CN205976252U - Building integrated photovoltaic subassembly, its roof and photovoltaic energy storage battery system - Google Patents
Building integrated photovoltaic subassembly, its roof and photovoltaic energy storage battery system Download PDFInfo
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- CN205976252U CN205976252U CN201620441408.7U CN201620441408U CN205976252U CN 205976252 U CN205976252 U CN 205976252U CN 201620441408 U CN201620441408 U CN 201620441408U CN 205976252 U CN205976252 U CN 205976252U
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- photovoltaic
- building integrated
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/60—Planning or developing urban green infrastructure
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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- Photovoltaic Devices (AREA)
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Abstract
An embodiment of the utility model provides a building integrated photovoltaic subassembly, its roof and photovoltaic energy storage battery system, the building integrated photovoltaic subassembly includes: supporting layer and the photovoltaic module layer of setting in the supporting layer top, wherein, the photovoltaic module layer includes a plurality of array arrangement's photovoltaic module. The roof of lightly constructed and simply equipped building can be directly be used as through linking a plurality of building integrated photovoltaic subassemblies, and need the lightly constructed and simply equipped building roof be fixed in through anchor clamps with photovoltaic module to eliminate the stress corrosion of photovoltaic module to the lightly constructed and simply equipped building roof, can accomplish the installation and link each building integrated photovoltaic subassembly, promoted photovoltaic system's generating efficiency, thereby satisfied lightly constructed and simply equipped building user's power consumption needs.
Description
Technical field
The utility model is related to area of solar cell, particularly to a kind of building integrated photovoltaic component, its roof and
Photovoltaic energy storage system.
Background technology
Solar energy is increasingly subject to the extensive concern of scholar and researcher in play as a kind of regenerative resource.The sun
Can be converted solar energy into electrical energy by photovoltaic module, photovoltaic module is a kind of photovoltaic cell combination unit, its internal photovoltaic electric
Pond interconnects, and direct current electricity output can be provided separately and minimum is indivisible.
At present, when using photovoltaic module, typically photovoltaic module is directly anchored to the color steel of lightly constructed and simply equipped building by fixture
On plank house top.And directly photovoltaic module is clamped on color steel roof by fixture, fixture can apply very strong to color steel
Stress, causes color steel stress corrosion, thus affecting the service life of color steel.And needed by fixture installation photovoltaic component
Manually installed, installation rate is slow, has professional requirement to the installation level of installer.Additionally, the photovoltaic adopting at this stage
The photoelectric efficiency of assembly is generally 16%, limited lightly constructed and simply equipped building make the generated output of photovoltaic module relatively low to top area it is impossible to
Meet the need for electricity of lightly constructed and simply equipped building user.
Utility model content
The utility model embodiment provides a kind of building integrated photovoltaic component, its roof and photovoltaic energy storage system, uses
To eliminate the stress corrosion causing to lightly constructed and simply equipped building for the photovoltaic module installation, improve the generating efficiency of photovoltaic system, thus meeting
The electricity consumption of lightly constructed and simply equipped building user needs.
In a first aspect, the utility model embodiment provides a kind of building integrated photovoltaic component, including:Supporting layer and setting
Put the photovoltaic module layer above described supporting layer;Wherein,
Described photovoltaic module layer includes the photovoltaic module of multiple array arrangements.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:It is arranged on described supporting layer edge and the connection for coupling two neighboring described building integrated photovoltaic component
Fitting.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:Protective layer, described protective layer is located at the top of described photovoltaic module layer.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:Insulating, described insulating is located between described photovoltaic module layer and described supporting layer.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:Waterproof layer, described waterproof layer is located between described photovoltaic module layer and described insulating.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:Binder course, described binder course is located between described waterproof layer and described insulating.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, also include:Vapor barrier layer, described vapor barrier layer is located between described insulating and described supporting layer.
In a kind of possible implementation, in the above-mentioned building integrated photovoltaic component of the utility model embodiment offer
In, described photovoltaic module is heterojunction photovoltaic assembly.
