JP2021113371A - Air conditioning unit and garment comprising the same - Google Patents

Abstract

To provide an air conditioning unit which effectively cools or warms the body of a wearer with the use of a Peltier device.SOLUTION: An air conditioning unit 1 for being mounted on a garment 100 has a configuration comprising a Peltier device 17, a metal plate 19 joined to one surface of the Peltier device 17, and a metal heat exchange plate 20 which has a larger area than that of the metal plate 19 and is arranged inside the garment 100 while being joined to the metal plate 19. It is preferable that the heat exchange plate 20 is formed by a cooper plate, a tin plate, or an aluminum plate. Also, it is preferable that a heat sink 15, and a fan 14 for discharging heat of the heat sink 15 to the outside of the garment 100 are provided on the other surface of the Peltier device 17.SELECTED DRAWING: Figure 4

Description

The present invention relates to an air conditioning unit and a garment equipped with the air conditioning unit, and more particularly to a technique for cooling or heating the wearer's body.

Conventionally, there is known a garment with a fan that takes in outside air into the garment by a fan attached to the garment and cools the wearer's body (for example, Patent Document 1). However, since clothes with a fan only send outside air into the clothes, the cooling effect is low when the outside temperature is high, and it cannot be said that the clothes are comfortable.

Further, conventionally, clothes in which the body can be cooled or heated by flowing cold water or hot water through a water channel provided inside the clothes are also known (for example, Patent Document 2). However, in the configuration in which cold water or hot water is allowed to flow inside the clothes, the weight of the clothes is increased, so that there is a drawback that the movement of the wearer becomes slow.

Japanese Patent No. 6201113 Japanese Unexamined Patent Publication No. 2012-161446

By the way, since cooling or heating can be performed by using a Perche element, it is conceivable to attach the element to clothes to cool or heat the inside of clothes. However, since the Pelche element consumes a large amount of power, if a large number of Pelche elements are attached to the inner surface side of the clothes, the power consumption is severe and it cannot be put into practical use. Therefore, when using a Perche element, it is desirable to reduce the number of Perche elements so that the wearer's body can be efficiently cooled or heated.

Therefore, an object of the present invention is to provide an air conditioning unit capable of efficiently cooling or heating the body of a wearer by using a Perche element, and a garment provided with the air conditioning unit.

In order to achieve the above object, firstly, the present invention is an air conditioning unit for being attached to clothes, from a perche element, a metal plate joined to one surface of the perche element, and the metal plate. It also has a large area, and is characterized by including a metal heat exchange plate that is arranged inside the garment in a state of being joined to the metal plate.

Secondly, the present invention is characterized in that, in the air conditioning unit having the first configuration, the heat exchange plate is formed of a copper plate.

Thirdly, the present invention is characterized in that, in the air conditioning unit having the first configuration, the heat exchange plate is formed of a tin plate.

Fourth, the present invention is characterized in that, in the air conditioning unit having the first configuration, the heat exchange plate is formed of an aluminum plate.

Fifth, in the air conditioning unit having any of the first to fourth configurations, the present invention applies heat to a heat sink arranged on the other surface of the Pelche element and heat of the heat sink to the outside of the clothes. The configuration is characterized by further including a fan for discharging.

Sixth, in the air conditioning unit having any of the first to fifth configurations, the present invention covers the surface of the heat exchange plate opposite to the surface of the heat exchange plate facing the human body. The configuration is characterized by further including a heat insulating pad for holding the peripheral edge.

Seventh, in the air conditioning unit having the sixth configuration, the present invention is characterized in that the metal plate is mounted in a hole provided in the heat insulating pad and joined to the heat exchange plate. Is.

Eighth, the present invention is a garment, characterized in that it includes an air conditioning unit having any of the above-mentioned first to seventh configurations.

Ninth, the present invention is characterized in that, in the garment having the eighth configuration, the air conditioning unit is attached to the cloth of the back body of the garment.

