CN214802736U - Graphite alkene shoes that generate heat with heat preservation power supply unit - Google Patents

Abstract

The utility model provides a method for controlling the temperature of the environment for wearing by a user when the temperature is not in the discharge temperature range of the ternary polymer lithium battery, the heat preservation device can keep the external environment temperature of the ternary polymer lithium battery within the discharge temperature range of the ternary polymer lithium battery, prolong the service life of the ternary polymer lithium battery, avoid freezing damage and non-work, does not need to replace the ternary polymer lithium battery with other batteries, has more substantial cost, moreover, the feeding channel is convenient, and the graphene heating shoe with the heat-preservation power supply device is favorable for popularization and use, and comprises a sole, a power supply device and a control module which are arranged on the sole, a vamp which is arranged on the sole, a graphene heating insole which is arranged on the sole and is arranged in the vamp, and a temperature control switch which is arranged on the vamp, wherein the power supply device comprises a hollow shell which is arranged on the sole.

Description

Graphite alkene shoes that generate heat with heat preservation power supply unit

Technical Field

The utility model relates to a shoes technical field, concretely relates to graphite alkene shoes that generate heat with heat preservation power supply unit.

Background

The graphene heating shoe shown in the attached drawing 1 comprises a sole 1 ', a containing groove 2' arranged at the rear of the upper end face of the sole 1 ', a power supply device and a control module 3' arranged on the upper end face of the sole 1 'and positioned in the containing groove 2', a vamp 4 'arranged on the sole 1', a graphene heating insole 5 'arranged on the sole 1' and positioned in the vamp 4 ', an insole temperature sensor 6' arranged on the graphene heating insole 5 ', a temperature control switch 7' arranged on the vamp 4 ', a charging port 8' arranged on the vamp 4 ', the power supply device, the graphene heating insole 5', the temperature control switch 7 'and the insole temperature sensor 6' which are all electrically connected with the control module 3 ', and the charging port 8' is electrically connected with the power supply device; the power supply device comprises a hollow shell 9 'arranged on the sole 1' and positioned in the accommodating groove 2 ', and a terpolymer lithium battery (not shown in the figure) arranged in the hollow shell 9'.

The graphene heating shoe is worn on a foot, an appropriate temperature is selected according to the real-time weather temperature, and the temperature is adjusted by pressing a temperature control switch 7 'on the vamp 4'; the graphene heating shoe has three-gear temperature control, namely 35 ℃ of green light, 45 ℃ of blue light and 55 ℃ of red light, the temperature control switch 7 'is pressed for a long time, the graphene heating shoe pad 5' starts to heat when an indicator lamp on the temperature control switch 7 'flickers and then enters the 35 ℃ of green light, the temperature of the graphene heating shoe pad 5' is monitored by the shoe pad temperature sensor 6 'on the graphene heating shoe pad 5', when the temperature of the graphene heating shoe pad 5 'reaches the corresponding temperature gear, the signal is generated by the shoe pad temperature sensor 6' to the control module 3 ', the control module 3' controls the graphene heating shoe pad 5 'to stop heating, and meanwhile, the graphene heating shoe pad 5' enters the heat preservation state, the color displayed by the temperature control switch 7 'is pink, when the temperature of the graphene heating insole 5' is monitored by the insole temperature sensor 6 'to be lower than the temperature grade, a signal is generated again to the control module 3', the control module 3 'controls the graphene heating insole 5' to be heated, when the temperature of the graphene heating insole 5 'reaches the temperature grade, the graphene heating insole enters a heat preservation state again, and after a period of time, the graphene heating insole 5' is heated again when the temperature is lower than the temperature grade, and the process is repeated; when the use stop time is long, the temperature control switch 7' is pressed, and the indicator lamp is in a closed state after being turned off; when the electric quantity of the ternary polymer lithium battery (not shown in the figure) is low, the red light flickers, the ternary polymer lithium battery is charged through the charging port 8', the indicating lamp is always on during charging, and the indicating lamp is automatically turned off after the ternary polymer lithium battery is fully charged. So that the feet of the wearer can not be frozen in cold weather, and the wearer can keep warm and feel comfortable.

