KR101743070B1 - Cooling gloves - Google Patents

Abstract

A cooling glove comprising a conductor and a thermoelectric element is disclosed.
The cooling glove includes a thermoelectric element that absorbs heat or generates heat. The thermoelectric element can cause endothermic reaction to generate cold heat. The cool heat of the thermoelectric element can be transmitted to the cooling glove by a plurality of conductors. The cooling glove includes a plurality of conductors, and the plurality of conductors are arranged in various shapes according to the shape of the cooling glove. Further, the plurality of conductors are entirely or partly enclosed by the gel.
Accordingly, the cooling glove provided with the conductor and the thermoelectric element can cool the cooling glove due to the cold heat generated due to the heat absorption of the thermoelectric element.

Description

{COOLING GLOVES}

The present invention relates to a cooling glove, and more particularly, to a cooling glove having a conductor and a thermoelectric element.

In general, gloves are used to protect human hands or to warm them. Accordingly, the types of gloves include sports gloves, work gloves, household gloves, and winter gloves. In addition, these gloves are equipped with the function of protecting the hand of a person and the function of maintaining the human body temperature. More specifically, a cold winter person's hand may freeze due to cold weather even if the person uses the glove while wearing the glove. Therefore, the glove may be equipped with a cold function to prevent this.

However, sports gloves or work gloves are not only worn by people in the cold winter season, but they can also be worn to protect their hands during the hot summer months. However, when a person wears sports gloves or work gloves during the hot summer months, the temperature of the skin will rise because the heat of the hands can not be discharged. As a result, the amount of blood to the peripheral skin increases in order to lower the temperature of the human body. However, when exercising or working, enough blood must be sent to the muscles. As the amount of blood to the peripheral skin increases, the amount of blood to the muscles decreases. Therefore, muscle contraction is lowered, and fatigue phenomenon is caused by accumulation of lactic acid, which is fatigue substance in muscles. Accordingly, it is necessary to add a cooling function to the gloves to lower the body temperature of the user by operating the cooling function when the user's body temperature is raised.

One aspect of the present invention provides a cooling glove provided with a conductor and a thermoelectric element.

According to one aspect of the present invention, there is provided a thermoelectric device which is disposed at one side of a cooling glove to generate cold heat, a conductive cover which is disposed in accordance with the shape of the cooling glove and is connected to the thermoelectric element, And a gel surrounding the conductor.

The thermoelectric element, the conductor and the gel are disposed between an inner skin and an outer skin of the cooling glove, and the cooling glove may be a finger glove or a mittress.

The thermoelectric element is connected to a power supply unit. The power supply unit is formed inside the cooling glove and is formed on the outside of the cooling glove. The power supply unit supplies power to the thermoelectric element The thermoelectric element can be operated.

In the finger glove, the conductor is divided into a plurality of pieces from the thermoelectric element and arranged in the direction of the finger portion of the finger glove, and at least one conductor may be disposed in the finger portion.

The conductor may be arranged in a spiral shape in which a finger portion of the finger glove is wound.

The mitts may be arranged such that the conductor is divided into a plurality of portions from the thermoelectric element and directed toward the thumb or finger pocket portion of the mitten, and at least one conductor may be disposed in the thumb or finger pocket portion .

The conductor may be arranged in a spiral shape in a shape that winds the thumb or finger pocket portion of the mitten.

Wherein the finger glove is formed such that both ends of the conductor are connected to the thermoelectric element and a plurality of conductors are divided from the conductor connected to the thermoelectric element and arranged in the direction of the finger portion of the finger glove, And at least one of the plurality of conductors may be disposed on the first electrode.

The conductor may be arranged in a spiral shape in which a finger portion of the finger glove is wound.

The mitts are arranged such that both ends of the conductor are connected to the thermoelectric elements and a plurality of conductors are divided from the conductors connected to the thermoelectric elements and arranged in the direction of the thumb or finger pocket portion of the mitant And at least one of the plurality of conductors may be disposed in the thumb portion or the finger pocket portion.