Tenth, the present invention includes a controller for controlling the air conditioning unit and a battery for supplying electric power to the air conditioning unit via the controller in the garment having the eighth or ninth configuration. It is a configuration characterized by that.

Eleventh, the present invention is characterized in that, in the garment having the tenth configuration, the controller can switch between cooling and heating by switching the polarity of the current flowing through the Pelche element. Is.

According to the present invention, it is possible to provide an air-conditioning unit capable of reducing power consumption and cooling or heating the wearer's body in a comfortable state while utilizing a Perche element, and such an air-conditioning unit can be provided. Provided clothing can also be provided.

It is a perspective view which shows the air conditioning unit. It is a figure which shows the clothes which attached the air conditioning unit. It is an exploded perspective view which shows the structure of the air conditioning unit. It is sectional drawing which shows the structure of the air conditioning unit. It is a figure which shows the example of the clothes to which the air conditioning unit is attached. It is a figure which shows the control mechanism of an air conditioning unit.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In the embodiments described below, members that are common to each other are designated by the same reference numerals, and duplicate description thereof will be omitted.

FIG. 1 is a perspective view showing the air conditioning unit 1 in the present embodiment, and FIGS. 1A and 1B are views viewed from different directions. FIG. 2 is a diagram showing a garment 100 to which the air conditioning unit 1 is attached. FIG. 3 is an exploded perspective view showing the configuration of the air conditioning unit 1. The air conditioning unit 1 of the present embodiment shown in these drawings is for cooling or heating the body of the wearer of the clothes 100 by performing heat exchange using the Perche element 17. For example, as shown in FIG. 2, the air conditioning unit 1 is attached to the fabric 101 of the back body of the garment 100 to cool or heat the back of the wearer's body. The air conditioning unit 1 is a device that cools or heats a portion from between the scapula of the wearer to the waist.

As shown in FIG. 3, the air conditioning unit 1 mainly includes a fan cover 11, a fan 14, a heat sink 15, a Perche element 17, a holding member 18, a metal plate 19, a heat exchange plate 20, and heat insulation. It is configured to include a pad 30 and a fixed pad 40. In the air conditioning unit 1, the holding member 18 holds the perche element 17.

The perche element 17 is a thin plate element having a substantially rectangular shape, and two different types of metals are arranged on the front surface side and the back surface side, and one of them is formed by passing an electric current through the joint portion of the two types of metals. It is a semiconductor device that utilizes the Perche effect of transferring heat from one metal to the other metal. For example, when a direct current is passed from one metal to the other metal, one surface of the perche element 17 absorbs heat and heat is generated on the other surface. When the polarity of the direct current is reversed, the surface on which the endothermic action and the heat generating action occur is reversed. The air conditioning unit 1 cools or heats the wearer's body in the garment by utilizing the characteristics of the Pelche element 17.

On the surface of the Pelche element 17 corresponding to the outside of the clothes, a heat radiating mechanism for releasing the waste heat heat exchanged by the air conditioning unit 1 to the outside is provided. Specifically, the heat sink 15 is arranged so as to be joined to the surface of the Pelche element 17 corresponding to the outside of the clothes. For example, the periphery of the heat sink 15 is fixed to the holding member 18. The heat sink 15 is provided with a large number of fins 16 on the peripheral portion thereof in order to improve heat exchange efficiency. A fan 14 is arranged further outside the clothes of the heat sink 15. The fan cover 11 is a cover member attached to the peripheral edge of the heat sink 15, and is attached so as to cover the fan 14 and the heat sink 15 on the outside of the clothes 100. The fan cover 11 is provided with an intake window 12 for introducing air into the cover and an exhaust window 13 for discharging the air inside the cover to the outside. For example, the fan cover 11 has a bottomed cylindrical shape, a large number of intake windows 12 are formed on the bottom of the fan cover 11, and a large number of exhaust windows 13 are formed on the peripheral side surface of the fan cover 11.

