CN110379890A - For manufacturing the device and method of at least two solar batteries arrangement - Google Patents
For manufacturing the device and method of at least two solar batteries arrangement Download PDFInfo
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- CN110379890A CN110379890A CN201910707603.8A CN201910707603A CN110379890A CN 110379890 A CN110379890 A CN 110379890A CN 201910707603 A CN201910707603 A CN 201910707603A CN 110379890 A CN110379890 A CN 110379890A
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- solar battery
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L31/00—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof
- H01L31/18—Processes or apparatus specially adapted for the manufacture or treatment of these devices or of parts thereof
- H01L31/1876—Particular processes or apparatus for batch treatment of the devices
- H01L31/188—Apparatus specially adapted for automatic interconnection of solar cells in a module
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L31/00—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof
- H01L31/18—Processes or apparatus specially adapted for the manufacture or treatment of these devices or of parts thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G15/00—Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/91—Devices for picking-up and depositing articles or materials incorporating pneumatic, e.g. suction, grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
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- H01L21/673—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere using specially adapted carriers or holders; Fixing the workpieces on such carriers or holders
- H01L21/6734—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere using specially adapted carriers or holders; Fixing the workpieces on such carriers or holders specially adapted for supporting large square shaped substrates
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- H01—ELECTRIC ELEMENTS
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- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/677—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
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- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
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- H01L21/677—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
- H01L21/67739—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations into and out of processing chamber
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- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
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- H01L21/677—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
- H01L21/67739—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations into and out of processing chamber
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- H01L21/68—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for positioning, orientation or alignment
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- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/683—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for supporting or gripping
- H01L21/6831—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for supporting or gripping using electrostatic chucks
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- H01L31/04—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof adapted as photovoltaic [PV] conversion devices
- H01L31/042—PV modules or arrays of single PV cells
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L31/00—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof
- H01L31/04—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof adapted as photovoltaic [PV] conversion devices
- H01L31/042—PV modules or arrays of single PV cells
- H01L31/05—Electrical interconnection means between PV cells inside the PV module, e.g. series connection of PV cells
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L31/00—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof
- H01L31/04—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof adapted as photovoltaic [PV] conversion devices
- H01L31/042—PV modules or arrays of single PV cells
- H01L31/05—Electrical interconnection means between PV cells inside the PV module, e.g. series connection of PV cells
- H01L31/0504—Electrical interconnection means between PV cells inside the PV module, e.g. series connection of PV cells specially adapted for series or parallel connection of solar cells in a module
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S99/00—Subject matter not provided for in other groups of this subclass
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L31/00—Semiconductor devices sensitive to infrared radiation, light, electromagnetic radiation of shorter wavelength or corpuscular radiation and specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation; Processes or apparatus specially adapted for the manufacture or treatment thereof or of parts thereof; Details thereof
- H01L31/02—Details
- H01L31/0224—Electrodes
- H01L31/022408—Electrodes for devices characterised by at least one potential jump barrier or surface barrier
- H01L31/022425—Electrodes for devices characterised by at least one potential jump barrier or surface barrier for solar cells
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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
-
- 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T156/00—Adhesive bonding and miscellaneous chemical manufacture
- Y10T156/10—Methods of surface bonding and/or assembly therefor
- Y10T156/1052—Methods of surface bonding and/or assembly therefor with cutting, punching, tearing or severing
- Y10T156/1062—Prior to assembly
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- Engineering & Computer Science (AREA)
- Computer Hardware Design (AREA)
- Physics & Mathematics (AREA)
- Condensed Matter Physics & Semiconductors (AREA)
- General Physics & Mathematics (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Power Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Electromagnetism (AREA)
- Sustainable Development (AREA)
- Life Sciences & Earth Sciences (AREA)
- Mechanical Engineering (AREA)
- Sustainable Energy (AREA)
- Photovoltaic Devices (AREA)
Abstract
Present disclose provides a kind of for manufacturing the equipment (100) of at least two solar batteries arrangement.The equipment (100) includes: separator (110), and the separator is configurable for for the first solar battery (10) being divided into two or more first solar battery solar battery parts (11,12);With at least one positioning device (120), the positioning device is configurable for described two or multiple first solar battery parts (11, 12) at least one first solar battery part (11) is located on support device (130) to form the first solar battery of at least two solar battery arrangement and arrange and for by described two or multiple first solar battery parts (11, 12) at least one other first solar battery part (12) is located in the second solar battery arrangement that at least two solar batteries arrangement is formed on the support device (130).
Description
The application be the applying date be on May 6th, 2016, application No. is " 201680002161.1 ", entitled " be used for
It manufactures the equipment of at least two solar batteries arrangement, the system for manufacturing at least two tile style solar batteries and be used for
The divisional application of the application for a patent for invention of the method for manufacturing at least two solar batteries arrangement ".
Technical field
Embodiment of the present disclosure is related to that a kind of equipment for manufacturing at least two solar batteries arrangement, one kind is used for
Manufacture the system and a kind of method for manufacturing at least two solar batteries arrangement of at least two tile style solar batteries.
Specifically, embodiment of the present disclosure is related to a kind of for manufacturing the equipment, system and method for tile style solar battery.
Background technique
Solar battery is the photovoltaic devices that sunlight is converted directly into electric power.The efficiency of solar battery can be by too
Effective coverage in positive energy battery front surface influences, and the effective coverage is exposed to light to convert sunlight into electric power.It is attributed to
The presence of electrical contact (such as finger-shaped material and/or busbar connector) in solar battery front surface, effective coverage can be reduced.?
Thus the presence of electrical contact in solar battery front surface can reduce the solar cell module being made of solar battery
Modular power.
In view of above-mentioned, overcome the problems, such as this field it is at least some for manufacture at least two solar batteries arrange it is new
Device and method and system for manufacturing at least two tile style solar batteries be beneficial.Disclosure objectives are
There is provided has increased efficiency and produces easy solar battery arrangement.Embodiment, which more particularly aims at, to be allowed to increase mould
Block power (for example, solar cell module) solar battery arrangement.
Summary of the invention
In view of above-mentioned, the equipment that present disclose provides a kind of for manufacturing at least two solar batteries arrangement, Yi Zhongyong
In the system and a kind of side arranged for manufacturing at least two solar batteries that manufacture at least two tile style solar batteries
Method.Further aspect, the advantages and features of the disclosure are apparent from claims, specific embodiment and attached drawing.
According to one aspect of the disclosure, a kind of equipment for manufacturing at least two solar batteries arrangement is provided.Institute
Stating equipment includes: separator, and the separator is configurable for for the first solar battery being divided into two or more
One solar battery part;With at least one positioning device, the positioning device is configurable for will be described two or multiple
At least one first solar battery part of one solar battery part is located in support device to form described at least two
First solar battery of solar battery arrangement is arranged and is used for described two or multiple first solar battery parts
At least one other first solar battery part is located in the support device to form at least two solar-electricity
The second solar battery arrangement of pond arrangement.
According to another aspect of the present disclosure, a kind of system for manufacturing at least two tile style solar batteries is provided.Institute
The system of stating includes: the equipment for manufacturing at least two solar batteries arrangement according to embodiment described herein;And production
Tool, the tool of production is for manufacturing multiple solar batteries including first solar battery, wherein the multiple
Solar battery is entered the equipment.
According to the further aspect of the disclosure, a kind of method for manufacturing at least two solar batteries arrangement is provided.
The described method includes: each solar battery of one or more solar batteries is divided into two or more solar battery parts;
And at least first sun of at least two solar batteries arrangement is formed by described two or multiple solar battery parts
Energy battery arrangement and the second solar battery arrangement, wherein each solar battery of described two or multiple solar battery parts
Part one or more geometry and/or physical property based on the solar battery part are assigned to the first solar battery cloth
It sets or second solar battery is arranged.
According to one aspect of the disclosure, it provides a kind of for conveying at least one solar battery member in the conveying direction
The support device of part.The support device includes: support component, and the support component is configurable for support described at least one
A solar cell device;It is arranged with electricity, the electricity arrangement is configurable for providing electrostatic force, and the electrostatic force is used for institute
At least one solar cell device is stated to be fixed on the support component.
According to the another aspect of the disclosure, provide a kind of for conveying at least one solar battery member in the conveying direction
The method of part.The described method includes: charge is provided to support component, the support component is configurable for support at least one
A solar cell device;Pass through at least one fixed described solar element of electrostatic force;And institute is moved in the conveying direction
State at least one solar element.
Embodiment has further related to the equipment for executing disclosed method, and including the side for executing each description
Part of appliance in terms of method.In terms of these methods can by hardware component, by appropriate software programming computer, both appoint
What combination executes in any other manner.In addition, having been further related to according to the implementation method of the disclosure described for operating
Equipment method.Method for operating described equipment includes the method side for executing each function of the equipment
Face.
Detailed description of the invention
Therefore, in order to which mode used in the features described above structure of the disclosure is understood in detail, the sheet summarized above
Disclosed more specific description can be obtained with reference to each embodiment.Attached drawing is related to embodiment of the present disclosure, and as follows
Description:
Fig. 1 is shown according to embodiment as described herein for manufacture equipment that at least two solar batteries are arranged
Schematic diagram;
Fig. 2 shows use the tile style solar-electricity manufactured according to the equipment, system and method for embodiment as described herein
The schematic diagram in pond;
Fig. 3 A to Fig. 3 C shows the schematic diagram of the separator according to embodiment as described herein;
Fig. 4 A is shown according to further embodiment as described herein for manufacturing at least two solar batteries arrangement
Equipment schematic side elevation;
Fig. 4 B is shown according to further embodiment as described herein for manufacturing at least two solar batteries arrangement
Equipment schematic top view;
Fig. 5 shows the signal of the solar battery part of the overlapping in support device according to embodiment as described herein
Figure;
Fig. 6 A and Fig. 6 B show the schematic diagram of the positioning device according to embodiment as described herein;
Complete square solar battery and puppet according to embodiment as described herein is shown respectively in Fig. 7 A and Fig. 7 B
(pseudo) schematic diagram of square solar battery;
Fig. 8 A shows the equipment for manufacturing at least two solar batteries arrangement according to embodiment as described herein
Schematic diagram;
Fig. 8 B is shown according to further embodiment as described herein for manufacturing at least two solar batteries arrangement
Equipment schematic diagram;
Fig. 8 C is shown according to further embodiment as described herein for manufacturing at least two solar batteries arrangement
Equipment schematic diagram;
Fig. 9 A shows the system for manufacturing at least two tile style solar batteries according to embodiment as described herein
Schematic diagram;
Fig. 9 B is shown according to further embodiment as described herein for manufacturing at least two tile style solar batteries
System schematic diagram;
Figure 10 shows the method for manufacturing at least two solar batteries arrangement according to embodiment as described herein
Flow chart;
Figure 11 shows the schematic side elevation of the electrostatic support device according to embodiment as described herein;
Figure 12 shows the perspective schematic view of the electrostatic support device according to further embodiment as described herein;
Figure 13 shows the electricity that charge is provided to the electrostatic support device according to some embodiments as described herein
The schematic diagram of a part of arrangement;
Figure 14 A shows the schematic top view of the flexible board of the electrostatic support device according to embodiment as described herein;
Figure 14 B shows the schematic rear view of the flexible board of the electrostatic support device according to embodiment as described herein;
Figure 15 shows the transversal of the layer structure of the flexible board of the electrostatic support device according to embodiment as described herein
Face figure;
Figure 16 shows the schematic diagram of the electrostatic support device with more control configurations according to embodiment as described herein;
And
Figure 17 shows the electrostatic support dress with more control configurations according to some further embodiments as described herein
The schematic diagram set.
Specific embodiment
With detailed reference to the various embodiments of the disclosure, one or more examples of these embodiments are shown in the accompanying drawings
Out.To in being described below of attached drawing, same reference numerals refer to same components.In general, it only describes relative to independent
The difference of embodiment.Each example illustrates to provide by the disclosure, and is not intended to the limitation as the disclosure.In addition, showing
Out or be described as an embodiment part feature can be used for other embodiments or in conjunction with other embodiments with
Generate further embodiment.Description is intended to include such modifications and variations.
