CN201732799U - Connecting structure for photovoltaic panels - Google Patents

Abstract

The utility model provides a connecting structure for photovoltaic panels, which comprises photovoltaic panels, a connecting device and buffering rings. Four corners of each photovoltaic panel are provided with holes, the connecting device is provided with a plurality of claw-shaped tubular columns and a plurality of nuts, the claw-shaped tubular columns penetrate through the holes of the photovoltaic panels, the back surface of each photovoltaic panel and the nuts are screwed mutually, the photovoltaic panels form a large-sized photovoltaic panel group through the connecting devices, and a buffering ring is disposed between each hole and each claw-shaped tubular column. The photovoltaic panel structure connected by the connecting devices has the advantages of attractive appearance, indoor day lighting and capability of generating electric power.

Description

The syndeton of solar opto-electronic board

Technical field

The utility model relates to the syndeton of solar opto-electronic board.More specifically, the utility model relates to the syndeton of the solar opto-electronic board that can be used for building curtain.

Background technology

The energy is that the institute of human society life and production is essential.Yet along with the evolution in epoch, the use amount of the various energy constantly increases, and causes the energy to lack year by year.Therefore, in order to solve serious day by day energy supply problem, the alternative renewable energy resources that human active development is new promptly are schemes that solves the future source of energy problem and wherein utilize solar power generation.

Solar energy is a kind of of the renewable energy resources, it have can freely use, pollution-free and advantage such as need not transport.Solar cell on the market mainly contains the wafer solar cell of the first generation, the thin-film solar cells of the second generation and the high usefulness solar cell and the organic solar batteries of the third generation.Because thin-film solar cells has light transmission, so at present again with the most suitable part that becomes building of thin film solar electro-optical package.

The vertical type installation method of thin film solar electro-optical package was by adhesive several solar opto-electronic boards to be bonded together in the past, but installation results is not only insecure but also not attractive in appearance like this.Especially when long-time irradiation of the sun or rain drop erosion, such installation influences the bonding firm degree between the solar opto-electronic board easily, even causes solar opto-electronic board to drop.

Summary of the invention

Technical problem to be solved in the utility model is to propose a kind of syndeton of solar opto-electronic board, to solve the defective of the vertical type installation method that has the thin film solar electro-optical package now.

Specific embodiment of the utility model provides a kind of syndeton of solar opto-electronic board, and it comprises: solar opto-electronic board, and it further comprises: substrate; First electrode layer, it is formed on this substrate; A plurality of semiconductor material layers, it is formed on this first electrode layer; The second electrode lay, it is formed on this semiconductor material layer; Article at least two, lead, it is formed on this second electrode lay; Encapsulating material; The intermediate layer, it is used for adhesive base plate and encapsulating material; A plurality of holes, it is positioned at four jiaos or edge of this solar opto-electronic board; Pawl type jockey, it has a plurality of pawl type tubulose posts and a plurality of nut, this pawl type tubulose post passes the hole of solar opto-electronic board, and chimeric mutually at the back side and the nut of solar opto-electronic board, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this pawl type jockey; And bumper ring, it is arranged between hole and the pawl type tubulose post.

In preferable specific embodiment, this substrate is glass or plastic material.

In preferable specific embodiment, at least one transparency electrode of making for transparent material of this first electrode and second electrode, this transparent material is zinc oxide, indium tin oxide or tin ash.

In preferable specific embodiment, this encapsulating material is glass, plastic material or composite material.

In preferable specific embodiment, this semiconductor material layer is amorphous silicon membrane, nano-crystal film, microcrystalline silicon film, polysilicon membrane, copper indium two selenium films, CIGS thin-film, Cadimium telluride thin film, aluminium gallium nitride alloy film, aluminum gallium arsenide film, gallium nitride film or InGaP film, or the combination of previous materials.

In preferable specific embodiment, this pawl type jockey is two pawl type jockeys, three-jaw type jockey, four paws type jockey, five pawl type jockeys or six pawl type jockeys.