On the other hand, the surface of the Pelche element 17 corresponding to the inside of the garment is provided with a heat conduction mechanism for efficiently transmitting the cooling or heating effect of the Pelche element 17 to the wearer's body. Specifically, the metal plate 19 is arranged so as to be joined to the surface of the Pelche element 17 corresponding to the inside of the garment. The metal plate 19 is fixed in a state where, for example, its peripheral edge is adhered to the inner surface of the clothes of the holding member 18. The metal plate 19 is attached in a state where one surface thereof is joined to one surface of the Perche element 17, so that the temperature is lowered or raised by the endothermic or heat generating action of the Perche element 17. The metal plate 19 is made of, for example, aluminum metal. Aluminum metal has a relatively high thermal conductivity and is lightweight, so that it is suitable for wearing clothes. However, the metal plate 19 is not limited to the one made of aluminum, and any metal may be used as long as it is a metal exhibiting a relatively high thermal conductivity. For example, the metal plate 19 may be formed by using copper, tin, or the like.

Further, it is preferable to use a metal plate 19 whose area is larger than the area of the Pelche element 17. By joining the metal plate 19 larger than the area of the perche element 17 to one surface of the perche element 17, the perche element 17 can be bonded to substantially the center of one surface of the metal plate 19, and one of the perche elements 17 can be joined. The heat absorbing action or heat generating work generated on the surface can be efficiently transmitted to the metal plate 19.

However, it is not preferable that the area of the metal plate 19 is too large with respect to the area of the Perche element 17. Since the metal plate 19 lowers or rises in temperature as a whole due to the heat absorption or heat generation action of the perche element 17, if the heat capacity of the metal plate 19 becomes too large, the perche element 17 is loaded and the current consumption of the perche element 17 is increased. Is increased. Therefore, it is preferable that the area of the metal plate 19 is kept at about 1.5 to 4 times the area of the Perche element 17.

The heat exchange plate 20 is a metal plate arranged so as to be joined to the surface of the metal plate 19 corresponding to the inside of the garment. A plate that is placed inside the garment 100 and cools or heats the wearer's body. For example, the heat exchange plate 20 is formed to have a size larger than that of the metal plate 19. Therefore, the heat capacity of the heat exchange plate 20 is larger than that of the metal plate 19. Further, the heat exchange plate 20 is formed by using, for example, a copper plate, a tin plate, an aluminum plate, or the like.

For example, when a copper plate is used as the heat exchange plate 20, the heat conductivity is relatively high, so that heat exchange can be performed efficiently. In this case, the heat exchange plate 20 uses, for example, a copper plate having a thickness of about 0.3 to 0.8 mm as a base material, and as shown in FIG. 3, the plate surface (front surface and back surface) excluding the joint portion 21 to be joined to the metal plate 19. It is preferable to use a tin-plated 22 (including both of the above). By setting the plate thickness to about 0.3 to 0.8 mm, it is possible to obtain an appropriate hardness for clothing. Further, since copper is easily oxidized, oxidation can be prevented by plating the plate surface with tin 22. Further, by not providing the tin plating 22 at the joint portion 21 with the metal plate 19, the heat absorbed from the human body of the wearer can be efficiently conducted to the metal plate 19.

Further, for example, when a tin plate is used as the heat exchange plate 20, it is softer than copper or aluminum, so that there is an advantage that the adhesion to the wearer's body is increased. In this case, the heat exchange plate 20 uses, for example, a tin plate having a thickness of about 0.5 to 1.0 mm as a base material, and the plate surface (including both the front surface and the back surface) excluding the joint portion 21 to be joined to the metal plate 19. It is preferable to use one plated with silver or copper 22. By setting the plate thickness to about 0.5 to 1.0 mm, it is possible to obtain appropriate hardness for clothing. Further, since tin has a lower thermal conductivity than copper, the low thermal conductivity can be significantly improved by plating the plate surface with silver or copper 22. Further, by not providing the silver or copper plating 22 at the joint portion 21 with the metal plate 19, the heat absorbed from the human body of the wearer can be efficiently conducted to the metal plate 19.