The disclosure solar battery arrangement can be tile style solar battery, it be also referred to as " superbattery " or
" super battery ".Solar battery arrangement can be used in solar cell module.Solar battery arrangement can be by multiple portions
The solar battery part (being also known as " solar cell device ") of overlapping is made.Adjacent solar battery part is in overlapping region
It is electrically connected to each other.Solar battery part is connected in series so that the electric current generated by independent solar battery part is along a succession of due-in
Solar battery (for example, in end section of solar battery arrangement) flowing of collection.Overlapping can provide efficiently too
Positive energy battery arrangement.Specifically, solar battery arrangement allows to increase module by increasing using area or effective coverage
Power.It can be (for example) 20 to 40 watts by modular power increase in general, overlapping.Using area or effective coverage can correspond to
In the region for being irradiated by sunlight and being participated in power generation.For example, using area or effective coverage can correspond to solar energy
The region that battery is not covered by (for example) wire pattern (such as finger-shaped material and/or busbar connector).
In some cases, when compared with other solar battery parts that solar battery is arranged, solar battery cloth
The solar battery part set can have high resistance and/or poor efficiency.Including but not limited to solar battery arrangement and/or too
The overall performance of the modular power of positive energy battery module can be largely by the solar energy with high resistance and/or poor efficiency
Battery part is influenced or is determined.This low-quality solar battery part specifically serves as " bottleneck " in solar battery arrangement.
It is small piece that solar battery is separated (for example, cutting) by embodiment of the present disclosure, they are then classified simultaneously
Distribute at least two different solar battery arrangements.For example, each solar battery part can be based on solar battery part
One or more geometry and/or physical property be assigned to corresponding solar battery arrangement.Thus solar battery arrangement can be
It is made by the solar cell device with similar characteristic and/or quality, and the overall efficiency of solar battery arrangement can be with
Improvement.The modular power of solar cell module with solar battery arrangement can increase, specifically because can keep away
Exempt from caused by low-quality solar battery part " bottleneck ".
Fig. 1 is shown according to embodiment described herein for manufacturing the equipment 100 of at least two solar batteries arrangement
Schematic diagram.Equipment 100 can be a part of larger production line, such as about Fig. 8 and Fig. 9 citing description.
Equipment 100 includes: separator 110, and the separator is configurable for that (this first by solar battery 10
Solar battery) it is divided into two or more first solar battery parts;With at least one positioning device 120, the positioning device
It is configurable at least one solar battery part 11 of described two or multiple first solar battery parts being located in branch
It is arranged and to form the first solar battery of at least two solar battery arrangement for by institute on support arrangement 130
At least one further or other the first solar battery part 12 for stating two or more first solar battery parts are located in branch
The second solar battery arrangement of at least two solar batteries arrangement is formed on support arrangement 130.The solar energy
Battery part, such as described two or multiple first solar battery parts, is also referred to as " solar cell device " or " (compared with)
Baby battery ".
Equipment 100 divides solar battery 10 for multiple solar battery parts, wherein the solar battery 10 is at least
Two solar battery parts are assigned to two different solar battery arrangements.For example, solar battery arrangement can be watt
Formula solar battery, can be with including the solar battery part of one or more solar batteries of first solar battery
Characteristic and/or quality based on independent solar battery and/or solar battery part are assigned to corresponding solar battery arrangement.
The efficiency of solar battery arrangement can improve, specifically because can be to avoid low-quality and/or high resistance part in solar energy
Caused by battery arrangement " bottleneck ".
According to some embodiments that can be combined with other embodiments described herein, equipment 100 further comprises
Centring means, such as mechanical centering device, the centring means be configured as centering or to brigadier be divided into it is two or more too
The solar battery 10 of positive energy battery part.For example, centring means can be provided at separator 110 relative to separator
110 centering or alignment solar battery 10.Specifically, it can feel relieved before by solar battery input separation unit 110
Or alignment solar battery 10.
In some embodiments, it is divided into two or more solar battery parts (first such as two or more)
Solar battery 10 can have one or more conductive patterns provided on it, such as finger-shaped material and/or busbar connector.It is specific next
It says, term " solar battery ", which can refer to, to be completed or the solar battery that is nearly completed, rather than (for example) untreated is partly led
Structure base board.Solar battery 10 can have front and back sides.Finger-shaped material and/or busbar connector can be deposited on front side, for example,
It is deposited using printing technology such as silk-screen printing.Optionally, solar battery 10 can have one or more backside contacts.
According to some embodiments that can be combined with other embodiments described herein, at least one positioning device
120 be configured as will include at least one the first solar battery part 11 multiple solar battery parts (such as multiple first too
Positive energy battery arrangement part) it is arranged in support device 130, wherein adjacent solar battery part is partially overlapped by each other to form first
Solar battery arrangement.At least one positioning device 120 can be further configured to will be including at least one other first too
Other multiple solar battery parts (such as multiple second solar batteries arrange part) of positive energy battery part 12 are arranged in support dress
It sets on 130, wherein adjacent solar battery part is partially overlapped by each other to form the second solar battery arrangement.Therefore, super electricity
Pond can be formed by the smaller batteries for being assembled into tile.Overlapping for solar battery arrangement is further illustrated about Fig. 2.
According to some embodiments, separator 110 is configurable for for the second solar battery being divided into two or more
A second solar battery part.First solar battery and the second solar battery can simultaneously or sequentially input separation units
It 110 and/or is handled by separator 110.Specifically, separator 110 can be configured as by the first solar-electricity
Pond and the second solar battery are simultaneously or sequentially respectively divided into two or more first solar battery parts and two or more
Second solar battery part.Positioning device 120 can be configured as by one or more second solar battery parts at least
One the second solar battery part is located in support device 130 to be formed together at least one first solar battery part 11
First solar battery arrangement, and can be configured as by two or more second solar battery parts at least one
Other the second solar battery parts be located in support device 130 with at least one other first solar battery part 12 together
Form the second solar battery arrangement.
Specifically, multiple solar batteries are divided into solar battery part, wherein each solar battery part quilt
Distribute to the first solar battery arrangement or the second solar battery arrangement.The solar battery part of first solar battery arrangement
It can specifically include at least one the first solar battery part 11 and at least one second solar battery part, and can
Selection of land further comprise further solar battery (such as third, the 4th and etc. solar battery) one or more solar energy
Battery part.For example, the solar battery part of the second solar battery arrangement may include at least one other first solar-electricity
Pond part 12 and at least one other second solar battery part, and can optionally further comprise the (for example) further sun
Can battery (such as third, the 4th, etc. solar battery) one or more solar battery parts.
In some embodiments, equipment 100 is configured as one or more property (examples based on corresponding solar battery part
Such as, geometry and/or physical property) by each solar battery part (sun of such as two or more first solar battery parts
Energy battery part) distribute to the first solar battery arrangement or the second solar battery arrangement.For example, multiple solar batteries is each
A solar battery part can be assigned to the first solar battery arrangement or the second solar battery arrangement, for example, being based on phase
One or more characteristics or the property of solar battery part is answered to distribute.One or more characteristics or property of solar battery part can be with
Selected from the group being made of following item: geometry, electrical properties, optical property, press quality and any combination of them.
In some embodiments, at least two solar batteries arrangement (such as the first solar battery arrangement and second
Solar battery arrangement) it can be parallelly arranged in support device 130, for example, along the transport provided by support device 130
Direction.Specifically, at least two solar batteries arrangement (such as the first solar battery arrangement and the second solar battery cloth
Set) by the way that multiple solar batteries are divided into solar battery part and solar battery part can be selectively assigned to
One solar battery arrangement and the second solar battery arrangement are come while being assembled.
Although the example of Fig. 1 shows two in the support device 130 solar battery arrangement of assembled parallel, it should be understood that
The disclosure is not limited to this and any amount of solar battery arrangement can assemble in parallel.For example, at least two too
It is positive can battery arrangement can be two including the first solar battery arrangement and the second solar battery arrangement, three, four,
Five or even six solar battery arrangements, these solar batteries arrangement can assemble in parallel.Solar battery arrangement
At least some can have the property based on the solar battery part for already being allocated to independent solar battery arrangement not
With characteristic or quality.
According to some embodiments that can be combined with other embodiments described herein, solar battery arrangement is all
It may include two or more solar battery parts such as tile style solar battery.
Fig. 2 shows the schematic diagram of solar battery arrangement 20, solar battery arrangement be tile style solar battery or
Superbattery, and can be used and manufactured according to the equipment, system and method for embodiment described herein.Solar battery arrangement
20 can be used for solar cell module, and the solar cell module is multiple solar batteries or solar battery arrangement
The component of encapsulation, connection.
Tile style solar battery includes the solar battery part of multiple overlappings, and all multiple first as described with regard to FIG. 1 are too
Positive energy battery arrangement part or multiple second solar batteries arrange part.For example, tile style solar battery may include first sun
It can at least one first solar battery part 11 of battery and at least one second solar battery part of the second solar battery
11'.At least one the first solar battery part 11 and at least one second solar battery part 11 ' overlap each other.However, this public affairs
It opens and is not limited to some adjacent solar battery parts of this and tile style solar battery and can come from identical solar battery,
Such as the first solar battery or the second solar battery.Adjacent solar battery part can be overlapped less than 20%, particularly small
In 10%, and more particularly less than 5% total surface area, the front surface or back surfaces of such as solar battery part.
In some embodiments, each solar energy of the solar battery part of multiple overlappings of solar battery arrangement 20
Battery part can have one or more conductive patterns provided thereon, such as finger-shaped material 14 and/or busbar connector 13.For example, the sun
Energy battery part, such as at least one first solar battery part 11 can have before corresponding respectively to aforementioned solar battery
The front and back sides of side and back side.Optionally, solar battery part can have one or more backside contacts.As Fig. 2 is exemplary
Shown, at least one first solar battery part 11 can have the first backside contact 15, and at least one second solar energy
Battery part 11 ' can have the second backside contact 15 '.
Adjacent solar battery part is electrically connected to each other in overlapping region.Solar battery part be thus connected in series so that by
The electric current that independent solar battery part generates is along a succession of solar battery part to be collected (for example, in solar battery cloth
Set 20 end section (not shown)) flowing.The solar battery cloth with increased output power can be provided by overlapping
It sets.For example, the busbar connector 13 provided at least one first solar battery part 11 can be electrically connected at least one second
Second backside contact 15 ' of solar battery part 11 '.If shown in the example of figure 2, separator can be configured as separation
The solar battery of the busbar connector of neighbouring solar battery.In other words, each solar battery part can have provides thereon
Busbar connector, and specifically only one busbar connector, the busbar connector can be located at the edge of solar battery part.
In some embodiments, adhesive 17, such as electroconductive binder can be provided, to be connected in overlapping region
Solar battery part.According to some embodiments that can be combined with other embodiments described herein, for manufacturing extremely
The equipment of few two solar batteries arrangement includes adhesive coater, and described adhesive coating unit is configured as by two
A or multiple first solar battery parts be located in support device before by adhesive 17 coating to solar battery or its too
Positive energy battery part, it is first such as two or more.Two solar battery parts can with the one of two solar battery parts
The adhesive overlapping provided at a solar battery part, connects described two solar battery parts electrically or mechanically each other
It connects.For example, adhesive can be substantially liquid when coating described adhesive to solar battery or solar battery part
Form.
According to some embodiments, adhesive coater, which can be configured as, is coated in solar battery for adhesive 17
Or at least part of the wire pattern (such as busbar connector) of its solar battery part.In some embodiments, will too
Positive energy battery coats adhesive before being divided into two or more solar battery parts.In other embodiments, by the sun
Energy battery coats adhesive to multiple solar battery parts after being divided into two or more.
According to some embodiments, adhesive is selected from the group that is made of following item: solder, silver paste, based on siloxanes
Electroconductive binder and electroconductive binder based on epoxy resin.
When overlapped several, for example, drying process can be executed when assembling solar battery arrangement with drying
Adhesive.In some embodiments, drying process may include being added using (for example) heater such as infrared heater
The overlapping region of hot two solar battery parts.Heater is further illustrated about Fig. 5.
Fig. 3 A to 3C shows the schematic diagram of the separator 110 according to embodiment described herein.Fig. 3 A and Fig. 3 B are shown
Schematic side elevation, and Fig. 3 C shows schematic top view.
