CN208923165U - A kind of BIPV component to shine - Google Patents

Abstract

The utility model discloses the BIPV components that can shine of one kind comprising the support foreboard that is from top to bottom cascading, thin film solar electric layer, insulating layer, can luminescent layer, confluence wiring layer, encapsulation glue-line and supporting back board.The BIPV component described in the utility model to shine meets the development trend of solar power generation and architecture-integral, compared with traditional BIPV component, with can the BIPV component of luminescent layer traditional BIPV component is combined into one with elevation of building decorative system, integrate power generation and illumination functions, it can generate electricity, it again can be energy saving, moreover it is possible to which decorative architecture, space utilization rate are higher.

Description

A kind of BIPV component to shine

Technical field

The utility model belongs to Photovoltaic Building Integration equipment technical field, and in particular to the BIPV sun that one kind can shine It can photovoltaic module.

Background technique

BIPV technology is the technology being integrated into solar power generation (photovoltaic) product in building.In modernized society, people It is higher and higher to the pursuit of comfortable architectural environment, cause the energy consumption of building and heating and air-conditioning growing.In this context BIPV comes into being.In current BIPV technology, conventional curtain wall or photovoltaic curtain wall are mostly installed at building surface, can only carry out Daylighting and power generation, have a single function.

Utility model content

To solve the above-mentioned problems, the utility model provides a kind of BIPV component that shines that can effectively reduce energy consumption.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of BIPV component that can be shone, packet Include the support foreboard being from top to bottom cascading, thin film solar electric layer, insulating layer, can luminescent layer, confluence wiring layer, Encapsulate glue-line and supporting back board.

Preferably, the thin film solar electric layer include the preceding electrode layer being from top to bottom cascading, film too Positive energy absorbed layer, back electrode layer.

Preferably, the thin film solar absorbed layer is by one in amorphous silicon membrane, Cadimium telluride thin film, CIGS thin-film Kind or a variety of compositions.

Preferably, it is described can luminescent layer be provided with LED light chip, the LED light chip is provided with several series connection or simultaneously The luminous lamp group of the LED of connection.

Preferably, the insulating layer is formed by high-temperature insulation adhesive tape, to be used for isolated film solar power generation layer and can send out Photosphere.

Preferably, the confluence wiring layer by several buss-bar sets at, be used to form can luminescent layer pin.

Preferably, the support foreboard is made of translucent material.

Preferably, the support foreboard is made of transparent glass.

Preferably, the supporting back board is made of tempered glass.

Preferably, further include a terminal box, the terminal box be electrically connected thin film solar electric layer and can luminescent layer, and The terminal box is provided with battery and to the power supply line to get access to grid, to store the electric energy of thin film solar electric layer and for that can shine Layer power supply.

The beneficial effects of the utility model are:

1, meet the aesthetics of architecture: on the basis of keeping architectural style, being generated electricity, met too using thin film solar electric layer Sun can generate electricity and the development trend of architecture-integral；

2, Efficient Conversion rate is high: since most efficient cadmium telluride diaphragm solar power generation in the world being arranged on support foreboard Structure can convert electric energy for 16% or more solar energy；

3, energy consumption is effectively reduced: have can luminescent layer BIPV component, solar energy can be efficiently used, in insufficient light or Under the scene for having demand to environmental degree of comfort, component itself can illuminate building, energy saving；

4, Ornamented facade: can using programming Control can luminescent layer show different patterns at night, decorative architecture facade, Play promotional videos, billboard；

5, structure is simple, easy for installation, can become reconciled with existing building structure is combined together, and does not need additionally to occupy roof Space.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples:

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the setting schematic diagram of the luminous lamp group of LED in the utility model；

Fig. 3 is the setting schematic diagram of confluence wiring layer in the utility model.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.Therefore, below to attached The detailed description of the embodiments of the present invention provided in figure is not intended to limit the range of claimed invention, But it is merely representative of the selected embodiment of the utility model.

Referring to Fig.1~Fig. 3, the utility model are a kind of BIPV components that can be shone comprising are from top to bottom stacked gradually The support foreboard 1 of setting, thin film solar electric layer 2, insulating layer 3, can luminescent layer 4, confluence wiring layer 5, encapsulation glue-line 6 and branch Support backboard 7.

Wherein, the support foreboard 1 is made of translucent material, and in the present embodiment, support foreboard 1 selects the glass of light transmission It is made, preferably ultrawhite transparent glass.And the supporting back board 7 is used as support substrate, selects homogeneous tempered glass.

Further, the thin film solar electric layer 2 includes preceding electrode layer, the film being from top to bottom cascading Solar absorbing layer, back electrode layer.Specifically, depositing transparent conductive oxide film on support foreboard 1 and forming preceding electrode Layer deposits different materials on preceding electrode layer and constitutes thin film solar absorbed layer, then absorbs layer surface in thin film solar Deposit back electrode layer.

