CN209787096U - Graphene battery structure - Google Patents

Abstract

The utility model provides a graphite alkene battery structure, it is including the casing that can hold graphite alkene battery body, be provided with plate electrode and controller on the curb plate of casing, and the roof of casing sets up for ground slope, and it has first photovoltaic power generation board to bond on the roof, the output of first photovoltaic power generation board and the equal electricity connection of charging end of graphite alkene battery body are in the dc-to-ac converter, the input of plate electrode and the discharge end electricity of graphite alkene battery body connect in the transformer, the both sides at the graphite alkene battery body in the casing are fixed respectively to transformer and dc-to-ac converter, graphite alkene battery body all is connected with the controller electricity with the transformer, be equipped with second photovoltaic power generation board and third photovoltaic power generation board in the both ends pivot of roof, and both can open and shut the setting around the pivot that corresponds separately for first photovoltaic power generation board. The utility model discloses a graphite alkene battery structure can effectual improvement sun shine the area to improvement solar energy utilization ratio that can be great, and better result of use has.

Description

graphene battery structure

Technical Field

The utility model relates to a battery technology field, in particular to graphite alkene battery structure.

background

Solar cells are devices which directly convert light energy into electric energy through a photoelectric effect or a photochemical effect, and can output voltage and current instantly as long as the solar cells are illuminated by light.

the types of solar cells are various, and the solar graphene cell is one of the solar cells, while the angle of the photovoltaic panel can not be adjusted when the existing solar graphene cell generates electricity, and the existing solar graphene cell can only receive solar radiation by utilizing a fixed angle, so that the problem that the generated energy of the graphene cell is low is caused, and great economic loss is brought to users.

SUMMERY OF THE UTILITY MODEL

in view of this, the present invention is directed to a graphene battery structure to improve the utilization rate of solar radiation.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

A graphene battery structure, comprising a controller, further comprising: a shell capable of containing a graphene battery body, wherein a side plate of the shell is provided with an electrode plate, a top plate of the shell is obliquely arranged relative to the ground, a first photovoltaic power generation plate is bonded on the top plate, the output end of the first photovoltaic power generation plate and the charging end of the graphene battery body are both electrically connected to an inverter, the input end of the electrode plate and the discharging end of the graphene battery body are both electrically connected to a transformer, the transformer and the inverter are respectively fixed in the shell and positioned at two sides of the graphene battery body, a controller is embedded on the side plate of the shell, the graphene battery body and the transformer are both electrically connected to the controller, a second photovoltaic power generation plate and a third photovoltaic power generation plate are pivotally arranged at two ends of the top plate, and the second photovoltaic power generation plate and the third photovoltaic power generation plate are respectively arranged at two ends of the first photovoltaic power generation plate, and can be opened and closed around the respective corresponding pivot for first photovoltaic power generation board and set up.

Furthermore, positioning devices are respectively arranged between the shell and the second photovoltaic power generation panel and between the shell and the third photovoltaic power generation panel, so that the second photovoltaic power generation panel and the third photovoltaic power generation panel can be positioned relative to the shell.

Furthermore, the positioning device comprises a plurality of wave screws arranged on the side plates of the shell corresponding to the two rotating shafts, and at least two limiting grooves for clamping the wave screws are constructed on the peripheral surfaces of the two rotating shafts corresponding to the wave screws.

Furthermore, an elastic clamping part for clamping and fixing the graphene battery body is constructed on the bottom plate of the shell.

Furthermore, the elastic clamping part comprises a plurality of elastic sheets which are integrally formed on the bottom plate and surround the side wall of the graphene battery body.

Further, through holes are hollowed in the bottom plate corresponding to the elastic pieces, abutting faces capable of abutting against the side walls of the graphene battery body are formed on the elastic pieces, and guide faces enabling the graphene battery body to be mounted on the bottom plate are formed at free ends of the elastic pieces.

Furthermore, an elastic bulge for supporting the graphene battery body is formed on the bottom plate of the shell.

