KR200494998Y1 - Portable cooler - Google Patents

Abstract

The present invention relates to a portable cooler, and in particular, almost no condensation water is generated, so it is possible to prevent the work clothes from getting wet. a thermoelectric element that absorbs heat on one surface to form a low-temperature part and the other surface heats up to form a high-temperature part; A plurality of heat dissipation plates formed in the form of plates are stacked in the vertical direction at a predetermined interval, the first heat dissipation member is provided on the other surface side of the thermoelectric element to receive heat from the other surface of the thermoelectric element to discharge; a second heat dissipation member including a plurality of vertically erected heat dissipation fins and provided on one surface side of the thermoelectric element to receive and discharge cold air from one surface of the thermoelectric element; and a cold air dissipating fan provided adjacent to the second heat dissipating member and generating wind toward the second heat dissipating member to pass between the plurality of heat dissipating fins. It relates to a portable cooler characterized in that it is provided to a user as cold air through the passage.

Description

Portable cooler {Portable cooler}

The present invention relates to a portable cooler, and in particular, to a portable cooler that provides cool air to maintain an appropriate body temperature for a worker working in a hot environment/situation.

In general, workers who work in hot environments/situations usually wear long sleeves and long pants as work clothes to protect the body, and accordingly, the workers feel the heat caused by the heat generated from the work equipment or the external environment and wear them. You feel the heat from the work clothes.

Cooling devices such as air conditioners and fans are being operated to cool the workers, but it is not enough to cool the workers, and there are workplaces where it is difficult to operate even these cooling devices. You need skills to cool it down.

Republic of Korea Patent No. 10-0890140 (hereinafter referred to as 'Citation Design 1') discloses a technology that provides cold air to the user by putting an ice pack in the pocket of the clothes worn by the user, 'ZERO HEAT MOBILE COOLER' The product called (hereinafter referred to as 'referred to as 'referred to as 'referred to as the 2nd reference') is a product in which a user wears a body containing an ice pack, and provides cold air to the user by using the cold air generated from the ice pack. It is designed to wear work clothes that have been made.

In Citation 1 and 2, workers can easily wear them to cool the workers, but because ice packs are used, there is a problem that a lot of condensed water is generated and the clothes worn by the workers get wet. It does not take a long time for the pack to melt, so it is inconvenient to constantly replace the ice pack, and it is difficult to wear the ice pack and work with it because of the considerable weight.

1. Republic of Korea Patent No. 10-0890140 'Protective work clothes with cold air dissipation function'

1. ZERO HEAT MOBILE COOLER (https://www.kawahara-giken.com/products/ zero-heat/)

The present invention is to solve the above problems, and it is possible to prevent the work clothes from getting wet because condensation water is hardly generated, and it is possible to provide continuous cool air without changing the configuration, and the user can comfortably work after wearing it because of its light weight. An object of the present invention is to provide a portable cooler that can do this.

A portable cooler according to the present invention for achieving the above object includes a thermoelectric element that absorbs heat on one side by a power source to form a low-temperature part and the other surface heats up to form a high-temperature part; A plurality of heat dissipation plates formed in the form of plates are stacked in the vertical direction at a predetermined interval, the first heat dissipation member is provided on the other surface side of the thermoelectric element to receive heat from the other surface of the thermoelectric element to discharge; a second heat dissipation member including a plurality of vertically erected heat dissipation fins and provided on one surface side of the thermoelectric element to receive and discharge cold air from one surface of the thermoelectric element; and a cooling air dissipating fan provided adjacent to the second heat dissipating member to generate wind toward the second heat dissipating member to pass between the plurality of heat dissipating fins.

In addition, the first heat dissipation member is formed in the form of a plate having a size larger than that of the thermoelectric element and smaller than the heat sink, and is provided on the outer surface of one heat sink adjacent to the thermoelectric element, including between the plurality of heat sinks, and is opened from the other surface of the thermoelectric element. It may further include a heat conduction plate that quickly transfers to each heat sink.

In addition, a first heat shield plate and a second heat shield plate for blocking the heat transferred to the heat sink are respectively provided on the outside of the two heat sinks located on the outermost side of the plurality of heat sinks, and the outside of one heat sink adjacent to the thermoelectric element In the first heat shield provided in the , an installation hole corresponding to the heat conduction plate is formed so that the heat conduction plate is located inside, and the cold air discharging fan may be provided on an upper surface adjacent to the installation hole.