Separator 110 is configured as dividing solar battery 10 for two or more solar battery parts.Specifically,
Separator 110 can generate smaller batteries (solar battery part or solar battery member by (big) solar battery
Part).According to some embodiments that can be combined with other embodiments described herein, separator 110 includes or cuts
Device 111 is cut, the cutter device is configured as Mechanical Contact solar battery 10 with separated solar battery 10.In some realities
It applies in mode, cutter device 111 includes movable body 112 and the contact element 114 for being fixed to movable body 112.Cutting
Device 111 and movable body 112 can be provided as separation entity, or can be by the whole shape of one piece (such as plastic material)
At.
Contact element 114 can be blade or the element with pointed tip, and the contact element is configured as contact too
Positive energy battery 10 is for cutting and separating solar battery 10.According to some embodiments, contact element 114 can be by plastics
Material is made.In some embodiments, movable body 112 can be configured as (for example, quickly to move) to solar energy
Battery moving contacting element 114 at solar battery 10 to provide sharp line of demarcation.For example, motor (the example of separator 110
Such as, upper and lower motor such as linear motor) it can be by the 112 backup solar energy of movable body of the contact element 114 with attachment
Battery 10 is to cut solar battery 10.According to some embodiments, movable body 112 can be substantially perpendicularly towards simultaneously remote
It is mobile from solar battery 10.
According to some embodiments, separator 110 includes fixed device 118, and the fixed device is configurable for
Solar battery 10 is fixed at support arrangement (such as supporting the first support component 116 of arrangement) during separating technology.
Solar battery is fixed to by support arrangement by using fixed device 118, it is possible to provide reliable separation technique.Fixed device 118
It may include or fixing element, the fixing element be configured as Mechanical Contact solar battery 10, such as solar battery
10 front side or back side, for solar battery 10 to be held downwardly at support arrangement.
In some embodiments, the equipment of this announcement and specifically separator 110, including there is the first support member
The support of part 116 and optional second support component 117 is arranged.First support component 116 can be arranged such that in separation work
Solar battery 10 protrudes from the edge of the first support component 116 during skill.For example, cutter device 111 can be configured as in
Contact solar cell 10 is at the position at the edge far from the first support component 116 to disconnect solar-electricity from solar battery 10
Pond part, as Fig. 3 B is illustrated.
It can be collected or be stored by the second support component 117 from the isolated solar battery part of solar battery 10
(cache), second support component 117 can be deviated relative to the first support component 116, for example, in vertical direction.Example
Such as, when solar battery part is separated from solar battery 10, solar battery part can drop down onto the second support component 117
On.
In some embodiments, the first support component 116 and/or the second support component 117 can be belt conveying dress
It sets, the lace conveying device is configurable for conveying solar battery 10 and/or solar battery part, such as on the top of Fig. 3 C
It is shown in view.First support component 116 and/or the second support component 117 can respectively have two or more be spaced each other
The band opened.Specifically, gap can provide between two or more bands.In some embodiments, check that system can be with
It is provided (for example) below the first support component 116 and/or the second support component 117 to determine (for example) in the first support component
116 and/or the second solar battery 10 and/or solar battery part on support component 117 position.In two or more bands
Between gap ensure inspection system and be specifically that its camera can see that positioned at the first support component 116 and/or second
Support the solar battery 10 or solar battery part on element 117.
According to some embodiments that can be combined with other embodiments described herein, separator 110 includes extremely
A few solar battery punching machine.For example, at least one solar battery punching machine includes or laser.For example,
It is two that at least one solar battery punching machine, which can be configured as being divided to solar battery 10 by cutter device 111,
Or solar battery 10 of perforating before multiple solar battery parts.
At least one solar battery punching machine can be configured as that generate one or more on solar battery 10 pre-
Fixed breaking point or line allows solar battery 10 to be easily fractured into two or more solar battery parts.For example, extremely
A few solar battery punching machine, which can be configured as, provides multiple make a reservation for along substantially straight line on the solar cell
Breaking point, the scheduled breaking point is defined in the defiber between two adjacent solar battery parts.In another example,
At least one solar battery punching machine can be configured as and provide continuous predetermined rupture line on solar battery 10, institute
State the defiber that geosutures are defined between two adjacent solar battery parts.The perforation solar battery 10 before cutting action
Straight line and sharpened edge can be provided at the solar battery part of dialysis solar battery 10.Specifically, for super
Battery generate for, solar battery 10 can by advance be laser machined with by solar battery 10 with controlled manner be cut into compared with
Baby battery.
Fig. 4 A is shown according to further embodiment described herein for manufacturing at least two solar batteries arrangement
The schematic side elevation of equipment.Fig. 4 B shows the schematic top view of equipment.Fig. 5 is shown to exist according to embodiment described herein
The schematic diagram of the solar battery part of overlapping in support device 130.
According to some embodiments that can be combined with other embodiments described herein, equipment includes transport device
150, the transport device is configurable for transporting the solar battery part of multiple solar batteries, such as the first solar-electricity
Two or more first solar battery parts in pond.Transport device 150 may include or lace conveying device, the belt are defeated
Sending device to have can the roller 154 that rotated around the first rotary shaft 156 and one or more first band 152 provided on roller 154.?
In some embodiments, transport device 150 can have two or more bands of parallel arrangement and two or more bands it
Between gap is provided.
In some embodiments, the first support component of the support arrangement of the separator described in Fig. 3 A to Fig. 3 C
And/or second support component can be provided by transport device 150 and specifically by one or more first bands 152.Separator
It is not shown in Fig. 4 A and Fig. 4 B.
According to some embodiments, according to embodiment described herein for manufacturing at least two solar batteries arrangement
The support device 130 of equipment may include or lace conveying device.Support device 130 (for example, lace conveying device) quilt
It is configured to support, fixed and transport at least two solar batteries arrangement, such as the first solar battery arrangement and second sun
It can battery arrangement.Specifically, support device 130 can be configured as transporting at least two sun in transporting direction 4
Energy battery arrangement, the transporting direction can be substantially horizontal orientation (for example, referring to Fig. 5).
The lace conveying device for constituting support device 130 may include 136 He of roller that can be rotated around the second rotary shaft 134
One or more second bands 132 provided on roller 136.In some embodiments, support device 130 can have parallel arrangement
Two or more bands and provide gap between two or more bands.For example, each band of two or more bands can be by
It is configured to (only) solar battery arrangement (for example, referring to Fig. 8 A) of support at least two solar batteries arrangement.At it
In his embodiment, support device 130 have single band, at least two solar batteries arrangement can it is described individually take it is flat
Row assembling (for example, referring to Fig. 8 B).
According to some embodiments that can be combined with other embodiments described herein, support device 130 include or
It is at least one of electrostatic chuck and vacuum chuck.The electrostatic that may be used as support device is further described about Figure 11 to Figure 17
Chuck.Vacuum chuck may include support surface, and the support surface is configured to support at least two solar batteries arrangement,
Wherein the support surface can have at least one for the hole and groove for being connected to suction unit (such as vacuum pump), in hole
And/or negative pressure is generated in groove so that solar battery arrangement to be fixed at support surface.
At least one positioning device 120 is configurable for the sun of solar battery from (for example) transport device 150
Energy battery part is mobile or is delivered to support device 130 (being expressed as appended drawing reference 3).For example, positioning device 120 can sequentially from
The clamping of transport device 150 picks up solar battery part, solar battery part is moved to transport device 130, is optionally aligned
Solar battery part and the release solar battery part in predetermined position.Specifically, positioning device 120 can be configured
To arrange solar battery part in an overlapping arrangement to form the first solar battery arrangement and the second solar battery arrangement.Although
It is arranged in 130 over-assemble of support device, at least two solar battery, support device 130, and specifically has and determine thereon
One or more first bands of the assembled solar battery arrangement in (part) of position, can persistently move on transporting direction 4.It can
To provide continuously manufacturing.
According to some embodiments, equipment includes controller 140, and the controller is configured as controlling at least one positioning
Device 120.Specifically, controller 140 can control the movement of positioning device 120 and be assembled too with moving solar battery part
Positive energy battery arrangement, the solar battery part already are allocated to the solar battery arrangement.For example, controller 140 can
To control at least one positioning device 120 with one or more properties (for example, geometry and/or physical property) based on the part,
Solar battery part is moved to by such as geometry, electrical properties, optical property, press quality and any combination of them
First solar battery arrangement or the second solar energy arrangement.
According to some embodiments that can be combined with other embodiments described herein, at least one positioning device
120 include clamper 122, and the clamper is configured as clamping and fixes solar battery part, such as the first solar battery
Two or more first.Clamper 122 can be selected from the group that is made of following item: holder fixed by vacuum, mechanical gripper, quiet
Electric clamper, electronic clamper and any combination of them.The implementation of clamper 122 is further illustrated about Fig. 6 A and Fig. 6 B
Mode.
In some embodiments, positioning device 120 be in a first direction 1 and second direction 2 at least one in it is removable
Dynamic.First direction 1 can be substantially horizontal orientation.Second direction 2 can be essentially perpendicular direction.Positioning device 120
Can sequentially or simultaneously in a first direction 1 and second direction 2 at least one in move.Pass through in a first direction 1 and second
It is moved in direction 2, support device 130 can be moved to be used to assemble by the fixed solar battery part of positioning device 120
Solar battery arrangement, such as the first solar battery arrangement and/or the second solar battery arrangement.
For example, positioning device 120 can move in second direction 2, for example, move up, with from transport device 1,500
Take solar battery part.Positioning device 120 can be moved then in 1 in a first direction, for example, moving forward, by solar energy
Battery part is moved to support device 130 from transport device 150.Positioning device 120 can move in second direction 2, for example, to
Lower movement, solar battery part is placed in support device 130.Positioning device 120 can be then in second direction 2 and first
It is moved in direction 1, for example, being moved rearwardly into transport device 150 to pick up another solar battery part from transport device 150.
It should be understood that the movement in 1 can be the movement in forward direction and backward directions in a first direction.Equally, in second direction 2
In movement can be movement in upward direction and in downward direction in movement.
Term " vertical direction " is interpreted as being different from " horizontal direction ".That is, " vertical direction " is related to substantially
It vertically moves, wherein being regarded as " basic with the deviation in accurate vertical direction several years for example, up to 5 ° or even up to 10 °
Upper vertical direction ".Vertical direction can be substantially parallel to gravity.
In some embodiments, equipment, specifically positioning device 120 can be configured as by solar energy
Battery part is placed in the solar battery part for being aligned in support device 130 and being fixed by positioning device 120 before.The equipment can make
With the information obtained by inspection system, the inspection system may include (for example) being configured as detection (for example, by positioning device
120 is fixed) position of solar battery part and/or the camera of orientation.
In some embodiments, transport device 120 is movable plane, such as substantial horizontal face.This movement may be used also
To be referred to as " Θ is mobile ".For example, positioning device 120 can be configured as adjusting or alignment in the plane by positioning device
The angle orientation of 120 fixed solar battery parts.The angle orientation of solar battery part can be (for example) relative to support device 130
And/or another solar battery part alignment in support device 130, pass through the solar battery part that positioning device 120 is fixed
It will be Chong Die with another solar battery part.Solar battery arrangement can be assembled accurately, wherein solar energy can be improved
The quality of battery arrangement.In some embodiments, positioning device 120 can be configured as around substantially vertical rotary shaft
About 180 ° of solar battery part of rotation.Specifically, the fringeware of the square solar battery of the puppet described in Fig. 7 B can be with
It is brought into similar orientation.For example, a fringeware (for example, front or leading edges part) for pseudo- square solar battery does not revolve
Other fringeware (for example, back or trailing edge part) about 180 ° of the rotations for turning about 180 ° and pseudo- square solar battery make
Fringeware geometry it is equally oriented or alignment.
According to some embodiments, positioning device 120 is tiltable, for example, relative to first direction 1 and/or level
Face inclination.For example, positioning device 120 can tilt the solar battery part fixed by positioning device 120 with relative to supporting
The orientation of another solar battery part alignment solar battery part on device 130, the solar energy fixed by positioning device 120
Battery part will be Chong Die with another described solar battery part.Specifically, the solar battery part fixed by positioning device 120
Back side or back-side planes can be oriented to the front sides of the other solar battery parts being arranged essentially parallel in support device 130
Or front plan.In some embodiments, positioning device 120 is configured as relative to another in support device 130
Solar battery part frontside contacts (such as busbar connector) alignment solar battery part backside contact so that backside contact with
Electrical contact between frontside contacts can be established (for example) using the adhesive provided therebetween.
