CN216255708U

CN216255708U - Graphite alkene heatable shoe-pad

Info

Publication number: CN216255708U
Application number: CN202120526523.5U
Authority: CN
Inventors: 傅陆军
Original assignee: Hangzhou Kaiyue New Material Co ltd
Current assignee: Hangzhou Kaiyue New Material Co ltd
Priority date: 2021-03-14
Filing date: 2021-03-14
Publication date: 2022-04-12
Anticipated expiration: 2031-03-14

Abstract

The utility model relates to a graphene heatable insole which comprises a bottom layer and an insole surface layer, wherein the edges of the bottom layer and the insole surface layer correspond to each other; the bottom and fill up the surface course and be equipped with the zone of heating between the layer, the zone of heating includes that graphite alkene generates heat the piece, and graphite alkene generates heat the piece and is connected to the battery. According to the utility model, the heating layer is arranged between the bottom layer and the cushion surface layer of the insole, the heating layer is connected to the storage battery through the graphene heating sheet, the current control on the graphene heating sheet is fully utilized to heat different positions of the graphene heating sheet, heat is provided for feet, accurate spot-reaching operation can be carried out by matching with physiotherapy, the production is simpler, the physiotherapy effect is good, and the safety and the comfort are realized.

Description

Graphite alkene heatable shoe-pad

Technical Field

The present invention relates to features of footwear; the technical field of parts of shoes, in particular to a graphene heatable insole.

Background

The insole is mainly used at the bottom of the inner side of the shoe and used for forming the buffer between the sole and the sole, and is also widely applied to special functions of health care and the like along with the development of industry.

For a commercial insole, the insole is generally used in application occasions such as physiotherapy, and the current main function is integral heating or contact heating, but the convenience of operation and production of different positions of feet and the accuracy of contacts cannot be considered, so that the physiotherapy process is often lack of pertinence and the result is more and more successful.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems in the prior art and provides a graphene heatable insole with an optimized structure.

The technical scheme adopted by the utility model is that the graphene heatable insole comprises a bottom layer and a pad surface layer, wherein the edges of the bottom layer and the pad surface layer correspond to each other;

the bottom is equipped with the zone of heating with filling up the surface course between the layer, the zone of heating includes the graphite alkene piece that generates heat, graphite alkene piece that generates heat is connected to the battery.

Preferably, the graphene heating sheet comprises an upper layer protection woven surface and a lower layer protection woven surface which are correspondingly arranged, and a graphene heating body arranged in an S shape is arranged between the upper layer protection woven surface and the lower layer protection woven surface.

Preferably, the cooperation graphite alkene heat-generating body is equipped with a plurality of wires, all the one end of wire and battery cooperation, all the other end of wire corresponds the different positions of being connected to the graphite alkene heat-generating body.

Preferably, the S-shaped density of the graphene heating elements corresponding to the front part of the insole is greater than the S-shaped density of the graphene heating elements corresponding to the rear part of the insole.

Preferably, a protective shell is arranged outside the storage battery.

Preferably, a control circuit board is arranged in the protective shell matched with the storage battery.

Preferably, the control circuit board comprises:

the charging module is used for charging the storage battery;

the temperature adjusting module is used for adjusting the actual output current of the storage battery;

and the MCU is respectively matched with the charging module, the storage battery and the temperature adjusting module and is used for controlling the charging current and outputting the temperature.

Preferably, a communication module is arranged on a control circuit board matched with the MCU.

Preferably, the MCU is matched to be provided with sensors, and the sensors are distributed between the bottom layer and the cushion surface layer.

Preferably, the thickness of the bottom layer is greater than the thickness of the cushion cover layer.

The utility model relates to a graphene heatable insole with an optimized structure, wherein a heating layer is arranged between a bottom layer and a pad surface layer of the insole, the heating layer is connected to a storage battery through a graphene heating sheet, current control on the graphene heating sheet is fully utilized to enable different positions of the graphene heating sheet to heat, besides heat is provided for feet, accurate point-reaching operation can be carried out by matching with physiotherapy, the production is simpler, the physiotherapy effect is good, and the safety and the comfort are realized.

Drawings

FIG. 1 is a schematic diagram of an exploded view of the present invention;

FIG. 2 is an exploded view of the graphene heating sheet according to the present invention;

FIG. 3 is a schematic structural diagram of the graphene heating element and the storage battery in cooperation according to the present invention;

fig. 4 is a structural block diagram of the module, the storage battery, the graphene heating element and the sensor in the utility model, wherein an arrow indicates a direction of control or data transmission.

Detailed Description

The present invention is described in further detail with reference to the following examples, but the scope of the present invention is not limited thereto.

The utility model relates to a graphene heatable insole, which comprises a bottom layer 1 and an insole surface layer 2, wherein the edges of the bottom layer 1 and the insole surface layer 2 correspond to each other;

bottom 1 and 2 within a definite time of cushion surface layer are equipped with the zone of heating, the zone of heating includes that graphite alkene generates heat piece 3, graphite alkene generates heat piece 3 and is connected to battery 4.

The thickness of the bottom layer 1 is larger than that of the cushion surface layer 2.

In the utility model, the bottom layer 1 and the cushion surface layer 2 of the insole are main shape structures, the bottom layer 1 and the cushion surface layer 2 are used for protection and support, and the outer edges of the bottom layer 1 and the cushion surface layer 2 are correspondingly arranged; generally, the thickness of the bottom layer 1 is slightly larger than that of the cushion surface layer 2, so as to ensure the supporting force.

