convex portions 63a, the spacing between the first concave portions 63b, the spacing between the second convex portions 64a, and the spacing between the second concave portions 64b are different. All become passages C.

Referring to the drawings, the air flow passage C becomes a convex space consisting of the first convex portion 63a of the front pin 63 and the first connection portion 63c connected to both sides thereof, and the first concave portion 63b. ) And a first connecting portion 63c connected to both sides thereof. In addition, the passage C becomes a convex space consisting of the second convex portion 64a of the rear pin 64 and the second connecting portion 64c connected to both sides thereof, and the second concave portion 64b and the second connected portion 64b. It becomes a concave space which consists of two connection parts 64c. The spaces of the front and rear pins 63 and 64 are inconsistent, so that the second connecting portion 64c of the rear pin 64 is located in the convex space of the front pin 63, and in the concave space of the front pin 63. The second connecting portion 64c of the rear pin 64 is located.

Therefore, the air flowing through the convex space of the front fin 63 hits the second connecting portion 64c of the rear fin 64 and flows in turbulent state, and moves up and down through the gap H to freely move the entire heat sink 6. It passes through the heat sink (6). In addition, the air flowing through the concave space of the front fin 63 hits the second connecting portion 64c of the rear fin 64 and flows in a turbulent state, and also moves up and down through the gap H to freely move the entire heat sink 6. Will flow. The air flowing through the convex space and the concave space of the rear fin 64 in the same flow also moves up and down through the gap H, so that the entire heat sink 6 flows freely.

Since the heat sink 6 is configured as described above, the air flowing through the passage C of the heat sink 6 flows in a turbulent state while sufficiently contacting the cooling panels 62 and sufficiently widening the passage C and the gap ( Since it passes quickly through H), the temperature of the heat dissipation surface of the thermoelectric semiconductor element 4 is effectively lowered to increase the cooling performance of the thermoelectric semiconductor element 4. Another reason for the bottom surface temperature of the freezer compartment 3 of the present invention to reach -13 ° C is due to the structure of the heat sink (6).

In the present invention, since a plurality of freezing compartments 3 are arranged in a line as shown in FIG. 3, the fixed panel 61 of the heat dissipation plate 6 has a single body extending long to correspond to the entire length of the freezing compartment 3. In addition, the blower fan 7 is installed at one side of the passage C of the heat sink 6 as shown in FIG. 4 so as to correspond to the freezing chamber 3 in a 1: 1 manner.

The blowing fan 7 is installed at one side of the passage C of the heat dissipation plate 6 while being close to the ventilation hole 2b inside the housing, and a wheel that is rotated by power supply rotates external air to the heat dissipation plate 6. It is a function to cool the heat sink 6 by pressure feeding, and since it is a well-known technique, detailed description is abbreviate | omitted.

However, since the blower fan 7 is installed to correspond to the freezer compartment 3, the cooling panel 62 positioned below the freezer compartment 3 can be smoothly cooled, so that the temperature of the heat dissipation surface of the thermoelectric semiconductor element 4 is increased. Low cooling performance can be improved.

The heat insulating material 8 is filled in the housing 2 to surround the freezer compartment 3 and the cool block 5 to block the cooling heat of the freezer compartment 3 and the cool block 5 from being exchanged with external heat. And, since it is well known technology, a detailed description thereof will be omitted.

On the other hand, the present invention was to accommodate the auxiliary refrigeration cup (10) prepared separately in the freezing compartment (3) to cool the beverage contained in the bottle can not be accommodated in the freezing compartment (3). For example, when you want to drink a popular beer with the shochu in summer cool fill the beer in the auxiliary freezing cup 10 can be cooled cold beer.

The bottom surface of the auxiliary freezing cup 10 has the same shape as the bottom surface of the freezing compartment 3 so as to be in close contact with the bottom surface of the freezing compartment 3.

