CN114914099A - Energy storage device for polymerized compound graphene-based capacitor - Google Patents

Abstract

The invention provides a polymerized compound graphene-based capacitive energy storage device, and relates to the field of household kitchens. This black dirt clearing device is burnt out to bottom of a boiler based on self-cleaning, including the mounting panel, the last fixed surface of mounting panel is connected with deposits can the case, the inside screw thread gomphosis that deposits can the case is connected with the apron, the inside of apron is provided with fastening device, fastening device's upper surface is provided with forced air cooling mechanism, the front surface of depositing can the case is provided with installation mechanism. After graphite alkenyl capacitor plate 4 installed, press the gomphosis board downwards, make the gomphosis board can get into the inside of apron and make the rubber piece can push down graphite alkenyl capacitor plate 4, after graphite alkenyl capacitor plate 4 is fixed completely, twist the gim peg and make its inside that can install into the apron with the gomphosis board fixed graphite alkenyl capacitor plate 4, make graphite alkenyl capacitor plate 4 better when the fastness of installation use.

Description

Energy storage device for polymerized compound graphene-based capacitor

Technical Field

The invention relates to the technical field of capacitor energy storage, in particular to a polymerization compound graphene-based capacitor energy storage device.

Background

The capacitor can rapidly store and release energy, the energy density of the capacitor is far superior to that of the traditional insulator capacitor, people regard the capacitor as a future energy storage system, the capacitor has longer service life and extremely high energy density, the capacitor can be directly used as a main energy source and used in combination with a battery fuel cell, the application field can be applied to electronic products, hybrid electric vehicles and standby power systems, the capacitor stores energy in separated charges, the larger the area for storing the charges is, the denser the separated charges are, the larger the capacitance is, a polymerization compound graphene-based capacitor energy storage device is installed and used by a carrier which is mainly a graphene-based capacitor plate;

but present gathering compound graphite alkenyl electric capacity is deposited and is able to put when using, and graphite alkenyl electric capacity board is the gomphosis installation usually, leads to graphite alkenyl electric capacity board to appear rocking easily in the in-process when using, and the fastness is relatively poor, and when using graphite alkenyl electric capacity board, the device dispels the heat to graphite alkenyl electric capacity board usually, makes it increase power consumption, and energy-conserving effect is poor simultaneously.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a polymerized compound graphene-based capacitor energy storage device, which solves the problems of shaking, energy saving and heat dissipation of a graphene-based capacitor plate.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: gather compound graphite alkene base electric capacity and deposit can device, including the mounting panel, the last fixed surface of mounting panel is connected with deposits can the case, the internal thread gomphosis of depositing can the case is connected with the apron, the inside of apron is provided with fastening device, fastening device's upper surface is provided with forced air cooling mechanism, the front surface of depositing can the case is provided with installation mechanism.

Preferably, the fastening mechanism comprises an embedded plate, the embedded plate is embedded and connected with the cover plate, a rubber block is arranged on the lower surface of the embedded plate, fixing plates are fixedly connected to the surfaces of the two sides of the embedded plate, fixing bolts are connected to the inner threads of the fixing plates in a threaded mode, and the fixing bolts are connected with the cover plate in a threaded mode.

Preferably, the air cooling mechanism comprises an air inlet cover, the air inlet cover is fixedly connected with the embedded plate, and the lower surface of the air inlet cover is positioned on the left side of the rubber block and is fixedly connected with an air inlet pipe.

Preferably, installation mechanism includes the threaded rod, and the threaded rod with deposit can case fixed connection, the side surface threaded connection of threaded rod has the diaphragm, the hollow seat of rear surface fixedly connected with of diaphragm, the inside fixedly connected with spring of hollow seat, the one end fixedly connected with that hollow seat was kept away from to the spring removes the seat, and removes seat and hollow seat sliding connection, remove the seat and deposit can case fixed connection, the front surface of diaphragm is provided with the friction plate.

Preferably, the inside fixedly connected with mount pad of depositing the ability case, the inside gomphosis of mount pad is connected with graphite alkene base electric capacity board, and graphite alkene base electric capacity board and block rubber laminating are connected.

Preferably, the two side surfaces of the energy storage box are provided with heat dissipation holes, the front surface of the cover plate is in threaded connection with a fastening bolt, and the fastening bolt is in threaded connection with the energy storage box.

(III) advantageous effects

The invention provides a polymerized compound graphene-based capacitor energy storage device, which has the following beneficial effects:

1. compared with the prior art, through the fastening device who sets up, after 4 installations of graphite alkenyl electric capacity board finish, press the gomphosis board downwards, make the inside that the gomphosis board can get into the apron make the rubber block can push down graphite alkenyl electric capacity board 4, after graphite alkenyl electric capacity board 4 is fixed completely, twist and move the gim peg and make its inside that can install into the apron with the gomphosis board fixed graphite alkenyl electric capacity board 4, make graphite alkenyl electric capacity board 4 fastness when the installation is used better.