In addition, the thermoelectric element, the first heat dissipation member, the second heat dissipation member, and further comprising a case formed to accommodate the cooling fan inside, the case, the heat is emitted along the sidewall surrounding the side of the first heat dissipation member A hot air discharging hole is formed to pass through, and an inlet hole for introducing external air is formed through the portion in which the cold air discharging fan is accommodated, while cold air is provided on the opposite side with the cooling air discharging fan based on the second heat dissipating member. A discharge port to be discharged to the outside of the case may be formed.

In addition, the first heat dissipation member is provided with a plurality of heat dissipating fans installed to pass through the plurality of heat dissipating fans, some of the plurality of heat dissipating fans are provided at the edge of one end of the heat dissipation plate to blow the wind toward the other end of the heat dissipation plate. It is provided so that the other part is biased toward the other end of the heat sink, so that the wind can be blown out toward one side of the heat sink.

According to the present invention, the wind generated by the cold air discharging fan becomes cold air through the second heat dissipation member that receives the cold air from the thermoelectric element and is provided to the user (operator). Not only does it prevent the work clothes from getting wet, but there is no configuration that requires periodic replacement like conventional ice packs, so it can provide convenient and continuous cool air. can do it

1 and 2 are exploded perspective views showing the structure of a portable cooler according to the present invention;
3 is a cross-sectional view showing the structure of a portable cooler according to the present invention;
4 to 6 are exploded perspective views showing a structure provided with a first heat dissipation member, a first heat block plate, a second heat block plate, and a heat dissipation fan applied to a portable cooler according to the present invention;
7 is an exemplary view showing the movement direction of the wind by the heat dissipation fan applied to the portable cooler according to the present invention;
8 is a perspective view showing an upper structure of a case applied to a portable cooler according to the present invention;
9 is an exemplary view showing a state in which a hose is connected to an outlet applied to a portable cooler according to the present invention;
10 is a perspective view showing a lower structure of a case applied to a portable cooler according to the present invention;
11 is an exemplary view showing a state in which the belt is inserted into the belt insertion hole applied to the portable cooler according to the present invention;
12 is an exemplary view showing a state in which a user (operator) wears a portable cooler according to the present invention and receives cool air;
13 is an exemplary view showing a state in which a user (operator) wears a portable cooler according to the present invention to receive warm air.

In the present invention, condensed water is hardly generated, so it is possible to prevent the work clothes from getting wet, and it is possible to provide continuous cool air without changing the configuration, and it is light in weight so that the user can work comfortably after wearing it. a thermoelectric element that absorbs heat to form a low-temperature portion and heats the other surface to form a high-temperature portion; A plurality of heat dissipation plates formed in the form of plates are stacked in the vertical direction at a predetermined interval, the first heat dissipation member is provided on the other surface side of the thermoelectric element to receive heat from the other surface of the thermoelectric element to discharge; a second heat dissipation member including a plurality of vertically erected heat dissipation fins and provided on one surface side of the thermoelectric element to receive and discharge cold air from one surface of the thermoelectric element; and a cold air dissipating fan provided adjacent to the second heat dissipating member and generating wind toward the second heat dissipating member to pass between the plurality of heat dissipating fins. We propose a portable cooler characterized in that the cooling air is provided to the user through passing through.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

Hereinafter, the portable cooler of the present invention will be described in detail with reference to the accompanying drawings 1 to 13.

The portable cooler of the present invention includes a thermoelectric element 100 , a first heat dissipation member 200 , a second heat dissipation member 300 , and a cooling air dissipation fan 400 as shown in FIGS. 1 to 3 .

One side of the thermoelectric element 100 absorbs heat by power to form a low-temperature part, and the other side heats up to form a high-temperature part. One or a plurality of such thermoelectric elements 100 may be provided. And the first heat dissipation member 200 is provided on the other surface of the thermoelectric element 100, that is, on the high-temperature side, to receive heat from the other surface of the thermoelectric element 100 and to emit it, and a plurality of heat sinks 210 formed in the form of a plate It forms a stacked structure in the vertical direction with a predetermined interval.