The conductor may be arranged in a spiral shape in a shape that winds the thumb or finger pocket portion of the mitten.

Wherein the finger glove is arranged such that the conductor is connected to the thermoelectric element and one side and the other side, the conductor is disposed along the shape of the finger glove,

And may pass through at least a portion of the finger portion of the finger glove.

Wherein the conductor is disposed such that the conductor is connected to the thermoelectric element at one side and the other side, the conductor is disposed along the shape of the mitten, at least one portion of the thumb or finger pocket portion of the mitten Can pass.

According to one aspect of the present invention, by using a cooling glove provided with a conductor and a thermoelectric element, the heat of the human hand can be easily discharged and the temperature of the human body can be lowered. Therefore, the amount of blood to the muscles increases, the muscle contraction force increases, and lactic acid, which is an intramuscular fatigue substance, can be prevented from being easily accumulated.

FIGS. 1A and 1B are views showing a cooling glove according to an embodiment of the present invention.
FIGS. 2A and 2C illustrate a cooling glove according to another embodiment of the present invention.
3A and 3B illustrate a cooling glove according to another embodiment of the present invention.
4A to 4B are views showing a cooling glove according to another embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

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

Figs. 1A to 4C are views showing cooling gloves according to different embodiments of the present invention. Fig.

Referring to FIGS. 1A to 4C, the cooling glove may be divided into a finger glove 100a and a mitigate glove 100b. The cooling glove may include the inner skin 110 and the outer skin 120. A gel 130, a gel 140, a gel cover 150 and a thermoelectric element 160 may be provided between the inner skin 110 and the outer skin 120 of the cooling glove. The gel cover 150 may cover the conductor 130 and the gel 140 may be formed between the gel cover 150 and the conductor 130.

The thermoelectric element 160 utilizes heat absorption or heat generation by the Peltier effect. The thermoelectric element 160 generates cold heat by an endothermic reaction to cool the cooling glove. The thermoelectric element 160 is connected to the conductor 130 so that the cool heat of the thermoelectric element 160 can be conducted to the conductor 130. The cooling heat of the thermoelectric element 160 is conducted to the conductor 130 so that the cooling glove can be cooled by the thermoelectric element 160 and the conductor 130.

The surface of the conductor 130 can be surrounded by the gel 140 by the gel cover 150. That is, the gel 140 may be formed between the gel cover 150 and the conductor 130. At this time, the gel 140 may include a heat storage function to sustain the cooling effect due to the cold of the conductor 130. Accordingly, the gel 140 may include a polymer, but it is needless to say that the gel 140 may be any material that is applied to a hot pack or the like other than a polymer. In addition, the gel cover 150 protects the gel 140 from being discharged to the outside, and it is needless to say that all cover materials applied to the hot and warming pack can be used.

The thermoelectric element 160 may include a power switch 170. In addition, the thermoelectric element 160 may be connected to the power supply unit 180. At this time, the power switch 170 may be formed inside the cooling glove, but it may be formed outside. In addition, the power supply unit 180 may be formed inside the cooling glove, but may include a surface exposed to the outside when the cooling glove is formed inside the cooling glove. In addition, the power supply unit 180 may be formed outside the cooling glove. The thermoelectric element 160 is supplied with power from the power supply unit 180 and can be operated according to the operation of the power switch 170. The thermoelectric element 160 may operate when the power switch 170 is turned on and may not operate when the power switch 170 is turned off. At this time, the thermoelectric element 160 may be located at the back of the cooling glove, but its position is not limited. In addition, the thermoelectric element 160 may be located at the wrist portion of the cooling glove, but its position is not limited.

In each of the embodiments described below, a cooling glove is divided into a finger glove 100a and a mitigate glove 100b. At this time, it is noted that the finger glove 100a and the mitten glove 100b can be described by dividing the region of the glove. The finger glove 100a can be divided into two parts and described. The finger glove 100a may be referred to as a finger portion. The portion of the finger glove 100a where the back of the hand is located can be referred to as the back of the hand. The mitten 100b can be divided into three parts. The part where the thumb is located in the mitt glove 100b may be referred to as a thumb part. In addition, the portion of the finger other than the thumb may be referred to as a finger pocket. In addition, the portion where the back of the hand is located can be referred to as a portion of the back of the hand.