Second aspect, the utility model embodiment provides a kind of integration roof of photovoltaic construction, on one or more
State arbitrary building integrated photovoltaic component.
In a kind of possible implementation, in the above-mentioned integration roof of photovoltaic construction of the utility model embodiment offer
In, when described integration roof of photovoltaic construction includes multiple described building integrated photovoltaic component, also include:It is arranged on each phase
Water-proof strip between adjacent two described building integrated photovoltaic components.
In a kind of possible implementation, in the above-mentioned integration roof of photovoltaic construction of the utility model embodiment offer
In, the one side of the side near building integrated photovoltaic component described in for the described water-proof strip is plane, away from this photovoltaic building one
The one side of body assembly side has multiple bulge-structures.
In a kind of possible implementation, in the above-mentioned integration roof of photovoltaic construction of the utility model embodiment offer
In, described water-proof strip is integral type structure, split-type structural or one split modular structure.
The third aspect, the utility model provides a kind of photovoltaic energy storage system, including the photovoltaic building described in any of the above-described
Integrated roof.
In a kind of possible implementation, in the above-mentioned photovoltaic energy storage system that the utility model embodiment provides, also
Including:Public electric wire net, inverter and energy-storage units;Wherein,
Described inverter connects described integration roof of photovoltaic construction, described public electric wire net and described energy storage list respectively
Unit.
The beneficial effects of the utility model are as follows:
The utility model embodiment provides a kind of building integrated photovoltaic component, its roof and photovoltaic energy storage system, photovoltaic
Architecture-integral assembly includes:Supporting layer and be arranged on the photovoltaic module layer above supporting layer;Wherein, described photovoltaic module layer
Photovoltaic module including multiple array arrangements.By the connection of multiple building integrated photovoltaic components can be directly used as lightly constructed and simply equipped building
Roof, is fixed on simple building roof without by photovoltaic module by fixture, thus eliminating photovoltaic module to simple building
Top stress corrosion, and couple each building integrated photovoltaic component can complete install, improve photovoltaic system generating effect
Rate, thus meet the electricity consumption needs of lightly constructed and simply equipped building user.
Brief description
Fig. 1 is one of cross-sectional view of building integrated photovoltaic component in the utility model embodiment;
Fig. 2 is one of cross-sectional view of building integrated photovoltaic component in the utility model embodiment;
Fig. 3 is the cross-sectional view of integration roof of photovoltaic construction in the utility model embodiment;
Fig. 4 a is one of cross-sectional view of water-proof strip in the utility model embodiment;
Fig. 4 b is two of the cross-sectional view of water-proof strip in the utility model embodiment;
Fig. 4 c is three of the cross-sectional view of water-proof strip in the utility model embodiment;
Fig. 5 is the structural representation of photovoltaic energy storage system in the utility model embodiment.
Specific embodiment
The utility model embodiment provides a kind of building integrated photovoltaic component, and the installation in order to improve photovoltaic system is imitated
Rate, thus meeting the electricity consumption needs of lightly constructed and simply equipped building user, eliminates the stress corrosion to lightly constructed and simply equipped building for the photovoltaic module.
With reference to Figure of description, the utility model embodiment is described in further detail.
The building integrated photovoltaic component that the utility model embodiment provides, as shown in figure 1, include:Supporting layer 11 and
It is arranged on the photovoltaic module layer 12 of supporting layer 11 top;Wherein,
Photovoltaic module layer 12 includes the photovoltaic module 121 of multiple array arrangements.