As shown in figure 5, several solar battery parts can be located in support device 130 to form the sun in an overlapping arrangement
Energy battery arrangement, the solar battery arrangement can be tile style solar battery.Several at least some from least
Two different solar batteries.Specifically, solar battery part can be classified and be independently assigned to accordingly too
Positive energy battery arrangement, for example, one or more properties based on corresponding solar battery part, such as geometry and/or physical property come
Distribution.
In some embodiments, support device 130 is the lace conveying device with one or more the second bands 132.Band
The movement of formula conveying device (and specifically one or more second bands 132) and the movement of at least one positioning device 120 can be with
It is synchronized with each other, for example, synchronized with each other during 130 over-assemble of support device, at least two solar battery arrangement.In addition it or replaces
Dai Di, the movement of transport device 150 (for example, one or more first bands 152) and at least one positioning device 120 and/or one or
The movement of multiple second bands 132 can be synchronized with each other.By synchronizing at least some movements, can provide for assembling at least
The continuous processing process of two solar batteries arrangement.
According to some embodiments that can be combined with other embodiments described herein, the equipment further comprises
Heating device 160, for example, at support device 130 or above support device 130.Heating device 160 is configured as heating and exists
In support device 130 solar battery arrangement at least one, such as the first solar battery arrangement and/or the second solar energy
Battery arrangement.Heating device 160 can be selected from the group being made of following item: conduction heaters (for example, hot plate), Convective Heating
Device, resistance heater, infrared heater, lamp heater, hot air heater and any combination of them.For example, support dress
Set 130 can be configured as the hot plate for conduction heat transfer with heat the solar battery in support device 130 arrangement it is (more
It is a).
In some embodiments, heating device 160 can extend along at least part of support device 130, for example,
On transporting direction 4, wherein solar battery arrangement is conveyed by support device 130.Heating device 160 can be along sufficiently dry
The distance of adhesive extends, and described adhesive (such as silver paste or solder) is used to be electrically connected the solar battery of adjacent overlapping
Part.Heating device 160 can have the two or more heating elements provided in parallel at support device 130.For example, first adds
Thermal element can be configured as heating the first solar battery arrangement.Second heating element can be configured as second sun of heating
It can battery arrangement.Specifically, according to some embodiments, heating device 160 can be in corresponding at least two solar-electricities
The position of pond arrangement, which is in above support device 130, to be extended.For example, the first heating element can be arranged in the first solar battery
Arrangement top, and the second heating element can be arranged in the second solar battery arrangement top.
Heating device 160 can be configured as provides predetermined temperature at at least part of position of solar battery arrangement
Degree.The predetermined temperature can be at least 100 DEG C, particularly at least 150 DEG C, and more particularly at least 300 DEG C.The predetermined temperature
Degree can 100 DEG C with 400 DEG C between, and can particularly 100 DEG C with 200 DEG C between.
Fig. 6 A and Fig. 6 B show the schematic diagram of the positioning device 220 according to embodiment described herein.
According to some embodiments that can be combined with other embodiments described herein, at least one positioning device
220 include one or more clampers 222, and the clamper is configured as clamping and fixing solar battery part, and such as first too
Two or more first of positive energy battery.One or more clampers 222 can be selected from the group being made of following item: vacuum chuck
Device, mechanical gripper, electrostatic chuck holder, electronic clamper and any combination of them.Vacuum can be used suction force and carry out folder
Fixed solar battery part at holder.Mechanical device, such as fixture can be used in mechanical gripper, fixes too at clamper
Positive energy battery part.Electrostatic chuck holder and electronic clamper can be fixed too at clamper using electrostatic force and electric power respectively
Positive energy battery part.
In some embodiments, at least one clamper of one or more clampers 222, specifically each clamper,
It may include one or more holder elements 224.For example, clamper may include two or more, such as three, four, five
A or six holder elements 224, the holder elements are configurable for contacting and clamping solar battery part.For example,
One or more holder elements 224 can be sucker, and the sucker is configured as providing at the surface of solar battery part negative
Pressure is with the fixation part in one or more holder elements 224.
According to some embodiments, each clamper of one or more clampers 222 is configurable for fixed and mobile
One solar battery part.In further embodiment, each clamper of one or more clampers 222 is configurable for
Fixed simultaneously and mobile two or more solar battery parts.
Fig. 7 A and Fig. 7 B show square too according to the complete square solar battery 70 and puppet of embodiment described herein
The positive energy respective schematic diagram of battery 80.
Full square solar battery 70 can be the square polycrystalline wafers (for example) cut from silicon ingot.With providing thereon
Finger-shaped material 14 and the complete square solar battery 70 of busbar connector 13 can be cut into multiple, such as example in fig. 7
Three parts 71,72 and 73 shown in property.
Pseudo- square solar battery 80 can be from edge (rounded) 81 with rounding that monocrystal silicon is cut
Square wafers.Compared with complete square solar battery 70, the benefit of pseudo- square solar battery 80 can be manufacturing
It generates during technique compared with less waste material.Pseudo- square solar battery 80 can be cut into multiple, such as example in figure 7b
Three parts 82,83 and 84 shown in property.
The separate piece of solar battery can be assigned to different solar battery arrangements based on geometry.For example, tool
One can be assigned to too by having (edge) part (" pseudo- square part ") of the square solar battery 80 of the puppet of rounded edges 81
Positive energy battery arrangement, for example, the first solar battery is arranged.(centre) part for complete square part can be assigned to another
Solar battery arrangement, for example, the second solar battery is arranged.Specifically, providing only has complete square part or only has
The solar battery arrangement of pseudo- square part.It can be to avoid square by puppet in the solar battery arrangement with complete square part
" bottleneck " caused by the shape part and efficiency that solar battery arrangement can be increased.Specifically, modular power can be increased.Root
According to some embodiments, and as described in about Fig. 4 A, Fig. 4 B and Fig. 5, solar battery part 82 or solar battery part 84 can
Make both solar battery parts with about 180 ° of rotation, and be specifically its rounded edges 81, arranges it in assembling solar battery
It is preceding to be aligned in the same manner.
According to some embodiments that can be combined with other embodiments described herein, solar battery, such as entirely
Square solar battery 70 and/or pseudo- square solar battery 80, can be in the busbar connector of neighbouring corresponding solar battery
It separates or separates at 13 position.In other words, each solar battery part can have the busbar connector provided thereon, and specific
Ground only one busbar connector, the busbar connector can be located at the edge of solar battery part.
Fig. 8 A is shown according to embodiment described herein for manufacturing at least two solar batteries arrangement (such as tile style
Solar battery) equipment 300 schematic diagram.
According to some embodiments that can be combined with other embodiments described herein, equipment 300 may include one
Or multiple input conveying devices, the such as first input conveying device 302 and the second input conveying device 304, the conveying device
It is configurable for solar battery input separation unit 310.One or more input conveying devices can be for will be multiple
The parallel track of solar battery while input separation unit 310.One or more input conveying devices can be lace conveying device.
According to some embodiments, the transport device described in Fig. 4 A, Fig. 4 B and Fig. 5 can be mentioned by one or more input conveying devices
For.
According to some embodiments, equipment 300 further comprises one or more centring means, and such as one or more machinery are fixed
Center device, the centring means are configured as the solar battery 10 to be handled by separator 310 of feeling relieved or be aligned.For example,
Each input conveying device of one or more input conveying devices can have corresponding centring means.Specifically, the first centering
Device can provide at the first input conveying device 302 and the second centring means can input conveying device 304 in second
Place provides.
In some embodiments, separator 310 is configurable for multiple solar batteries being divided into solar-electricity
Pond part.For example, separator 310 is configurable at least the first solar battery being divided into two or more first solar energy
Battery part and the second solar battery is divided into two or more second solar battery parts.For example, separator 310 is matched
It is set to for the first solar battery and the second solar battery to be sequentially or simultaneously respectively divided into two or more first too
Positive energy battery part and two or more second solar battery parts.
In an example, the (for example) first input conveying can be used in the first solar battery and the second solar battery
Device 302 or the second input conveying device 304 are sequentially entered in separator 310.Separator 310 can sequentially by
First solar battery and the second solar battery are respectively divided into two or more first solar battery parts and two or more
Second solar battery part.Each is distributed subsequently to corresponding solar battery arrangement, for example, based on solar battery part
One or more properties, such as geometry and/or physical property.
In another example, the (for example) first input conveying can be used in the first solar battery and the second solar battery
Device 302 and the second input conveying device 304 are simultaneously entered in separator 310.Specifically, the first solar battery
The input of the first input conveying device 302 can be used and the second input conveying device 304 can be used in the second solar battery
Input.First solar battery and the second solar battery essentially simultaneously can be respectively divided into two by separator 310
Or multiple first solar battery parts and two or more second solar battery parts.In other words, two or more solar energy
Battery, such as the first solar battery and the second solar battery can be input for simultaneously by two or more solar energy
Battery is produced in parallel in the separator 310 of multiple solar battery parts, and is cut by the separator 310.It is each
Solar battery part is distributed subsequently to corresponding solar battery arrangement, for example, one or more property based on solar battery part
Matter is distributed.
Although two input conveying devices are shown in the example of Fig. 8 A, it should be understood that the disclosure is not limited to this and can
To provide an input conveying device or three, four or even more input conveying devices to be used for (simultaneously) for multiple sun
In energy battery input separation unit 310.
According to some embodiments, separator 310 includes being at least configured to for the first solar battery to be divided into
It first cutter device of two or more first solar battery parts and is configurable for the second solar battery being divided into two
Second cutter device of a or multiple second solar battery parts.For especially, separator 310 may include two or more
Cutter device, such as the first cutter device and the second cutter device, the cutter device for simultaneously or parallel processing two or
Multiple solar batteries.When two or more solar batteries are by input separation unit 310 simultaneously, the first cutting dress is provided
Set can be with the parallel arrangement of the second cutter device it is especially advantageous.
The solar battery part that positioning device 320 is configurable for be provided by separator 310 is located in support dress
It sets on 330 to be arranged at least two solar battery of assembled parallel.In some embodiments, positioning device 320 is matched
It is set to for by least one second solar battery part of one or more the second solar battery parts of the second solar battery
It is located in support device 330 to be formed together at least one first solar battery part with the first solar battery
One solar battery arrangement, and be configurable for two or more second solar battery parts of the second solar battery
At least one other second solar battery part be located in support device 330 be used for and at least one other first sun
Energy battery part is formed together the second solar battery arrangement.
For example, sequentially or simultaneously handled by separator 310 and have the first predetermined property (such as first make a reservation for it is several
What shape) the solar battery part of solar battery can be arranged to form a solar battery arrangement, for example, first
Solar battery arrangement.It is sequentially or simultaneously handled by separator 310 and (such as second is predetermined with the second predetermined property
Geometry) solar battery solar battery part can be arranged to form another solar battery arrangement, for example,
Second solar battery arrangement.For example, (edge) part (" pseudo- square of the square solar battery of puppet with rounded edges
Part ") it can have the first prespecified geometric.(centre) part for complete square part can have the second prespecified geometric.
Therefore, the solar battery arrangement only with pseudo- square part or only with complete square part can be assembled.Full square part can
To be originated from both pseudo- square solar battery and complete square solar battery.
According to some embodiments that can be combined with other embodiments described herein, support device 330 can have
There are two or more support units of parallel arrangement.Two or more support units can be separated from each other.Two or more supports
Each support unit of unit can be configured as the corresponding solar battery arrangement of support at least two solar batteries arrangement.
For example, the first support unit 332 can be configured as the first solar battery of support arrangement and the second support unit 334 can be with
It is configured to support the second solar battery arrangement.Support device 330 may include further support unit, such as be configured as
Support the third support unit 336 and the 4th support unit 338 of further solar battery arrangement.
For example, the solar battery part of the solar battery inputted via the first input conveying device 302 can be assigned
To the solar battery arrangement on the first support unit 332 and the second support unit 334.Via the second input conveying device
The solar battery part of the solar battery of 304 inputs can be assigned in third support unit 336 and the 4th support unit
Solar battery arrangement on 338.In this example, the first support unit 332 and the second support unit 334 can be independently of
Three support units 336 and the operation of the 4th support unit 338.Equally, it first inputs conveying device 302 and is conveyed via the first input
The cutting process for the solar battery that device 302 inputs can be inputted independently of the second input conveying device 304 and by second
The cutting process operation for the solar battery that conveying device 304 inputs.Since failure has local effect and does not cause whole
A production technology terminates, and the yield of equipment 300 can increase.