The ternary polymer lithium battery is a lithium battery with a positive electrode material of a lithium-nickel-cobalt-manganese ternary positive electrode material, the discharge temperature range of the ternary polymer lithium battery is-20-60 ℃, when the wearing environment temperature of a user is not in the discharge temperature range of the ternary polymer lithium battery, the service life of the ternary polymer lithium battery is greatly shortened, even the ternary polymer lithium battery does not work due to freezing, the cost is high when the ternary polymer lithium battery is replaced by other batteries, the stocking channel is difficult, and the ternary polymer lithium battery is not beneficial to popularization and use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, when the wearing ambient temperature that provides a user is not in the discharge temperature scope of terpolymer lithium cell, heat preservation device can keep terpolymer lithium cell external environment temperature to be in the terpolymer lithium cell discharge temperature scope, the life of extension terpolymer lithium cell can not cause it to freeze out and out of work, need not to replace the terpolymer lithium cell with other batteries, the cost is comparatively substantial, and the channel of stocking is convenient moreover, be favorable to using widely a graphite alkene shoes that generate heat with heat preservation power supply unit.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a graphite alkene shoes that generate heat with heat preservation power supply unit, include the sole, set up in power supply unit and control module on the sole, set up in vamp on the sole, set up in lie in on the sole graphite alkene shoe-pad that generates heat in the vamp, set up in temperature detect switch on the vamp, power supply unit including set up in cavity casing on the sole, set up in terpolymer lithium cell in the cavity casing, the cavity casing with be provided with between the terpolymer lithium cell and be used for keeping terpolymer lithium cell external environment temperature is in the heat preservation device of terpolymer lithium cell discharge temperature scope.

The further improvement is that: the heat preservation device is a graphene heating chip.

The further improvement is that: the graphene heating chip is provided with a chip temperature sensor for detecting the heating temperature of the graphene heating chip.

The further improvement is that: the graphene heating chip is arranged on the hollow shell, and a heat insulation layer is arranged between the graphene heating chip and the hollow shell and used for reducing heat dissipation of the graphene heating chip.

The further improvement is that: the hollow shell comprises a PE plastic layer and an anti-deformation layer, wherein the PE plastic layer is arranged from inside to outside in sequence and used for preventing shoes from being corroded during leakage of the ternary polymer lithium battery, and the anti-deformation layer is used for preventing the PE plastic layer from deforming during compression.

The further improvement is that: the shoe sole is characterized in that the upper end face of the shoe sole is provided with a containing groove for containing the hollow shell, and the hollow shell is detachably arranged on the upper end face of the shoe sole and is positioned in the containing groove.

The further improvement is that: the sole is the elasticity sole, cavity casing is close to elasticity sole up end that end is provided with and is used for inlaying and locates the several block strip of elasticity sole, elasticity sole up end is located set up in the holding tank with block strip complex block groove.

The further improvement is that: the clamping strip comprises a connecting part fixedly arranged on the hollow shell, a clamping part arranged at the tail end of the connecting part, and a guide part fixedly arranged at the tail end of the clamping part.

The further improvement is that: the utility model discloses a three-dimensional lithium battery heating shoe, including graphite alkene heating insole, charging port, and charging port, charging port.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when user's wearing ambient temperature is not in the discharge temperature scope of terpolymer lithium cell, heat preservation device can keep the outside ambient temperature of terpolymer lithium cell to be in the terpolymer lithium cell discharge temperature scope, prolongs the life of terpolymer lithium cell, can not cause it to freeze and do not work, need not to replace the terpolymer lithium cell with other batteries, and the cost is comparatively substantial, and it is convenient to get in the goods channel moreover, is favorable to using widely.

Further effects are as follows: the graphene heating chip heats to keep the external environment temperature of the ternary polymer lithium battery within the discharge temperature range of the ternary polymer lithium battery, so that the service life of the ternary polymer lithium battery is greatly prolonged, and the condition of frost damage is reduced.

Further effects are as follows: the hollow shell is embedded in the clamping groove in the elastic sole through the plurality of clamping strips, the loading and unloading are convenient, the stability is strong after the installation, the shaking is not easy, the disassembly only needs to be pulled out forcibly, and the operation difficulty is low.