Furthermore, a heat dissipation grid is arranged on one side plate of the shell.

Furthermore, the bottom of the shell is provided with a supporting block which forms a space between the shell and the ground.

compared with the prior art, the utility model discloses following advantage has:

(1) graphene battery structure, through fixing first photovoltaic power generation board on the roof that the slope set up to and set up second photovoltaic power generation board and the third photovoltaic power generation board that can open and shut at the both ends of roof, can be when not, fold and accomodate second photovoltaic power generation board and third photovoltaic power generation board, and can be when using, open second photovoltaic power generation board and third photovoltaic power generation board for first photovoltaic power generation board, can effectual improvement sun exposure's area, thereby improve the utilization ratio of solar energy, and have better result of use.

(2) Set up positioner to make second photovoltaic power generation board and third photovoltaic power generation board when the opening and shutting, for the roof location, prevent rocking of second photovoltaic power generation board and third photovoltaic power generation board, further improve the result of use and when accomodating the protection to each photovoltaic power generation board.

(3) the wave screw and one of the limiting grooves are matched and clamped with the limiting grooves, so that the second photovoltaic power generation board and the third photovoltaic power generation board can be positioned when the second photovoltaic power generation board and the third photovoltaic power generation board are opened and folded and closed.

(4) Set up elasticity clamping part to it is fixed to be favorable to carrying out the centre gripping to graphite alkene battery body.

(5) the shell fragment that sets up has simple structure, and is fixed effectual, corresponds to the shell fragment simultaneously, and the through-hole that the fretwork set up on the bottom plate also is favorable to the heat dissipation of graphite alkene battery body.

(6) Set up elastic bulge to be favorable to graphene battery body elastic buffer, can prevent effectively that graphene battery body and casing rigid contact from, thereby can play the guard action.

(7) The heat dissipation grid is arranged, so that heat dissipation of the graphene battery body in the charging and discharging process is facilitated.

(8) Set up the supporting shoe to be favorable to supporting the bottom plate, the bottom plate sets up with ground interval, does benefit to the ventilation cooling of graphite alkene battery on the one hand, and on the other hand prevents that subaerial water from soaking the bottom plate, causes the damage to graphite alkene battery, thereby plays the effect of protection battery.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

Fig. 1 is a schematic structural diagram of a graphene battery structure according to an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of a usage state of a graphene battery structure according to an embodiment of the present invention;

Fig. 3 is a schematic structural diagram of another view angle of the graphene battery structure according to the embodiment of the present invention;

Fig. 4 is a cross-sectional view of a graphene battery structure according to an embodiment of the present invention;

Fig. 5 is a schematic structural view of a third photovoltaic power generation panel closing device according to an embodiment of the present invention;

Fig. 6 is a schematic structural view illustrating a third photovoltaic power generation panel according to an embodiment of the present invention being vertically opened;

Fig. 7 is a schematic structural diagram of a third photovoltaic power generation panel opening device according to an embodiment of the present invention;

Description of reference numerals:

1-a first photovoltaic power generation plate, 2-a second photovoltaic power generation plate, 3-a third photovoltaic power generation plate, 4-a rotating shaft, 5-a heat dissipation grid, 6-an electric quantity indicator lamp, 7-a handle, 8-an electrode plate, 9-a supporting block, 11-a transformer, 12-an inverter, 21-an elastic bulge, 31-an elastic sheet, 32-a guide surface and 41-a limiting groove;

10-top plate, 20-bottom plate, 40-graphene battery body, 50-wave screw and 100-shell.

