CN110323298A - Photovoltaic module with low-E function - Google Patents

Abstract

The present invention relates to a kind of photovoltaic modulies with low-E function, it is related to photovoltaic building technical field, including the cover-plate glass, photoelectric functional layer and backboard set gradually, the cover-plate glass is the sunlight plane of incidence, it further include low-E functional layer, the low-E functional layer is located at the photoelectric functional layer backlight side.The present invention realizes have the compound photovoltaic building materials component of photovoltaic power generation and heat insulating function by integrated photovoltaic cells component and lowE functional film layer.

Description

Photovoltaic module with low-E function

Technical field

The present invention relates to photovoltaic building technical fields, more particularly, to a kind of photovoltaic module with low-E function.

Background technique

Photovoltaic module is a kind of by being laminated into solar cell or plating thin-film solar cells on glass, can be utilized too Sun radiation power generation, and the special glass with correlated current ejector and cable.It has beauty, transparent controllable, energy conservation Power generation and it be not required to fuel, do not generate exhaust gas, it is very widely used the advantages of no waste heat, no waste residue, noiseless pollution, such as: too Positive energy smart window, solar energy wayside pavilion and photovoltaic module build ceiling and photovoltaic glass curtain wall etc..Photovoltaic module can be divided into crystalline substance Body silicon photovoltaic module and membrane photovoltaic component two major classes, wherein the most commonly used is thin-film solar cells for curtain wall.

A kind of hollow glass component for photovoltaic curtain wall as disclosed in the Chinese patent of Publication No. CN203590135U And photovoltaic curtain wall is located at inner glass substrate and outside glass including the inner glass substrate and outside glass substrate being oppositely arranged The support construction and sealant of closed edge between glass substrate；Wherein, inner glass substrate outside glass substrate and boundary The support construction of closure constitutes hollow cavity；Outside glass substrate is power generation sheet；Sealant is at least coated in the support of closed edge With the contact position of inner glass substrate on the outside of structure, and connect with outside glass substrate on the outside of the support construction of closed edge Synapsis.Since the thermal coefficient of hollow cavity is lower, the heat transmitting between inner glass substrate and outside glass substrate can be reduced, Therefore, which can play good heat insulation and preservation effect；Meanwhile the hollow glass component can also play very Good soundproof effect；And the hollow glass component also structure is simple, and cost of manufacture is lower.

But above-mentioned technology has the following deficiencies: that photovoltaic module is applied to usually require to consider building in building field The considerations of functional requirement, but existing photovoltaic module focuses simply on its generating function, there is no heat-insulated aspects and design, but It is heat-insulated and is a key factor in building function demand.

Summary of the invention

The object of the present invention is to provide a kind of photovoltaic modulies with low-E function, by photovoltaic power generation and Low emissivity (low- E) integrated between function, the long wavelength part in sunlight can be completely cut off while realizing photovoltaic power generation, realize building every Heat demand.

Above-mentioned purpose of the invention has the technical scheme that a kind of photovoltaic with low-E function Component, including the cover-plate glass, photoelectric functional layer and backboard set gradually, the cover-plate glass is the sunlight plane of incidence, further includes Low-E functional layer, the low-E functional layer are located at the photoelectric functional layer backlight side.

Implement above-mentioned technical proposal, when using photovoltaic module, sunlight is radiated on photoelectric functional layer by cover-plate glass, Part sunlight is generated electricity by the absorption of photoelectric functional layer, and part sunlight is exposed to by it positioned at photoelectric functional layer backlight side It in low-E functional layer, is reflected by low-E functional layer, ensure that greatest extent using solar power generation, also send out to greatest extent The low heat-emissive function of low-E functional layer is waved, to realize the heat-insulated of building.

In some embodiments, the photoelectric functional layer is film photovoltaic cell functional layer, the photoelectric functional layer plating In the cover-plate glass shady face, and the photoelectric functional layer is connect with the backboard by film.

Implement above-mentioned technical proposal, after being connect film photovoltaic cell functional layer with backboard by using film, is using When photovoltaic module, sunlight is radiated in film photovoltaic cell functional layer by cover-plate glass, part sunlight film photovoltaic cell function Ergosphere absorption generates electricity, and facilitates staff to install film photovoltaic cell functional layer, to promote its convenience.

In some embodiments, the low-E functional layer is between the film and the backboard, or is located at described Backboard is away from the film one side.

Implement above-mentioned technical proposal, when sunlight is radiated in film photovoltaic cell functional layer by cover-plate glass, part is positive After the absorption of optical thin film photovoltaic cell functional layer is generated electricity, part sunlight is exposed between film and backboard by it or position It in backboard in the low-E functional layer of film one side, is reflected by low-E functional layer, ensure that and utilize the sun to greatest extent Light power generation, has also played the low heat-emissive function of low-E functional layer, to realize the heat-insulated of building to greatest extent.

In some embodiments, the low-E functional layer is located at the film away from backboard one side, the low-E function Insulating layer is equipped between ergosphere and the photoelectric functional layer.