Further effects are as follows: the guide part plays the guide effect when the block strip inlays the block inslot of locating the elasticity sole, conveniently inlays and establishes, and block portion improves it after inlaying and establishes intensity, improves the steadiness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a graphene heating shoe in the prior art;

fig. 2 is a schematic structural diagram of the present invention;

FIG. 3 is a schematic structural view of the power supply device, the heat preservation device, and the fastening strip of the present invention;

fig. 4 is an enlarged view corresponding to a portion a in fig. 3.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 2 to 3, the technical solution adopted by the present embodiment is:

the utility model provides a graphite alkene shoes that generate heat with heat preservation power supply unit, includes sole 1, sets up power supply unit and control module 2 on sole 1, sets up vamp 3 on sole 1, sets up the graphite alkene shoe-pad 4 that generates heat that lies in vamp 3 on sole 1, sets up temperature detect switch 5 on vamp 3, and power supply unit is including setting up the cavity casing 6 on sole 1, setting up the terpolymer lithium cell 7 in cavity casing 6, its characterized in that: a heat preservation device for keeping the external environment temperature of the terpolymer lithium battery 7 in the discharge temperature range of the terpolymer lithium battery 7 is arranged between the hollow shell 6 and the terpolymer lithium battery 7, the heat preservation device is a graphene heating chip 8, a chip temperature sensor 9 for detecting the heating temperature of the graphene heating chip 8 is arranged on the graphene heating chip 8, a heat preservation layer 10 for reducing the heat dissipation of the graphene heating chip 8 is arranged between the graphene heating chip 8 and the hollow shell 6, the heat preservation layer 10 is a ceramic heat preservation material layer or a hard foam polyurethane heat preservation plate layer, the hollow shell 6 comprises a PE plastic layer 11 which is arranged from the inside to the outside and is used for preventing the corrosion of shoes when the terpolymer lithium battery 7 leaks liquid, an anti-deformation layer 12 for preventing the PE plastic layer from deforming when the PE plastic layer is pressed, the anti-deformation layer 12 is a cold-rolling plate layer and the like, a containing groove 13 for placing the hollow shell 6 is arranged on the upper end surface of the sole 1, the hollow shell 6 is detachably arranged on the upper end face of the sole 1 and is located in the accommodating groove 13, the sole 1 is an elastic sole, a plurality of clamping strips used for being embedded in the elastic sole are arranged at the end, close to the upper end face of the elastic sole, of the hollow shell 6, a clamping groove (not shown in the figure) matched with the clamping strips is formed in the accommodating groove 13 at the upper end face of the elastic sole, each clamping strip comprises a connecting portion 14 fixedly arranged on the hollow shell 6, a clamping portion 15 arranged at the tail end of the connecting portion 14 and a guide portion 16 fixedly arranged at the tail end of the clamping portion 15, a sole temperature sensor 17 used for detecting the heating temperature of the graphene heating sole 4 is arranged on the graphene heating sole 4, a charging port 18 used for charging the terpolymer lithium battery 7 is arranged on the vamp 3, and the chip temperature sensor 9, the temperature control switch 5, the sole temperature sensor 17, the graphene heating chip 8, The ternary polymer lithium battery 7 and the graphene heating insole 4 are electrically connected with the control module 2, and the charging port 18 is electrically connected with the ternary polymer lithium battery 7.

The utility model discloses a theory of operation: the graphene heating shoe with the heat-preservation power supply device is worn on a foot, an appropriate temperature is selected according to the real-time weather temperature, and the temperature is adjusted by pressing a temperature control switch 5 on the vamp 3; the graphene heating shoe has three-gear temperature control, namely a green light gear 35 ℃, a blue light gear 45 ℃ and a red light gear 55 ℃, the temperature control switch 5 is pressed for a long time, when an indicator lamp on the temperature control switch 5 flickers, the graphene heating shoe pad 4 is in an on state, then the green light gear 35 ℃ is entered, the graphene heating shoe pad 4 starts to heat up and heat, the temperature control switch 5 can be pressed to switch the three temperature gears of the green light gear 35 ℃, the blue light gear 45 ℃ and the red light gear 55 ℃, the shoe pad temperature sensor 17 on the graphene heating shoe pad 4 monitors the temperature of the graphene heating shoe pad 4, when the temperature of the graphene heating shoe pad 4 reaches the corresponding temperature gear temperature, the shoe pad temperature sensor 17 generates a signal to the control module 2, the control module 2 controls the graphene heating shoe pad 4 to stop heating, meanwhile, the graphene heating shoe pad 4 enters a heat preservation state, the color displayed by the temperature control switch 5 is pink, when the insole temperature sensor 17 monitors that the temperature of the graphene heating insole 4 is lower than the temperature range, a signal is generated again to the control module 2, the control module 2 controls the graphene heating insole 4 to be heated, when the temperature of the graphene heating insole 4 reaches the temperature range, the graphene heating insole 4 enters a heat preservation state again, and after a period of time, the graphene heating insole 4 is heated again when the temperature is lower than the temperature range, and the process is repeated; the use stop time is in a closed state when the indicator light is turned off according to the temperature control switch 5; when the electric quantity of the ternary polymer lithium battery 7 is low, the red light flickers, the ternary polymer lithium battery is charged through the charging port 18, the indicating lamp is always on during charging, and the indicating lamp is automatically turned off after the ternary polymer lithium battery is fully charged; the chip temperature sensor 9 detects the external environment temperature of the ternary polymer lithium battery 7, when the external environment temperature is not in the discharge temperature range of the ternary polymer lithium battery 7, the control module 2 controls the graphene heating chip 8 to generate heat, the external environment temperature of the ternary polymer lithium battery 7 can be kept in the discharge temperature range of the ternary polymer lithium battery 7 after heating, the service life of the ternary polymer lithium battery 7 is prolonged, the ternary polymer lithium battery 7 cannot be frozen out and does not work, other batteries are not needed to replace the ternary polymer lithium battery 7, the cost is substantial, the goods feeding channel is convenient and fast, and popularization and use are facilitated; the heat preservation layer 10 reduces heat loss when the graphene heating chip 8 heats.