In preferable specific embodiment, the angle between this pawl type tubulose post is for adjusting.

In preferable specific embodiment, this pawl type tubulose post is a hollow, and its inside is provided with this lead, to form the electric connection between this solar opto-electronic board by this lead.

Specific embodiment of the utility model provides a kind of syndeton of solar opto-electronic board, and it comprises: solar opto-electronic board, and it further comprises: substrate; First electrode layer, it is formed on this substrate; A plurality of semiconductor material layers, it is formed on this first electrode layer; The second electrode lay, it is formed on this semiconductor material layer; Article at least two, lead, it is formed on this second electrode lay; Encapsulating material; The intermediate layer, it is used for adhesive base plate and encapsulating material; A plurality of holes, it is positioned at four jiaos of this solar opto-electronic board; Box type jockey, its back side has a plurality of long columns and a plurality of nut, this long column passes the hole of solar opto-electronic board, and chimeric mutually at the back side and the nut of solar opto-electronic board, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this box type jockey; And bumper ring, it is arranged between hole and the long column.

In preferable specific embodiment, this substrate is glass or plastic material.

In preferable specific embodiment, at least one transparency electrode of making for transparent material of this first electrode and second electrode, this transparent material is zinc oxide, indium tin oxide or tin ash.

In preferable specific embodiment, this encapsulating material is glass, plastic material or composite material.

In preferable specific embodiment, this semiconductor material layer is amorphous silicon membrane, nano-crystal film, microcrystalline silicon film, polysilicon membrane, copper indium two selenium films, CIGS thin-film, Cadimium telluride thin film, aluminium gallium nitride alloy film, aluminum gallium arsenide film, gallium nitride film or InGaP film, or the combination of previous materials.

In preferable specific embodiment, this box type jockey is square, rectangle or circle.

In preferable specific embodiment, this box type jockey is a hollow, and its inside is provided with this lead, to form the electric connection between this solar opto-electronic board by this lead.

In preferable specific embodiment, this syndeton further comprises: at least one diode, it is arranged at the inside of box type jockey.

Specific embodiment of the utility model provides a kind of syndeton of solar opto-electronic board, and it comprises: solar opto-electronic board, and it further comprises: substrate; First electrode layer, it is formed on this substrate; A plurality of semiconductor material layers, it is formed on this first electrode layer; The second electrode lay, it is formed on this semiconductor material layer; Article at least two, lead, it is formed on this second electrode lay; Encapsulating material; The intermediate layer, it is used for adhesive base plate and encapsulating material; Folder type jockey, it has a plurality of anchor clamps, each anchor clamps has a pair of intermediate plate, and each anchor clamps of this folder type jockey are the arbitrary sides that are connected to different solar opto-electronic boards, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this folder type jockey; And cushion pad, it is arranged between solar opto-electronic board and the intermediate plate.

In preferable specific embodiment, this substrate is glass or plastic material.

In preferable specific embodiment, at least one transparency electrode of making for transparent material of this first electrode and second electrode, this transparent material is zinc oxide, indium tin oxide or tin ash.

In preferable specific embodiment, this encapsulating material is glass, plastic material or composite material.

In preferable specific embodiment, this semiconductor material layer is amorphous silicon membrane, nano-crystal film, microcrystalline silicon film, polysilicon membrane, copper indium two selenium films, CIGS thin-film, Cadimium telluride thin film, aluminium gallium nitride alloy film, aluminum gallium arsenide film, gallium nitride film or InGaP film, or the combination of previous materials.

In preferable specific embodiment, this folder type jockey has two anchor clamps, three anchor clamps, four anchor clamps, five anchor clamps or six anchor clamps.

In preferable specific embodiment, the angle between these anchor clamps is for adjusting.