In further example, via the solar battery part for the solar battery that the first input conveying device 302 inputs
The solar-electricity that can be assigned in any one of two or more support units (such as first to fourth support unit)
Pond arrangement.Equally, the solar battery part of the solar battery inputted via the second input conveying device 304 can be assigned to
Solar battery arrangement in any one of two or more support units (such as first to fourth support unit).
According to some embodiments, support device 330 includes at least lace conveying device, wherein at least lace conveying device
Including the two or more lace conveying devices being separated from each other.For example, the first lace conveying device is configured to support first
Solar battery is arranged and the second lace conveying device being spaced apart with the first lace conveying device is configured to support second
Solar battery arrangement.In some embodiments, two or more support units are the lace conveying device of parallel arrangement.Example
Such as, the first support unit 332 is the first lace conveying device, and the second support unit 334 is the second lace conveying device, third branch
Support unit 336 is third lace conveying device, and the 4th support unit 338 is the 4th lace conveying device.First to fourth band
Formula conveying device can be arranged in parallel.
In some embodiments, the movement of the support device 330 provided by lace conveying device and at least one positioning
The movement of device 320 is synchronized with each other or related.For example, first inputs the movement of conveying device 302, by the first input conveying dress
Set the cutting technique of the solar battery of 302 inputs, the operation of positioning device 320 and the first support unit 332 and the second support
The movement of unit 334 is synchronous or coordinates.Equally, second the movement of conveying device 304 is inputted, by the second input conveying dress
Set the cutting technique of the solar battery of 304 inputs, the operation of positioning device 320 and third support unit 336 and the 4th support
The movement of unit 338 is synchronous or coordinates.
According to some embodiments that can be combined with other embodiments described herein, equipment 300 is configured as base
In solar battery part one or more properties (such as geometry and/or physical property) by each solar-electricity of solar battery
Pond part distributes to corresponding solar battery arrangement.For example, equipment 300 is configured as based on two or more first solar batteries
One or more properties of the corresponding solar battery part of part by each of two or more first of the first solar battery too
Positive energy battery part distributes to the first solar battery arrangement or the second solar battery arrangement.Equally, equipment 300 can be configured
For the corresponding solar battery part based on two or more second solar battery parts one or more properties by the second solar energy
Each solar battery part of two or more second solar battery parts of battery distribute to the first solar battery arrangement or
Second solar battery arrangement.
Solar battery can be cut into too before solar battery is cut into solar battery part and/or
It is positive to determine one or more properties after battery part.In the case of the former, the measurement of entire solar battery can be executed (such as
Electrical measurement).In the latter cases, measurement (such as electroluminescent and/or photic hair of independent solar battery part can be executed
Light measurement).
One or more properties can be based on mensuration.For example, one or more property (such as one or more geometry and/or objects
Rationality matter) can be selected from the group that is made of following item: geometry, electrical properties, optical property, press quality and they
Any combination.For example, geometric properties can be " pseudo- square " and/or " full square ", as illustrated by Fig. 7 A and Fig. 7 B.
For example, (edge) part (" pseudo- square part ") of the square solar battery of puppet with rounded edges can be assigned to one
Solar battery arrangement, for example, the first solar battery is arranged.For complete square part (centre) part can be assigned to it is another
A solar battery arrangement, for example, the second solar battery is arranged.
Electrical properties, optical property or combined electricity-optics property can be selected from the groups being made of following item: electroluminescent
Luminous, luminescence generated by light and electrology characteristic.For example, electroluminescent measurement, photoluminescence measurement and electrical measurement are (for example, the sun
Can battery current-voltage (I-V) curve measurement) at least one solar battery can be cut into solar battery
It is executed before part.Additionally or alternatively, at least one of electroluminescent measurement and photoluminescence measurement can for it is each too
Positive energy battery part executes after solar battery to be cut into the solar battery part.
As the supplement or substitution of above-mentioned electrical properties, optical property or the electricity-optics of combination property, can execute
At least one of the press quality and structural intergrity of solar battery and/or solar battery part.For example, press quality and/
Or structural intergrity can determine before solar battery is cut into solar battery part.Additionally or alternatively, it prints
Solar battery can be cut into the solar-electricity for each solar battery part by quality and/or structural intergrity
It is determined after the part of pond.Determine that press quality can include determining that the wire pattern of solar battery (for example, finger-shaped material and/or remittance
Stream row) quality (for example, accuracy, line thicknesses, line width etc.).
Using one or more properties of independent solar battery part solar battery part is distributed to solar battery cloth
Set the solar battery part that may insure that each solar battery arrangement only includes similar characteristic.It can be to avoid (for example) dropping originally
The bottleneck of low modular power.
According to some embodiments that can be combined with other embodiments described herein, equipment 300 includes the first inspection
Look at least one of device, the second check device and third check device.First check device, the second check device and third
Check device, which can be configured as, determines and/or measures solar battery, solar battery part and/or solar battery arrangement
At least one of property mentioned above.Specifically, one or more properties (such as geometry and/or physical property) can be selected from
The group being made of following item: geometry, electrical properties, optical property, press quality and any combination of them.
In some embodiments, the first check device is configured as solar battery being divided into two or more sun
One or more properties of solar battery are measured and/or measured before energy battery part.For example, the first check device is configured as
One or more of the first solar battery are measured and/or determined before first solar battery is divided into two or more first
Property.According to some embodiments, the second check device is configured as that solar battery is divided into the solar battery
At least some solar battery parts are measured and/or determined after part, and (two or more the first of such as the first solar battery are too
It is positive can battery part) one or more properties.According to some embodiments, third check device is configured as measuring and/or determine
At least one solar battery arrangement (such as the first solar battery arrangement and/or the of at least two solar batteries arrangement
Two solar batteries arrangement) one or more properties.
According to some embodiments that can be combined with other embodiments described herein, equipment 300 further comprises
Sorter, the sorter are configurable for the quality arranged based at least two solar batteries and determined to be classified to
Few two solar batteries arrangement, such as the first solar battery arrangement and the second solar battery arrangement.For example, sorter
It is configurable for arranging based on from the received information of third check device come at least two solar batteries of classifying.It is specific next
It says, can abandon defective or is arranged with low-quality solar battery.Optionally, defective solar battery arrangement
It can undergo reprocessing or renovation technique (for example) to replace defective or low-quality solar battery part.
Fig. 8 B is shown according to further embodiment described herein for manufacturing at least two solar batteries arrangement
The schematic diagram of equipment 400.The equipment 400 of Fig. 8 B is similar to the equipment described in Fig. 8 A, and does not repeat similar or identical side
The description in face.
According to some embodiments, support device 430 is the lace conveying device with single band, at least two solar energy
Battery arrangement can individually take assembled parallel described.In the example of Fig. 8 B, three solar batteries arrange assembled parallel.
For example, pseudo- square solar battery can pass through two or more input conveying devices (the such as first input conveying device 302
With the second input conveying device 304) input.Each pseudo- square solar battery is divided into (for example) four solar-electricities
Pond part.That is, each pseudo- square solar battery is divided into two fringewares and two centres with rounded edges
Part, the middleware are complete square part.
It is fixed to can be used via the fringeware of the square solar battery of puppet of two or more input conveying device inputs
Position device 420 is assigned to the intermediate solar cell arrangement of three solar battery arrangements.For the middleware of complete square part
The solar battery arrangement of outside two of three the second solar batteries arrangement can be assigned to.The solar-electricity of identical quantity
Pond part can be assigned to each solar battery arrangement of three solar batteries arrangement, and solar battery arrangement can be with
It is assembled in identical speed.
Fig. 8 C is shown according to another embodiment described herein for manufacturing setting at least two solar batteries arrangement
Standby schematic diagram.The equipment of Fig. 8 C is similar to the equipment described in Fig. 8 A and Fig. 8 B, and does not repeat similar or identical aspect
Description.
According to some embodiments that can be combined with other embodiments described herein, it includes moving that the equipment, which has,
The positioning arrangement of dynamic device 450 and positioning device 455 described above.Mobile device 450 can be configured as transverse shifting by
The solar battery part that separator 310 (for example, by first cutter device and the second cutter device) provides.In some embodiment party
In formula, the equipment can have the multiple parallel haul roads provided at separator 310 and/or positioning device 455.It is multiple
Haul road can be configured as after the cutting process and solar battery part being located in support device 430 it
Preceding transport solar battery part.Multiple haul roads can be lace conveying device.In some embodiments, multiple haul roads can
To include two external haul roads 460 and a center haul road 465.
In some embodiments, two external haul roads 460 can input conveying device 302 and second with first respectively
Input the alignment of conveying device 304 (for example, alignment).Center haul road 465 can be positioned at the first input conveying device 302 and
Between two input conveying devices 304.Specifically, selected solar battery part, such as assembling intermediate solar-electricity
The solar battery part (for example, fringeware of pseudo- square solar battery) of pond arrangement, can be by the movement of positioning device 455
Device 450 is picked up with after the cutting process that selected solar battery part is mobile or be delivered to center haul road 465.Outside
Portion's haul road 460 can be configured as the middleware for transporting pseudo- square solar battery, and the middleware is Quan Zhengfang
Shape part.
It should be understood that multiple haul roads between separator and positioning device/support device as described in about Fig. 8 C can
Similarly to implement in the equipment described in Fig. 8 A and Fig. 8 B.
Fig. 9 A is shown according to embodiment described herein for manufacturing the system 500 of at least two tile style solar batteries
Schematic diagram.System 500 can be the part for the production line of tile style solar battery or constitute the production line.
System 500 includes according to embodiment described herein for manufacturing at least two solar batteries arrangement (tile style
Solar battery) equipment.System 500 further comprises for manufacturing multiple solar batteries including the first solar battery
The tool of production 510.Multiple solar batteries are entered the equipment.The equipment includes according to embodiment described herein
Separator 530, positioning device 540 and support device 550.
In some embodiments, the tool of production 510 includes one or more printing equipments, and the printing equipment is configured as
It is used to manufacture the solar cell substrates of multiple solar batteries for being printed on one or more conducting wires.One or more conducting wires
Selected from finger-shaped material and busbar connector.One or more printing equipments can be configured as one or more conducting wires of dual printing.Especially
For, one or more printing equipments can be configured as at least one of dual printing finger-shaped material and busbar connector.
According to some embodiments, system 500, and specifically equipment, including adhesive coater 520, the bonding
Agent coating unit be configured as before solar battery to be divided into two or more solar battery parts coating in adhesive to
Solar battery.Adhesive is applied to the two adjacent solar energy for corresponding to and arranging in support device 550 in an overlapping arrangement
The part of the solar battery of overlapping region between battery part.According to some embodiments, adhesive coater 520 can be with
It is configured as at least part that adhesive is coated in the wire pattern (such as busbar connector) of solar battery.
According to some embodiments that can be combined with other embodiments described herein, separator 530 includes extremely
A few solar battery punching machine.For example, at least one solar battery punching machine includes or laser.For example,
At least one solar battery punching machine, which can be configured as, is being divided into two or more solar batteries for solar battery
It perforates before part solar battery.
In some embodiments, system 500 further comprises heating device 560, for example, in the support device of equipment
After 550 or top.The embodiment of heating device 560 is described about Fig. 5.Specifically, heating device 560 is configured as adding
At least one of heat solar battery arrangement is with the bonding in the dry overlapping region between two adjacent solar battery parts
Agent.Heating device 560 can be selected from the group being made of following item: conduction heaters (for example, hot plate), convection heater, resistance
Heater, infrared heater, lamp heater, hot air heater and any combination of them.
According to some embodiments that can be combined with other embodiments described herein, system 500 includes classification dress
570 are set, the sorter is configurable for the quality arranged based at least two solar batteries and determined to classify at least
Two solar battery arrangements, such as the first solar battery arrangement and the second solar battery arrangement.For example, can abandon
Defect is arranged with low-quality solar battery.Optionally, defective solar battery arrangement can undergo reprocessing
Or renovation technique is (for example) to substitute defective or low-quality solar battery part.