The utility model discloses what protect is the structure of product, and the model of each component is not the content of the utility model protection, also is the well-known technique, as long as can realize on the market the component of the above-mentioned function of the utility model all can regard as a selection to use. Therefore, the present invention will not be described in detail.

Having shown and described the basic principles and essential features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention, all of which are intended to be covered by the appended claims and their equivalents. The details of the present invention are well known to those skilled in the art.

Claims (9)

1. The utility model provides a graphite alkene shoes that generate heat with heat preservation power supply unit, include the sole, set up in power supply unit and control module on the sole, set up in vamp on the sole, set up in lie in on the sole graphite alkene in the vamp generate heat the shoe-pad, set up in temperature detect switch on the vamp, power supply unit including set up in cavity casing on the sole, set up in the interior terpolymer lithium cell of cavity casing, its characterized in that: and a heat preservation device for keeping the external environment temperature of the ternary polymer lithium battery within the discharge temperature range of the ternary polymer lithium battery is arranged between the hollow shell and the ternary polymer lithium battery.

2. The graphene heating shoe with the heat-preservation power supply device according to claim 1, is characterized in that: the heat preservation device is a graphene heating chip.

3. The graphene heating shoe with the heat-preservation power supply device according to claim 2, is characterized in that: the graphene heating chip is provided with a chip temperature sensor for detecting the heating temperature of the graphene heating chip.

4. The graphene heating shoe with the heat-preservation power supply device according to claim 2, is characterized in that: the graphene heating chip is arranged on the hollow shell, and a heat insulation layer is arranged between the graphene heating chip and the hollow shell and used for reducing heat dissipation of the graphene heating chip.

5. The graphene heating shoe with the heat-preservation power supply device according to claim 1, is characterized in that: the hollow shell comprises a PE plastic layer and an anti-deformation layer, wherein the PE plastic layer is arranged from inside to outside in sequence and used for preventing shoes from being corroded during leakage of the ternary polymer lithium battery, and the anti-deformation layer is used for preventing the PE plastic layer from deforming during compression.

6. The graphene heating shoe with the heat-preservation power supply device according to claim 1, is characterized in that: the shoe sole is characterized in that the upper end face of the shoe sole is provided with a containing groove for containing the hollow shell, and the hollow shell is detachably arranged on the upper end face of the shoe sole and is positioned in the containing groove.

7. The graphene heating shoe with the heat-preservation power supply device according to claim 6, is characterized in that: the sole is the elasticity sole, cavity casing is close to elasticity sole up end that end is provided with and is used for inlaying and locates the several block strip of elasticity sole, elasticity sole up end is located set up in the holding tank with block strip complex block groove.

8. The graphene heating shoes with the heat preservation power supply device according to claim 7, characterized in that: the clamping strip comprises a connecting part fixedly arranged on the hollow shell, a clamping part arranged at the tail end of the connecting part, and a guide part fixedly arranged at the tail end of the clamping part.

9. The graphene heating shoe with the heat-preservation power supply device according to claim 1, is characterized in that: the utility model discloses a three-dimensional lithium battery heating shoe, including graphite alkene heating insole, charging port, and charging port, charging port.

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