The utility model uses specific jockey, allows the thin film solar electro-optical package install by vertical type.The thin film solar electro-optical package that vertical type is installed can combine together with building and conduct building curtain, and the thin film solar electro-optical package has light-permeable, and the building taken into account is attractive in appearance so the thin film solar electro-optical package structure of utilizing jockey of the present utility model to connect has, interior space daylighting and the advantage that produces green electric power supply.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is the structure chart of solar opto-electronic board.

Fig. 2 a is the front view of a specific embodiment of pawl type jockey.

Fig. 2 b is the structure chart of a specific embodiment of pawl type jockey.

Fig. 2 c has shown the profile of a specific embodiment of pawl type tubulose post.

Fig. 2 d is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards is installed by pawl type jockey.

Fig. 3 a is the structure chart of a specific embodiment of box type jockey.

Fig. 3 b is the profile of a specific embodiment of box type jockey.

Fig. 3 c is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards is installed by box type jockey.

Fig. 4 a is the profile of a specific embodiment of folder type jockey.

Fig. 4 b is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards is installed by folder type jockey.

Wherein, Reference numeral:

10: solar opto-electronic board 11: substrate

12: photoelectric subassembly film 13: lead

14: intermediate layer 15: encapsulating material

20: pawl type jockey 21: pawl type tubulose post

22: nut 23: rubber ring

24: solar opto-electronic board 25: hole

30: box type jockey 31: long column

32: nut 33: rubber ring

34: solar opto-electronic board 35: hole

37: hollow housing 38: enclosing cover

40: folder type jockey 41: anchor clamps

43: cushion pad 44: solar opto-electronic board

θ: angle

Embodiment

Now also describe the utility model hereinafter more fully, show exemplary specific embodiment of the present utility model in the alterations referring to alterations.Yet the utility model is can be many multi-form to be implemented and should not be construed as to be limited to specific embodiment as herein described.On the contrary, provide these specific embodiments to make this disclosure more detailed and complete.The similar elements code is meant similar elements all the time.

Should be appreciated that when an element is called on another element it can be directly on another element, or can have the intervention element therebetween.On the contrary, when an element is called directly on another element, there is not the intervention element.As used herein, term and/or comprise relevant one of listing in the project or any and all combinations of many persons.

Should be appreciated that although the term first, second, third, etc. can be used for describing multiple element, assembly, zone, layer and/or section in this article, yet these elements, assembly, zone, layer and/or section should not wait the term restriction thus.These terms only are used for distinguishing element, assembly, zone, layer or a section and another zone, layer or section.Therefore, under the situation of the teaching that does not depart from the utility model, below first element of discussion, first assembly, first area, ground floor or first section can be described as second element, second assembly, second area, the second layer or second section.

Term as used herein is a purpose of describing certain specific embodiments only, but not is intended to limit the utility model.Unless context has clearly indication in addition, this is to comprise singulative and plural form for a term used herein.Should further understand when in this specification, using term to comprise, specify the feature, zone, integral body, step, operation, element and/or the assembly that there are regulation, do not exist or additional one or more further feature, zone, integral body, step, operation, element, assembly and/or its group but do not get rid of.

In addition, relative terms (for example: following or the end and last or top) can be used for describing the relation of an element and another element in this article, as illustrated among the figure.Should be appreciated that relative terms is intended to comprise the different orientations of the device describe directed in graphic.For example, if at a device in graphic through upset, then be described as element at the downside of other element and be directed in upside at other element.Therefore, the certain orientation in the view formula and comprise down directed and go up directed under the exemplary term.Similarly, if at a device in graphic through upset, then be described as being directed in above other element at the element below other element.Therefore, these exemplary terms above can being included in down and below orientation.

Unless otherwise defined, employed all terms of this paper (comprising technology and scientific and technical terminology) have with by the identical implication of the common implication of understanding of those skilled in the art.Should further understand, for example defined term should be interpreted as having the implication consistent with its implication in the context of correlation technique and this disclosure in general dictionary, and should not explaining, unless this paper so definition clearly with idealized or excessive formalization meaning.

