CN109742192A - High speed photovoltaic module production equipment and production method - Google Patents
High speed photovoltaic module production equipment and production method Download PDFInfo
- Publication number
- CN109742192A CN109742192A CN201910140084.1A CN201910140084A CN109742192A CN 109742192 A CN109742192 A CN 109742192A CN 201910140084 A CN201910140084 A CN 201910140084A CN 109742192 A CN109742192 A CN 109742192A
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 30
- 238000003475 lamination Methods 0.000 claims abstract description 46
- 238000005520 cutting process Methods 0.000 claims abstract description 38
- 238000007639 printing Methods 0.000 claims abstract description 33
- 238000007650 screen-printing Methods 0.000 claims abstract description 24
- 230000005540 biological transmission Effects 0.000 claims abstract description 22
- 238000000034 method Methods 0.000 claims abstract description 22
- 238000007599 discharging Methods 0.000 claims abstract description 14
- 238000010030 laminating Methods 0.000 claims abstract description 14
- 238000012545 processing Methods 0.000 claims description 14
- 238000002360 preparation method Methods 0.000 claims description 8
- 230000005611 electricity Effects 0.000 claims description 7
- 238000002407 reforming Methods 0.000 claims description 5
- 238000012937 correction Methods 0.000 claims description 4
- 238000010438 heat treatment Methods 0.000 claims description 2
- 238000005286 illumination Methods 0.000 claims description 2
- 238000003698 laser cutting Methods 0.000 claims description 2
- 230000003287 optical effect Effects 0.000 claims description 2
- 238000000926 separation method Methods 0.000 claims description 2
- 238000010586 diagram Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 4
- 238000001514 detection method Methods 0.000 description 3
- 238000013461 design Methods 0.000 description 1
- 238000003912 environmental pollution Methods 0.000 description 1
- 238000001499 laser induced fluorescence spectroscopy Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000010248 power generation Methods 0.000 description 1
- 238000011160 research Methods 0.000 description 1
Classifications
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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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
High speed photovoltaic module production equipment of the present invention, including laser scribing means that is being correspondingly arranged and being used in conjunction with each other, screen process press, cell piece breaking machine and cell piece laminating machine;Laser scribing means includes cell piece feeding unit material, cell piece scribing carrying mechanism, cell piece photographing unit, cell piece cutter unit, cell piece cutting agency, cell piece blanking transmission line;Screen process press includes cell piece feed unit, unit is taken pictures and corrected in cell piece printing, cell piece prints handling unit, cell piece silk-screen printing unit, cell piece discharging unit;Breaking machine includes that cell piece is reformed unit, cell piece sliver handling unit, cell piece sliver unit;Laminating machine includes that unit, cell piece solidified cell are taken pictures and corrected to cell piece lamination feed unit, cell piece lamination.
Description
Technical field
The present invention relates to automatic producing technology and automated production equipment technical fields, in particular to are used for photovoltaic module
The automatic producing technology and production equipment of preparation, it is specific to pay, show a kind of high speed photovoltaic module production equipment, while it is also
Show the high speed photovoltaic module production method that photovoltaic module preparation is carried out using a kind of high speed photovoltaic module production equipment.
Background technique
With being on the rise for world energy sources crisis and problem of environmental pollution, related personnel accelerates solar energy power generating
The research of technology.
Important composition unit of the photovoltaic module as solar power generation, manufacturing technology a very long time do not occur compared with
Big variation, photovoltaic module production equipment production capacity is low, and speed is slow, hinders the large-scale promotion and application of photovoltaic module always.
Therefore, it is necessary to provide a kind of high speed photovoltaic module production equipment and production method to solve the above problems.
Summary of the invention
The object of the present invention is to provide a kind of high speed photovoltaic module production equipments.
Technical solution is as follows:
A kind of high speed photovoltaic module production equipment, including laser scribing means that is being correspondingly arranged and being used in conjunction with each other, screen printing
Brush mechanical, electrical pond piece breaking machine and cell piece laminating machine;
Laser scribing means includes cell piece feeding unit material, cell piece scribing carrying mechanism, cell piece photographing unit, cell piece cutting
Unit, cell piece cutting agency, cell piece blanking transmission line;
Screen process press include cell piece feed unit, cell piece printing take pictures and correct unit, cell piece print handling unit,
Cell piece silk-screen printing unit, cell piece discharging unit;
Breaking machine includes that cell piece is reformed unit, cell piece sliver handling unit, cell piece sliver unit;
Laminating machine includes that unit, cell piece solidified cell are taken pictures and corrected to cell piece lamination feed unit, cell piece lamination.