The heat sink 210 may be formed in various shapes, but hereinafter, it will be described on the assumption that it is formed in a rectangular shape. In addition, the heat sink 210 may be formed to be smaller than the size of the thermoelectric element 100, but is preferably formed to be larger than the size of the thermoelectric element 100 in order to rapidly dissipate heat from the high temperature side of the thermoelectric element 100. . Accordingly, it is preferable that the thermoelectric element 100 is provided in the central portion of the heat sink 210 having a rectangular shape larger in size than the thermoelectric element 100, but in consideration of the size and arrangement of other components of the present invention to be described later. It may be provided slightly biased from the center to one side.

The second heat dissipation member 300 is provided on one surface of the thermoelectric element 100, that is, on the low temperature side, and receives and emits cold air from one surface of the thermoelectric element 100, and includes a plurality of vertically erected heat dissipation fins 310. . At this time, the bottom surface of the second heat dissipation member 300 may be formed smaller than the size of the thermoelectric element 100 , but the size of the thermoelectric element 100 in order to rapidly discharge cold air from the low temperature side of the thermoelectric element 100 . It is preferable to be formed larger.

In addition, the heat dissipation fin 310 may be formed in various forms such as a vertically erected fin form, but in consideration of an efficient aspect, it forms a plate form as shown in FIGS. 1 and 2 and is in contact with one surface of the thermoelectric element 100 . It is preferable to extend upward from the bottom surface. A plurality of such heat dissipation fins 310 are formed side by side while being spaced apart from each other by a predetermined interval, and thus have a flow path through which air can pass between the plurality of heat dissipation fins 310 .

The cold air dissipating fan 400 is provided adjacent to the second heat dissipating member 300 to generate wind toward the second heat dissipating member 300 to pass between the plurality of heat dissipating fins 310 . That is, the wind generated by the cold air discharging fan 200 becomes cold air through the second heat dissipation member 300 that receives the cold air from the thermoelectric element 100 and is provided to the user. It is preferable that the cooling air discharging fan 400 is configured as a turbo fan so that the cold air transmitted to the second heat dissipating member 300 can be more effectively discharged to the outside.

As such, the present invention uses the thermoelectric element 100 to form cold air, so that condensed water is hardly generated to prevent wet work clothes, and there is no configuration that requires periodic replacement like a conventional ice pack, so it is convenient It can continuously provide cool air, and since it is light in weight, the user can comfortably work while wearing the present invention.

Meanwhile, the first heat dissipation member 200 may further include a heat conduction plate 220 provided in the heat dissipation plate 210 as shown in FIGS. 1 to 7 . Specifically, the heat conduction plate 220 is made of a material capable of conducting heat, and is formed in a plate shape having a size larger than that of the thermoelectric element 100 and smaller than the heat sink 210 , and is formed between the plurality of heat sinks 210 . provided At this time, it is preferable that the heat conduction plate 220 be provided side by side on the same line including the point where the thermoelectric element 100 is provided, so that heat is transferred between the heat sinks 210 more quickly.

In addition, the heat conduction plate 220 may be provided not only between the plurality of heat sinks 210 , but also on the outer surface of one heat sink 210 adjacent to the thermoelectric element 100 . The thermoelectric element 100 may be provided so that the other surface directly contacts the one heat sink 210 , but due to the characteristics of the thermoelectric element 100 forming both the low temperature part and the high temperature part, the influence of the heat sink 210 in forming the low temperature part is minimized. A heat conduction plate 220 is provided between the thermoelectric element 100 and one heat dissipation plate 210 . Accordingly, the low-temperature portion formed on one surface of the thermoelectric element 100 may have a lower temperature.

And as shown in FIGS. 3 to 6 , the first heat dissipation member 200 may further include a heat dissipation fan 600 installed to pass through the plurality of heat dissipation plates 210 . Accordingly, the plurality of heat dissipation plates 210 may have a fan installation hole through which the heat dissipation fan 600 can be fitted and fixed at the same point in the vertical direction.

One or a plurality of heat dissipating fans 600 may be provided, but it is preferable to provide a plurality of heat dissipating fans so that the heat transferred to the heat dissipation plate 210 can be rapidly discharged to the outside. In addition, the plurality of heat dissipation fans 600 may be arranged in various ways, and for example, as shown in FIG. 7 , some are provided at one edge of the heat sink 210 to wind toward the other end of the heat sink 210 . and the other part is provided so as to be biased toward the other end of the heat sink 210 to blow out the wind toward one side of the heat sink 210 .

