CN207797197U - Photovoltaic generation graphene heating system - Google Patents

Abstract

The utility model belongs to heating technology field more particularly to a kind of photovoltaic generation graphene heating system.It solves the problems such as prior art design is unreasonable.This photovoltaic generation graphene heating system includes photovoltaic electrification component, and electric storage device is connected on photovoltaic electrification component, and this system further includes the graphene conductive heat generating device being connect with the photovoltaic electrification component and/or electric storage device.The utility model has the advantage of：At low cost and use is safer.

Description

Photovoltaic generation graphene heating system

Technical field

The utility model belongs to heating technology field more particularly to a kind of photovoltaic generation graphene heating system.

Background technology

Its general various ways with underground heat and air-conditioning and heating of indoor heating.

Such as：Sphere of life, industrial circle, military industry field, agriculture field and fishery field etc. are required for heating system System.

Currently, existing heating system, at least has the following technical problems：

The first, energy consumption consumes higher and higher operating costs.

The second, coefficient safe to use is low.

Utility model content

The purpose of this utility model is in view of the above-mentioned problems, providing a kind of at low cost and using safer photovoltaic generation Graphene heating system.

In order to achieve the above objectives, the utility model uses following technical proposal：This photovoltaic generation graphene heating system Including photovoltaic electrification component, electric storage device is connected on photovoltaic electrification component, this system further includes and the photovoltaic generation Component and/or the graphene conductive heat generating device of electric storage device connection.

Electric energy is converted light energy by photovoltaic electrification component, graphene conductive heat generating device can be powered, It not only acts as good energy-conserving action, and further improves the comfort of heating, and cost is lower and use is more square Just.

By designing graphene conductive heat generating device, the safety coefficient used can also be further increased.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heat generating device is graphene conductive Heating film, the graphene conductive heating film have several pieces and interval setting.

Its ductility with radial direction and broadwise of graphene conductive heating film.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heating film includes flame-resistant insulation Layer, it is laminated equipped with graphene layer in flame-resistant insulation, reflection and heat insulation is equipped between graphene conductive heating film and graphene layer Layer.

The structure has the function of heat-insulated and heat preservation.

In above-mentioned photovoltaic generation graphene heating system, the flame-resistant insulation layer thickness is more than reflection and heat insulation layer Thickness, the graphene layer thickness are less than the thickness of flame-resistant insulation layer.

In above-mentioned photovoltaic generation graphene heating system, the photovoltaic electrification component includes several pieces of photovoltaic crystalline substances Piece, the photovoltaic chip are arranged in a one-to-one correspondence with the graphene conductive heating film, and photovoltaic chip is fixed on block objects Outer surface, graphene conductive heating film is fixed on the inner surface of block objects.

By the design of this structure, light harvesting area and generating efficiency can be further increased.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heating film in horizontal distribution and on Lower interval setting, the photovoltaic chip are arranged in a one-to-one correspondence with graphene conductive heating film.

The best embodiment of light transmission may be implemented in the design of the structure.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heating film is in vertical distribution and a left side Right septum is arranged.

In above-mentioned photovoltaic generation graphene heating system, it is connected on the graphene conductive heat generating device and city The power cord of electrical connection.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heating film is in series or in parallel to be set It sets.

In above-mentioned photovoltaic generation graphene heating system, the photovoltaic wafer tandem or it is arranged in parallel.

In above-mentioned photovoltaic generation graphene heating system, superhydrophilic self-cleaning coating is equipped in photovoltaic wafer outer surface Layer.

In above-mentioned photovoltaic generation graphene heating system, photovoltaic cell array distribution.

In above-mentioned photovoltaic generation graphene heating system, the graphene conductive heating film array distribution.

In above-mentioned photovoltaic generation graphene heating system, the photovoltaic chip is for dim light photovoltaic chip and commonly Any one in photovoltaic chip.

In above-mentioned photovoltaic generation graphene heating system, the voltage of graphene conductive heating film 3 is between 3-265V.

Compared with prior art, the advantages of this photovoltaic generation graphene heating system, is：

1, electric energy is converted light energy by photovoltaic electrification component, graphene conductive heat generating device can be supplied Electricity not only acts as good energy-conserving action, and further improves the comfort of heating, and cost is lower and using more It is convenient.

By designing graphene conductive heat generating device, the safety coefficient used can also be further increased.

2, simple in structure.

Description of the drawings

Fig. 1 is system block diagram provided by the utility model.

Fig. 2 is photovoltaic chip distribution schematic diagram provided by the utility model.

Fig. 3 is graphene conductive fever membrane structure diagram provided by the utility model.

Fig. 4 is status diagram of the design provided by the utility model on two surface of block.

Fig. 5 is two structural schematic diagram of embodiment provided by the utility model.

In figure, photovoltaic electrification component 1, photovoltaic chip 11, electric storage device 2, graphene conductive heat generating device 3, power cord 3a, Flame-resistant insulation layer 31, graphene layer 32, reflection and heat insulation layer 33, block objects 4.