Further, for example, when an aluminum plate is used as the heat exchange plate 20, for example, an aluminum plate having a thickness of about 0.5 to 0.8 mm is used as a base material. The aluminum plate in this case is anodized in advance. Corrosion due to oxidation of aluminum can be prevented by alumite treatment. Further, it is preferable to use an aluminum plate in which the plate surface (including both the front surface and the back surface) excluding the joint portion 21 to be joined to the metal plate 19 is plated with silver 22. Since silver has the highest thermal conductivity among metals, it can efficiently cool or heat the wearer's body.

The heat exchange plate 20 has a substantially inverted T-shape in order to directly or indirectly contact the portion from between the scapulas of the wearer to the waist and to efficiently cool or heat the portion. It has and is formed so that the width of the lower part is wider than the width of the upper part. The width of the upper part is narrow because even if the scapula moves due to the movement of the wearer, the heat exchange plate 20 does not interfere with the scapula of the wearer and does not cause discomfort to the wearer. On the other hand, by making the width of the lower part of the heat exchange plate 20 wider than that of the upper part, it is possible to widely cool or heat the area from the back to the waist of the wearer. The heat exchange plate 20 is not limited to a substantially inverted T-shape, and may be, for example, trapezoidal or triangular.

Further, the heat exchange plate 20 is provided with a hole 23 through which the screw 29 is inserted at the center position of the joint portion 21 to be joined to the metal plate 19. The screw 29 is inserted into the hole 23 from the inside to the outside of the garment, screwed into the screw hole provided on the inner surface of the garment of the metal plate 19, and the heat exchange plate 20 and the metal plate 19 are brought into each other. Fix in the joined state. However, the present invention is not limited to this, and the heat exchange plate 20 and the metal plate 19 may be adhered to each other by an adhesive or the like.

The heat insulating pad 30 is a member that holds the peripheral edge of the heat exchange plate 20 and attaches the air conditioning unit 1 to the clothes 100. The heat insulating pad 30 has substantially the same shape as the heat exchange plate 20 so as to hold the peripheral edge of the heat exchange plate 20. For example, the heat insulating pad 30 is formed in a substantially inverted T shape like the heat exchange plate 20. However, when the heat exchange plate 20 has a shape different from the substantially inverted T shape (for example, a trapezoid or a triangle), the heat insulating pad 30 has a shape suitable for the shape of the heat exchange plate 20.

The heat insulating pad 30 is made of, for example, a silicone resin. Silicone resin is suitable because it has excellent flexibility and heat insulating properties. The back surface side of the heat insulating pad 30 corresponding to the outside of the clothes is covered, and a hole 31 for joining the metal plate 19 to the joint portion 21 of the heat exchange plate 20 is formed on the back surface side thereof. The hole 31 is a hole having substantially the same size as the outer size of the holding member 18. Therefore, the metal plate 19 fixed to the holding member 18 can be joined to the joint portion 21 of the heat exchange plate 20 held by the heat insulating pad 30 through the hole 31. Further, on the back surface side of the heat insulating pad 30, a tubular fixing portion 32 that engages with an engaging projection 42 provided on the fixing pad 40 is provided at three positions, an upper portion and a lower portion.

On the other hand, the front side (inside of clothes) of the heat insulating pad 30 is open so as to expose the heat exchange plate 20 as shown in FIG. 1, and a holding portion for holding the peripheral edge of the heat exchange plate 20 on the peripheral edge thereof. 33 is provided. That is, the heat insulating pad 30 holds the heat exchange plate 20 in a state of covering the peripheral portions on the back surface side and the front surface side of the heat exchange plate 20. By covering the back side of the heat exchange plate 20 corresponding to the outside of the garment, the heat insulating pad 30 satisfactorily absorbs heat from the heat exchange plate 20 toward the wearer's body and can prevent heat exchange loss. ..