2. Compared with the prior art, through the air cooling mechanism who sets up, when the device is using, utilize the cover that intakes to make external wind accessible air inlet cover get into the air inlet pipe and discharge and deposit and can dispel the heat to graphite alkene group electric capacity board 4 to the incasement, utilize the louvre can discharge away the heat of depositing the ability incasement, usable external natural wind dispels the heat to graphite alkene group electric capacity board, makes it comparatively energy-conserving when dispelling the heat to the device.

3. Compared with the prior art, through the installation mechanism that sets up, when the device when the installation, twist the nut and make the diaphragm can slide on the surface of threaded rod, after the diaphragm slides to suitable distance, twist the nut once more, make the nut block the diaphragm and be difficult for rocking to can install depositing ability device and external device, and installation procedure is comparatively convenient.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic view of the structure at A in FIG. 1 according to the present invention.

Wherein, 1, mounting a plate; 2. a mounting seat; 3. an energy storage box; 4. a graphene-based capacitive plate; 5. an air cooling mechanism; 501. an air inlet cover; 502. an air inlet pipe; 6. a fastening mechanism; 601. a tabling plate; 602. a rubber block; 603. a fixing plate; 604. a fixing bolt; 7. a cover plate; 8. an installation mechanism; 801. a threaded rod; 802. a spring; 803. a transverse plate; 804. a friction plate; 805. a hollow seat; 806. a movable seat; 9. and (4) heat dissipation holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1-5, an embodiment of the present invention provides a polymerized composite graphene-based capacitor energy storage device, which includes a mounting plate 1, an energy storage box 3 fixedly connected to an upper surface of the mounting plate 1, a cover plate 7 connected to an internal thread of the energy storage box 3 in an embedded manner, a mounting base 2 fixedly connected to an internal portion of the energy storage box 3, a graphene-based capacitor plate 4 connected to an internal portion of the mounting base 2 in an embedded manner, and a rubber block 602 attached to the graphene-based capacitor plate 4 for mounting the graphene-based capacitor plate 4 for use of the energy storage device, heat dissipation holes 9 provided on both side surfaces of the energy storage box 3, a fastening bolt connected to a front surface of the cover plate 7 in a threaded manner and connected to the energy storage box 3, a fastening mechanism 6 provided inside the cover plate 7, the fastening mechanism 6 including an embedded plate 601, the embedded plate 601 connected to the cover plate 7 in an embedded manner, and the rubber block 602 provided on a lower surface of the embedded plate 601, the fixing plates 603 are fixedly connected to the surfaces of the two sides of the embedded plate 601, the fixing bolts 604 are connected to the inner threads of the fixing plates 603, the fixing bolts 604 are connected with the cover plate 7 through threads, after the graphene-based capacitor plate 4 is mounted, the embedded plate 601 is pressed downwards to enable the embedded plate 601 to enter the cover plate 7 so that the rubber block 602 can press the graphene-based capacitor plate 4, and after the graphene-based capacitor plate 4 is completely fixed, the fixing bolts 604 are screwed to enable the embedded plate 601 to be mounted in the cover plate 7 to fix the graphene-based capacitor plate 4.

Through setting up above structure, make graphite alkenyl capacitor plate 4 steadiness when the installation is used better, be difficult for appearing graphite alkenyl capacitor plate 4 and rock and cause the damage.

The upper surface of fastening device 6 is provided with air-cooled mechanism 5, and air-cooled mechanism 5 includes air inlet cover 501, and air inlet cover 501 and gomphosis board 601 fixed connection, and the lower surface of air inlet cover 501 is located the left side fixedly connected with air-supply line 502 of block rubber 602, and when the device was in use, the cover that intakes makes external wind accessible air inlet cover 501 get into air-supply line 502 and discharge and deposit and dispel the heat in the case 3 to graphite alkene base electric capacity board 4 in the case 3, can discharge the heat in the case 3 with the louvre 9.

Through setting up above structure, usable external natural wind dispels the heat to graphite alkene base capacitor plate 4, makes it comparatively energy-conserving when dispelling the heat to the device.

