KR20210019923A - Chair with heat sink - Google Patents

Abstract

The present invention relates to a chair having a radiation plate. According to the present invention, since a plurality of thermoelements are installed in a row on the base side of a radiation plate having a size sufficiently large for a number of people to sit while providing good thermal conductivity, wherein the thermoelements are installed alternately as cooling-only and heating-only thermoelements, only the cooling-only thermoelements are used in the summer, whereas only the heating-only thermoelements are used in the winter, wherein the cooling-only thermoelements are equipped with a heat sink to reduce the temperature of a heating part and prevent a deterioration in cooling efficiency. To this end, in regard to a chair, having a radiation plate including a body having a length sufficiently long for a number of people to sit while providing a space part therein, including a radiation plate laid in an upper part of the body to provide a seat, and including a plurality of thermoelements provided in the radiation plate, the radiation plate comprises an aluminum plate having good thermal conductivity, and directly covers the open upper part of the body such that the space part can be covered; a plurality of thermoelements exposed to the space part are arranged in a row on the base side of the radiation plate, while being installed alternately at a distance from each other as cooling-only thermoelements operated only in the summer and heating-only thermoelements operated only in the winter; the cooling-only thermoelements have a heat sink installed on a heating surface heated up to 90°C and the heating-only thermoelements have a plate-shaped radiation part installed on a cooling surface cooled down to -1°C to 2°C; and vents for introducing and discharging outside air into the space part are formed on both sides of the body such that the outside air can be circulated into the space part when the heat sink is operated in the summer, and the temperature of the space part can be lowered due to the cooling of the radiation plate.

Description

Chair with heat sink {Chair with heat sink}

The present invention relates to a chair having a heat sink, and more specifically, a plurality of thermoelectric elements are installed in a row on the underside of a heat sink having a good thermal conductivity and a size that can seat several people, but are divided into cooling only and heating only and installed alternately. , The cooling-only thermoelectric element lowers the temperature of the heat generating unit with a heat sink, and the hot air generated at this time relates to a chair having a heat dissipation plate so that the temperature is lowered at the bottom of the heat dissipation plate.

In general, long chairs installed in public places are installed outdoors so that people can sit and take a rest, and each local government has a tendency to install various types of chairs to provide rest spaces at parks or bus stops. However, the existing chairs have a problem that the seats are hot in the summer when the temperature is very high, and the seats are very cold in the winter when the temperature is very low, especially at night.

In view of this, conventional patent No. 191929936 proposes a cold wind bench that cools the cooling block with a thermoelectric element that produces a Peltier effect, and supplies wind to the surface of the cooling pipe through which the refrigerant circulates to discharge the cold air to the chair. There is a bar.

However, the conventional patent requires a cooling pipe and a refrigerant to generate cold air, and a pump to circulate the refrigerant is complex, so the structure is complex, and high heat is generated from the opposite side while cooling is performed in the thermoelectric element, and the structure is air cooled by blowing outside air. Therefore, there is a problem in that the heat dissipation function is lowered in the hot season when the outside temperature increases in summer, and the cooling efficiency is relatively lowered.

Korean Patent Publication No. 2017-0002952 has proposed a thermoelectric element chair in which a thermoelectric element is installed on a seat plate or a back plate to perform cooling and heat operation according to the ambient temperature.

However, the conventional patent is configured to cool the seat plate in summer and heat it in winter with one thermoelectric element by changing the current direction, but the characteristic of a thermoelectric element in which cooling continues only when high heat generated from the other side is rapidly lowered while one side is cooled in summer. Considering this, there is no configuration such as a heat sink to emit heat, and there is a technical problem such as a decrease in cooling efficiency since there is a limit to lowering heat only by exposure to air.

The present invention was developed in consideration of the problems of the prior art, and an object of the present invention is to install a plurality of thermoelectric elements in a row on the bottom of a heat sink having a good thermal conductivity and a size that can seat several people, but alternately dividing it into cooling only and heating only. By installing, only the cooling-only thermoelectric element is used in summer and only the heating-only thermoelectric element is used in winter, but the cooling-only thermoelectric element has a heat sink to lower the temperature of the heating unit and prevent cooling efficiency from deteriorating. It is to provide a chair with a heat sink.