The fixing pad 40 is, for example, a resin pad, which is fixed to the fixing pad 40 arranged from the outside of the garment 100 to the inside of the garment 100. The fixing pad 40 is formed in substantially the same shape as, for example, the heat insulating pad 30. The fixed pad 40 is formed with a hole 41 having a size slightly larger than the outer shape of the fan cover 11, and the fan cover 11 is attached so as to project from the fixed pad 40 to the outside of the clothes through the hole 41. Further, on the inner surface of the clothes of the fixing pad 40, the above-mentioned engaging projection 42 is provided at a position corresponding to the fixing portion 32 of the heat insulating pad 30. For example, the fixing pad 40 is fixed to the heat insulating pad 30 by fitting the engaging protrusion 42 into the fixing portion 32 of the heat insulating pad 30. At this time, the clothes 100 are arranged in a state of being sandwiched between the heat insulating pad 30 and the fixing pad 40. As a result, the air conditioning unit 1 is attached to the fabric 101 of the back body of the garment 100 as shown in FIG. Since the engaging projection 42 has a structure in which it is engaged in a state of being fitted into the tubular hole of the fixing portion 32, it is not only easy to install but also easily removed.

FIG. 4 is a diagram showing a cross-sectional structure of the air conditioning unit 1 mounted on the garment 100. The air conditioning unit 1 cools or heats the body 200 of the wearer wearing the garment 100 by supplying a direct current to the perche element 17 and driving the fan 14. When a direct current is supplied to the perche element 17, the perche element 17 causes an endothermic action or a heat generating action on one surface of the wearer facing the body 200. This endothermic action or heat generating action is thermally conducted to the metal plate 19. The heat capacity of the metal plate 19 is smaller than the heat capacity of the heat exchange plate 20. Therefore, the Perche element 17 can efficiently cool or heat the metal plate 19 without increasing the current consumption.

When the temperature of the metal plate 19 is lowered or raised by the endothermic action or heat generating action of the Pelche element 17, the heat is transferred to the heat exchange plate 20 via the joint portion 21. As a result, the temperature of the heat exchange plate 20 drops or rises, and the wearer's body 200 can be directly or indirectly cooled or heated. That is, the Perche element 17 can cool or heat the heat exchange plate 20 via the metal plate 19. In particular, since the heat exchange plate 20 is formed by using a metal having a relatively high thermal conductivity as described above, the heat transferred from the metal plate 19 is relatively efficiently distributed to the entire heat exchange plate 20. It has become. Therefore, the air conditioning unit 1 can efficiently cool or heat a relatively wide range of the wearer's back with one Pelche element 17.

Further, as described above, the Perche element 17 causes an action opposite to the above on the other surface that does not face the body 200 of the wearer. For example, when the body 200 of the wearer is cooled, a heat generating action is generated on the surface of the Pelche element 17 facing the outside of the garment. This heat is endothermic by the heat sink 15. Further, when the fan 14 is driven, external air enters the fan cover 11 from the intake window 12 provided on the fan cover 11 as shown by an arrow F1 as shown in FIG. This air takes heat from the heat sink 15, becomes warm air, and is exhausted from the exhaust window 13 to the outside of the fan cover 11.

Further, when the body 200 of the wearer is heated, a heat absorbing action is generated on the surface of the Pelche element 17 facing the outside of the garment. This heat is also endothermic by the heat sink 15. Then, the air entering the fan cover 11 by the fan 14 takes the heat of the heat sink 15, becomes cold air, and is exhausted from the exhaust window 13 to the outside of the fan cover 11.

