CN211961088U - Graphite alkene far infrared shoes that generate heat - Google Patents

Abstract

The utility model belongs to the technical field of the shoes technique that generates heat and specifically relates to a graphite alkene far infrared shoes that generate heat, including the shoes body, graphite alkene heating film and laminate polymer battery, graphite alkene heating film inlays in the inside of the preceding sole position of the shoes body, and laminate polymer battery inlays in the inside of the back sole position of the shoes body, and laminate polymer battery is connected with graphite alkene heating film electricity. The utility model discloses use small and light in weight's laminate polymer battery as power and the frivolous graphite alkene heating film of material as the source that generates heat, to a great extent has reduced the shared space of functional component that generates heat and the weight by the way, can design for different shoes types and the production difficulty is little, and graphite alkene heating film stable in structure just generates heat evenly long service life.

Description

Graphite alkene far infrared shoes that generate heat

Technical Field

The utility model belongs to the technical field of the shoes technique that generates heat and specifically relates to a graphite alkene far infrared shoes that generate heat.

Background

In cold regions and cold seasons, cold protection of feet is particularly important, and for some people who are bad in body or have a slow blood circulation due to long-time sitting, the traditional shoes cannot meet the cold protection requirement. In order to solve the problems, various types of heating shoes or heating insoles are available on the market, and can provide heating temperature slightly higher than the body temperature of a human body for the feet of the human body, so that the shoes are suitable for cold weather.

However, the existing heating shoes or heating insoles usually need to be powered by a built-in battery in the shoe body, and the conventionally used lithium batteries have large volume and heavy weight, which undoubtedly greatly increases the occupied space and the weight of the shoe body, is not beautiful enough and increases the burden of people; in addition, the existing heating shoes or heating insoles only have the heating function, and have the problems of uneven heat outflow of the heating surface and short service life.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of large volume, heavy weight, poor heating effect and short service life of the existing heating shoes.

In order to achieve the purpose, the utility model discloses a graphene far infrared heating shoe, which comprises a shoe body, a graphene heating film, a soft package battery and a temperature controller, wherein the graphene heating film is embedded inside the front sole position of the shoe body, the soft package battery is embedded inside the rear sole position of the shoe body, and the soft package battery is electrically connected with the graphene heating film; thereby the output of laminate polymer battery is adjusted to temperature controller and laminate polymer battery body package, thereby the temperature controller is connected with laminate polymer battery electricity.

As preferred, graphite alkene heating film includes from the top down membrane of precoating, graphite alkene coating, multiunit graphite alkene heating strip, two sets of silver thick liquid electrodes, PET membrane and the mirror surface silver coating that sets gradually, and two sets of silver thick liquid electrode interval arrangement, each graphite alkene heating strip parallel interval arrangement respectively between two silver thick liquid electrodes, and graphite alkene heating strip is connected with two silver thick liquid electrode electricity respectively.

Preferably, a protective shell is arranged outside the soft package battery, and the sealing edge of the protective shell is coated with insulating glue.

Preferably, the temperature controller is provided with a Bluetooth module for linkage with an external terminal.

Preferably, the flexible package battery charging device further comprises a charging interface, and the charging interface is electrically connected with the flexible package battery.

Preferably, the flexible package battery further comprises a gear shifting switch, and the gear shifting switch is electrically connected with the flexible package battery.

Preferably, the lower surface of the graphene heating film is coated with a foaming material layer.

The utility model has the advantages that: the soft package battery with small volume and light weight is used as a power supply, the graphene heating film with light and thin material is used as a heating source, the space occupied by the heating functional component and the attached weight are greatly reduced, the shoe can be designed into different shoe types, and the production difficulty is small; in addition, the graphene heating film is stable in structure, uniform in heating and long in service life.

Drawings

FIG. 1: the utility model discloses graphite alkene far infrared shoes that generate heat plan view.

FIG. 2: the utility model discloses graphite alkene far infrared shoes that generate heat's structural schematic.

FIG. 3: the utility model discloses graphite alkene far infrared shoes that generate heat's principle sketch.

FIG. 4: the utility model discloses graphite alkene heating film's explosion schematic diagram.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the present invention will be further described with reference to the following embodiments and accompanying drawings.

Referring to fig. 1-4, in order to illustrate one embodiment of the present invention, the utility model discloses a graphene far infrared heating shoe, which comprises a shoe body 1, a graphene heating film 2, a soft-package battery 3 and a temperature controller 4.

The graphene heating film 2 is embedded in the front sole position of the shoe body 1, the soft package battery 3 is embedded in the rear sole position of the shoe body 1, the soft package battery 3 is electrically connected with the graphene heating film 2, and the graphene heating film 2 generates heat and emits 4-16 mu m far infrared light waves under the action of the soft package battery 3.