Another object of the present invention is to allow the bottom surface of the heat sink to be wrapped with a body supporting it, so that the internal temperature of the body is lowered while the heat sink is cooled in summer, and the heat sink is air cooled through the air inside the body relatively lower than the atmosphere. In addition, since the heating-only thermoelectric element does not need to use a heat sink, it is intended to provide a chair having a heat sink with reduced parts.

To this end, the present invention is provided with a body having a space portion therein and a length to which a number of people can sit, and a heat sink for providing a seat placed on the top of the body, and the heat sink includes a heat sink having a plurality of thermoelectric elements. In the chair having, the heat dissipation plate is composed of an aluminum plate having good thermal conductivity, and directly covers the open upper portion of the main body so that the space portion is covered; A plurality of thermoelectric elements exposed to the space are arranged in a row on the bottom of the heat sink, divided into a thermoelectric element exclusively for cooling that operates only in summer and a thermoelectric element exclusively for heating that operates only in winter, and are alternately installed apart from each other; The cooling-only thermoelectric elements have a heat sink installed on a heating surface rising to 90°C, and the heating-only thermoelectric elements are provided with a plate-shaped heat dissipation unit on a cooling surface rising to -1°C to 2°C; Ventilation holes for introducing and outflowing outside air into the space are formed on both sides of the main body, so that when the heat sink is operated in summer, outside air is circulated to the space, and the temperature of the space is lowered by cooling the heat sink.

According to the present invention, a thermoelectric element exclusively for cooling and a thermoelectric element exclusively for heating are alternately installed on the bottom of a heat sink having a size that allows a large number of people to sit. Since high heat is generated, the number of parts can be reduced by installing a heat sink only for the cooling-only thermoelectric element, focusing on the fact that cooling is smooth only when the temperature is rapidly dropped.

In addition, since the heat sink communicates with the inside of the body, the temperature inside the body decreases due to the heat sink cooled in summer, so there is an advantage of lowering the temperature of the hot air generated by the operation of the heat sink, and the heating-only thermoelectric element used in winter While the contact surface is heated, the temperature of the heat sink increases, and the temperature of the opposite surface decreases. However, even if a separate heat sink is not installed, the internal temperature of the body is relatively higher than the atmosphere due to the heating of the heat sink, so that the temperature of the opposite side does not drop rapidly and remains constant, so that the heating efficiency does not decrease.

In addition, the heat-only thermoelectric element has a heat dissipation unit installed on the opposite side to exchange heat with the air inside the main body, and the heat dissipation unit has a function of a partition wall partitioning each heat sink, so that each heat sink when the cooling-only thermoelectric element is operated in summer. There is an advantage in that heat exchange efficiency is improved by operating independently without affecting other adjacent heat sinks, so that hot air generated from the heat sink does not directly flow into other heat sinks.

1 is an exploded perspective view of a chair according to an embodiment of the present invention
2 is an assembled perspective view of a chair according to an embodiment of the present invention
3 is a front cross-sectional view of a chair according to an embodiment of the present invention
Figure 4 is a side cross-sectional view of a chair according to an embodiment of the present invention
5 is a perspective view of a heat sink according to an embodiment of the present invention

1 to 5, the chair according to the embodiment of the present invention is a rectangular parallelepiped and includes a body 10 having a length that can seat at least three people. The main body 10 has an open upper part and an empty space part 11 inside, and protrudes to a height to sit on the ground. A heat dissipation plate 20 covering the open space 11 is provided on an upper end of the main body 10. The heat dissipation plate 20 serves as a seat and is preferably made of an aluminum plate having high thermal conductivity.

The lower surface of the heat sink 20 is provided with a plurality of thermoelectric elements facing the space 11 of the main body 10 at equal intervals. These thermoelectric devices are divided into a cooling-only thermoelectric device 30 that operates only in summer and a heating-only thermoelectric device 40 that operates only in winter, and the cooling-only thermoelectric device 30 and the heating-only thermoelectric device 40 are alternately arranged in a row. They are repeatedly installed apart from each other. The cooling-only thermoelectric element 30 maintains a cooling surface of -1°C to 2°C in contact with the heat sink 20, and the opposite heating surface is raised to 90°C. Therefore, the temperature of the heat dissipation plate 20 drops sharply, but it is difficult if the body temperature of the seated person is too low, so it is preferable to keep it lower than the ambient temperature by 5°C. That is, when the ambient temperature is 30°C, it is preferable to control the cooling-only thermoelectric element 30 such that the surface of the heat sink 20 is maintained at about 25°C.