This paper describes some specific embodiment of the present utility model with reference to cross-sectional illustration, and this cross-sectional illustration is schematically illustrating of idealized specific embodiment of the present utility model.Thereby, will expect because the change of shape in the explanation that manufacturing technology and/or tolerance caused.Therefore, specific embodiment of the utility model should not be construed as the given shape that is limited to the illustrated zone of this paper, and should comprise because (for example) makes the form variations that is caused.For example, illustrate or be described as smooth zone and can have coarse and/or nonlinear characteristic usually.In addition, illustrated acute angle can be circular.Therefore, graphic in illustrated zone be essentially schematically, and its shape is not to be intended to illustrate the accurate shape in a zone and to be not intended to limit category of the present utility model.

Hereinafter will describe exemplary specific embodiment of the present utility model in detail referring to the diagram of enclosing.

Fig. 1 is the structure chart of solar opto-electronic board.Solar opto-electronic board 10 of the present utility model is transparent, translucent or opaque material, and its structure as shown in Figure 1.Go up several layers of deposition at substrate 11 (for example: glass or plastic material), to form photoelectric cell film 12.This photoelectric cell film 12 comprises semiconductor material thin film and the second electrode lay that first electrode layer, multilayer can absorb luminous energy and be converted into electric energy.This first electrode layer is electric conducting material and can makes ITO, ZnO:Al or ZnO:F, Low Pressure Chemical Vapor Deposition (LP-CVD) deposition ZnO:B or aumospheric pressure cvd method (AP-CVD) by for example vacuum splashing and plating and make SnO ₂This second electrode lay can use the electric conducting material that is same as first electrode layer.Connecting and being connected in parallel and by the film-plating process step and to cooperate the technology of laser-induced thermal etching to reach between individual cell and battery on the solar opto-electronic board 10.Afterwards, guide out positive and negative electrode by configuration lead 13.At last, cover polyvinyl butyral resin copolymer (PVB; Poly vinyl butyral) intermediate layer 14 on the formed structure of aforementioned technology, and with encapsulating material 15 (for example: glass, plastic material or composite material) to vacuumize heated lamination bonding.

Fig. 2 a is the front view of a specific embodiment of pawl type jockey 20.With reference to figure 2a, pawl type jockey 20 can have a plurality of pawl type tubulose posts 21, for example to become: two pawl type jockeys, three-jaw type jockey or four paws type jockey.More particularly, the angle θ between the pawl type tubulose post 21 is (for instance, 90 degree, 100 degree etc.) that can adjust arbitrarily, to be used for fixing the solar opto-electronic board of various different directions and different angles.

Fig. 2 b is the structure chart of a specific embodiment of pawl type jockey 20.With reference to figure 2b, it has shown that pawl type jockey 20 has pawl type tubulose post 21, nut 22 and rubber ring 23.Four jiaos at every solar opto-electronic board 24 all have hole 25, and wherein hole 25 slightly larger in diameter on this solar opto-electronic board 24 are in the diameter of pawl type tubulose post 21.The external diameter of this rubber ring 23 approximates the diameter of hole 25, and the internal diameter of rubber ring 23 approximates the diameter of pawl type tubulose post 21.Be noted that: this hole 25 except can the position four jiaos of solar opto-electronic board 24, also can be positioned at the edge of solar opto-electronic board 24.

At first, around the hole 25 of solar opto-electronic board 24, rubber ring 23 is installed, is directly contacted or collide the hole 25 of solar opto-electronic board 24, cause solar opto-electronic board 24 to break from hole 25 to avoid pawl type tubulose post 21.Then, pawl type tubulose post 21 is passed the inner ring of rubber ring 23, and nut 22 and pawl type tubulose post 21 is chimeric mutually at the rear of solar opto-electronic board 24.