In each of the embodiments described below, the shapes of the conductors 130 may be different depending on the shapes of the finger gloves 100a and the mitt gloves 100b. At this time, a plurality of conductors 130 may be formed on the finger glove 100a and the mitral 100b, and at least one of the conductors 130 may be connected to the thermoelectric device 160. At least one of the conductors 130 may be connected to the thermoelectric element 160 at one side so that the cool heat of the thermoelectric element 160 may be conducted.

FIGS. 1A and 1B are views showing a cooling glove according to an embodiment of the present invention.

Referring to FIGS. 1A and 1B, the finger glove 100a or the mitten 100b may include a plurality of conductors 130. FIG. The conductor 130 may be divided into a plurality of parts from the thermoelectric element 160. One side of the conductor 130 is connected to the thermoelectric element 160 so that cold heat can be conducted. The conductor 130 may be wrapped with a gel cover 150 and a gel 140 may be formed between the conductor 130 and the gel cover 150.

1A, a plurality of conductors 130 may be formed so as to be divided from the thermoelectric element 160 and disposed on a finger portion of the finger glove 100a.

Referring to FIG. 1B, the plurality of conductors 130 may be divided from the thermoelectric element 160 to be disposed in the thumb or fingernail portion of the mitten 100b.

2A to 2C are views showing a cooling glove according to another embodiment of the present invention.

FIGS. 2A to 2C are views in which the conductors 130 of FIGS. 1A and 1B are spirally wound around the finger glove 100a or the mittens 100b.

Referring to FIG. 2A, the plurality of conductors 130 may be divided from the thermoelectric element 160 and disposed on the finger portion of the finger glove 100a. The plurality of conductors 130 may be formed into a spiral shape in such a manner that a finger portion of the finger glove 100a is wound.

Referring to FIG. 2B, the plurality of conductors 130 may be divided from the thermoelectric element 160 to be disposed in the thumb or finger pocket portion of the mitten 100b. The plurality of conductors 130 may be formed in a spiral shape in the form of winding a thumb portion or a finger pocket portion of the mitten 100b.

2C is a view showing the left side of the finger glove 100a or the mitten 100b shown in Figs. 2A and 2B.

3A and 3B illustrate a cooling glove according to another embodiment of the present invention.

Referring to FIGS. 3A and 3B, the finger glove 100a or the mitten 100b may be provided with a plurality of conductors 130. FIG. At least one of the plurality of conductors 130 may be formed on the back of the finger glove 100a or the glove 100b. The conductor 130 formed on the back of the hand can be connected to the thermoelectric element 160. Both ends of the conductor 130 formed on the back of the hand can be connected to the thermoelectric element 160. One side and the other side of the conductor 130 formed on the back of the hand can be connected to the thermoelectric element 160 so that the cool heat of the thermoelectric element 160 can be conducted. A plurality of conductors 130 may be divided from the conductor 130 formed on the back of the hand. The conductor 130 may be wrapped with a gel cover 150 and a gel 140 may be formed between the conductor 130 and the gel cover 150. Here, the conductor 130 formed on the back of the hand may be formed in a circular or rectangular shape, but it is not limited thereto.

Referring to FIG. 3A, a plurality of conductors 130 may be divided from a conductor 130 formed on the back of a hand. The plurality of conductors 130 may be formed along at least one of the finger portions of the finger glove 100a.

Referring to FIG. 3B, a plurality of conductors 130 may be divided from the conductor 130 formed on the back of the hand. The plurality of conductors 130 may be formed along at least one of the thumb or finger pocket portions of the mitten 100b.

4A and 4B are views showing a cooling glove according to another embodiment of the present invention.

