CN205428711U - Graphite alkene ultracapacitor system structure - Google Patents

Abstract

The utility model discloses a graphite alkene ultracapacitor system structure, include: the casing, its upper end opening, be provided with in the cavity structure of casing with two at least baffles of lower terminal surface vertically of casing, two at least baffles will cavity structural limit holds the chamber for at least two, all set up the storage tank on the face of two at least baffles, two at least graphite alkene supercapacitor unit, it sets up at least two are held the intracavity, and two at least graphite alkene supercapacitor unit establish ties or parallel connection, and every graphite alkene supercapacitor unit includes the anode electrode body and the negative electrode body, two at least heat abstractor, it inlays establishes in the storage tank. The utility model provides a graphite alkene ultracapacitor system structure has better heat dissipation and water -proof effects, has prolonged the life of condenser to but user according to actual need establishes ties graphite alkene supercapacitor unit or parallel connection, has increased graphite alkene ultracapacitor system's application range.

Description

Graphene supercapacitor structures

Technical field

This utility model relates to a kind of Graphene supercapacitor structures.More specifically, this utility model relates to a kind of good heat dissipation effect, and good water-proof effect, service life is long, Graphene supercapacitor structures applied widely.

Background technology

Graphene ultracapacitor is a kind of special capacitor, has abnormal high electric conductivity and high surface area, has higher superiority than like product during energy storage and release.

In charge and discharge process, the IR fall that the internal resistance of Graphene ultracapacitor causes, the efficiency for charge-discharge of capacitor can be lost, therefore capacitor internal resistance size determines the quality of capacitor quality to a certain extent, and owing to the internal resistance of ultracapacitor is greater than ordinary capacitor, in alternating current circuit or altofrequency charge and discharge process, electric capacity can generate heat, and causes the life-span to decay rapidly；In transport and in use, Graphene ultracapacitor encounter water to be prevented, if the humidity of Graphene ultracapacitor is more than 85%, then electric capacity can be caused to make moist performance degradation or get rusty.

Utility model content

In order to solve the problems referred to above, this utility model has designed and developed a kind of Graphene supercapacitor structures, this Graphene supercapacitor structures has excellent heat radiation and waterproof effect, and by housing by least two ultracapacitor combination of monomers together, and by the serial or parallel connection between Graphene ultracapacitor monomer, it is achieved increase the purpose of the electric capacity of Graphene ultracapacitor.

In order to achieve the above object, this utility model provides a kind of Graphene supercapacitor structures, including:

Housing, its upper end open, being provided with at least two baffle plate vertical with the lower surface of described housing in the cavity structure of described housing, described cavity structure is defined at least two and accommodates chamber by described at least two baffle plate, and storage tank is all offered in the plate face of described at least two baffle plate；

At least two Graphene ultracapacitor monomer, its be arranged on described at least two accommodate intracavity, described at least two Graphene ultracapacitor is monomer series-connected or is connected in parallel, and each Graphene ultracapacitor monomer includes positive electrical polar body and negative electricity polar body；

At least two heat abstractor, it is embedded in described storage tank.

Graphene ultracapacitor monomer is packaged together by this utility model by a housing, and divide housing 135 into multiple receiving chamber by baffle plate, Graphene ultracapacitor monomer is contained in receiving intracavity, so that Graphene ultracapacitor monomer solid is scheduled in described housing, by arranging storage tank on the plate face of baffle plate, heat abstractor is set in storage tank, depending on the number of heat abstractor can be according to the number of Graphene ultracapacitor monomer and capacitance size, thus it is embodied as the purpose that Graphene ultracapacitor monomer carries out dispelling the heat, improve the service life of Graphene ultracapacitor；

Further, the most described housing is aluminum hull, in order to prevent housing from corroding in a humidity environment or oxidized, and can be at the certain thickness enamelled coating of the surface-coated of housing.

Preferably, in described Graphene supercapacitor structures, also include:

Positive wire, it electrically connects with one end of the positive electrical polar body of one of them Graphene ultracapacitor monomer, and extends described opening；

Negative wire, it electrically connects with one end of the negative electricity polar body of another one Graphene ultracapacitor monomer, and extends described opening；And

Bucker, it is located at described opening part, to close described housing, described bucker also has the through hole allowing described positive wire and described negative wire to pass through respectively.