Implement above-mentioned technical proposal, in low-E function while low-E functional layer is installed in film away from backboard one side It is installed with insulating layer between ergosphere and photoelectric functional layer, is radiated on photoelectric functional layer in sunlight by cover-plate glass, part sun Light is generated electricity by the absorption of photoelectric functional layer, and part sunlight is exposed to positioned at film by photoelectric functional layer away from backboard one side It in low-E functional layer, is reflected by low-E functional layer, short circuit caused by capable of preventing photoelectric functional layer and low-E functional layer from influencing Phenomenon, to promote its safety.

In some embodiments, the photoelectric functional layer is film photovoltaic cell functional layer, the photoelectric functional layer plating In the backboard to light side, and the photoelectric functional layer is connect with the cover-plate glass by film, low-E functional layer position It is laminated away from the photoelectric functional in the backboard,

Implement above-mentioned technical proposal, by the way that film photovoltaic cell functional layer is plated on backboard to light side while using film by photoelectricity Functional layer is connect with cover-plate glass, and when using photovoltaic module, sunlight is radiated at film photovoltaic cell function by cover-plate glass On layer, sunlight film photovoltaic cell functional layer absorption in part generates electricity, and part sunlight is exposed to by photoelectric functional layer to be located at Backboard is reflected by low-E functional layer in the laminated low-E functional layer of photoelectric functional, ensure that maximum utilization Solar power generation, has also played the low heat-emissive function of low-E functional layer to greatest extent, to realize the heat-insulated of building.

In some embodiments, in film photovoltaic cell functional layer, perpendicular to film photovoltaic cell series connection scribing line direction It is scored with a plurality of euphotic zone.

Implement above-mentioned technical proposal, it is a plurality of perpendicular to film photovoltaic electricity by what is delineated in film photovoltaic cell functional layer Extraneous sunlight can be penetrated building in the case where guaranteeing photovoltaic power generation function by the euphotic zone in pond series connection scribing line direction In, make to obtain more light on the inside of building, so as to improve the lighting performance of building.

In some embodiments, the photoelectric functional layer is crystalline silicon battery plate, and photoelectric functional layer two sides are all provided with There is film, the low-E functional layer is between the film and the backboard, or is located at the backboard and deviates from the film one Face.

Implement above-mentioned technical proposal, by installing film and cover-plate glass and backboard company in the two sides of crystalline silicon battery plate It connects, when using photovoltaic module, sunlight is radiated at crystal silicon cell on piece by cover-plate glass, and part sunlight is by crystal silicon cell Piece absorption generates electricity, and part sunlight is exposed to positioned at backboard by photoelectric functional layer away from film one side or positioned at film and back It in low-E functional layer between plate, is reflected, is ensure that greatest extent using solar power generation by low-E functional layer, it is also maximum The low heat-emissive function of having played low-E functional layer of limit, to realize the heat-insulated of building.

In some embodiments, the backboard is glass or plastics.

Implement above-mentioned technical proposal, the different back veneer materials to photovoltaic module of the daylighting demand according to needed for building carry out Glass or plastics are selected, to promote the adaptability of photovoltaic module

In conclusion advantageous effects of the invention are as follows:

1. sunlight is radiated on photoelectric functional layer by cover-plate glass, and part sunlight is by photoelectric functional when using photovoltaic module Layer, which absorbs, to generate electricity, and part sunlight is exposed in the low-E functional layer of photoelectric functional layer backlight side by it, by low- The reflection of E functional layer ensure that greatest extent using solar power generation, also play the low of low-E functional layer to greatest extent Thermal radiation function, to realize the heat-insulated of building；

2. while low-E functional layer is installed in film away from backboard one side low-E functional layer and photoelectric functional layer it Between be installed with insulating layer, be radiated on photoelectric functional layer in sunlight by cover-plate glass, part sunlight is absorbed by photoelectric functional layer It generates electricity, part sunlight is exposed to positioned at film in the low-E functional layer of backboard one side by photoelectric functional layer, quilt The reflection of low-E functional layer, short circuit phenomenon caused by capable of preventing photoelectric functional layer and low-E functional layer from influencing, to promote it Safety；

3. a plurality of perpendicular to the saturating of film photovoltaic cell series connection scribing line direction by what is delineated in film photovoltaic cell functional layer Light belt can penetrate extraneous sunlight in building in the case where guaranteeing photovoltaic power generation function, make to obtain on the inside of building More light, so as to improve the lighting performance of building.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the photovoltaic module embodiment one provided by the invention with low-E function；

Fig. 2 is the overall structure diagram of the photovoltaic module embodiment two provided by the invention with low-E function；

Fig. 3 is the overall structure diagram of the photovoltaic module embodiment three provided by the invention with low-E function；

Fig. 4 is the overall structure diagram of the photovoltaic module example IV provided by the invention with low-E function；

Fig. 5 is the overall structure diagram of the photovoltaic module embodiment five provided by the invention with low-E function；

Fig. 6 is the overall structure diagram of the photovoltaic module embodiment six provided by the invention with low-E function.