Referring to FIGS. 4A and 4B, the finger glove 100a or the mitten 100b may include a plurality of conductors 130. FIG. The plurality of conductors 130 may be connected to the thermoelectric elements 160. Both ends of the plurality of conductors 130 may be connected to the thermoelectric elements 160. One side and the other side of the plurality of conductors 130 are connected to the thermoelectric element 160 so that cold heat can be conducted. The plurality of conductors 130 may be connected to the thermoelectric element 160 to form the shape of the finger glove 100a or the mitten 100b. The conductor 130 may be wrapped with a gel cover 150 and a gel 140 may be formed between the conductor 130 and the gel cover 150.

Referring to FIG. 4A, a plurality of conductors 130 may be formed along the shape of the finger glove 100a. The plurality of conductors 130 may be formed to pass through at least one of the finger portions of the finger glove 100a.

Referring to FIG. 4B, a plurality of conductors 130 may be formed along the shape of the mitten 100b. The plurality of conductors 130 may be formed to pass through at least one of the thumb or finger pocket portions of the mitten 100b.

In one aspect of the present invention, when the conductor 130 is formed on the finger glove 100a, at least one conductor 130 may be disposed on the finger portion of the finger glove 100a. Further, it is needless to say that the conductor 130 may be formed to reach the end of the finger portion of the finger glove 100a, but it is not limited thereto and may be formed only to a part of the finger portion.

In another aspect of the present invention, when the conductor 130 is formed in the mittening glove 100b, at least one of the conductors 130 may be disposed in the thumb or finger pocket portion of the mitten 100b. Further, it is needless to say that the conductor 130 may be formed to reach the end of the thumb or finger pocket portion of the mitten glove 100b, but it is not limited thereto and may be formed only to a part of the finger portion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

100a: Finger gloves
100b: Mittens
110:
120: envelope
130: conductor
140: Gel
150: Gel cover
160: thermoelectric element
170: Power switch
180: Power supply

Claims (13)

A thermoelectric element disposed at one side of the cooling glove to generate cold heat;
A conductor connected to the thermoelectric element to conduct cold heat of the thermoelectric element; And
A gel covering the conductor by a gel cover,
The gel,
And a cooling coil formed between the gel cover and the conductor so as to sustain a cooling effect due to the cold of the conductor,
The cooling glove may be a finger glove or a mittress glove,
Wherein the finger glove comprises:
Both ends of the conductor are formed to be connected to the thermoelectric elements,
A plurality of conductors are divided from the conductor connected to the thermoelectric element and disposed in the direction of a finger portion of the finger glove,
Wherein at least one of the plurality of conductors is disposed on the finger portion,
The mittress,
Both ends of the conductor are arranged to be connected to the thermoelectric element,
A plurality of conductors are divided from the conductor connected to the thermoelectric element and arranged in the direction of the thumb or finger pocket portion of the mitten,
Wherein at least one of the plurality of conductors is disposed in the thumb or finger pocket portion. The method according to claim 1,
The thermoelectric element, the conductor and the gel,
Wherein the cooling glove is disposed between the inner skin and the outer skin of the cooling glove. 3. The method of claim 2,
The thermoelectric element is connected to a power supply,
Wherein the power supply unit is formed inside the cooling glove and is formed on the outside of the cooling glove,
Wherein the thermoelectric element is operated when power is supplied by the power supply unit. delete The method according to claim 1,
The conductor,
Wherein the finger glove is arranged in a spiral shape in which a finger portion of the finger glove is wound.
delete The method according to claim 1,
The conductor,
Wherein the glove is disposed in a spiral shape such that the thumb or finger pocket portion of the glove is wound.
delete delete delete delete 3. The method of claim 2,
Wherein the finger glove comprises:
The conductor is arranged so that one side and the other side of the conductor are connected to the thermoelectric element,
The conductor is arranged along the shape of the finger glove,
Wherein at least one part of the finger portion of the finger glove passes through the cooling glove. 3. The method of claim 2,
The mittress,
The conductor is arranged so that one side and the other side of the conductor are connected to the thermoelectric element,
The conductor is disposed along the shape of the mittress,
Wherein at least one part of the thumb or fingernail of the mittress passes through the glove.

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