In actual applications, supporting layer 11 can adopt the materials such as armored concrete, and supporting layer 11 can be used as simple building roof
Load-carrying members it is ensured that the strength and stability of whole simple building roof.Multiple it is made up of supporting layer 11 and photovoltaic module layer 12
Building integrated photovoltaic component can couple combination and be mounted for whole simple building roof, pass through folder without by photovoltaic module
Tool is fixed on simple building roof, thus eliminating the stress corrosion to simple building roof for the photovoltaic module, and couples each photovoltaic and builds
Building integral component can complete to install, improving the efficiency of installing software of photovoltaic system, thus meeting the electricity consumption need of lightly constructed and simply equipped building user
Will.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 1 institute
Show, also include:It is arranged on supporting layer 11 edge and the connection for coupling two neighboring described building integrated photovoltaic component
Part 13.Connector 13 is used for two pieces of adjacent building integrated photovoltaic components of connection, makes joining BIPV group
Part is fixed.Multiple connectors 13 can be set gradually at the edge of supporting layer 11, also only connector 13 can be set in corner location, this
Embodiment is not defined to the setting number of connector 13.Connector 13 can adopt stainless steel or aluminium alloy structure, such as
The connector of the activity such as bolt or buckle, to couple adjacent photovoltaic architecture-integral assembly, generally can be the one of supporting layer 11
Face arranges connector 13, and the one side of photovoltaic module layer is then not provided with connector 13, thus can conveniently recognize BIPV
The installation direction of assembly, to meet Assembling construction requirement.The thickness of generally connector 13 is less than the thickness of supporting layer 11.
Additionally, the movable connection method also by metal connecting piece overlap joint to connect each building integrated photovoltaic component, specific overlap joint
Mode can be limited block add the connected mode of bolt or welding be fixedly connected mode, can also be the company of riveting
Connect mode, be to reduce site operation equipment requirement using limited block plus bolted benefit, it is to avoid site operation difficulty,
Installation and removal can be made more flexible.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 2 institute
Show, also include:Protective layer 14, protective layer 14 is located at the top of photovoltaic module layer 12.Protective layer 12 can adopt high printing opacity tempering glass
The high intensity such as glass, the material of high printing opacity, for protecting while building integrated photovoltaic component additionally it is possible to ensure that light passes through
Rate.In practical application, the thickness of protective layer 14 may be configured as 2~300mm, selects other thickness, this enforcement as needed
Example is not limited thereof.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 2 institute
Show, also include:Insulating 15, insulating 15 is located between photovoltaic module layer 12 and supporting layer 11.Photovoltaic is being built
When building integral component installation as simple building roof, insulating 15 can ensure that lightly constructed and simply equipped building indoor temperature is not subject to outdoor ring
The impact in border.Generally insulating 15 can adopt the contour heat-insulated, material of high insulation of foam concrete, can be polyurethane foam
Foam, styrofoam, phenol formaldehyde foam etc. or the material such as aerogel blanket, mineral wool, expanded perlite, micro-nano thermal insulation board, select
The same effect that other materials reach, the present embodiment is not limited thereof.
It should be noted that being the stability ensureing building integrated photovoltaic component, can be by aforesaid protective layer 14, photovoltaic
Aluminum alloy frame and silica gel or cement concrete and silica gel are passed through in component layer 12, insulating 15, the side of supporting layer 11
Deng binding material formed a complete module, for example, can above layers side set gradually from inside to outside silica gel and
Aluminum alloy frame, or set gradually silica gel and cement concrete, thus forming it into a complete BIPV
Assembly.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 2 institute
Show, also include:Waterproof layer 16, waterproof layer 16 is located between photovoltaic module layer 12 and insulating 15.Waterproof layer 16 can enter one
Step improves the barrier property of building integrated photovoltaic component, prevents the steam in the external world from passing through.Waterproof layer 16 can adopt waterproof membrane,
The high water-resisting property materials such as water-repellent paint can be adopted.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 2 institute
Show, also include:Binder course 17, binder course 17 is located between waterproof layer 16 and insulating 15.Binder course 17 can improve waterproof
Layer 16 and the combination of insulating 15, improve the stickiness of waterproof layer 16 and insulating 15.Binder course 17 can adopt
The materials such as pitch.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, as Fig. 2 institute
Show, also include:Vapor barrier layer 18, vapor barrier layer 18 is located between insulating 15 and supporting layer 11.Vapor barrier layer 18 can carry further
The barrier property of high building integrated photovoltaic component, can separate seam between building integrated photovoltaic component for the indoor steam
Penetrate in gap in insulating 15.In practical application, vapor barrier layer 18 can adopt individual layer high-polymer modified pitch coiled material,
Macromolecule coiled material can be adopted as, can also be the materials such as brushing heated bitumen oil, here does not limit.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, photovoltaic module
For heterojunction photovoltaic assembly.Heterojunction photovoltaic assembly has higher efficiency, additionally, polysilicon members, monocrystalline silicon also can be adopted
, as photovoltaic module, the present embodiment is not limited thereof for assembly, film assembly or back contacts assembly etc..