1, cover-plate glass；2, photoelectric functional layer；3, backboard；4, low-E functional layer；5, film；6, insulating layer.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

Embodiment one:

Referring to Fig.1, the photovoltaic module with low-E function, including the cover-plate glass, photoelectric functional layer and backboard set gradually, The cover-plate glass is the sunlight plane of incidence, further includes low-E functional layer, photoelectric functional layer is preferably film photovoltaic cell function Layer is scored with a plurality of euphotic zone, photoelectricity perpendicular to film photovoltaic cell series connection scribing line direction in film photovoltaic cell functional layer Functional layer is plated on cover-plate glass shady face and is connect between backboard by film, and low-E functional layer is set to film and back Between plate, backboard can be glassy layer or plastic layer, and backboard uses glassy layer in the present embodiment, in other embodiments, back Plate can also use plastic layer.

Embodiment two:

The present embodiment and the difference of embodiment one essentially consist in: low-E functional layer is set to backboard far from film one side.

Embodiment three:

The present embodiment and the difference of embodiment one essentially consist in: low-E functional layer is set to film away from backboard one side, while Insulating layer is installed between low-E functional layer and photoelectric functional layer.

Example IV:

The present embodiment and the difference of embodiment one essentially consist in: photoelectric functional layer be plated on backboard to light side, photoelectric functional layer with It is connected between cover-plate glass by film, low-E functional layer is set to the one side that backboard deviates from photoelectric functional layer.

Embodiment five:

The present embodiment and the difference of embodiment one essentially consist in: photoelectric functional layer is preferably crystalline silicon battery plate, in photoelectric functional The two sides of layer are mounted on film and connect photoelectric functional layer with cover-plate glass and backboard, low-E functional layer be set to film and Between backboard.

Embodiment six:

The present embodiment and the difference of embodiment five essentially consist in: low-E functional layer is set to backboard away from film one side.

The course of work (principle): when using photovoltaic module, sunlight is radiated on photoelectric functional layer 5 by outer substrate 3, portion Divide sunlight to be absorbed to generate electricity, part sunlight is exposed in low-E functional layer 7 by photoelectric functional layer, by low-E function Layer 7 reflects, and ensure that greatest extent using solar power generation, has also played the low-heat spoke of low-E functional layer 7 to greatest extent Function is penetrated, to realize the heat-insulated of building.

The embodiment of present embodiment is presently preferred embodiments of the present invention, not limits protection of the invention according to this Range, therefore: the equivalence changes that all structures under this invention, shape, principle are done, should all be covered by protection scope of the present invention it It is interior.

Claims (8)

1. the photovoltaic module with low-E function, including the cover-plate glass (1), photoelectric functional layer (2) and backboard set gradually (3), the cover-plate glass (1) is the sunlight plane of incidence, which is characterized in that further includes low-E functional layer (4), the low-E function Layer (4) is located at photoelectric functional layer (2) backlight side.

2. the photovoltaic module according to claim 1 with low-E function, which is characterized in that the photoelectric functional layer (2) For film photovoltaic cell functional layer, the photoelectric functional layer (2) is plated on the cover-plate glass (1) shady face, and the photoelectricity function Ergosphere (2) is connect with the backboard (3) by film (5).

3. the photovoltaic module according to claim 2 with low-E function, which is characterized in that the low-E functional layer (4) between the film (5) and the backboard (3), or it is located at the backboard (3) away from the film (5) one side.

4. the photovoltaic module according to claim 2 with low-E function, which is characterized in that the low-E functional layer (4) it is located at the film (5) away from backboard (3) one side, is set between the low-E functional layer (4) and the photoelectric functional layer (2) There are insulating layer (6).

5. the photovoltaic module according to claim 1 with low-E function, which is characterized in that the photoelectric functional layer (2) For film photovoltaic cell functional layer, the photoelectric functional layer (2) is plated on the backboard (3) to light side, and the photoelectric functional layer (2) it is connect with the cover-plate glass (1) by film (5), the low-E functional layer (4) is located at the backboard (3) away from described Photoelectric functional layer (2) one side.

6. according to the photovoltaic module with low-E function any in claim 2 to 5, which is characterized in that film photovoltaic In battery functi on layer, a plurality of euphotic zone is scored with perpendicular to film photovoltaic cell series connection scribing line direction.

7. the photovoltaic module according to claim 1 with low-E function, which is characterized in that the photoelectric functional layer (2) For crystalline silicon battery plate, photoelectric functional layer (2) two sides are equipped with film (5), and the low-E functional layer (4) is located at described Between film (5) and the backboard (3), or it is located at the backboard (3) away from the film (5) one side.

8. the photovoltaic module according to claim 1 with low-E function, which is characterized in that the backboard (3) is glass Layer or plastic layer.