JP3184363U - Fever gloves - Google Patents

Abstract

The present invention provides a heat generating glove capable of operating a touch panel smoothly without taking off a glove while having a cold protection effect.
A heat generating glove including an outer glove, an inner glove, a heat generating component, a controller, and a power supply component. The inner glove is coupled to the inner surface of the outer glove by sewing. The five finger wearing parts of the inner glove can be taken out from the outer glove without taking the gloves, the touch parts 211, 221, 231 are provided on the finger wearing part of the inner glove, and the heat generating parts are worn by the five fingers of the inner glove. Install around the part. The controller can be fixed to the outer gloves, and can turn on / off the power of the heat generating component and control the temperature of the heat generating component in several steps. The power supply component controls the flow of current to the heat generating component by the controller. The touch part includes a conductive metal fiber thread.
[Selection] Figure 4

Description

  The present invention relates to the structure of an intelligent heat-generating glove, and in particular, has a structure of two layers of inner and outer layers, and can move quickly without affecting the movement of fingers while having a cold protection effect. In addition, a heat-generating component is provided inside the glove and heat is applied to the hand to enhance the cold protection effect. The present invention relates to a structure of an intelligent heat generating glove that can smoothly operate a touch panel without removing a glove because a touch part is provided on the thumb, index finger, and middle finger of an inner layer glove.

  When you are in a winter or cold environment, your body's blood circulation is relatively slow, and your body temperature tends to drop, making you feel cold. In particular, since the fingers are at the ends of the extremities, blood circulation is worse, and it is most easy to feel unpleasant cold. Such cold discomfort is even more painful for the elderly, the weak, and those who move in extreme cold.

  In order to improve the cold discomfort of the fingers, it is common to wear cold gloves. Conventional gloves are sewn or knitted with leather, artificial leather, fabric and yarn. Wearing conventional gloves can keep your hands warm, but conventional gloves cannot generate heat by themselves, so there is no cold protection effect for the elderly, the weak, or those who work in extremely cold environments It is clear.

  Furthermore, many of the cold protection gloves currently on the market are divided into a relatively thin heat insulation glove and a relatively thick cold protection glove. For a relatively thick cold protection glove, the cold protection effect is enhanced by laying a material having high heat retention, for example, down, silk, wool, or rayon, on the inner layer of the glove. However, if a relatively warm material is laid on the inner layer of the glove, it will be too thick, affecting the agility of the finger and hindering normal hand movement. Therefore, in order to avoid affecting the agility when operating something with a finger, it is necessary to take off the cold protection gloves and wear it again after the operation. If it does so, there will be a cold discomfort for a while, and it will be very inconvenient to use.

  In addition, the capacitive touch panel needs to be operated by touching it with a fingertip, and has already been used in various electronic products to display information. Therefore, if you wear gloves, your fingers will be covered with gloves and you will not be able to operate the capacitive touch panel directly. In view of this, further improvements were necessary.

JP 2008-103112 A

  In order to solve the drawbacks of the known structure, the present invention has an inner glove and an outer glove, takes into account the cold protection effect, does not affect the agility of operating something with the fingertip, By installing heat-generating parts, heat is applied to the hands to increase the cold protection effect. In addition, by providing a touch part at the position where it hits the thumb, forefinger, and middle finger of the inner glove, it is possible to provide an intelligent heat generating glove structure that can smoothly operate the touch panel without taking the glove. The main issue.

  In order to solve the above-mentioned problems, the present invention provides an intelligent fever glove. Included are outer gloves, inner gloves, heat generating components, controller and power supply components.

  The outer gloves are relatively thick winter gloves. The inner glove is a relatively thin heat retaining glove, and one end of the inner glove is joined to the inner surface of the outer glove by sewing. The heat-generating parts are made of soft, bendable, anti-acid base, anti-static, quick heat generation, energy-saving composite fiber heating yarn. The controller is packed in one waterproof box and fixed to the outer gloves. Included are switches, electronic circuit boards and indicator lights. The controller can control on / off of the power supply of the heat generating component and the temperature of the heat generating component in several stages. The power supply component controls the flow of current to the heat generating component by the controller, and heats the heat generating component.

  With the above-mentioned structure, it takes into account that it does not affect the cold protection effect and the agility of operating something with your fingertips. Provide the structure of the fever gloves.

  The present invention allows the finger to operate something agile by installing inner and outer gloves and heat generating parts, and can also provide a cold protection effect by applying heat to the hand, and smoothly operate the touch panel be able to.

It is a front structure figure in the present invention. It is a back surface structure figure in the present invention. 3 is a schematic diagram showing the electrical connection relationship between a heat generating component, a controller and a power supply component in the present invention. It is the schematic which takes out each wearing part of the inner glove in this invention from an outer glove, respectively. 1 is a schematic diagram for operating a touch panel by exposing a touch part from an inner glove according to the present invention.