The arrangement of the heat dissipating fan 600 and the direction of wind as shown in FIG. 7 are in consideration of the direction of the cooling air to be provided to the user by the cooling air discharging fan 400, and provided at one edge of the heat dissipation plate 210 The heat release fan 600 is provided to blow out the wind in the opposite direction to the direction in which the cold air is provided. In addition, the heat dissipation fan 600 provided to be biased toward the other end of the heat dissipation plate 210 is provided on the lower side of the heat conduction plate 220 when viewed with reference to FIG. It is preferable that at least one of the heat sinks 210 is disposed on the edge of the heat sink 210 and is provided to be biased toward the other side of the heat sink 210 so that the heat in one direction is discharged more quickly.

On the other hand, the present invention is provided on the outside of the two heat sinks 210 located at the outermost of the plurality of heat sinks 210 as shown in FIGS. 1 to 6 , respectively, to block the heat transmitted to the heat sink 210 . It may further include a first heat blocking plate 510 and a second heat blocking plate 520 .

The first heat shield plate 510 is provided on the outside of one heat sink 210 adjacent to the thermoelectric element 100, and an installation hole 511 corresponding to the heat conduction plate 220 so that the heat conduction plate 220 is located inside. is formed, and the cooling air discharging fan 400 is provided on the upper surface adjacent to the installation hole 511 . Accordingly, the first heat blocking plate 510 may block the transfer of heat upward when viewed with reference to FIG. 4 except for the portion provided with the heat conduction plate 220 in contact with the other surface of the thermoelectric element 100 , it is possible to prevent overheating of the cold air discharging fan 400 due to heat, and it is possible to prevent the temperature of the cold air formed by the cold air discharging fan 400 from rising.

In addition, the second heat shield plate 520 can block the transfer of heat downward when viewed with reference to FIG. 4 , and the thermoelectric element 100 and the cold air release fan 400 are located below the second heat shield plate 520 . ), when the battery 30 capable of supplying power to the heat dissipation fan 600 is provided, it is possible to prevent the battery 30 from being overheated by the heat. In addition, when the present invention is worn as shown in FIG. 12 , since the second heat shield 520 is adjacent to the user's body, direct heat is prevented from being transmitted to the user.

On the other hand, in the present invention, as shown in FIGS. 1 to 3 and 8 to 12 , a thermoelectric element 100 , a first heat dissipation member 200 , a second heat dissipation member 300 , and a cooling fan 400 ) It may further include a case 700 formed so that the configuration of the present invention described above is accommodated inside.

In the case 700, a heat dissipation hole 710 is formed through the sidewall surrounding the sidewall of the first heat dissipation member 200, and the heat transferred to the first heat dissipation member 200 is formed in the sidewall ( 710) may be emitted to the outside. In addition, the case 700 is a first train to accommodate the second heat dissipation member 300 and the cold air discharging fan 400 provided to protrude from the upper side of the first heat blocking plate 510 when viewed with reference to FIG. 2 . An upper surface protruding from a plane covering the end plate 510 may be formed. An inlet hole 720 through which external air flows into the cold air discharging fan 400 may be formed in a portion in which the cooling air discharging fan 400 is accommodated inside of the upper surface of the case 700 .

In addition, an outlet 730 may be formed on the opposite side of the protruding upper surface of the case 700 where the cooling air discharging fan 400 is provided with respect to the second heat dissipating member 300 . The cold air formed by the cold air discharging fan 400 and the second heat dissipating member 300 through the outlet 730 may be discharged to the outside of the case 700 . In addition, one or a plurality of outlets 730 may be formed, and the hose 20 may be coupled to the outlet 730 as shown in FIG. 9 . Here, the hose 20 is formed to have a predetermined length, and as shown in FIG. 12 , when the user wears the present invention on the waist, the hose 20 is positioned on the user's upper body, so that cold air is provided to the user make it possible At this time, the hose 20 is preferably located inside the user's work clothes.

10, the case 700 has a belt insertion hole 740 into which the belt 10 that can be worn on the user's waist can be inserted, and the battery 30 that can be accommodated on the bottom surface. The part 750 may be formed to protrude. The belt insert 740 is preferably formed on the side where the heat dissipation fan 600 provided on the edge of one end of the heat dissipation plate 210 is installed. , as shown in FIG. 12 , it is possible to prevent heat from being emitted toward the user's upper body.