Specific implementation mode

It is the specific embodiment of utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

Embodiment one

As shown in Figs 1-4, this photovoltaic generation graphene heating system includes photovoltaic electrification component 1, in photovoltaic electrification component 1 On be connected with electric storage device 2, this system further includes the graphene being connect with the photovoltaic electrification component 1 and/or electric storage device 2 Electric conduction heating device 3.

Electric energy is converted to by luminous energy, use cost can be reduced, at low cost and use is more safe and reliable.

Secondly, it by designing graphene conductive heat generating device, with better usage safety performance, is more in line with current The energy conservation and environmental protection policy of country.

Graphene conductive heat generating device 3 is graphene conductive heating film, and the graphene conductive heating film has several Block and interval setting.

The inner surface of graphene conductive heating film is equipped with adhesive layer.

Graphene conductive heating film includes flame-resistant insulation layer 31, and graphene layer 32 is equipped in 31 one side of flame-resistant insulation layer, Reflection and heat insulation layer 33 is equipped between flame-resistant insulation layer 31 and graphene layer 32.

The flame-resistant insulation layer of design, can play fire retardation.

The reflection and heat insulation layer of design, can play the role of heat preservation.

31 thickness of flame-resistant insulation layer is more than the thickness of reflection and heat insulation layer 33, and 32 thickness of graphene layer is less than insulation and hinders Fire the thickness of layer 31.

Certainly, thickness designs, and can be formulated according to actual requirement.

Specifically, the photovoltaic electrification component 1 of the present embodiment includes several pieces of photovoltaic chips 11, the photovoltaic chip and institute The graphene conductive heating film stated is arranged in a one-to-one correspondence, and photovoltaic chip is fixed on the outer surface of block objects 4, graphene conductive hair Hotting mask is fixed on the inner surface of block objects, which is glass.Glass is arbitrary in simple glass and tempered glass It is a kind of.

Certainly, photovoltaic electrification component 1 can be placed in outdoor, and graphene conductive heating film then pastes or be mounted in indoor wall On wall.

No matter by which kind of above-mentioned structure, heating can be realized.

Graphene conductive heating film in horizontal distribution and between the upper and lower every setting, with graphene conductive send out by the photovoltaic chip Hotting mask is arranged in a one-to-one correspondence.

In addition, being connected with the power cord 3a being electrically connected with city on graphene conductive heat generating device 3.

The setting in series or in parallel of graphene conductive heating film.

11 setting in series or in parallel of photovoltaic chip.

It is equipped with superhydrophilic self-cleaning dope layer in photovoltaic wafer outer surface.Non-maintaining effect may be implemented in it.

Embodiment two

As shown in figure 5, the present embodiment is essentially identical with the structure and principle of embodiment one, Gu therefore not to repeat here, without The same place is：

Graphene conductive heating film is in vertical distribution and between left and right every setting.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (10)

1. photovoltaic generation graphene heating system, which is characterized in that this system includes photovoltaic electrification component (1), in photovoltaic generation Electric storage device (2) is connected on component (1), this system further includes and the photovoltaic electrification component (1) and/or electric storage device (2) the graphene conductive heat generating device (3) connected.

2. photovoltaic generation graphene heating system according to claim 1, which is characterized in that the graphene conductive hair Thermal (3) is graphene conductive heating film, and the graphene conductive heating film has several pieces and interval setting.

3. photovoltaic generation graphene heating system according to claim 2, which is characterized in that the graphene conductive hair Hotting mask includes flame-resistant insulation layer (31), graphene layer (32) is equipped on one side in flame-resistant insulation layer (31), in flame-resistant insulation layer (31) Reflection and heat insulation layer (33) is equipped between graphene layer (32).

4. photovoltaic generation graphene heating system according to claim 3, which is characterized in that the flame-resistant insulation layer (31) thickness is more than the thickness of reflection and heat insulation layer (33), and the graphene layer (32) thickness is less than the thickness of flame-resistant insulation layer (31) Degree.

5. photovoltaic generation graphene heating system according to claim 3, which is characterized in that the photovoltaic electrification component (1) include several pieces of photovoltaic chips (11), the photovoltaic chip is arranged in a one-to-one correspondence with the graphene conductive heating film.

6. photovoltaic generation graphene heating system according to claim 5, which is characterized in that the graphene conductive hair In horizontal distribution and between the upper and lower every setting, the photovoltaic chip is arranged in a one-to-one correspondence hotting mask with graphene conductive heating film.

7. photovoltaic generation graphene heating system according to claim 5, which is characterized in that the graphene conductive hair Hotting mask is in vertical distribution and between left and right every setting.

8. photovoltaic generation graphene heating system according to claim 1, which is characterized in that the graphene conductive hair The power cord (3a) being electrically connected with city is connected in thermal (3).

9. photovoltaic generation graphene heating system according to claim 5, which is characterized in that the graphene conductive hair Hotting mask setting in series or in parallel.

10. photovoltaic generation graphene heating system according to claim 5, which is characterized in that the photovoltaic chip (11) setting in series or in parallel.