To this end, the heat sink 20 is provided with a cooling and heat sensor 21 for measuring the surface temperature, and an atmospheric sensor 23 for measuring the ambient temperature around the chair, so that the cooling-only thermoelectric element 30 is ON/OFF is controlled according to. In addition, a heat sink 31 is attached to the heating surface of the cooling-only thermoelectric element 30 that is not in contact with the heat sink 20. The thermoelectric element has a characteristic that a high heat of 90°C is generated on the other heating surface while one cooling surface is cooled, and cooling efficiency is not lowered when the high heat is rapidly radiated. Therefore, the heat sink 31 is provided with a fan 33 and a motor 34 in the center of a cube composed of a cooling fin 32, and a refrigerant pipe 35 filled with a refrigerant is buried in the cooling fin 32, Part of the refrigerant pipe 35 is in contact with the heating surface to release heat.

The heating-only thermoelectric element 40 has a heating surface rising up to 90°C in contact with the heat sink 20 as opposed to the cooling-only thermoelectric element 30, and the cooling surface maintaining -1°C to 2°C on the opposite side is the main body 10 ) To the space (11). The heat sink 20 is provided with a thermal sensor 22 so that it is inconvenient to sit when the temperature continues to rise as the heat sink 20 is in contact with the heating surface, so that the heat sink 20 is provided with a thermal sensor 22 to turn on/off the heating-only thermoelectric element 40 Is controlled. In addition, in the heating-only thermoelectric element 40, the cooling surface is provided with a plate-like heat dissipation part 41 made of an aluminum material to discharge heat to the space part 11 of the main body 10 so that the temperature of the cooling surface is kept constant. The heat sink 20 is heated to 50° C. through the heating surface of the heating-only thermoelectric element 40, so that the space 11 is maintained at 5° C. or more by radiant heat. Therefore, the cooling surface does not interfere with dissipating heat to the space 11 through the heat dissipation part 41.

And the radiating part 41 has an extension part 42 inclined to one side. Since the cooling-only thermoelectric elements 30 are separated and installed in a row on both sides of the heating-only thermoelectric element 40, the extension part 42 divides each heat sink 31 of the two cooling-only thermoelectric elements 30. It is composed of a size that can serve as a bulkhead. Therefore, the hot air generated during the operation of each heat sink 31 in summer collides with the extension part 42 and goes to the bottom of the main body 10, so that it does not affect other neighboring heat sinks 31, reducing cooling efficiency. It doesn't work. In addition, the interior of the body 10 covered with the heat sink 20 being cooled in summer is indirectly cooled by the heat sink 20 so that the temperature is lower than that of the atmosphere. Therefore, since the hot air generated by the operation of the heat sink 31 is continuously cooled inside the body 10, the performance of the heat sink 31 is not deteriorated.

In addition, each of the extensions 42 is inclined in one direction or inclined in both directions in the middle of the main body 10. When inclined to both sides, since the hot air generated from each heat sink 31 is split on both sides, a eddy current is generated than when the hot air is continuously circulated to one side, so that the hot air spreads evenly and does not affect each heat sink 31. Have. Reference numeral 12 is a ventilation hole formed on both sides of the main body 10 to inflow and outflow outside air into the space 11.

In the chair according to an embodiment of the present invention configured as described above, since the heat sink 20 on which a seat can be seated directly covers the interior of the body 10, the internal temperature of the body 10 is lower than the atmosphere while the heat sink 20 is cooled in summer There is this. Therefore, since the hot air temperature generated during the operation of the heat sink 31 is lowered, the efficiency of the heat sink 31 is not lowered, so that the surface temperature of the heat sink 20 can be continuously lowered.

In summer, only the cooling-only thermoelectric device 30 is operated. The cooling-only thermoelectric element 30 has a cooling surface of -1°C to 2°C in contact with the bottom surface of the heat sink 20, so that the temperature of the heat sink 20 is continuously lowered. However, if it is too low, it is inconvenient to sit, so the heat sink 20 is maintained at about 5°C lower than the atmosphere. To this end, the temperature difference between the atmospheric sensor 23 and the cooling and heat sensor 21 is compared, so that the cooling-only thermoelectric element 30 is ON/OFF controlled. In addition, since the heating surface of the cooling-only thermoelectric element 30 rises by about 90° C., the temperature of the cooling surface can be kept constant by lowering the heating surface. Therefore, the refrigerant is circulated to the cooling pipe 35 by the operation of the heat sink 31, and the air inside the body 10 is circulated to the cooling fins 32 by the operation of the fan 34 and the motor 33. The temperature decreases.