Detailed Description

it should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it should be noted that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

the present embodiment relates to a graphene battery structure, an exemplary structure of which is shown in fig. 1 to 4, the graphene battery structure includes a controller and a case 100 capable of accommodating a graphene battery body 40, a plate electrode 8 is disposed on a side plate of the case 100, and a top plate 10 of the case 100 is disposed in an inclined manner with respect to the ground, and a first photovoltaic power generation plate 1 is bonded to the top plate 10, wherein an output end of the first photovoltaic power generation plate 1 and a charging end of the graphene battery body 40 are both electrically connected to an inverter 12, a discharging end of the graphene battery body 40 is electrically connected to a transformer 11, the transformer 11 and the inverter 12 are respectively fixed in the case 100 and located at two sides of the graphene battery body 40, the controller is embedded in the side plate of the case 100, and the graphene battery body 40 and the transformer 11 are both electrically connected to the controller.

In addition, the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3 are pivotally arranged at two ends of the top plate 10, and the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3 are respectively arranged at two ends of the first photovoltaic power generation panel 1 and can be opened and closed around the corresponding rotating shafts 4 relative to the first photovoltaic power generation panel 1.

In order to facilitate the positioning of the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3 which are opened and closed, positioning devices are respectively arranged between the casing 100 and the second photovoltaic power generation panel 2 and between the casing 100 and the third photovoltaic power generation panel 3, so that the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3 are positioned relative to the first photovoltaic power generation panel 1 when being opened at a certain angle and folded and closed, and the second photovoltaic power generation panel 2 can be prevented from being damaged due to no positioning.

In particular, as shown in fig. 4 to 7, the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3 can be fixed with respect to the first photovoltaic power generation panel 1 when opened and closed. The positioning device includes a plurality of wave screws 50 disposed on the side plate of the housing 100 corresponding to the two rotating shafts 4. In this embodiment, in order to facilitate description of the opening and closing processes of the second photovoltaic power generation panel 2 and the third photovoltaic power generation panel 3, the opening and closing process of the third photovoltaic power generation panel 3 is described as an example. As shown in fig. 4 and 5, the wave screw 50 is provided in two on the two opposite side plates. At least two limiting grooves 41 for clamping the wave screw 50 are formed on the outer peripheral surfaces of the two rotating shafts 4 corresponding to the wave screws 50.

In this embodiment, three limiting grooves 41 are provided on the outer peripheral surface of the rotating shaft 4, but the number of the limiting grooves 41 may be other numbers. The three limiting grooves 41 correspond to the closed position, the open vertical position and the open position of the third photovoltaic power generation panel 3, and the open vertical position may not be set. According to the needs, the steel balls on the wave screw 50 can be clamped in different limiting grooves 41, so that the third photovoltaic power generation panel 3 can be opened and closed.

In order to facilitate clamping and fixing the graphene battery body 40, an elastic clamping portion for clamping and fixing the graphene battery body 40 is configured on the bottom plate 20 of the case 100. Specifically, as shown in fig. 4, the elastic clamping portion includes a plurality of elastic sheets 31 integrally formed on the bottom plate 20 and surrounding the sidewall of the graphene battery body 40. Corresponding to each elastic sheet 31, a through hole is hollowed out on the bottom plate 20, and the arrangement of the through hole is also beneficial to heat dissipation of the graphene battery body 40. Each spring plate 31 is configured with an abutting surface which can abut against the side wall of the graphene battery body 40, and the free end of each spring plate 31 is configured with a guide surface 32 which enables the graphene battery body 40 to be mounted on the bottom plate 20, so that the graphene body is firmly clamped on the bottom plate 20.

In the present embodiment, in order to better support the graphene battery body 40 and prevent the graphene battery body 40 from being in hard contact with the case 100, the elastic protrusion 21 for supporting the graphene battery body 40 is configured on the bottom plate 20 of the case 100, so that the graphene battery body 40 can be elastically buffered and protected.

in order to facilitate heat dissipation of the graphene battery body 40 during charging and discharging, a heat dissipation grid 5 is disposed on one side plate of the case 100. Further, a support block 9 is provided at the bottom of the casing 100 to form a space between the casing 100 and the floor surface in order to support the bottom plate 20. So set up, strengthen graphene battery body 40's ventilation cooling effect on the one hand, on the other hand prevents that subaerial water from soaking bottom plate 20 to can play the guard action to graphene battery body 40. Of course, handles 7 are provided on the opposite side panels for ease of carrying.