Fig. 2 c has shown the profile of a specific embodiment of pawl type tubulose post 21.Because this pawl type tubulose post 21 is a hollow, so lead 13 can be disposed in this pawl type tubulose post 21.The lead 13 of drawing from solar opto-electronic board 24 thus, can pass through the inside of this pawl type tubulose post 21 and be connected to another solar opto-electronic board 24.Therefore, the lead 13 that is used for the electric connection of 24 of solar opto-electronic boards is hidden in the inside of pawl type tubulose post 21.

Fig. 2 d is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards 24 is installed by pawl type jockey 20.By Fig. 2 c as can be known, behind four paws type jockey 20 installation solar opto-electronic boards 24, this structure can present checkerboard.The solar opto-electronic board 24 of chessboard-like structure not only can produce electric power, also can improve aesthetics.

Fig. 3 a is the structure chart of a specific embodiment of box type jockey 30.Box type jockey 30 has hollow housing 37 and comprises the enclosing cover 38 of a plurality of long columns 31 (two long columns, three long columns or four long columns for instance).The external form of this box type jockey 30 can be an Any shape, for instance: square, rectangle or circle.

Fig. 3 b is the profile of a specific embodiment of box type jockey 30.Show to have a plurality of long columns 31, nut 32 and rubber ring 33 on the enclosing cover 38 of box type jockey 30 as Fig. 3 b.Four jiaos at every solar opto-electronic board 34 all have hole 35, and wherein hole 35 slightly larger in diameter on this solar opto-electronic board 34 are in the diameter of long column 31.The external diameter of this rubber ring 33 approximates the diameter of hole 35, and the internal diameter of rubber ring 33 approximates the diameter of long column 31.

At first, around the hole 35 of solar opto-electronic board 34, rubber ring 33 is installed, is directly contacted or collide the hole 35 of solar opto-electronic board 34, cause solar opto-electronic board 34 to break from hole 35 to avoid long column 31.Then, long column 31 is passed the inner ring of rubber ring 33, and nut 32 and long column 31 is chimeric mutually at the rear of solar opto-electronic board.

Because this box type jockey 30 has hollow housing 37, so the lead 13 of drawing from solar opto-electronic board 34 can be disposed in the hollow housing 37 of this box type jockey 30.The lead 13 of drawing from solar opto-electronic board 34 thus, can pass through the inside of this hollow housing 37 and be connected to another solar opto-electronic board 34.Therefore, the lead 13 that is used for the electric connection of 34 of solar opto-electronic boards is hidden in the inside of hollow housing 37.Moreover, configurable at least one diode (not shown) in this hollow housing 37, during with one of them solar opto-electronic board 34 damage in the solar opto-electronic board group, whole solar opto-electronic board group still can be moved generating.Therefore, this box type jockey 30 also can have the function of electric connection except having the effect that entity connects.

Fig. 3 c is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards 34 is installed by box type jockey 30.By Fig. 3 d as can be known, behind box type jockey 30 installation solar opto-electronic boards 34, this structure can present checkerboard.The solar opto-electronic board 34 of chessboard-like structure not only can produce electric power, also can improve aesthetics.

Fig. 4 a is the profile of a specific embodiment of folder type jockey 40.Folder type jockey 40 can have a plurality of anchor clamps 41, for instance, and two anchor clamps, three anchor clamps or four anchor clamps.More particularly, the angle between the anchor clamps 41 is (for instance, 90 degree, 180 degree etc.) that can adjust arbitrarily, to be used for fixing the solar opto-electronic board of various different directions and different angles.

Shown in Fig. 4 a, this folder type jockey 40 has two anchor clamps 41, and each anchor clamps 41 has a pair of intermediate plate.Have cushion pad 43 between anchor clamps 41 and the solar opto-electronic board 44, directly contact, rub or collide solar opto-electronic board 44 to avoid anchor clamps 41.Use this type of folder type jockey 40 on solar opto-electronic board, to bore a hole, can reduce the step in the manufacturing.These anchor clamps 41 can be connected to arbitrary side of solar opto-electronic board 44, make 44 of solar opto-electronic boards be connected to each other.