In addition, an extension part 42 is provided so that the hot air generated by the operation of the heat sink 31 does not directly affect the other adjacent heat sinks 31. The extension part 42 is formed on the heat dissipation part 41 of the heating-only thermoelectric element 40, and the extension part 42 is tilted to one side so that hot air generated by the operation of the heat sink 31 is transmitted to the main body ( Since it is directed to the bottom of 10), hot air does not directly flow into the other heat sink 31. In addition, since each of the extensions 42 is divided on both sides with respect to the center of the main body 10 and directed opposite, there is an advantage in that the temperature is rapidly lowered by spreading more evenly than when hot air is circulated in one direction. In addition, since the heat sink 20 is exposed to the space 11 of the main body 10, the internal temperature of the main body 10 is lowered by the heat sink 20, so it is effective to lower the hot air temperature, and through the ventilation hole 12 Since the outside air is gradually introduced into the space part 11, the space part 11 is not sealed when the heat sink 31 is air-cooled, and the internal air does not become cloudy. In addition, even if outside air is introduced, the outside air temperature is rapidly lowered due to radiant heat due to cooling of the heat sink 20, so that cooling of the heat sink 31 is not impaired.

In winter, only the heating-only thermoelectric element 40 is operated. Since the heating surface of the heating-only thermoelectric element 40 rises to 90° C., the temperature of the heat sink 20 is continuously increased. However, since it is inconvenient to sit if it is too high, the heating-only thermoelectric element 40 is ON/OFF controlled by the thermal sensor 22 to be maintained at about 50°C. In addition, the cooling surface of the heating-only thermoelectric element 40 drops to a temperature of -1°C to 2°C. At this time, the heat dissipation part 41 radiates the temperature into the body 10 to keep the temperature constant. In particular, since the heat dissipation part 41 further includes an extension part 42, heat dissipation efficiency is improved. In particular, since the inside of the main body 10 is indirectly heated by the heat sink 20 to maintain a higher temperature than the atmosphere, it rapidly absorbs the temperature of the heat dissipation part 41 and the extension part 42 to keep the temperature of the cooling surface constant. The efficiency of the heating-only thermoelectric element 40 is improved.

10: main body 11: space
20: heat sink 21: cold heat sensor
22: thermal sensor 23: atmospheric sensor
30: exclusive thermoelectric element for cooling 31: heat sink
40: thermoelectric element for exclusive use of heating 41: radiating part
42: extension

Claims (3)

In a chair having a heat sink having a space portion therein and a body having a length for a plurality of seats, a heat sink provided on the top of the main body to provide a seat, and the heat sink has a heat sink including a plurality of thermoelectric elements,
The heat dissipation plate is composed of an aluminum plate having good thermal conductivity, and directly covers the open upper portion of the main body so that the space portion is covered;
A plurality of thermoelectric elements exposed to the space are arranged in a row on the bottom of the heat sink, divided into a thermoelectric element exclusively for cooling that operates only in summer and a thermoelectric element exclusively for heating that operates only in winter, and are alternately installed apart from each other;
The cooling-only thermoelectric elements have a heat sink installed on a heating surface rising to 90°C, and the heating-only thermoelectric elements are provided with a plate-shaped heat dissipation unit on a cooling surface rising to -1°C to 2°C;
Ventilation holes for introducing and outflowing outside air into and out of the space are formed on both sides of the body, so that the outside air is circulated to the space when the heat sink is operated in summer, and the temperature of the space is lowered by cooling the heat sink. Chair with heat sink. The method of claim 1,
Each heat sink has a fan and a motor installed in the center outside the cooling fins of a rectangular parallelepiped.
A chair having a heat sink, characterized in that a cooling pipe through which a heat medium flows is provided inside the cooling fin, and a part of the cooling pipe is brought into contact with the heating surface. The method of claim 1,
The cooling-only thermoelectric element is ON/OFF controlled by an atmospheric sensor measuring the air temperature and a cooling and heat sensor measuring the temperature of the heat sink so that the heat sink is maintained 5°C lower than the atmosphere;
The heating-only thermoelectric element is a chair having a heat sink, characterized in that ON/OFF control by a heat sensor measuring the temperature of the heat sink so that the heat sink maintains 50°C.

Images