Fig. 9 B is shown according to further embodiment described herein for manufacturing at least two tile style solar batteries
The schematic diagram of system 600.System 600 it is similar to the system described in Fig. 9 A and do not repeat it is similar or identical in terms of retouch
It states.Specifically, system 600 includes the tool of production 510, adhesive coater 520, equipment, heating device 560 and classification
Device 570.
According to some embodiments that can be combined with other implementing directions described herein, system 600 includes checking cloth
It sets.Check that arrangement may include the first check device 615, the second check device (may include in a device, for example, filling in positioning
Set in 540) and third check device 665 at least one.First check device 615, the second check device and third inspection
Device 665 can be configured as solar battery, the solar energy for determining and/or measuring as described in about embodiment described herein
One or more properties of at least one of battery part and/or solar battery arrangement, such as geometry and/or physical property.Specifically
For, one or more properties can be selected from the group being made of following item: geometry, electrical properties, optical property, printed matter
Matter and any combination of them.
In some embodiments, the first check device 615 be configured as solar battery is divided into it is two or more
One or more properties of solar battery are measured and/or determined before solar battery part.Although 615 example of the first check device
Property is illustrated as positioning between the tool of production 510 and adhesive coater 520, but the disclosure is not limited to this.For example, the
One check device 615 can provide between adhesive coater and separator 530 or can be bound to the tool of production
510, in adhesive coater 520 or separator 530.
According to some embodiments, the second check device is configured as surveying after solar battery is divided into several
Amount and/or one or more properties for determining at least some solar battery parts.Second check device can integrate into equipment, example
Such as, it is integrated in separator 530 or positioning device 540.In further embodiment, it can be used as separation entity and provide second
Check device.
In some embodiments, third check device 665 is configured as measuring and/or determining at least two solar-electricities
One or more properties of pond arrangement (such as the first solar battery arrangement and/or the second solar battery arrangement).Although third
665 exemplary diagram of check device is shown as positioning between heating device 560 and sorter 570, but the disclosure is not limited to
This.For example, third check device 665 can be provided at support device 550.In some embodiments, support device 550,
Heating device 560 and third check device 665 are integrated in single entity or treating stations.
Figure 10 is shown according to embodiment described herein for manufacturing at least two solar batteries arrangement (such as tile style
Solar battery) method 1000 flow chart.Method 1000 can be used the equipment according to embodiment described herein and be
System.Equally, the equipment of the disclosure and system can be configured as implementation method 1000.
Method 1000 includes: that each solar battery of one or more solar batteries is divided into two in square 1100
A or multiple solar battery parts;And in square 1200, at least two are formed too by two or more solar battery parts
At least the first solar battery arrangement and the second solar battery arrangement of positive energy battery arrangement.Two or more solar batteries
Each solar battery part of part is assigned to first too based on one or more geometry and/or physical property of solar battery part
Positive energy battery arrangement or the second solar battery arrangement.In some embodiments, one or more solar batteries be selected from by with
The group of lower item composition: full square solar battery and pseudo- square solar battery.
In some embodiments, solar battery can be used (for example) centring means and feel relieved, by solar energy
Battery adjusts the position of solar battery before being cut into two or more solar battery parts.Optionally, check device is (such as
Second check device) it can be used for before solar battery part is placed in support device being aligned (for example) being consolidated by positioning device
Fixed solar battery part.Closed-loop control can be used for by the information that inspection system obtains and position subsequent solar battery
Part.
According to some embodiments, one or more geometry and/or physical property are selected from the group being made of following item: geometric form
Shape, electrical properties, optical property and any combination of them.One or more geometry and/or physical property can be used according to this
At least one of first check device of the text embodiment, the second check device and third check device determines.
In some embodiments, the solar-electricity corresponding to two or more solar battery parts of prespecified geometric
Pond part is assigned to the first solar battery arrangement or the second solar battery arrangement.Prespecified geometric can correspond to have
The fringeware of the square solar battery of the puppet of rounded edges, the middleware of the square solar battery of puppet are full square
The solar battery part of solar battery part provided by complete square solar battery.For example, the puppet with rounded edges is just
The fringeware of rectangular solar battery can correspond to the first prespecified geometric, and the middleware of pseudo- square solar battery can
To correspond to the second prespecified geometric, and being provided by complete square solar battery for complete square solar battery part
Solar battery part can correspond to third prespecified geometric.
According to some embodiments that can be combined with other embodiments described herein, the geometry of solar battery part
Shape (for example) can be determined or be checked using the second check device.Specifically, the side of solar battery part can be determined
Whether edge has the (for example) scrambling as caused by cutting technique.The solar battery with these scramblings can be abandoned
Part can assign them to low-quality solar battery arrangement.
In some embodiments, method 1000 further comprises before separating each solar battery and forming the
One or more geometry and/or object are determined in an at least situation after one solar battery arrangement and the second solar battery arrangement
Rationality matter.For example, determining that one or more geometry and/or physical property can be by the first inspections before separating each solar battery
Look into device progress.One or more geometry are determined after forming the first solar battery arrangement and the second solar battery arrangement
And/or physical property can be carried out by third check device.
According to some embodiments that can be combined with other embodiments described herein, by one or more solar-electricities
Each solar battery in pond is divided into two, three, four, five, six or multiple solar battery parts.By each sun
The quantity for the solar battery part that energy battery is divided into can be according to the type of solar battery (for example, quasi- complete square or complete
Square), to assembled parallel the quantity and support device arranged of solar battery configuration (for example, single band or having point
Multiple support units from band) at least one select.
In some embodiments, method 1000 further comprises clamping two or more solar battery parts and by two
A or multiple solar battery parts are located in support device to form the first solar battery arrangement and the second solar battery
Arrangement.The clamping can be used such as (e.g.) described in Fig. 4 and Fig. 6 positioning device and execute.Specifically, by vacuum
The suction force that clamper provides can be used for picking up solar battery part.
According to some embodiments, method 1000 further comprises that two or more solar battery parts are being located in branch
Adhesive is coated to solar battery or two or more solar battery parts before on support arrangement.Specifically, it bonds
Agent can be coated in the overlapping region of two adjacent solar battery parts.According to some embodiments, adhesive is conductive viscous
Mixture, the electroconductive binder select the group being made of following item: solder, silver paste and conductive silicone adhesive.Some
In embodiment, method 1000 may include that dry adhesive is fixed to support device for two or more or is fixed on simultaneously
In support device.Heating device (such as infrared heater) Lai Zhihang can be used in the drying.Heating device can be in branch
It is provided at support arrangement and can move or transport simultaneously solar battery below heating device with heating solar battery arrangement
Arrangement.
According to some embodiments that can be combined with other embodiments described herein, sequentially can be used for making below
Make solar battery arrangement, such as tile style solar battery.
A) laser (separator) is used, for solar battery of perforating
B) it checks, the quality inspection for the solar battery before being separated with separator (separator)
C) adhesive (conducting resinl/solder paste deposits) is coated
D) (being divided into multiple) is cut
E) it checks, for the quality inspection after separator (optional)
F) it is aligned using phase machine check
G) solar battery part is located in support device (band;Superbattery is formed) on
H) (for example, using lamp or resistor) is heated
I) classification of superbattery is checked
It should be understood that said sequence is only example, and process aspect can be arranged with different order, can save one or more works
In terms of skill, and/or one or more process aspects can be added.
According to embodiment described herein, calculating is can be used in the method for manufacturing at least two solar batteries arrangement
Machine program, software, computer software product and relevant controller carry out, and the relevant controller can have and be used for
It handles the CPU of correspondence assembly communication of the equipment of large-area substrates, memory, user interface and outputs and inputs device.
Figure 11 shows the schematic side elevation of the support device according to embodiment described herein, and the support device is quiet
Electric support device 900.Electrostatic support device 900 can be used for according to embodiment described herein for manufacturing at least one too
The equipment of positive energy battery arrangement.
If Figure 11 is illustrated, support device 900 is configured in transporting direction 911 and conveys at least one too
(term " solar cell device " and " solar battery part " are same when using in disclosure full text for positive energy cell device 910
Justice).Specifically, support device includes the support component for being configurable for supporting at least one solar cell device 910
920 (for example, bands).For example, the lace conveying device that support component 920 can illustrate for such as Figure 11.In general, support dress
Setting 900 includes the first rotational roller 901 and the second rotational roller for support component 920 mobile in transporting direction 911
902.Further, according to embodiment described herein, support device includes being configurable for providing the electricity arrangement of electrostatic force
950, the electrostatic force is used at least one solar cell device 910 being fixed on support component 920.Specifically, quiet
Electric power can work between support component 920 and at least one solar cell device 910.
Therefore it provides support device, the support device may be advantageously used with during production (for example, dry or
During silk-screen process) it fixes and conveys photovoltaic panel element.Specifically, the embodiment of electrostatic support device as described herein
Provide the substitution for the fixed device of conventional vacuum.Therefore, the Advantageous embodiments of support device as described herein provide
Simplification structure compared with vacuum fixture, because complicated vacuum supply system can be saved.Further, it provides with band
The support device of formula conveying device can be particularly advantageous between the different disposal station in continuous mode as support component
It is mobile to transport lamellar element, such as solar battery part or element.
In the disclosure, term " support device " be interpreted as being configurable for support component (for example, fuel plate,
Such as solar battery part or solar battery arrangement) device.Specifically, " support device " can manage as described herein
Solution is the device for being configurable for supporting the element of substantial horizontal orientation.In this respect, " horizontal alignment " can be understood as
Orientation ± 10 ° or less perpendicular to gravity direction are wherein deviateed by the orientation of the longitudinal axis of the element of support device, specifically
Ground ± 5 ° or less, more specifically ± 2 ° or less orientation.
Figure 11 is illustratively referred to, according to the embodiment that can be combined with any other embodiment described herein,
Support device 900 may include at least one first roller for being configured in mobile support component 920 in transporting direction 911
901 and at least one second roller 902.Specifically, such as by being pointed out around the haircut of the first roller 901 and the axis of the second roller 902, the
One roller 901 and the second roller 902 are rotatable to move support component 920 in transporting direction 911, specifically conveying device
Band.For example, the first roller 901 and/or the second roller 902 can connect to driver to provide rotatable movement.In general, the first roller
901 and second the outer surface of roller 902 contacted with support component 920 between the first roller 901 and support component 920 and
Frictional force is provided between two rollers 902 and support component 920.Therefore, pass through the first roller 901 of rotation and the second roller, support component 920
It can be moved in transporting direction 911, it is exemplary such as in Figure 11 to point out.
In the disclosure, term " support component " is interpreted as being configurable for supporting or fixes fuel plate such as too
The element of the support device of positive energy cell device.Specifically, " support component " as described herein, which can be configured as, is used for
The even contact surface for being used for fuel plate to be supported is provided.In this respect, it should be understood that the orientation of even contact surface can be with
Be it is horizontal, i.e., perpendicular to gravity direction, in ± 10 ° or less of range, specifically in ± 5 ° or less of range, more
Specifically in ± 2 ° or less of range.In general, " support component " as described herein can have flexible structure, so that described
Support component may be used as conveyor belts, and the conveyor belts are guided by one or more rollers with branch mobile in transporting direction
Element is supportted, such as above with reference to Figure 11 exemplary description.
Exemplary reference Figure 11, according to the embodiment that can be combined with any other embodiment described herein, electricity
Arrangement 950 includes the charging source 951 for being configurable for for electrostatic charge being provided to support component 920.For example, charging source 951 can
To be disposed about in support component 920.Specifically, it is pointed out as Figure 11 is exemplary, charging source 951 can be relative to support component
920 arrangements, in D≤10mm, in specifically D≤5mm, the distance D of more specifically D≤2mm.
According to the embodiment that can be combined with any other embodiment described herein, charging source 951 can be electricity
Potential source, the voltage source are configurable for providing at least 5kV, specifically at least 8kV, such as the voltage of 10kV ± 1kV.Specifically
For, charging source 951 can connect to controller, the controller be configurable for control voltage, for example, from 5kV to
In the voltage range of 11kV.
Thus, it will be appreciated that charging source 951 is configurable for for electrostatic induction being provided to according to embodiment described herein
Support component 920 to generate electrostatic force on support component 920, the electrostatic force be used for by fuel plate (for example, at least one
Solar cell device) it is fixed on support component 920.