Bucker is set by the upper end at housing, substantially increases the water resistance of Graphene supercapacitor structures.

Preferably, in described Graphene supercapacitor structures, the upper end of described baffle plate is 0.5～1.5cm with the distance of the upper end of described housing.

Preferably, in described Graphene supercapacitor structures, described baffle plate is ceramic substrate, and the thickness of described ceramic substrate is 0.5～20mm.The radiating effect of ceramic substrate is excellent, ceramic substrate and the heat abstractor of good heat dissipation is combined, adds the heat dispersion of Graphene supercapacitor structures.

Preferably, in described Graphene supercapacitor structures, described heat abstractor is heat pipe.Heat pipe may select U-shaped heat pipe, straight type heat pipe or the heat pipe of other shapes.

Preferably, in described Graphene supercapacitor structures, described bucker is quality of rubber materials.

Preferably, in described Graphene supercapacitor structures, the size in described receiving chamber matches with described Graphene ultracapacitor monomer.Graphene ultracapacitor monomer can be preferably arranged in housing by this, avoid when transport or carrying Graphene supercapacitor structures, Graphene ultracapacitor monomer rocks in housing, and then destroys the structure in housing, and affects the use of Graphene supercapacitor structures.

The beneficial effects of the utility model are:

1, multiple Graphene ultracapacitor monomers are packaged together by Graphene supercapacitor structures described in the utility model by housing, and can be as required by monomer series-connected for Graphene ultracapacitor or be connected in parallel, owing to multiple Graphene ultracapacitor monomers are simultaneously located in housing, bigger heat will necessarily be produced, therefore it is arranged on the heat abstractor on baffle plate can Graphene supercapacitor structures be dispelled the heat, and can be according to the number of Graphene ultracapacitor monomer and the size of electric capacity after connection in series-parallel in housing, the number of heat abstractor is set, substantially prolongs the service life of Graphene supercapacitor structures.

2, the good heat conductivity of the baffle plate in Graphene supercapacitor structures described in the utility model, by the combination between baffle plate and the heat pipe of good heat conductivity, is greatly improved the radiating effect of heat abstractor.

3, heat abstractor and the baffle plate of Graphene supercapacitor structures described in the utility model is all disposed within housing; housing protects the internal structure of Graphene supercapacitor structures to a certain extent; make Graphene supercapacitor structures have simple structure simultaneously; therefore production cost is reduced low; the lighter in weight of this Graphene supercapacitor structures simultaneously, it is simple to carry and transport.

4, the upper end of Graphene supercapacitor structures described in the utility model arranges bucker, has preferable waterproof effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of the Graphene supercapacitor structures described in one of them embodiment of the present utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in further detail, to make those skilled in the art can implement according to this with reference to description word.

As it is shown in figure 1, the Graphene supercapacitor structures described in one of them embodiment of this utility model, including:

Housing 1, its upper end open, being provided with at least two baffle plate 2 vertical with the lower surface of described housing in the cavity structure of described housing 1, described cavity structure is defined at least two and accommodates chamber 110 by described at least two baffle plate 2, and storage tank is all offered in the plate face of described at least two baffle plate 2；

At least two Graphene ultracapacitor monomer 3, its be arranged on described at least two accommodate intracavity, described at least two Graphene ultracapacitor monomer 3 is connected in series or in parallel, and each Graphene ultracapacitor monomer includes positive electrical polar body and negative electricity polar body；

At least two heat abstractor 4, it is embedded in described storage tank.

Graphene ultracapacitor monomer 3 is packaged together by this utility model by a housing 1, and by baffle plate 2, housing 1 is divided into multiple receiving chamber 110, Graphene ultracapacitor monomer 3 is contained in receiving intracavity, so that Graphene ultracapacitor monomer 3 is fixed in described housing 1, by arranging storage tank on the plate face of baffle plate 2, heat abstractor 4 is set in storage tank, depending on the number of heat abstractor 4 can be according to the number of Graphene ultracapacitor monomer 3 and capacitance size, thus it is embodied as the purpose that Graphene ultracapacitor monomer carries out dispelling the heat, improve the service life of Graphene supercapacitor structures；