According to the utility model, the heating layer is connected to the storage battery 4 through the graphene heating sheet 3, the current control on the graphene heating sheet 3 is fully utilized to heat different positions of the heating layer, heat is provided for feet, accurate spot-reaching operation can be carried out by matching with physiotherapy, the production is simpler, the physiotherapy effect is good, and the physiotherapy is safe and comfortable.

In the utility model, the insole can also be set as a common insole, and the thickness of the storage battery 4 is consistent with that of a common lithium ion battery and is about 3 mm.

Graphene heating sheet 3 includes that the upper protection that corresponds the setting weaves face 31 and lower floor 'S protection weaves face 32, the upper protection weaves face 31 and lower floor' S protection weaves and is equipped with the graphene heating body 33 that the S type set up between face 32.

The cooperation graphite alkene heat-generating body 33 is equipped with a plurality of wires 34, all the one end and the battery 4 cooperation of wire 34, all the other end of wire 34 corresponds the different positions of being connected to graphite alkene heat-generating body 33.

The S-shaped density of the graphene heating elements 33 corresponding to the front part of the insole is greater than the S-shaped density of the graphene heating elements 33 corresponding to the rear part of the insole.

In the utility model, the graphene heating element 33 in the graphene heating sheet 3 is set to be S-shaped, specifically, a plurality of S-shaped connections, the different positions of the foot are divided, the lead wires 34 are connected to the different positions of the graphene heating element 33, and the different positions of the graphene heating element 33 can have different temperatures under the control of current, thereby achieving the purpose of physiotherapy and heating.

In the present invention, it is obvious that a controllable switch for any one of the wires 34 is provided at the battery 4.

In the present invention, since the acupoints on the half sole are generally more, the S-shaped density of the graphene heating elements 33 at the front part of the insole is higher.

And a protective shell is arranged outside the storage battery 4.

A control circuit board is arranged in the protective shell matched with the storage battery 4.

The control circuit board comprises:

a charging module for charging the storage battery 4;

the temperature adjusting module is used for adjusting the actual output current of the storage battery 4;

and the MCU is respectively matched with the charging module, the storage battery 4 and the temperature adjusting module and is used for controlling the charging current and outputting the temperature.

And a communication module is arranged on the control circuit board matched with the MCU.

The cooperation MCU is equipped with sensor 5, sensor 5 distributes and locates between bottom 1 and the cushion face layer 2.

In the utility model, the storage battery 4 and the control circuit board are protected by the protective shell.

In the utility model, the storage battery 4 is charged by the charging module, the general charging module is also provided with an external power interface, and the output current is regulated by the temperature regulating module, such as PWM (pulse width modulation), so that the heating regulation is completed.

In the utility model, the MCU is used for giving the communication module, such as the Bluetooth to start current, when a mobile phone or other equipment is paired with the Bluetooth, the real-time temperature, the electric quantity of a lithium battery and the like can be checked through the butt joint of the mobile phone or other equipment and the MCU, and the temperature regulation of different positions of the insole can be carried out through the MCU control temperature regulation module based on the butt joint of the mobile phone or other equipment and the MCU.

In the utility model, in order to protect the use safety of a user, a sensor 5 is arranged, particularly, the temperature between the bottom layer 1 and the cushion surface layer 2 is measured by the temperature sensor 5, and when the temperature is too high, an alarm is initiated or the output of the storage battery 4 is directly stopped through the MCU, so that the graphene heating sheet 3 stops working.

Claims

1. A graphene heatable insole, characterized in that: the insole comprises a bottom layer and a cushion surface layer, wherein the edges of the bottom layer and the cushion surface layer correspond to each other;

a heating layer is arranged between the bottom layer and the cushion surface layer, the heating layer comprises a graphene heating sheet, and the graphene heating sheet is connected to a storage battery;

the graphene heating sheet comprises an upper layer protection woven surface and a lower layer protection woven surface which are correspondingly arranged, an S-shaped graphene heating body is arranged between the upper layer protection woven surface and the lower layer protection woven surface, and the graphene heating body is formed by connecting a plurality of S shapes;

the cooperation graphite alkene heat-generating body is equipped with a plurality of wires, all the one end and the battery cooperation of wire, all the other end of wire corresponds the different positions that are connected to the graphite alkene heat-generating body.

2. The graphene heatable insole as claimed in claim 1, wherein: the S-shaped density of the graphene heating body corresponding to the front part of the insole is greater than that of the graphene heating body corresponding to the rear part of the insole.

3. The graphene heatable insole as claimed in claim 1, wherein: a protective shell is arranged outside the storage battery.

4. The graphene heatable insole as claimed in claim 3, wherein: a control circuit board is arranged in the protective shell matched with the storage battery.

5. The graphene heatable insole of claim 4, wherein: the control circuit board comprises:

the charging module is used for charging the storage battery;

6. The graphene heatable insole of claim 5, wherein: and a communication module is arranged on the control circuit board matched with the MCU.

7. The graphene heatable insole of claim 5, wherein: the MCU is matched with the sensors, and the sensors are distributed between the bottom layer and the cushion surface layer.

8. The graphene heatable insole as claimed in claim 1, wherein: the thickness of the bottom layer is larger than that of the cushion surface layer.