The front surface of the energy storage tank 3 is provided with an installation mechanism 8, the installation mechanism 8 comprises a threaded rod 801, and the threaded rod 801 is fixedly connected with the energy storage box 3, the lateral surface of the threaded rod 801 is in threaded connection with the transverse plate 803, the rear surface of the transverse plate 803 is fixedly connected with the hollow seat 805, the inside of the hollow seat 805 is fixedly connected with the spring 802, one end of the spring 802 far away from the hollow seat 805 is fixedly connected with the movable seat 806, the movable base 806 is slidably connected with the hollow base 805, the movable base 806 is fixedly connected with the energy storage box 3, the front surface of the horizontal plate 803 is provided with a friction plate 804, when the device is mounted, the nut is screwed to make the transverse plate 803 slide on the surface of the threaded rod 801, when the transverse plate 803 slides to a proper distance, the nut is screwed again, so that the transverse plate 803 can be blocked by the nut and is not easy to shake, therefore, the energy storage device can be installed with an external device, and the elasticity of the spring 802 is utilized to achieve the purpose of buffering when the device bumps.

Through setting up above structure, it is comparatively convenient when will deposit can the device and install with external device, improved the steadiness of device simultaneously.

The working principle is as follows: when the energy storage device is used, when the graphene-based capacitor plate 4 is embedded into the mounting seat 2, the fastening bolt is screwed to enable the cover plate 7 to be connected with the energy storage box 3, the embedding plate 601 is pressed downwards to enable the embedding plate 601 to enter the cover plate 7 so that the rubber block 602 can press the graphene-based capacitor plate 4, after the graphene-based capacitor plate 4 is completely fixed, the fixing bolt 604 is screwed to enable the embedding plate 601 to be installed into the cover plate 7 to fix the graphene-based capacitor plate 4, when the embedding plate 601 is embedded into the cover plate 7, the air inlet pipe 502 can extend into the energy storage box 3 to be positioned between the graphene-based capacitor plates 4, the water inlet cover enables outside air to enter the air inlet pipe 502 through the air inlet cover 501 to be discharged into the energy storage box 3 to dissipate heat of the graphene-based capacitor plate 4, the energy storage device is installed with an external device, and the nut is screwed to enable the transverse plate 803 to slide on the surface of the threaded rod 801, when the transverse plate 803 slides to a proper distance, the nut is screwed again, so that the transverse plate 803 can be blocked by the nut and is not easy to shake, and the stability of the device is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Gather compound graphite alkenyl electric capacity and deposit ability device, including mounting panel (1), its characterized in that: the last fixed surface of mounting panel (1) is connected with deposits can case (3), the internal thread gomphosis of depositing can case (3) is connected with apron (7), the inside of apron (7) is provided with fastening device (6), the upper surface of fastening device (6) is provided with forced air cooling mechanism (5), the front surface of depositing can case (3) is provided with installation mechanism (8).

2. The polymerized composite graphene-based capacitive energy storage device of claim 1, wherein: the fastening mechanism (6) comprises a mosaic plate (601), the mosaic plate (601) is connected with the cover plate (7) in a mosaic mode, a rubber block (602) is arranged on the lower surface of the mosaic plate (601), fixing plates (603) are fixedly connected to the surfaces of the two sides of the mosaic plate (601), fixing bolts (604) are connected to the inner threads of the fixing plates (603) in a threaded mode, and the fixing bolts (604) are connected with the cover plate (7) in a threaded mode.

3. The polymerized composite graphene-based capacitive energy storage device of claim 1, wherein: the air cooling mechanism (5) comprises an air inlet cover (501), the air inlet cover (501) is fixedly connected with the embedded plate (601), and the lower surface of the air inlet cover (501) is located on the left side of the rubber block (602) and is fixedly connected with an air inlet pipe (502).

4. The polymerized composite graphene-based capacitive energy storage device of claim 1, wherein: installation mechanism (8) include threaded rod (801), and threaded rod (801) with deposit can case (3) fixed connection, the side surface threaded connection of threaded rod (801) has diaphragm (803), the hollow seat (805) of rear surface fixedly connected with of diaphragm (803), the inside fixedly connected with spring (802) of hollow seat (805), the one end fixedly connected with that hollow seat (805) was kept away from in spring (802) removes seat (806), and removes seat (806) and hollow seat (805) sliding connection, remove seat (806) and deposit can case (3) fixed connection, the front surface of diaphragm (803) is provided with friction plate (804).

5. The polymerized composite graphene-based capacitive energy storage device of claim 1, wherein: deposit inside fixedly connected with mount pad (2) of ability case (3), the inside gomphosis of mount pad (2) is connected with graphite alkene group electric capacity board (4), and graphite alkene group electric capacity board (4) are connected with rubber block (602) laminating.

6. The polymerized composite graphene-based capacitive energy storage device of claim 1, wherein: the two side surfaces of the energy storage box (3) are provided with heat dissipation holes (9), the front surface of the cover plate (7) is in threaded connection with fastening bolts, and the fastening bolts are in threaded connection with the energy storage box (3).

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