  In order to clearly show the structure of an intelligent heat-generating glove according to the present invention, a detailed description will be given with reference to FIGS.

  As shown in FIG. 1, the present invention includes an outer glove 10, an inner glove 20, a heat generating component 30, a controller 40, and a power supply component 50.

  At the same time, as shown in FIG. 2, the outer glove 10 is a relatively thick cold protection glove. A first wearing part 11 for placing a thumb on one end of the outer glove 10 and a second wearing part 12 for placing an index finger, middle finger, ring finger, and little finger are provided. The first wearing part 11 and the second wearing part 12 are each provided with one opening 111, 121, and the storage bag 13 in which the power supply component 50 can be installed in the outer glove 10.

  As the best example of the outer glove 10, an opening / closing component 122 is provided in an opening 121 provided in the second wearing portion 12, and the opening / closing component 122 is best a waterproof fastener.

  As the best example of the outer glove 10, one opening / closing component 131 is provided at the bag mouth of the storage bag 13, and the opening / closing component 131 is best a waterproof fastener.

  At the same time, as shown in FIG. 2, the inner glove 20 is a relatively thin heat retaining glove. One end of the inner glove 20 is joined to the inner surface of the outer glove 10 by sewing. The other end of the inner glove 20 has five first wearing parts 21 for inserting thumbs, a second wearing part 22 for inserting index fingers, a third wearing part 23 for inserting middle fingers, a fourth wearing part 24 for inserting ring fingers, Five wear parts 25 are provided. Among these, the first wearing part 21 can be put into the first wearing part 11 of the outer glove 10, and the second wearing part 22, the third wearing part 23, the fourth wearing part 24, and the fifth wearing part 25 are At the same time, it can be put into the second wearing part 12 of the outer glove 10.

  As the best example of the inner glove 20, at least the first wearing part 21, the second wearing part 22, and the third wearing part 23 are provided with touch parts 211, 221, 231 at the positions of the thumb, index finger, middle finger, respectively, The touch portions 211, 221, and 231 include conductive metal fiber threads and are formed on the outer surface from the inner surfaces of the first wearing portion 21, the second wearing portion 22, and the third wearing portion 23 by a sewing or embroidery method. Therefore, the conductive metal fiber yarns in the touch portions 211, 221, and 231 allow the finger and the touch panel to make good electrical contact, and the human body current is reliably transmitted to the touch panel, so that the touch panel can be operated smoothly. Can do.

  The touch portions 211, 221, and 231 are not limited to corresponding to the first wearing portion 21, the second wearing portion 22, and the third wearing portion 23 of the thumb, forefinger, and middle finger, but the ring finger, the fourth wearing portion 24 of the little finger, It can be installed corresponding to the fifth wearing part 25, or the corresponding finger can be selected to install the touch part on the wearing part.

  As shown in FIGS. 2 and 3, the heat generating component 30 is made of a composite fiber heat generating yarn that is soft, can be bent, has an acid base, antistatic, quick heat generation, and energy saving. It is installed around the first wearing part 21, the second wearing part 22, the third wearing part 23, the fourth wearing part 24, and the fifth wearing part 25 of the inner glove 20, and both ends of the heat generating component 30 are the outer gloves 10. The plug 13 is provided at both ends of the heat generating component 30.

  As shown in FIGS. 2 and 3, the controller 40 is packed in a waterproof box and fixed to the outer glove 10. Included are switches, electronic circuit boards and indicator lamps (switches, electronic circuit boards and indicator lamps are packed in a small box so that they can no longer be displayed graphically. Please note). The controller 40 further includes a first plug terminal 41 that can be electrically connected to the heat generating component 30 and a second plug terminal 42 that is electrically connected to the electrical component 50. The controller 40 can control ON / OFF of the power supply of the heat generating component 30 and the strength of the temperature of the heat generating component 30 in several stages.

  As the best embodiment of the controller 40, it is best to install it corresponding to the back of the hand of the outer glove 10.

  As shown in FIGS. 2 and 3, the power supply component 50 can be a battery that can be used repeatedly for charging, and is provided with one plug terminal 51 and electrically connected to the second plug terminal 42 of the controller 40. Can do.

  With the structure described above, a hand is put in the inner glove 20, and the first wear part 21, the second wear part 22, the third wear part 23, the fourth wear part 24, the thumb, the index finger, the middle finger, the ring finger, and the little finger, respectively. It can be put in the fifth wearing part 25. When it is necessary to apply heat, simply pressing the front of the controller 40 can touch the internal switch to open the power supply and start up the electronic circuit board. At this time, the power supply component 50 can cause the heat generating component 30 to generate heat by passing a current through the heat generating component 30, and can reach a cold protection effect by heating the hand. Among them, the switch of the controller 40 can control the heating pattern of large, medium and small of the heat generating component 30 and can be used based on different needs.