Preferably, the film for constituting thin film solar absorbed layer is amorphous silicon membrane, Cadimium telluride thin film, CIGS thin-film One of or it is a variety of.

Further, in order to realize that the translucency of BIPV requires, the swashing using 1064nm on thin film solar electric layer 2 Photoengraving thin film solar electric layer 2 makes up to light transmission requirement, realizes translucent effect.

Preferably, it is described can luminescent layer 4 be provided with LED light chip, the LED light chip is provided with several series connection or simultaneously The luminous lamp group 8 of the LED of connection, and retain a fixed spacing between the luminous lamp group 8 of LED.Specifically, the LED light chip is provided with wiring Layer, LED light chip are covered on wiring layer and are realized in parallel or series by the Wiring bus item on wiring layer.

For protective film solar power generation layer 2, the insulating layer 3 is formed by high-temperature insulation adhesive tape, with thin for being isolated Film solar electric layer 2 with can luminescent layer 4, make to insulate between the two.

Further, in order to protect LED light chip, encapsulating forms encapsulation glue-line 6 between insulating layer 3 and supporting back board 7, The encapsulation glue-line 6 cladding can luminescent layer 4 and confluence wiring layer 5.

Also, the confluence wiring layer 5 is made of several busbars 9, and busbar 9 is electrically connected the two poles of the earth of LED light chip, Be used to form can luminescent layer 4 pin.

In this way, the BIPV component that can be shone can utilize solar power generation by thin film solar electric layer 2, it can also be with By can luminescent layer 4 shine.When work, it is only necessary to be separately connected thin film solar electric layer 2 and can luminescent layer 4, i.e., using too Sun can generate electricity and can the illumination of luminescent layer 4, decoration.

Further, the BIPV component of the present embodiment further includes a terminal box, and the terminal box is electrically connected film too It is positive can electric layer 2 and can luminescent layer 4, and the terminal box is provided with battery and to the power supply line to get access to grid, to pass through battery The electric energy that memory films solar power generation layer 2 generates connects power grid by power supply line, and being can the power supply of luminescent layer 4.

In conclusion the beneficial effects of the utility model are:

1, meet the aesthetics of architecture: on the basis of keeping architectural style, being generated electricity, met using thin film solar electric layer 2 The development trend of solar power generation and architecture-integral；

2, Efficient Conversion rate is high: since most efficient cadmium telluride diaphragm solar hair in the world being arranged on support foreboard 1 Electric structure can convert electric energy for 16% or more solar energy；

3, energy consumption is effectively reduced: have can luminescent layer 4 BIPV component, traditional BIPV component and elevation of building are decorated System is combined into one, and can efficiently use solar energy, and under insufficient light or the scene for having demand to environmental degree of comfort, component is certainly Body can illuminate building, energy saving；

4, Ornamented facade: can using programming Control can luminescent layer show different patterns at night, decorative architecture facade, Play promotional videos, billboard；

5, structure is simple, easy for installation, can become reconciled with existing building structure is combined together, and does not need additionally to occupy roof Space, space utilization rate are higher.

Above-described embodiment is the preferred embodiment of the utility model, and the utility model can also have other embodiments.Ability The technical staff in domain can also make equivalent deformation or replacement without departing from the spirit of the present invention, these equivalent changes Type or replacement are all contained in range set by the claim of this application.

Claims (7)

1. the BIPV component that one kind can shine, which is characterized in that including support foreboard, the film being from top to bottom cascading Solar power generation layer, insulating layer, can luminescent layer, confluence wiring layer, encapsulation glue-line and supporting back board, the thin film solar power generation Layer includes the preceding electrode layer, the thin film solar absorbed layer, back electrode layer that are from top to bottom cascading, it is described can luminescent layer set It is equipped with LED light chip, the LED light chip is provided with the luminous lamp group of LED of several serial or parallel connections, the confluence wiring layer By several buss-bar sets at, be used to form can luminescent layer pin.

2. the BIPV component that one kind according to claim 1 can shine, which is characterized in that the thin film solar absorbed layer By one of amorphous silicon membrane, Cadimium telluride thin film, CIGS thin-film or a variety of form.

3. the BIPV component that one kind according to claim 1 can shine, which is characterized in that the insulating layer is by high-temperature insulation Adhesive tape is formed, with for isolated film solar power generation layer with can luminescent layer.

4. the BIPV component that one kind according to claim 1 can shine, which is characterized in that the support foreboard is by light transmission material Material is made.

5. the BIPV component that one kind according to claim 4 can shine, which is characterized in that the support foreboard is by light transmission glass Glass composition.

6. the BIPV component that one kind according to claim 1 can shine, which is characterized in that the supporting back board is by tempering glass Glass composition.

7. the BIPV component that one kind according to claim 1 can shine, which is characterized in that it further include a terminal box, it is described Terminal box be electrically connected thin film solar electric layer and can luminescent layer, and the terminal box is provided with battery and to the electricity to get access to grid Source line, with store thin film solar electric layer electric energy and for can luminescent layer power supply.