According to some embodiments, support device 900 can be Unipolar electrostatic support device.Specifically, in the disclosure
In, " Unipolar electrostatic support device " can be understood as the support device with one or more charging sources, and the charging source will be identical
Electropolar charge is provided to support component 920.For example, according to that can be combined with any other embodiment described herein
Embodiment, positive voltage can be applied to one or more charging sources and negative electrical charge incuded to support component, specifically incude
On the surface of support component.Alternatively, negative voltage can be applied to one or more charging sources positive charge is incuded to support component,
Specifically incude on the surface of support component.
According to other embodiments, support device 900 can be bipolar electrostatic support device.Specifically, in the disclosure,
" bipolar electrostatic support device " can be understood as the support device with two or more charging sources, and the charging source is by different electricity
Polar charge is provided to support component 920.For example, according to the reality that can be combined with any other embodiment described herein
Mode is applied, positive voltage can be applied to the first charging source of one or more charging sources and negative voltage can be applied to one or more
Second charging source of charging source.Therefore, corresponding negatively charged region and corresponding positively charged region can pass through electrostatic sense
It should be generated at support component (specifically in the surface of support component).
According to the embodiment that can be combined with any other embodiment described herein, electricity arrangement 950 includes being used for
The electrical ground for being grounded support component 920.For example, electrical ground can be mentioned by least one roller of the first roller 901 and the second roller 902
For.Additionally or alternatively, electrical ground can be provided by separation ground connection roller 903, and the separation ground connection roller is configurable for making
Support component 920 is grounded, and is such as illustrated in Figure 11.For example, ground connection roller 903 can be in the first roller 901 and the second roller 902
Between arrange.Specifically, ground connection roller 903 can be arranged for the surface of contact support component 920, such as show in Figure 11
Example property is shown.In general, arrangement ground connection roller 903 contacts the outer surface for being grounded roller with the inner surface of support component.In this respect,
It should be understood that " inner surface of support component is " for the surface of the support component opposite with the outer surface of support component, the support component
At least one solar cell device for being supported by support component of appearance face contact.
Exemplary reference Figure 12, according to the embodiment that can be combined with any other embodiment described herein, branch
The electricity arrangement 950 of support arrangement 900 includes at least one conductive arrangement 960, and the conductive arrangement is configurable for receiving and come from
The electrostatic charge of charging source 951.Specifically, at least one conductive arrangement 960 is configurable for providing electrostatic force, the electrostatic
Power is used at least one solar cell device 910 being fixed on support component 920.For example, at least one conductive arrangement 960
Support component 920 can be attached to or be incorporated in support component 920.
Therefore, in the disclosure, term " electricity arrangement " is understood to include the arrangement of conductive arrangement, and the conductive arrangement is attached
It is connected to support component 920 or is incorporated in support component 920.Therefore, in the disclosure, " conductive arrangement " is interpreted as conducting element
The arrangement of (for example, line of conductive material such as copper), the arrangement are configurable for receiving from charging as described herein
The electrostatic charge in source.Therefore, the electrostatic force for fixing on a support element at least one solar cell device can be by such as
Conductive arrangement as described herein provides.
Exemplary reference Figure 12, according to the embodiment that can be combined with any other embodiment described herein, until
A few conductive arrangement 960 may include the first busbar connector 961 and/or the second busbar connector 962.Specifically, the first busbar connector
961 and/or second busbar connector 962 can be parallel to transporting direction 911 arrangement, such as illustrated in Figure 11.According to can be with
The some embodiments combined with other embodiments described herein, the first busbar connector 961 and/or the second busbar connector 962 can
To be made by conductive material (for example, copper wire), and it is configured as charge being delivered to support component 920.For example, being filled in support
In the case where the bipole arrangement set, two first rollers 901A, 901B and two second rollers 902A, 902B can be provided, such as schemed
It is illustrated in 12.Specifically, first pair of the first roller 901A and the second roller 902A can be electrically connected by the first busbar connector 961
It connects and second pair of the first roller 901B and the second roller 902B can be electrically connected by the second busbar connector 962.In order to by positive polarity
Charge is supplied to the first busbar connector 961, and first pair of the first roller 901A and the second roller 902A can have internal rotating connector, institute
Stating rotary joint has for supplying+5kV or less, for example,+4kV voltage sliding contact.Therefore, for by the electricity of negative polarity
Lotus is supplied to the second busbar connector 962, and second pair of the first roller 901B and the second roller 902B can have internal rotating connector, described
Rotary joint has for supplying -5kV or less, for example, -4kV voltage sliding contact.
According to the embodiment that can be combined with any other embodiment described herein, at least one conductive arrangement
960 may include at least one electrode arrangement, for example, first electrode arrangement 971 and/or second electrode arrangement 972, are such as scheming
It is illustrated in 14A and Figure 14 B.For example, first electrode arrangement 971 can be electrically connected to the first busbar connector 961 and second
Electrode arrangement 972 can be electrically connected to the second busbar connector 962.According to some embodiments, first electrode arrangement 971 and/or the
Two electrode arrangements 972 can provide at least one flexible board 940, such as illustrate in Figure 12, Figure 14 A and Figure 14 B.
According to the embodiment that can be combined with any other embodiment described herein, support component 920 be can wrap
Multiple flexible boards are included, the flexible board can be provided along the length of support component 920, such as be illustrated in Figure 12.Such as
Shown in Figure 12, multiple flexible boards can be parallel to the length arrangement one another along support component.Further, support component 920 can
To have label, the label has at the pre-selected position installed flexible board on a support element.
According to the embodiment that can be combined with any other embodiment described herein, the first busbar connector 961 can be with
It is connect being arranged such that provide in support component 920 for providing electricity between the first busbar connector 961 and first electrode arrangement 971
First contact area 965A of touching.Therefore, the second busbar connector 962 can be arranged such that provide in support component 920 and be used for
The second contact area 965B of electrical contact is provided between the second busbar connector 962 and second electrode arrangement 972.For example, such as scheming
It being illustrated in 13, the first busbar connector 961 and/or the second busbar connector 962 can be arranged in support component 920, so that the
The first part 962A of the first part 961A of one busbar connector 961 and/or the second busbar connector 962 is exposed to support component 920
Surface, flexible board 940 may be mounted on the surface.Further, the first busbar connector 961 and/or the second busbar connector 962 can be with
It is arranged in support component 920, so that second of the second part 961B of the first busbar connector 961 and/or the second busbar connector 962
The surface for dividing 962B to be exposed to support component 920, the surface is contacted with the first roller 901 and/or the second roller 902.It is more specific next
It says, the first busbar connector 961 and/or the second busbar connector 962 can such as exist in support component 920 with alternately zigzag pattern arrangement
It is illustrated in Figure 13.
According to the embodiment that can be combined with any other embodiment described herein, support component includes at least one
Kind material, the material are selected from the group being made of following item: polytetrafluoroethylene (PTFE) (PTFE);Fiber-reinforced polymer, especially carbon
Fiber-reinforced polymer;Fiber reinforcement glass, polyamide and other appropriate materials.Therefore, support component as described herein has
It is configured as sharply flexible and the mechanical support for being used for the first busbar connector and/or the second busbar connector and/or flexible board is provided.
Figure 14 A and Figure 14 B show the schematic top view of the flexible board of the support component according to embodiment described herein
With the schematic rear view of the flexible board of support component.Such as illustrated in Figure 14 A and Figure 14 B, according to can with herein
The embodiment that any other described implementing direction combines, at least one conductive arrangement 960 may include first electrode arrangement
971 and/or second electrode arrangement 972.Specifically, first electrode arrangement 971 and/or second electrode arrangement 972 may include
The multiple electrodes extended from the first side 940A of flexible board 940 to the opposing second side 940B of flexible board 940, such as Fig. 4 A and
Shown in Fig. 4 B is exemplary.For example, the first electrode 971A of first electrode arrangement 971 and the second electrode of second electrode arrangement 972
972A can alternately staggeredly mode be arranged.Thus, it will be appreciated that flexible board 940 may include adjacent electrode, the adjacent electrode can
It is such as exemplary in Figure 14 A and Figure 14 B to point out to have opposite charge.
According to the embodiment that can be combined with any other embodiment described herein, first electrode 971A and second
Electrode 972A can be parallel to and arrange each other.For example, first electrode 971A and second electrode 972A can be configured as straight line, such as
It is illustrated in Figure 14 A and Figure 14 B.Alternatively, first electrode 971A and second electrode 972A can have different shape, example
Such as first electrode 971A and second electrode 972A can be configured as with zigzag pattern, wavy pattern.
According to the embodiment that can be combined with any other embodiment described herein, first electrode arrangement 971 and/
Or second electrode arrangement 972 provides at least one flexible board 940, such as illustrates in Figure 14 A and Figure 14 B.Specifically
For, first electrode arrangement 971 and/or second electrode arrangement 972 can at least partially embedded materials for forming flexible board 940
In.For example, flexible board 940 can be made by flexible polymer such as polyamide.
More specifically, according to the embodiment that can be combined with any other embodiment described herein, flexible board
Top side (that is, at least one solar battery can be contacted when at least one solar cell device is supported by support component
The surface of the flexible board of element) it is completely covered by flexible polymer structure 942 (for example, aramid layer).In general, flexible polymer
The major part of the formation flexible board of structure 942.Thus, it will be appreciated that the opposed polarity of first electrode arrangement and second electrode arrangement
Electrode is integrated in inside flexible board.Further, according to the embodiment party that can be combined with any other embodiment described herein
Formula, flexible board 940, specifically the opposing back side of flexible board, may include adhesive portion 941, described adhesive part quilt
It is configured for flexible board 940 being attached to support component 920.Specifically, adhesive portion 941 can be by flexible board
The two or more adhesive portions arranged on 940 opposite transverse edges provide, and such as illustrate in fig. 14b.In general,
Adhesive portion 941 includes that the first busbar connector of contact is configurable for when flexible board 940 is attached to support component 920
961 and/or second busbar connector 962 first electrode arrangement 971 and/or second electrode arrangement 972 a part.
Therefore, exemplary reference Figure 12, Figure 14 A and Figure 14 B, it should be understood that according to can with it is described herein any other implementation
The embodiment that mode combines, at least one flexible board 940 can be removably attached to support component 920.Therefore, it is used for
The support device 900 for conveying at least one solar cell device 910 is advantageously provided with modularization and tradable flexible board, institute
Flexible board is stated to be configurable for providing the fixed electrostatic force on a support element of at least one solar cell device.Cause
This, the embodiment of support device as described herein advantageously provides simply safeguarding and replace for the flexible board of support device
It changes.
In fig. 15, it is illustrated that according to the detailed cross-sectional of the layer structure of the flexible board of the support component of embodiment described herein
Face figure.Specifically, flexible board may include multilayered structure, and there is the multilayered structure bottom adhe oxidant layer 943, bottom to support
Layer 944, intermediary adhesive layer 945 and coating 946, such as illustrate in Figure 15.In general, first electrode arrangement 971 and/
Or second electrode arrangement is 972 between bottom adhe oxidant layer 943 and coating 946, more specifically bottom support layer 944 with
It is arranged between intermediary adhesive layer 945, it is exemplary such as in Figure 15 to point out.
Exemplary reference Figure 16 and Figure 17, according to the embodiment party that can be combined with any other embodiment described herein
Formula, support component 920 may include two or more controllable areas, and the controllable areas can be relative to for will at least
One solar cell device fixes electrostatic force on a support element to control.Specifically, two or more controllable areas
Domain can (for example) switch between " on " state and " disconnected " state." on " state can be wherein generation electrostatic force
State and " disconnected " state can be the state for not generating electrostatic force wherein.Therefore, it can be advantageous to which controllable support is provided
Device, wherein each region property of can choose of support component is controlled to provide for by fuel plate (specifically solar-electricity
Pond element) the partial electrostatic power of fixation on a support element.