Further, the most described housing 1 is aluminum hull, in order to prevent housing 1 from corroding in a humidity environment or oxidized, and can be at the certain thickness enamelled coating of the surface-coated of housing；

The most also can offer storage tank in the two of baffle plate 2 plate face simultaneously

Wherein in an embodiment, described Graphene supercapacitor structures also includes:

Positive wire 5, it electrically connects with one end of the positive electrical polar body of one of them Graphene ultracapacitor monomer, and extends described opening；

Negative wire 6, it electrically connects with one end of the negative electricity polar body of another one Graphene ultracapacitor monomer, and extends described opening；And

Bucker 7, it is located at described opening part, to close described housing 1, described bucker 7 also has the through hole allowing described positive wire and described negative wire to pass through respectively.

By arranging bucker 7 in the upper end of housing, substantially increase the water resistance of Graphene supercapacitor structures.

Wherein in an embodiment, the upper end of described baffle plate is 0.5～1.5cm with the distance of the upper end of described housing.Can be connected in series or in parallel by guide pin between Graphene ultracapacitor monomer, owing to baffle plate upper end and housing upper end have a certain distance, it is ensured that passing through of guide pin.

Wherein in an embodiment, described baffle plate 2 is ceramic substrate, and the thickness of described ceramic substrate is 0.5～20mm.The radiating effect of ceramic substrate is excellent, ceramic substrate and the heat abstractor of good heat dissipation is combined, adds the heat dispersion of Graphene supercapacitor structures.

Wherein in an embodiment, described heat abstractor 4 is heat pipe.Heat pipe may select U-shaped heat pipe, straight type heat pipe or the heat pipe of other shapes.

Wherein in an embodiment, described bucker 7 is quality of rubber materials.

Wherein in an embodiment, the size in described receiving chamber 110 matches with described Graphene ultracapacitor monomer 3.Graphene ultracapacitor monomer 3 can be preferably arranged in housing 1 by this, avoid when transport or carrying Graphene supercapacitor structures, Graphene ultracapacitor monomer 3 rocks in housing 1, and then destroys the structure in housing, and affects the use of Graphene supercapacitor structures.

Although embodiment of the present utility model is disclosed as above, but it is not restricted in description and embodiment listed utilization.It can be applied to various applicable field of the present utility model completely.For those skilled in the art, it is easily achieved other amendment.Therefore, under the general concept limited without departing substantially from claim and equivalency range, this utility model is not limited to specific details and shown here as the legend with description.

Claims (7)

1. a Graphene supercapacitor structures, it is characterised in that including:

Housing, its upper end open, being provided with at least two baffle plate vertical with the lower surface of described housing in the cavity structure of described housing, described cavity structure is defined at least two and accommodates chamber by described at least two baffle plate, and storage tank is all offered in the plate face of described at least two baffle plate；

At least two Graphene ultracapacitor monomer, its be arranged on described at least two accommodate intracavity, described at least two Graphene ultracapacitor is monomer series-connected or is connected in parallel, and each Graphene ultracapacitor monomer includes positive electrical polar body and negative electricity polar body；

At least two heat abstractor, it is embedded in described storage tank.

2. Graphene supercapacitor structures as claimed in claim 1, it is characterised in that also include:

Positive wire, it electrically connects with one end of the positive electrical polar body of one of them Graphene ultracapacitor monomer, and extends described opening；

Negative wire, it electrically connects with one end of the negative electricity polar body of another one Graphene ultracapacitor monomer, and extends described opening；And

Bucker, it is located at described opening part, to close described housing, described bucker also has the through hole allowing described positive wire and described negative wire to pass through respectively.

3. Graphene supercapacitor structures as claimed in claim 2, it is characterised in that the upper end of described baffle plate is 0.5～1.5cm with the distance of the upper end of described housing.

4. Graphene supercapacitor structures as claimed in claim 1, it is characterised in that described baffle plate is ceramic substrate, and the thickness of described ceramic substrate is 0.5～20mm.

5. Graphene supercapacitor structures as claimed in claim 1, it is characterised in that described heat abstractor is heat pipe.

6. Graphene supercapacitor structures as claimed in claim 2, it is characterised in that described bucker is quality of rubber materials.

7. Graphene supercapacitor structures as claimed in claim 1, it is characterised in that the size in described receiving chamber matches with described Graphene ultracapacitor monomer.