Based on aforesaid building integrated photovoltaic component, the utility model embodiment provides a kind of BIPV room
Top, as shown in figure 3, the integration roof of photovoltaic construction that this enforcement new embodiment provides includes one or more any of the above-described light
Volt architecture-integral assembly 31.
The BIPV that the building integrated photovoltaic component connection being provided using the utility model embodiment is installed
Roof is it is not necessary to be fixed on simple building roof by photovoltaic module by fixture, thus eliminating photovoltaic module to simple building roof
Stress corrosion, and couple each building integrated photovoltaic component can complete install, improve the efficiency of installing software of photovoltaic system,
Thus meeting the electricity consumption needs of lightly constructed and simply equipped building user.
In the specific implementation, two adjacent photovoltaic building integral components can be coupled by connector, and the utility model is real
Apply in the above-mentioned building integrated photovoltaic component of example offer, as shown in figure 3, also including:It is arranged on each two neighboring photovoltaic building
Water-proof strip 32 between integral component.Between two neighboring building integrated photovoltaic component 31, setting water-proof strip 32 can hinder
Only extraneous rainwater or steam enter into light and estimate in architecture-integral assembly.For improving the water resistance of water-proof strip generally using having
Elasticity and the material of water-proof function, to make water-proof strip 32 as materials such as rubber.When mounted, can be fitted in water-proof strip 32 one end
On a side of a building integrated photovoltaic component, more another building integrated photovoltaic component and this assembly are passed through to couple
Part is coupled, and is deformed upon by the resilient water-proof strip of extrusion tool, makes two BIPV groups being coupled to each other
Seamless between part, reach the effect of waterproof.
Further, in the above-mentioned integration roof of photovoltaic construction that the utility model embodiment provides, as shown in fig. 4 a, prevent
The one side of the side near a building integrated photovoltaic component 31 for the water bar 32 is plane, away from this building integrated photovoltaic component 31
The one side of side has multiple bulge-structures.The plane of water-proof strip can directly be fitted in the side of building integrated photovoltaic component
Face, bulge-structure easily deforms upon under external force, thus improving the waterproof effect of water-proof strip.Bulge-structure can be three
Angular or semicircle, when bulge-structure is for triangle, away from the one side of the water-proof strip 32 of BIPV group side
Indention;When bulge-structure is semicircle, the one side away from the water-proof strip 32 of BIPV group side is in
Waveform.In practical application, also can by water-proof strip be designed as other irregularly shaped reaching identical effect, this enforcement
Example is not limited thereof.