According to the embodiment that can be combined with any other embodiment described herein, support component 920 be can wrap
The first controllable areas Z1, the second controllable areas Z2, third controllable areas Z3 and the 4th controllable areas Z4 are included, is such as being schemed
It is illustrated in 16.Specifically, controllable areas can be parallel to and arrange each other, specifically be parallel to transporting direction 911,
Such as illustrated in Figure 16.Each controllable areas may include that the first busbar connector 961 and second as described herein converges
Stream row 962.Therefore, the first busbar connector of individually controllable region Z1 to Z4 processed and the second busbar connector each can have charge, such as
With reference to Figure 11 and Figure 12 exemplary description.Further, as illustrated for the first controllable areas Z1, at least one is flexible
Plate 940 can provide at two or more controllable areas.
Exemplary reference Figure 17, according to the embodiment that can be combined with any other embodiment described herein, branch
Support element 920 can be configured so that independent flexible plate can be separated from each other control.Specifically, independent flexible plate can be controlled
Flexible board is allowed to switch to the " disconnected " state that electrostatic force is wherein not present from the " on " state for wherein generating electrostatic force.
Therefore, support component 920 can be configured so that two or more flexible boards as described herein can have charge.For example,
Support component 920 may include four first busbar connector 961A to 961D and four the second busbar connector 962A to 962D, the remittance
Stream row is arranged so that four flexible board Z1 to Z4 (for example) as described herein can independently have the charge being separated from each other.
For the embodiment of electrostatic support device as described in the present disclosure, it should be understood that the embodiment party of electrostatic support device
Formula is particularly suitable for using the electrostatic attraction splint fixation champion part between lamellar element and support electrostatic equipment, such as
Solar cell device, specifically photovoltaic panel element.For example, electrostatic support device may be advantageously used with the (example during production
Such as, during drying or silk-screen process) it fixes and conveys photovoltaic panel element.More specifically, electrostatic support device can be especially
Be conducive to transport lamellar element by using the conveyer belt moved in a continuous mode thin to transport between different disposal station
Fuel plate.Further, providing the support component including Modular Flexible plate as described herein allows simple maintenance and replacement
Process.
Further, according to the embodiment that can be combined with any other embodiment described herein, a kind of use is provided
In the method for conveying at least one solar cell device in transporting direction.Specifically, the method includes mentioning charge
It is supplied to the support component for being configurable for supporting at least one solar cell device;Pass through electrostatic force fixed described at least one
A solar element;And at least one described solar element is moved in the conveying direction.
For example, it may include using the support component according to embodiment described herein that charge, which is provided to support component,.
It therefore, may include using electricity arrangement as described herein by least one fixed described solar element of electrostatic force.Therefore,
It should be understood that the method for conveying at least one solar cell device can be come by using support device as described herein
It carries out.
According to that can combine with any other embodiment described herein, embodiment there is provided in transporter
To the support device 900 for conveying at least one solar cell device 910 in 911.Support device includes being configurable for propping up
It supports the support component 920 of at least one solar cell device and is configurable for providing at least one solar battery member
The electricity arrangement 950 of the fixed electrostatic force on a support element of part.
According to the embodiment that can be combined with any other embodiment described herein, electricity arrangement 950 includes being matched
It is set to the charging source 951 for electrostatic charge to be provided to support component 920.
According to the embodiment that can be combined with any other embodiment described herein, electricity arrangement 950 includes being matched
It is set at least one conductive arrangement 960 for receiving the electrostatic charge from charging source 951.
According to the embodiment that can be combined with any other embodiment described herein, at least one conductive arrangement
960 are configurable for providing electrostatic force, and the electrostatic force is used at least one solar cell device 910 being fixed on support
On element 920.
According to the embodiment that can be combined with any other embodiment described herein, at least one conductive arrangement
960 include the first busbar connector 961 and/or the second busbar connector 962.
According to the embodiment that can be combined with any other embodiment described herein, at least one conductive arrangement
960 include first electrode arrangement 971 and/or second electrode arrangement 972.
According to the embodiment that can be combined with any other embodiment described herein, first electrode arrangement 971 and/
Or second electrode arrangement 972 is arranged at least one flexible board 940.
According to the embodiment that can be combined with any other embodiment described herein, flexible board 940 is detachable
Ground is attached to support component 920.
According to the embodiment that can be combined with any other embodiment described herein, flexible board 940 includes being matched
It is set to the adhesive portion 941 for flexible board to be attached to support component 920.
According to the embodiment that can be combined with any other embodiment described herein, support device 900 is further
Including at least the first roller 901 and the second roller 902, the roller is configured in transporting direction 911 mobile support component
920。
According to the embodiment that can be combined with any other embodiment described herein, electricity arrangement 950 includes being used for
The electrical ground for being grounded support component 920.
According to the embodiment that can be combined with any other embodiment described herein, electrical ground is by the first roller 901
It is provided at least one roller of the second roller 902.
According to the embodiment that can be combined with any other embodiment described herein, electrical ground is by being configured as using
It is provided in the ground connection roller 903 for being grounded support component.
According to the embodiment that can be combined with any other embodiment described herein, support component is belt conveying
Device.
According to the embodiment that can be combined with any other embodiment described herein, support component includes at least one
Kind material, the material are selected from the group being made of following item: polytetrafluoroethylene (PTFE) (PTFE);Fiber-reinforced polymer, especially carbon
Fiber-reinforced polymer;Fiber reinforcement glass, polyamide and other appropriate materials.
According to the embodiment that can be combined with any other embodiment described herein, provide a kind of for transporting
The method of at least one solar cell device 910 is conveyed in direction 911.The method includes being provided to charge to be configured as
It is used to support the support component of at least one solar cell device;Pass through fixed at least one solar energy member of electrostatic force
Part;And at least one mobile described solar element in the conveying direction.
It is small piece that solar battery is separated (for example, cutting) by embodiment of the present disclosure, the subsequent quilt of the small piece
Distribute at least two different solar battery arrangements.For example, each can one or more geometry based on the part and/
Or physical property is assigned to corresponding solar battery arrangement.Solar battery arrangement can thus by with similar characteristic and/
Or the solar cell device of quality is made, and can improve the overall efficiency of solar battery arrangement.Can increase has
The module efficiency work solar cell module of solar battery arrangement, being particularly due to can be to avoid the appearance of " bottleneck ".
Although above content is directed to embodiment of the present disclosure, without departing substantially from the base region of the disclosure the case where
Under, it can be designed other and further embodiment of the disclosure, and the scope of the present disclosure is true by appended claim
It is fixed.
Claims (20)
1. a kind of equipment for manufacturing at least two solar batteries arrangement, the equipment include:
Separator, the separator are configurable for for the first solar battery being divided into two or more first solar energy
Battery part;
At least one positioning device, the positioning device are configurable for described two or multiple first solar battery parts
At least one first solar battery part be located in support device to form at least two solar battery arrangement
The first solar battery arrange and for by least one other the of described two or multiple first solar battery parts
One solar battery part is located in the support device to form the second of at least two solar battery arrangement too
Positive energy battery arrangement;And
Adhesive coater, described adhesive coating unit are configured as coating in adhesive to described two or multiple first
Solar battery part.
2. equipment as described in claim 1, wherein described adhesive coating unit be configured as coating described adhesive to
In at least part of the wire pattern of described two or multiple first solar battery parts.
3. equipment as described in claim 1, wherein described adhesive coating unit be configured as coating described adhesive to
In at least part of the busbar connector of described two or multiple first solar battery parts.
4. equipment as described in claim 1, wherein described adhesive is electroconductive binder.
5. equipment as described in claim 1, wherein described adhesive is configured as connecting adjacent solar-electricity in overlapping region
Pond part.
6. equipment as described in claim 1, wherein described adhesive coating unit is configured as being substantially liquid form
Described adhesive coat to described two or multiple first solar battery parts.
7. equipment as described in claim 1, wherein described adhesive is selected from the group being made of following item: silver paste is based on silicon
The electroconductive binder of oxygen alkane and electroconductive binder based on epoxy resin.
8. equipment as described in claim 1, further comprises:
Heating device, the heating device are configured as heating the first solar battery arrangement and second solar-electricity
At least one of pond arrangement.
9. equipment as claimed in claim 8, wherein the heating device is configured as dry described adhesive.
10. a kind of equipment for manufacturing solar battery arrangement, comprising:
Separator, the separator are configurable for for the first solar battery being divided into two or more first solar energy
Battery part;And
Adhesive coater, described adhesive coating unit are configured as coating in adhesive to described two or multiple first
Solar battery part.
11. a kind of method for manufacturing at least two solar batteries arrangement, which comprises
Each solar battery of one or more solar batteries is divided into two or more first solar battery parts;
At least first sun of at least two solar batteries arrangement is formed by described two or multiple solar battery parts
Can battery arrangement and the second solar battery arrangement, wherein one or more properties based on the solar battery part are by described two
Each solar battery part of a or multiple solar battery parts distributes to the first solar battery arrangement or described second
Solar battery arrangement;And
Adhesive is coated to described two or multiple solar battery parts.
12. method as claimed in claim 11, wherein described adhesive is applied to described two or multiple solar batteries
In at least part of the wire pattern of part.
13. method as claimed in claim 11, wherein described adhesive is applied to described two or multiple solar batteries
In at least part of the busbar connector of part.
14. method as claimed in claim 11, wherein described adhesive is electroconductive binder.
15. method as claimed in claim 11, wherein described adhesive is configured as connecting adjacent solar energy in overlapping region
Battery part.
16. method as claimed in claim 11, wherein described adhesive is to be substantially that liquid form is applied to described two
A or multiple first solar battery parts.
17. method as claimed in claim 11, wherein described adhesive is selected from the group being made of following item: silver paste is based on
The electroconductive binder of siloxanes and electroconductive binder based on epoxy resin.
18. method as claimed in claim 11, further comprises:
Drying process is executed to dry described adhesive.
19. method as claimed in claim 18, wherein by heat at least two solar batteries arrangement at least one
A solar battery arranges dry described adhesive.
20. a kind of method for manufacturing solar battery arrangement, which comprises
First solar battery is divided into two or more first solar battery parts;And
Adhesive is coated to described two or multiple first solar battery parts.
Priority Applications (1)
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CN201910707603.8A CN110379890A (en) | 2016-05-06 | 2016-05-06 | For manufacturing the device and method of at least two solar batteries arrangement |
Applications Claiming Priority (3)
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CN201910707603.8A CN110379890A (en) | 2016-05-06 | 2016-05-06 | For manufacturing the device and method of at least two solar batteries arrangement |
PCT/EP2016/060196 WO2017190800A1 (en) | 2016-05-06 | 2016-05-06 | Apparatus for manufacture of at least two solar cell arrangements, system for manufacture of at least two shingled solar cells, and method for manufacture of at least two solar cell arrangements |
CN201680002161.1A CN107735868B (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements, system for producing at least two tiled solar cells, and method for producing at least two solar cell arrangements |
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CN201680002161.1A Division CN107735868B (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements, system for producing at least two tiled solar cells, and method for producing at least two solar cell arrangements |
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CN201680002161.1A Active CN107735868B (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements, system for producing at least two tiled solar cells, and method for producing at least two solar cell arrangements |
CN201910707603.8A Pending CN110379890A (en) | 2016-05-06 | 2016-05-06 | For manufacturing the device and method of at least two solar batteries arrangement |
CN202010064857.5A Pending CN111223966A (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements |
CN202010064479.0A Pending CN111223965A (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements |
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CN202010064857.5A Pending CN111223966A (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements |
CN202010064479.0A Pending CN111223965A (en) | 2016-05-06 | 2016-05-06 | Device for producing at least two solar cell arrangements |
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US (5) | US10756229B2 (en) |
EP (2) | EP3379586B1 (en) |
JP (1) | JP2019515483A (en) |
KR (2) | KR20170141183A (en) |
CN (4) | CN107735868B (en) |
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WO (1) | WO2017190800A1 (en) |
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US20200350457A1 (en) | 2020-11-05 |
KR20170141183A (en) | 2017-12-22 |
US20170323808A1 (en) | 2017-11-09 |
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KR102320777B1 (en) | 2021-11-02 |
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EP3379586B1 (en) | 2020-03-25 |
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US11600741B2 (en) | 2023-03-07 |
KR20190053978A (en) | 2019-05-20 |
TWI669903B (en) | 2019-08-21 |
US11527672B2 (en) | 2022-12-13 |
US10756229B2 (en) | 2020-08-25 |
US20200350456A1 (en) | 2020-11-05 |
US20190058078A1 (en) | 2019-02-21 |
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