  As shown in FIGS. 4 and 5, when it is desired to operate something with a finger, the outer side of the outer glove 10 from the opening 111 provided in the first wearing part 11 of the outer glove 10 together with the first wearing part 21 of the inner glove 20. The second wearing part 22, the third wearing part 23, the fourth wearing part 24, and the fifth wearing part 25 of the inner glove 20 into which the index finger, middle finger, ring finger, and little finger are respectively inserted are From the opening 121 provided in the 2nd wearing part 12, it can take out to the outer side of the outer glove 10. FIG. It can be operated quickly without taking off gloves and does not interfere with the normal movement of the hand. In particular, in the situation where it is not necessary to take gloves, the first wearing part 21, the second wearing part 22 and the touch parts 211, 221, 231 provided on the third wearing part 23 in the inner glove 20 are used, The middle finger can make good electrical contact with the touch panel, and can operate the touch panel smoothly and conveniently.

  According to the above-described schematics and embodiments, the present invention has a cold protection effect, a finger can be operated with agility, a cold protection effect can be obtained by applying heat to the hand, and a touch panel can be operated smoothly. it can.

10 outer gloves 11 first wearing part 12 second wearing part 111 opening 121 opening 122 opening and closing part 13 storage bag 131 opening and closing part 20 inner glove 21 first wearing part 22 second wearing part 23 third wearing part 24 fourth wearing part 25 Fifth wearing portion 211 Touch portion 221 Touch portion 231 Touch portion 30 Heating component 31 Plug terminal 40 Controller 41 First plug terminal 42 Second plug terminal 50 Electrical component 51 Plug terminal

Claims (6)

Including outer gloves, inner gloves, heat generating parts, controller and power supply parts,
The outer glove is a relatively thick winter glove, and is provided with a first wearing part for putting a thumb on one end of the outer glove and a second wearing part for putting an index finger, middle finger, ring finger, little finger, and the first wearing part and the second wearing part. Each wearing part has one opening, a storage bag that can install power supply parts on the outer gloves,
The inner glove is a relatively thin heat-insulating glove, and one end of the inner glove is joined to the inner surface of the outer glove by sewing, and the other end of the inner glove is the first wearing part for putting in the thumb of each of the five, and the second wearing for putting the index finger Part, the third wearing part to put the middle finger, the fourth wearing part to put the ring finger, the fifth wearing part to put the little finger,
The heat-generating parts are soft, can be bent, made of acid-base, anti-static, quick heat generation, energy-saving composite fiber heat-generating yarn, which is used for the first wearing part, second wearing part, third wearing part, second Install around the 4th and 5th wearing parts,
The controller is packed in a waterproof box and fixed to the outer glove, which includes a switch, an electronic circuit board and an indicator lamp. The controller turns on / off the heat-generating components and several steps of heat-generating components. Can control the strength of the temperature,
The power supply component controls the flow of current to the heat generating component by the controller and can heat the heat generating component,
Due to the above structure, the present invention has a cold protection effect, the finger can be operated swiftly, the cold protection effect can be obtained by applying heat to the hand, and the touch panel can be operated smoothly. Fever glove structure.   2. The intelligent heat generating glove structure according to claim 1, wherein an opening / closing component is provided in an opening provided in a second wearing portion of the outer glove, and the opening / closing component is a waterproof fastener. 3. The structure of an intelligent heat generating glove according to claim 2, wherein one opening / closing component is provided at a bag mouth of the outer glove storage bag, and the opening / closing component is a waterproof fastener. At least the first wearing part, the second wearing part, and the third wearing part of the inner glove are provided with touch parts at the positions of the thumb, forefinger, and middle finger, respectively, and the touch part includes a conductive metal fiber thread and is sewn or The knowledge according to claim 1, wherein the finger and the touch panel can be in good electrical contact by being formed on the inner and outer surfaces of the first wearing part, the second wearing part, and the third wearing part by an embroidery method. Fever glove structure. The touch part is not limited to correspond to the first wearing part, the second wearing part, and the third wearing part of the thumb, forefinger, and middle finger, and is installed corresponding to the fourth wearing part and the fifth wearing part of the ring finger and little finger. The structure of an intelligent fever glove according to claim 6, wherein the touch part can be installed on the wearing part by selecting a corresponding finger. The intelligent heat-generating glove structure according to claim 1, wherein the controller can be installed corresponding to the back of the hand of the outer glove.

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