CN206480727U - Graphene battery - Google Patents

Abstract

The utility model is related to a kind of graphene battery, including both positive and negative polarity (5), the graphene inner core (4) coated by insulating heat-conductive film (3), it is arranged on the refrigeration semiconductor (2) of insulating heat-conductive film (3) both sides, envelope the insulating heat-conductive shell (1) of the refrigeration semiconductor (2), the refrigeration end of the refrigeration semiconductor (2) is close to the insulating heat-conductive film (3), and the heating end of the refrigeration semiconductor (2) is close to the insulating heat-conductive shell (1)., can be by heat from refrigeration end transfer heating end, so that the temperature cooling of refrigeration end, reduces the temperature of in-core in graphene, heating end is close to insulating heat-conductive shell, radiated by insulating heat-conductive shell when refrigeration semiconductor is powered.Temperature is controlled to graphene battery by refrigeration semiconductor, so as to prevent the temperature of graphene battery to raise, it is ensured that graphene battery safety.

Description

Graphene battery

Technical field

The utility model is related to a kind of graphene battery, belongs to cell art.

Background technology

Graphene battery, is the characteristic using lithium ion rapid, high volume shuttle between graphenic surface and electrode, A kind of new energy battery developed.Environmental protection, electric flux is big, endurance is strong, use and carry more easily advantage, but show Some graphene battery radiating effects are not good, and easily blast causes safety to go wrong to battery after overheat.

Utility model content

The technical problems to be solved in the utility model is：For overcome in the prior art graphene battery radiating effect it is not good There is provided a kind of graphene battery for problem.

The utility model solves the technical scheme that its technical problem used：

The utility model provides a kind of graphene battery, including both positive and negative polarity, in the graphene of insulating heat-conductive film coated Core, is arranged on the refrigeration semiconductor of the insulating heat-conductive film both sides, envelopes the insulating heat-conductive shell of the refrigeration semiconductor, The refrigeration end of the refrigeration semiconductor is close to the insulating heat-conductive film, the heating end of the refrigeration semiconductor and the insulation Thermal conductive shell is close to.

Preferably, graphene battery of the present utility model, the insulating heat-conductive shell is made up of fore shell and rear shell.

Preferably, in-core is provided with micro temperature sensor in graphene battery of the present utility model, the graphene, institute State and then control to supply to the refrigeration semiconductor when micro temperature sensor senses the graphene core temperature more than setting value Electricity.

Preferably, graphene battery of the present utility model, the insulating heat-conductive film is equal benzene-type imines film or biphenyl Type Kapton.

Preferably, graphene battery of the present utility model, the insulating heat-conductive shell is by filling-type thermal-conducting electric-insulating plastics.

Preferably, graphene battery of the present utility model, the insulating heat-conductive shell is bulk.

The utility model is also provided to be set on a kind of integral type bonnet, including the lid being made from a material that be thermally conductive, the lid There is graphene battery described above, the lid is integrally formed with the insulating heat-conductive shell and obtained.

The beneficial effects of the utility model are：Graphene battery of the present utility model, can be by when refrigeration semiconductor is powered Heat from refrigeration end shift heating end so that refrigeration end temperature cooling, reduction graphene in in-core temperature, heating end with Insulating heat-conductive shell is close to, and is radiated by insulating heat-conductive shell.Temperature is controlled to graphene battery by refrigeration semiconductor, from And prevent the temperature of graphene battery to raise, it is ensured that graphene battery safety.

Brief description of the drawings

The utility model is further illustrated with reference to the accompanying drawings and examples.

Fig. 1 is the sectional view of the utility model graphene battery；

1- insulating heat-conductive shells；2- refrigeration semiconductors；3- insulating heat-conductive films；4- graphene inner cores；5- both positive and negative polarities；6- is micro- Type temperature sensor；41- terminal plates.

Embodiment

The utility model is described in further detail presently in connection with accompanying drawing.These accompanying drawings are simplified schematic diagram, Only illustrate basic structure of the present utility model in a schematic way, therefore it only shows the composition relevant with the utility model.

Embodiment 1

The present embodiment provides a kind of graphene battery, as shown in figure 1, including both positive and negative polarity 5 (positive pole, a negative pole), The graphene inner core 4 (having graphene and electrolyte) coated by insulating heat-conductive film 3, is arranged on the insulating heat-conductive film 3 The refrigeration semiconductor 2 of both sides, envelopes the insulating heat-conductive shell 1 of the refrigeration semiconductor 2, the refrigeration of the refrigeration semiconductor 2 End is close to the insulating heat-conductive film 3, and the heating end of the refrigeration semiconductor 2 is close to the insulating heat-conductive shell 1.