The air conditioning unit 1 cools or heats the wearer's body 200 as described above. In particular, when the air conditioning unit 1 is attached to the clothes 100 for the purpose of cooling in the summer, the skin temperature of the body 200 is about 33 ° C., whereas the temperature of the metal heat exchange plate 20 is lower than the skin temperature. There are many. Therefore, when the body 200 swings on the heat exchange plate 20, a certain cool feeling can be given to the wearer. However, the cool feeling obtained at the time of clothing is temporary, and when the Perche element 17 is not driven, the heat exchange plate 20 gradually rises to the same temperature as the skin temperature of the body 200. ..

On the other hand, when the perche element 17 is driven immediately after clothing, the perche element 17 starts to cool the heat exchange plate 20 before the heat exchange plate 20 starts to rise in temperature. Therefore, the temperature above the heat exchange plate 20 can be suppressed. That is, when it is used for the purpose of cooling in summer, the Perche element 17 may absorb the heat of the heat exchange plate 20 so as to suppress the temperature rise of the heat exchange plate 20. Therefore, the above-mentioned air conditioning unit 1 can give a cool feeling to the wearer from the time of wearing without increasing the power consumption of the Pelche element 17, and can maintain the cool feeling for a long time. There are advantages.

The garment 100 to which the air conditioning unit 1 as described above is attached may be summer clothes or winter clothes, but it is preferable that the clothes are worn by the wearer on the outermost side. Further, it is preferable that the garment 100 on which the air conditioning unit 1 is mounted is previously formed with a hole for allowing the fan cover 11 and the engaging projection 42 to pass through. FIG. 5 is a diagram showing an example of such a garment 100. For example, it is preferable that the cloth 101 of the back body of the garment 100 is previously formed with a hole 102 for inserting the fan cover 11 and a hole 103 for penetrating the engaging protrusion 42. Further, as shown by diagonal lines in FIG. 5, the garment 100 is reinforced by using a reinforcing pad or the like to prevent the fabric 101 from being damaged or the garment 100 from losing its shape at the portion where the air conditioning unit 1 is mounted. It is more preferable to arrange the member 110. As shown in FIG. 1, the reinforcing member 110 is arranged between the heat insulating pad 30 and the fixing pad 40. By providing the reinforcing member 110 to the garment 100, it is possible to prevent the fabric 101 on the periphery of the holes 102 and 103, which is loaded by the mounting of the air conditioning unit 1, from being damaged, and the garment 100 can be worn over a long period of time. Can be used. It is also possible to prevent the clothes from losing their shape when the clothes 100 are worn. It is preferable that the reinforcing member 110 has substantially the same shape as the air conditioning unit 1, but if the purpose is to reinforce only the peripheral edges of the holes 102 and 103, the reinforcing member 110 is arranged only on the peripheral edges of the holes 102 and 103. You can do it.

Further, the air conditioning unit 1 as described above can be easily removed from the clothes 100 by removing the engaging projection 42 of the fixing pad 40 from the fixing portion 32 of the heat insulating pad 30. Therefore, it is possible to wash and clean the clothes 100 with the air conditioning unit 1 removed. It is also possible to attach one air conditioning unit 1 to different clothes 100 and use it.

Next, FIG. 6 is a block diagram showing a control mechanism of the air conditioning unit 1. The air conditioning unit 1 described above includes a perche element 17 and a fan 14 as parts that require energization. Therefore, the air conditioning unit 1 includes a controller 5 and a mobile battery 6 as its control mechanism. The mobile battery 6 is, for example, a rechargeable battery that supplies power to the controller 5. The controller 5 drives the perche element 17 and the fan 14 by supplying the electric power supplied from the mobile battery 6 to the air conditioning unit 1. The controller 5 can switch between cooling and heating by switching the polarity of the direct current supplied to the Pelche element 17. However, the direction (rotational direction) for driving the fan 14 does not change regardless of whether it is cooling or heating. Such a controller 5 and a mobile battery 6 are carried in a state of being housed in, for example, a pocket (not shown) provided in the clothes 100.