the graphene battery structure of this embodiment is through fixing first photovoltaic power generation board 1 on the roof 10 that the slope set up, and set up second photovoltaic power generation board 2 and the third photovoltaic power generation board 3 that can open and shut at the both ends of roof 10, can be when not, fold second photovoltaic power generation board 2 and third photovoltaic power generation board 3 and accomodate, and can be when using, open second photovoltaic power generation board 2 and third photovoltaic power generation board 3 for first photovoltaic power generation board 1, in order can effectual improvement sun-struck area, thereby improve the utilization ratio of solar energy, and better result of use has.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A graphene battery structure, includes the controller, its characterized in that still includes: the shell (100) capable of accommodating the graphene battery body (40), wherein an electrode plate (8) is arranged on a side plate of the shell (100), a top plate (10) of the shell (100) is obliquely arranged relative to the ground, a first photovoltaic power generation plate (1) is bonded on the top plate (10), the output end of the first photovoltaic power generation plate (1) and the charging end of the graphene battery body (40) are electrically connected to an inverter (12), the input end of the electrode plate (8) and the discharging end of the graphene battery body (40) are electrically connected to a transformer (11), the transformer (11) and the inverter (12) are respectively fixed in the shell (100) and positioned at two sides of the graphene battery body (40), the controller is embedded on the side plate of the shell (100), and the graphene battery body (40) and the transformer (11) are electrically connected to the controller, the two ends of the top plate (10) are provided with a second photovoltaic power generation plate (2) and a third photovoltaic power generation plate (3) in a pivoting mode, the second photovoltaic power generation plate (2) and the third photovoltaic power generation plate (3) are arranged at the two ends of the first photovoltaic power generation plate (1) respectively, and the two ends of the first photovoltaic power generation plate (1) can be opened and closed around corresponding rotating shafts (4) respectively.

2. The graphene battery structure of claim 1, wherein: positioning devices are respectively arranged between the shell (100) and the second photovoltaic power generation panel (2) and between the shell (100) and the third photovoltaic power generation panel (3) so as to position the second photovoltaic power generation panel (2) and the third photovoltaic power generation panel (3) relative to the shell (100).

3. The graphene battery structure of claim 2, wherein: the positioning device comprises a plurality of wave screws (50) which are arranged on the side plate of the shell (100) corresponding to the two rotating shafts (4), and at least two limiting grooves (41) for clamping the wave screws (50) are formed on the peripheral surfaces of the two rotating shafts (4) corresponding to the wave screws (50).

4. The graphene battery structure of any one of claims 1-3, wherein: an elastic clamping part for clamping and fixing the graphene battery body (40) is constructed on the bottom plate (20) of the shell (100).

5. The graphene battery structure of claim 4, wherein: the elastic clamping part comprises a plurality of elastic sheets (31) which are integrally formed on the bottom plate (20) and surround the side wall of the graphene battery body (40).

6. The graphene battery structure of claim 5, wherein: corresponding to each elastic sheet (31), through holes are arranged on the bottom plate (20) in a hollow mode, abutting surfaces capable of abutting against the side walls of the graphene battery body (40) are formed on each elastic sheet (31), and guide surfaces (32) enabling the graphene battery body (40) to be installed on the bottom plate (20) are formed at the free ends of the elastic sheets (31).

7. The graphene battery structure of claim 4, wherein: an elastic protrusion (21) for supporting the graphene battery body (40) is formed on the bottom plate (20) of the case (100).

8. The graphene battery structure of claim 1, wherein: a heat dissipation grid (5) is arranged on one side plate of the shell (100).

9. The graphene battery structure of claim 1, wherein: and the bottom of the shell (100) is provided with a supporting block (9) which forms a space between the shell (100) and the ground.