The graphene battery of the present embodiment, refrigeration semiconductor 2 be powered when, can by heat from refrigeration end shift heating end, So that the temperature in the temperature cooling of refrigeration end, reduction graphene inner core 4, heating end is close to insulating heat-conductive shell 1, by exhausted Edge thermal conductive shell 1 is radiated, while insulating heat-conductive shell 1 can prevent electric leakage.By refrigeration semiconductor 2 to graphene electricity Pond controls temperature, so as to prevent the temperature of graphene battery to raise, it is ensured that graphene battery safety.

Further, the insulating heat-conductive shell 1 is made up of fore shell and rear shell.

Insulating heat-conductive shell 1 is made up of fore shell and rear shell, ease of assembly.

Further, micro temperature sensor 6 is provided with the graphene inner core 4, the micro temperature sensor 6 is felt Then control to power to the refrigeration semiconductor 2 when should arrive the temperature of graphene inner core 4 more than setting value.Insulating heat-conductive shell 1 Upper signal and power patch panel 41 with micro temperature sensor 6.

Micro temperature sensor 6 is set to be automatically controlled to temperature, so that the temperature to graphene inner core 4 is carried out Control.

Further, the insulating heat-conductive film 3 is equal benzene-type imines film or biphenyl polyimide film.

Equal benzene-type imines film or the film-insulated heat conduction of biphenyl polyimide, can prevent the electricity in graphene inner core 4 Matter leakage is solved, the heat in graphene inner core 4 can in time be exported again.

Further, the insulating heat-conductive shell 1 is by filling-type thermal-conducting electric-insulating plastics.

The electrodeless oxide of alundum (Al2O3), the PA66 of carbide are such as filled with, filling-type thermal-conducting electric-insulating plastics are existing Material, this place is not the improvement and selection to material.

Further, the insulating heat-conductive shell 1 is bulk.

Block insulating heat-conductive shell 1 is adapted to the use that various electronics are set.

Embodiment 2

The present embodiment provides integral type bonnet, including the lid being made from a material that be thermally conductive, and the lid is provided with as implemented Graphene battery described in example 1, the lid is integrally formed with the insulating heat-conductive shell 1 and obtained.

Integral type bonnet can be installed and used conveniently, at the same can using the lid of bulk as radiating device, further Improve radiating effect.

Using it is above-mentioned according to desirable embodiment of the present utility model as enlightenment, pass through above-mentioned description, related work people Member can carry out various changes and amendments in the range of without departing from this utility model technological thought completely.This reality The content on specification is not limited to new technical scope, it is necessary to its technology is determined according to right Property scope.

Claims (7)

1. graphene battery, it is characterised in that including both positive and negative polarity (5), the graphene inner core coated by insulating heat-conductive film (3) (4) refrigeration semiconductor (2) of insulating heat-conductive film (3) both sides, is arranged on, the exhausted of the refrigeration semiconductor (2) is enveloped Edge thermal conductive shell (1), the refrigeration end of the refrigeration semiconductor (2) is close to the insulating heat-conductive film (3), and the refrigeration is partly led The heating end of body (2) is close to the insulating heat-conductive shell (1).

2. graphene battery according to claim 1, it is characterised in that the insulating heat-conductive shell (1) is by fore shell with after Shell is constituted.

3. graphene battery according to claim 1, it is characterised in that be provided with the graphene inner core (4) miniature Temperature sensor (6), when the micro temperature sensor (6) senses graphene inner core (4) temperature more than setting value then Control to power to the refrigeration semiconductor (2).

4. graphene battery according to claim 1, it is characterised in that the insulating heat-conductive film (3) is that equal benzene-type is sub- Amine film or biphenyl polyimide film.

5. graphene battery according to claim 1, it is characterised in that the insulating heat-conductive shell (1) is led by filled-type Heat insulation plastics.

6. graphene battery according to claim 1, it is characterised in that the insulating heat-conductive shell (1) is bulk.

7. integral type bonnet, it is characterised in that including the lid being made from a material that be thermally conductive, the lid is provided with such as claim Graphene battery described in any one of 1-6, the lid is integrally formed with the insulating heat-conductive shell (1) and obtained.