As described above, the air conditioning unit 1 of the present embodiment has a larger area than the metal plate 19 and the metal plate 19 joined to one surface of the perche element 17 and the metal plate 19, and is joined to the metal plate 19. It is configured to include a metal heat exchange plate 20 arranged inside the garment 100 in the state of being in the state of being. According to such a configuration, the Pelche element 17 exerts a heat absorbing action or a heating action on the metal plate 19 having a heat capacity smaller than that of the heat exchange plate 20, and the heat exchange plate 20 having a large heat capacity is formed through the metal plate 19. The wearer's body 200 can be cooled or heated by cooling or heating. Therefore, it is possible to efficiently cool or heat the wearer's body 200 without increasing the direct current supplied to the perche element 17, and even one perche element can provide sufficient comfort. ..

On the other hand, if the heat exchange plate 20 having a large area is directly bonded to the perche element 17 without providing the metal plate 19, the heat capacity of the heat exchange plate 20 that the perche element 17 tries to cool or heat increases. Since it is large, the DC current to be supplied to the Pelche element 17 inevitably increases, and the power consumption increases, so that there is a problem that the usable time is shortened. As described above, such a problem is solved by interposing a metal plate 19 between the Perche element 17 and the heat exchange plate 20, and the air conditioning unit 1 can be operated for a long time. , It is possible to make the wearer have a comfortable day.

Further, since the heat exchange plate 20 in the present embodiment is arranged in a portion extending from between the shoulder blades of the wearer to the waist (central portion of the back), one Perche element 17 cools a wide range of the wearer's back. Or it can be heated.

Although one embodiment of the present invention has been described above, the present invention is not limited to the contents described in the above-described embodiment, and various modifications can be applied.

For example, in the above embodiment, the air conditioning unit 1 capable of switching between cooling and heating has been described, but the present invention is not limited to this. For example, the air conditioning unit 1 may be a cooling unit or a heating unit.

Further, in the above embodiment, an example in which the air conditioning unit 1 is arranged on the fabric 101 of the back body of the garment 100 has been described. However, the position where the air conditioning unit 1 is attached is not necessarily limited to the back body fabric 101.

1 ... Air conditioning unit, 5 ... Controller, 6 ... Mobile battery, 11 ... Fan cover, 14 ... Fan, 15 ... Heat sink, 17 ... Perche element, 19 ... Metal plate, 20 ... Heat exchange plate, 30 ... Insulation pad, 40 ... Fixed pad, 100 ... Clothes, 110 ... Reinforcing member.

Claims (11)

An air conditioning unit for wearing on clothes
With the Perche element
A metal plate joined to one surface of the Pelche element and
A metal heat exchange plate that has a larger area than the metal plate and is placed inside the garment in a state of being joined to the metal plate.
An air conditioning unit characterized by being equipped with. The air conditioning unit according to claim 1, wherein the heat exchange plate is formed of a copper plate. The air conditioning unit according to claim 1, wherein the heat exchange plate is formed of a tin plate. The air conditioning unit according to claim 1, wherein the heat exchange plate is formed of an aluminum plate. A heat sink arranged on the other surface of the Pelche element,
A fan that dissipates the heat of the heat sink to the outside of the clothes,
The air conditioning unit according to any one of claims 1 to 4, further comprising. A heat insulating pad that holds the peripheral edge of the heat exchange plate so as to cover the surface of the heat exchange plate opposite to the surface facing the human body.
The air conditioning unit according to any one of claims 1 to 5, further comprising. The air conditioning unit according to claim 6, wherein the metal plate is mounted in a hole provided in the heat insulating pad and is joined to the heat exchange plate. A garment comprising the air conditioning unit according to any one of claims 1 to 7. The garment according to claim 8, wherein the air conditioning unit is attached to the fabric of the back body of the garment. A controller that controls the air conditioning unit and
A battery that supplies power to the air conditioning unit via the controller,
The garment according to claim 8 or 9, wherein the garment is provided with. The garment according to claim 10, wherein the controller can switch between cooling and heating by switching the polarity of the current flowing through the Pelche element.

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