Fig. 4 b is the mounting structure figure that the specific embodiment of a plurality of solar opto-electronic boards 44 is installed by folder type jockey 40.By Fig. 4 b as can be known, behind folder type jockey 40 installation solar opto-electronic boards 44, this structure can present checkerboard.The solar opto-electronic board 44 of chessboard-like structure not only can produce electric power, also can improve aesthetics.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of claim of the present invention.

Claims (10)

1. the syndeton of a solar opto-electronic board is characterized in that, comprises:

Solar opto-electronic board, it further comprises:

Substrate;

First electrode layer, it is formed on this substrate;

A plurality of semiconductor material layers, it is formed on this first electrode layer;

The second electrode lay, it is formed on this semiconductor material layer;

Article at least two, lead, it is formed on this second electrode lay;

Encapsulating material;

The intermediate layer, it is used for adhesive base plate and encapsulating material;

A plurality of holes, it is positioned at four jiaos or edge of this solar opto-electronic board;

Pawl type jockey, it has a plurality of pawl type tubulose posts and a plurality of nut, this pawl type tubulose post passes the hole of solar opto-electronic board, and chimeric mutually at the back side and the nut of solar opto-electronic board, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this pawl type jockey; And

Bumper ring, it is arranged between hole and the pawl type tubulose post.

2. syndeton according to claim 1 is characterized in that, this pawl type jockey is two pawl type jockeys, three-jaw type jockey, four paws type jockey, five pawl type jockeys or six pawl type jockeys.

3. syndeton according to claim 1 is characterized in that, the angle between this pawl type tubulose post is for adjusting.

4. syndeton according to claim 1 is characterized in that, this pawl type tubulose post is a hollow, and its inside is provided with this lead, to form the electric connection between this solar opto-electronic board by this lead.

5. the syndeton of a solar opto-electronic board is characterized in that, comprises:

Solar opto-electronic board, it further comprises:

Substrate;

First electrode layer, it is formed on this substrate;

A plurality of semiconductor material layers, it is formed on this first electrode layer;

The second electrode lay, it is formed on this semiconductor material layer;

Article at least two, lead, it is formed on this second electrode lay;

Encapsulating material;

The intermediate layer, it is used for adhesive base plate and encapsulating material;

A plurality of holes, it is positioned at four jiaos of this solar opto-electronic board;

Box type jockey, its back side has a plurality of long columns and a plurality of nut, this long column passes the hole of solar opto-electronic board, and chimeric mutually at the back side and the nut of solar opto-electronic board, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this box type jockey; And

Bumper ring, it is arranged between hole and the long column.

6. syndeton according to claim 5 is characterized in that, this box type jockey is a hollow, and its inside is provided with this lead, to form the electric connection between this solar opto-electronic board by this lead.

7. syndeton according to claim 5 is characterized in that, also comprises further: at least one diode, it is arranged at the inside of box type jockey.

8. the syndeton of a solar opto-electronic board is characterized in that, comprises:

Solar opto-electronic board, it further comprises:

Substrate;

First electrode layer, it is formed on this substrate;

A plurality of semiconductor material layers, it is formed on this first electrode layer;

The second electrode lay, it is formed on this semiconductor material layer;

Article at least two, lead, it is formed on this second electrode lay;

Encapsulating material;

The intermediate layer, it is used for adhesive base plate and encapsulating material;

Folder type jockey, it has a plurality of anchor clamps, each anchor clamps has a pair of intermediate plate, and each anchor clamps of this folder type jockey are the arbitrary sides that are connected to different solar opto-electronic boards, and this solar opto-electronic board constitutes large-sized solar electro-optical package group by this folder type jockey; And

Cushion pad, it is arranged between solar opto-electronic board and the intermediate plate.

9. syndeton according to claim 8 is characterized in that, this folder type jockey has two anchor clamps, three anchor clamps, four anchor clamps, five anchor clamps or six anchor clamps.

10. syndeton according to claim 8 is characterized in that the angle between these anchor clamps is for adjusting.

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