In the specific implementation, in the above-mentioned building integrated photovoltaic component that the utility model embodiment provides, such as Fig. 4 a- figure
Shown in 4c, water-proof strip can be integral type structure, split-type structural or one split modular structure.The wherein waterproof shown in Fig. 4 a
Bar is integral type structure, is plane by the side that Fig. 4 a can be seen that water-proof strip, another side indention, integral type
The good water-proof effect of water-proof strip and be easily installed.Water-proof strip shown in Fig. 4 b is split-type structural, by multiple piecemeal water-proof strips
It is arranged in the gap between two neighboring building integrated photovoltaic component collectively as water-proof strip, split type water-proof strip, can be
The plane of structure direction subsection setup of integration roof of photovoltaic construction, thus while playing waterproof action, material-saving cost.Figure
Water-proof strip shown in 4c is integrated split modular structure, be can be seen that the water-proof strip of one split modular structure by Fig. 4 c
Including integral structure water-proof strip, and scattering device multiple split-type structural water-proof strip above integral structure water-proof strip, one
The water-proof strip of body split modular structure has the characteristics that above-mentioned integral structure water-proof strip and split-type structural water-proof strip, waterproof
Property is good and is easily installed, material-saving cost simultaneously.In practical application, above-mentioned three kinds of structurally waterproof bars can be selected on demand
Any one.
Additionally, the utility model embodiment also provides a kind of photovoltaic energy storage system, as shown in figure 5, the utility model is implemented
The above-mentioned photovoltaic energy storage system that example provides, including aforementioned arbitrary integration roof of photovoltaic construction 51.
Further, in the above-mentioned photovoltaic energy storage system that the utility model embodiment provides, as shown in figure 5, also including:Public
Common-battery net 52, inverter 53 and energy-storage units 54;Wherein,
Inverter 53 connects integration roof of photovoltaic construction 51, public electric wire net 52 and energy-storage units 54 respectively.
In the specific implementation, the above-mentioned photovoltaic energy storage system that the utility model embodiment provides can be from the storage of parallel net type photovoltaic
Can system, be to store converted electricity on integration roof of photovoltaic construction 51 daytime from parallel net type photovoltaic energy storage system, for simple
Room user night uses during sunlight with lacking, and in practical application, can adopt physics energy storage, Power Flow, can also adopt
The form such as electrochemical energy storage and phase-change accumulation energy, here does not limit.
Inverter 53 generally can be two-way inverter, is internally integrated controller and is used for controlling integration roof of photovoltaic construction
51st, the energy conversion between energy-storage units 54, public electric wire net 52, to guarantee that unnecessary electricity can store in energy-storage units,
And enable energy-storage units to provide electric energy in the case of needing power supply.Additionally, above-mentioned inverter 53 can be also from grid-connected one
The direct current of integration roof of photovoltaic construction 51 and energy-storage units 54 can be converted to alternating current, meet user by body formula inverter
Need for electricity;Or the alternating current of public electric wire net 52 is converted to direct current, is that energy-storage units 54 charge.Inverse from grid-connected integral type
Become device, can be according to lightly constructed and simply equipped building construction area feature it is also possible to be chosen as parallel net type inverter or off-grid type inverter, the present embodiment
It is not limited thereof.Additionally, above-mentioned energy-storage units 54 can be battery, alternatively other energy-storage travelling wave tubes, here does not limit
Fixed.
The above-mentioned photovoltaic energy storage system that the utility model embodiment provides, can solve night and sunlight for lightly constructed and simply equipped building user
Electrical problem during supplemental component.For away from electrical network, the especially inconvenient region powering for lightly constructed and simply equipped building from electrical network, using only
Vertical photovoltaic energy storage system disclosure satisfy that lightly constructed and simply equipped building user power utilization demand.
The utility model embodiment provides a kind of integration roof of photovoltaic construction assembly, its roof and photovoltaic energy storage system,
Building integrated photovoltaic component includes:Supporting layer and be arranged on the photovoltaic module layer above supporting layer;Wherein, photovoltaic module layer
Photovoltaic module including multiple array arrangements.By the connection of multiple building integrated photovoltaic components can be directly used as lightly constructed and simply equipped building
Roof, is fixed on simple building roof without by photovoltaic module by fixture, thus eliminating photovoltaic module to simple building
Top stress corrosion, and couple each building integrated photovoltaic component can complete install, improve photovoltaic system installation effect
Rate, thus meet the electricity consumption needs of lightly constructed and simply equipped building user.