On the other hand, the portable cooler (A) of the present invention can provide cold air to the user as described above to protect the user from heat, and also provide warm air to the user in a cold environment/situation such as winter. In this case, the case 700 is worn to be located within the user's work clothes, and power is applied to the thermoelectric element 100 to form a low-temperature part and a high-temperature part while driving the heat-dissipating fan 600 to the heat-dissipating fan 600 . As the wind passes through the first heat dissipating member 200 , it becomes warm air and may be provided to the user.

At this time, the hose 20 is connected to the outlet 730 through which the cold air is discharged to the outside, and the hose 20 is brought out of the user's work clothes, and the second heat dissipation member 300 received from the low temperature part of the thermoelectric element 100 . of the cold air to the outside. Here, since the cooling air discharging fan 400 is located in the user's work clothes, it is preferable not to drive the cooling air discharging fan 400 .

A: portable cooler
10: belt 20: hose
30: battery
100: thermoelectric element
200: first heat dissipation member 210: heat dissipation plate
220: heat conduction plate
300: second heat dissipation member 310: heat dissipation fin
400: cooling fan
510: first heat barrier plate 511: installation hole
520: second heat barrier plate
600: heat release fan
700: case 710: heat release hole
720: inlet hole 730: outlet
740: belt insert 750: battery receiving part

Claims (5)

a thermoelectric element 100 that absorbs heat on one side by power to form a low-temperature part and the other surface heats up to form a high-temperature part;
A plurality of heat dissipation plates 210 formed in a plate shape are stacked in the vertical direction at predetermined intervals, and are provided on the other surface side of the thermoelectric element 100 to receive and release heat from the other surface of the thermoelectric element 100 . member 200;
a second heat dissipation member 300 including a plurality of vertically erected heat dissipation fins 310 and provided on one surface side of the thermoelectric element 100 to receive and discharge cold air from one surface of the thermoelectric element 100 ; and
Including,;
The wind generated by the cold air discharging fan 400 passes through the second heat dissipation member 300 and becomes cold air and is provided to the user,
The first heat dissipation member 200 is formed in the form of a plate having a size larger than that of the thermoelectric device 100 and smaller than the heat dissipating plate 210, and is adjacent to the thermoelectric device 100 including between the plurality of heat dissipating plates 210). The portable cooler further comprising a heat conduction plate 220 provided on the outer surface of one heat sink 210 to quickly transfer heat from the other surface of the thermoelectric element 100 to each heat sink 210 . According to claim 1,
A first heat shield plate 510 and a second heat shield plate 520 for blocking the heat transferred to the heat sink 210 are provided on the outside of the two heat sinks 210 located on the outermost side among the plurality of heat sinks 210 . Each is provided,
The first heat shield plate 510 provided on the outside of one heat sink 210 adjacent to the thermoelectric element 100 has an installation hole 511 corresponding to the heat conduction plate 220 so that the heat conduction plate 220 is located inside. is formed, and the cooling air discharging fan (400) is provided on an upper surface adjacent to the installation hole (511). According to claim 1,
The thermoelectric element 100, the first heat dissipation member 200, the second heat dissipation member 300, and a case 700 formed so that the cooling fan 400 is accommodated therein is further included,
In the case 700, a hot air release hole 710 for discharging heat is formed through a side wall surrounding the side surface of the first heat dissipating member 200, and a cool air release fan 400 is accommodated therein. An inlet hole 720 for introducing external air is formed through the inside, while the cold air is discharged to the outside of the case 700 on the opposite side where the cold air discharging fan 400 is provided with respect to the second heat dissipation member 300 . Portable cooler, characterized in that the outlet 730 is formed. According to claim 1,
The first heat dissipation member 200 is provided with a plurality of heat dissipation fans 600 installed to pass through the plurality of heat dissipation plates 210,
A portion of the plurality of heat dissipation fans 600 is provided on the edge of one end of the heat sink 210 to blow out wind toward the other end of the heat sink 210 , and the other portion is biased toward the other end of the heat sink 210 . Portable cooler, characterized in that it is provided to blow out the wind toward one side of the heat sink (210). delete

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