The temperature controller 4 is electrically connected with the laminate polymer battery 3 for adjust the output power of the laminate polymer battery 3, thereby adjusting the heating degree of the graphene heating film 2 and the generation amount of far infrared light waves. Still be equipped with on the temperature controller 4 and be used for with the bluetooth module 41 of external terminal linkage, when in actual use, user's accessible cell-phone passes through bluetooth module 41 and is connected with 4 short-range communications of temperature controller to send the temperature regulation instruction through the cell-phone, so that the user also can adjust the condition of generating heat of graphite alkene heating film 2 fast when wearing shoes.

Compared with the prior art, the utility model discloses a graphite alkene far infrared shoes that generate heat adopts laminate polymer battery 3 power supplies, has characteristics small, light in weight and internal resistance are little. Further, in order to adapt to the requirement of user to the temperature, laminate polymer battery 3 has still connect temperature controller 4, and temperature controller 4 and laminate polymer battery 3 integrative encapsulation further reduce the volume, and laminate polymer battery 3's outside is equipped with the protecting crust, and the edge of sealing of protecting crust scribbles insulating glue, does further protection to inside temperature controller 4 and laminate polymer battery 3.

In this embodiment, the graphene heating film 2 has the characteristic of uniform heating, and the structure of the graphene heating film 2 is as follows: from last membrane 21 of precoating that sets gradually downwards, graphene coating 22, multiunit graphite alkene heating strip 23, two sets of silver thick liquid electrodes 24, PET membrane 25 and mirror surface silver-colored coating 26, wherein, two sets of silver thick liquid electrodes 24 interval arrangement, each graphite alkene heating strip 23 is parallel interval arrangement respectively between two silver thick liquid electrodes 24, graphite alkene heating strip 23 is connected with two silver thick liquid electrodes 24 electricity respectively, silver thick liquid electrode 24 is connected through wire and laminate polymer battery 3 electricity respectively, under silver thick liquid electrode 24 circular telegram effect, graphite alkene heating strip 23 is parallelly connected each other, thereby evenly generate heat.

In addition, a charging interface 5 and a gear shifting switch 6 are also arranged in the shoe body 1, the charging interface 5 is electrically connected with the soft-package battery 3, and a user can charge the soft-package battery 3 through the charging interface 5; the gear shifting switch 6 is electrically connected with the soft package battery 3 and is used for a user to manually adjust the heating condition of the graphene heating film 2; in this implementation, the shift switch 6 is connected in series between the pouch battery 3 and the graphene heating film 2, the shift switch 6 is substantially a sliding rheostat, and thus the user adjusts the resistance value of the shift switch 6 in the access circuit, the higher the resistance value of the access circuit is, the higher the power consumption of the shift switch 6 is, the lower the heat generated by the graphene heating film 2 is, otherwise, the higher the heat generated by the graphene heating film 2 is.

In some embodiments, in order to reduce heat loss, the lower side surface of the graphene heating film 2 is coated with a foaming material layer, and the foaming material layer blocks heat from flowing from the sole position, so that the utilization rate of heat generated by the graphene heating film 2 is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalent changes may be made to some of the technical features of the embodiments. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a graphite alkene far infrared shoes that generate heat, includes the shoes body (1), its characterized in that still includes graphite alkene heating film (2), laminate polymer battery (3) and temperature controller (4), graphite alkene heating film (2) are set in the inside of the preceding sole position of the shoes body (1), laminate polymer battery (3) are set in the inside of the back sole position of the shoes body (1), laminate polymer battery (3) are connected with graphite alkene heating film (2) electricity, temperature controller (4) and laminate polymer battery (3) integrative encapsulation, thereby the output of adjusting laminate polymer battery (3) is connected with laminate polymer battery (3) electricity in temperature controller (4).

2. The graphene far-infrared heating shoe as claimed in claim 1, characterized in that the graphene heating film (2) comprises a pre-coating film (21), a graphene coating (22), a plurality of graphene heating strips (23), two groups of silver paste electrodes (24), a PET film (25) and a mirror silver coating (26) which are sequentially arranged from top to bottom, the two groups of silver paste electrodes (24) are arranged at intervals, each graphene heating strip (23) is respectively arranged between the two silver paste electrodes (24) in parallel at intervals, and the graphene heating strips (23) are respectively electrically connected with the two silver paste electrodes (24).

3. The graphene far infrared heating shoe as claimed in claim 1, characterized in that a protective shell is arranged outside the soft package battery (3), and the sealing edge of the protective shell is coated with insulating glue.

4. The graphene far infrared heating shoe as claimed in claim 1, wherein the temperature controller (4) is provided with a Bluetooth module (41) for linkage with an external terminal.

5. The graphene far infrared heating shoe as claimed in claim 1, further comprising a charging interface (5), wherein the charging interface (5) is electrically connected with a soft package battery (3).

6. The graphene far infrared heating shoe as claimed in claim 1, further comprising a shift switch (6), wherein the shift switch (6) is electrically connected with the soft package battery (3).

7. The graphene far infrared heating shoe as claimed in claim 1, wherein the lower surface of the graphene heating film (2) is coated with a foaming material layer.

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