The present invention configured as described above is made small enough to store about three soju bottles (B) can be used for camping purposes, the heat sink (6) while the air passes quickly while increasing the contact area with air Since it has a point that can increase the cooling performance by having a structure that can be, it will be said to be an advantageous invention that can increase the value of use when used in the related field as an advanced technology than the prior art.

1: camping shochu freezer 2: housing
3: freezer 4: thermoelectric semiconductor elements
5: cool block 6: heat sink
6: blowing fan 7: insulation
8: heat insulating material 9: fastening bolt
10: auxiliary refrigeration cup

Claims (6)

A housing 2 having a size that is portable and having an entrance 2a for accommodating the freezing compartment 3 at an upper portion thereof, and having a ventilation hole 2b penetrating therethrough to allow air to pass through the side surface thereof;
A freezing chamber (3) accommodated in the housing (2) to correspond to the entrance (2a), and storing the soju bottle (B) therein;
A thermoelectric semiconductor element 4 for cooling the freezing compartment 3 by power supply;
One side is tightly fixed to the cooling surface of the thermoelectric semiconductor device 4 and the other side is tightly fixed to the freezing chamber 3, thereby transferring the heat cooled by the thermoelectric semiconductor element 4 to the freezing chamber 3. A cool block 5 for cooling the freezer compartment 3;
A heat dissipation plate 6 which is tightly fixed to the heat dissipation surface of the thermoelectric semiconductor element 4 and dissipates heat of the heat dissipation surface of the thermoelectric semiconductor element 4;
A blowing fan (7) installed at one side of the passage (C) of the heat dissipation plate (6) and rotating the wheel by power supply to feed the outside air to the heat dissipation plate (6) to cool the heat dissipation plate (6); And
A heat insulating material 8 filled in the housing 2 to surround the freezing compartment 3 and the cool block 5 to block the cooling heat of the freezing compartment 3 and the cool block 5 from being exchanged with external heat; and,
Here, the freezing chamber (3) and the cool block (5) is tightly fixed by fastening bolt (9);
The freezer compartment 3 has a bottom surface protruding convex so as to be in close contact with the bottom surface of the soju bottle (B), the tab is formed so that the fastening bolt (9) can be fastened and assembled on the bottom surface;
The heat dissipation plate 6 is fixed in parallel with a plurality of cooling panels 62 in close proximity to the fixing panel 61 in close contact with the heat dissipation surface of the thermoelectric semiconductor element 4;
The cooling panel 62 has a front fin having a continuous corrugated shape in which the longitudinal shape of the metal thin plate is connected to the first convex portion 63a and the first concave portion 63b by the first connection portion 63c. 63) extends in the longitudinal direction, and the second convex portion 64a and the second concave portion 64b are connected to the second connecting portion 64c behind the front pin 63 to have a continuous waveform shape. The rear pin 64 is positioned such that the position of the second convex portion 64a and the second concave portion 64b is inconsistent with the height of the first convex portion 63a and the first concave portion 63b. It extends in the longitudinal direction, a gap (H) is formed at the boundary of the first and second convex portions (63a) 64a, the boundary of the first and second concave portions (63b) (64b), the front pin (63) The rear pin 64 is alternately arranged in the longitudinal direction alternately with each other, the first convex portion 63a, the first concave portion 63b, the first connecting portion 63c, the second convex portion 64a, the second The concave portion 64b and the second connecting portions 64c are disposed in parallel to form a gap between the first convex portions 63a. Spacing, the spacing between the first recesses 63b, the spacing between the second protrusions 64a, and the spacing between the second recesses 64b form a passage C; Camping shochu freezer.
delete delete delete The method according to claim 1, wherein the plurality of the freezing compartment (3) is arranged in a row, the fixing panel 61 of the heat sink 6 is extended in a single body shape corresponding to the entire length of the freezing compartment (3), the blowing fan ( 7) camping shochu freezer, characterized in that installed in the passage (C) one side of the heat sink (6) to correspond to the freezing chamber (3) 1: 1.
The camping shochu freezer according to claim 1, wherein an auxiliary freezing cup (10) is stored in the freezing compartment (3).

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