Although having been described for preferred embodiment of the present utility model, those skilled in the art once know substantially
Creative concept, then can make other change and modification to these embodiments.So, claims are intended to be construed to wrap
Include preferred embodiment and fall into being had altered and changing of the utility model scope.
Obviously, those skilled in the art can carry out various changes and modification without deviating from this practicality to the utility model
New spirit and scope.So, if of the present utility model these modification and modification belong to the utility model claim and
Within the scope of its equivalent technologies, then the utility model is also intended to comprise these changes and modification.
Claims (13)
1. a kind of building integrated photovoltaic component is it is characterised in that include:Supporting layer and being arranged on above described supporting layer
Photovoltaic module layer;Wherein,
Described photovoltaic module layer includes the photovoltaic module of multiple array arrangements;
Described building integrated photovoltaic component also includes:Be arranged on described supporting layer edge and being used for couple two neighboring described
The connector of building integrated photovoltaic component.
2. building integrated photovoltaic component as claimed in claim 1 is it is characterised in that also include:Protective layer, described protective layer
Top positioned at described photovoltaic module layer.
3. building integrated photovoltaic component as claimed in claim 1 is it is characterised in that also include:Insulating, described every
Hot heat-insulation layer is located between described photovoltaic module layer and described supporting layer.
4. building integrated photovoltaic component as claimed in claim 3 is it is characterised in that also include:Waterproof layer, described waterproof layer
Positioned between described photovoltaic module layer and described insulating.
5. building integrated photovoltaic component as claimed in claim 4 is it is characterised in that also include:Binder course, described binder course
Between described waterproof layer and described insulating.
6. building integrated photovoltaic component as claimed in claim 3 is it is characterised in that also include:Vapor barrier layer, described vapor barrier layer
Between described insulating and described supporting layer.
7. building integrated photovoltaic component as claimed in claim 1 is it is characterised in that described photovoltaic module is heterojunction photovoltaic
Assembly.
8. a kind of integration roof of photovoltaic construction it is characterised in that include one or more as any one of claim 1 to 7 institute
The building integrated photovoltaic component stated.
9. integration roof of photovoltaic construction as claimed in claim 8 is it is characterised in that in described integration roof of photovoltaic construction
During including multiple described building integrated photovoltaic component, also include:It is arranged on each two neighboring described BIPV group
Water-proof strip between part.
10. integration roof of photovoltaic construction as claimed in claim 9 is it is characterised in that described water-proof strip is near light described in one
Volt architecture-integral assembly side one side be plane, away from this building integrated photovoltaic component side one side have multiple
Bulge-structure.
11. integration roof of photovoltaic constructions as claimed in claim 9 it is characterised in that described water-proof strip be integral type structure,
Split-type structural or one split modular structure.
A kind of 12. photovoltaic energy storage systems are it is characterised in that include the photovoltaic building one as described in any one of claim 8 to 11
Body roof.
13. photovoltaic energy storage systems as claimed in claim 12 are it is characterised in that also include:Public electric wire net, inverter and storage
Can unit;Wherein,
Described inverter connects described integration roof of photovoltaic construction, described public electric wire net and described energy-storage units respectively.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106879478A (en) * | 2017-02-27 | 2017-06-23 | 成都佰思汇信科技有限责任公司 | One kind ventilation roof structure |
WO2019242723A1 (en) * | 2018-06-21 | 2019-12-26 | 北京铂阳顶荣光伏科技有限公司 | Photovoltaic power generation system, photovoltaic apparatus and photovoltaic assembly |
-
2016
- 2016-05-16 CN CN201620441408.7U patent/CN205976252U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106879478A (en) * | 2017-02-27 | 2017-06-23 | 成都佰思汇信科技有限责任公司 | One kind ventilation roof structure |
WO2019242723A1 (en) * | 2018-06-21 | 2019-12-26 | 北京铂阳顶荣光伏科技有限公司 | Photovoltaic power generation system, photovoltaic apparatus and photovoltaic assembly |
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