Further, the cell piece feeding unit material is used for multiple large stretch of photovoltaic cells one by one or multiple separation, so
It successively carries and is put on cell piece scribing carrying mechanism afterwards;The cell piece feeding unit material and cell piece scribing carrying mechanism can
To use linear reciprocating structure or rotary structure;Cell piece photographing unit be used for the position of large stretch of photovoltaic cell into
Capable calculating of taking pictures, and calculated result is sent to cell piece cutter unit;Cell piece photographing unit can be set into one group or
Multiple groups can be set in the either above or below of large stretch of photovoltaic cell or upper and lower while be arranged.
Further, cell piece cutter unit cut to cell piece and add according to the calculated result of cell piece photographing unit
Work;The cell piece cutter unit can be set into it is one or more groups of, can be set large stretch of photovoltaic cell top or
Lower section;Multiple groups cell piece cutter unit is that synchronization has more than beam of laser to big with a piece of large stretch of photovoltaic cell or multi-disc
Piece photovoltaic cell carries out cutting processing;Or same laser source is divided into multiple laser by device and is cut;Cell piece cutting
Unit can be set into cell piece photographing unit in same position, i.e. cell piece photographing unit is taken pictures cell piece after the completion of calculating
Cutter unit just carries out cutting processing, is then carried again by scribing carrying mechanism;The cell piece cutter unit can also be with
It is arranged to not carried after the completion of that is, cell piece photographing unit takes pictures calculating by scribing in same position with cell piece photographing unit
Mechanism is carried, and then cell piece cutter unit carries out cutting processing again.
Further, cell piece cutting agency can be set into merges with cell piece feeding unit material, i.e. cell piece
For feeding unit material when toward large stretch of photovoltaic cell is put on cell piece scribing carrying mechanism, same group of mechanism realizes large stretch of light simultaneously
Lie prostrate the function of cell piece cutting agency;Cell piece cutting agency also can be set into be separated with cell piece feeding unit material;Cell piece
Cutting agency can use linear reciprocating structure or rotary structure.
Further, after the cutting processing that the cell piece feed unit is used to come laser scribing means transmission but connect
Integral large stretch of photovoltaic cell is transported to cell piece printing by rotation carrying or linear transmission or straight line and takes pictures and correct
Unit;Cell piece printing take pictures and correct unit for by large stretch of photovoltaic cell take pictures simultaneously calculating location information, then
Carry out the position correction of large stretch of photovoltaic cell;The calibration function that cell piece printing is taken pictures and corrected in unit can also be moved to electricity
Pond piece silk-screen printing unit realizes the location matches with large stretch of photovoltaic cell by adjusting the position of silk-screen printing unit.
Further, the cell piece printing handling unit is carried for realizing the large stretch of photovoltaic cell for the completion that will take pictures
To below cell piece silk-screen printing unit.Linear reciprocating structure or rotation can be used in the cell piece printing handling unit
Formula structure;The cell piece silk-screen printing unit is used to conducting resinl being printed onto large stretch of photovoltaic cell on piece;The cell piece silk
Wire mark brush unit can be set into one or more groups of;The screen process press can be in large stretch of photovoltaic cell on piece printing conducting resinl
With laser cutting process in the same face or different sides.
Further, the cell piece reform unit for by from screen process press discharging unit transmission come cell piece into
Row is reformed;Cell piece unit of reforming can be carried out along large stretch of photovoltaic cell transmission direction or the transmission of vertical large stretch of photovoltaic cell
It separately or concurrently reforms in direction.
Further, the cell piece sliver handling unit is used to large stretch of photovoltaic cell being transported to cell piece sliver list
In member;Conveying type structure or linear reciprocating structure or rotary knot can be used in the cell piece sliver handling unit
Structure;The cell piece sliver unit is used to large stretch of photovoltaic cell splitting into several small pieces photovoltaic cells;The cell piece
Sliver unit, which can according to need, to be arranged to one or more groups of, also be can according to need and is arranged to large stretch of photovoltaic cell piecewise
Or disposably split into small pieces photovoltaic cell;The cell piece lamination feed unit is used to print the sheet electricity of conducting resinl
Pond piece is transferred to cell piece lamination and takes pictures and correct unit;Conveying type structure or straight can be used in cell piece lamination feed unit
Line reciprocating structure or rotary structure.
Further, unit is taken pictures and corrected to the cell piece lamination for small pieces photovoltaic cell to be taken pictures, and root
Small pieces cell piece is successively subjected to the lamination that tiles that joins end to end according to the position of small pieces cell piece.The cell piece lamination is taken pictures and school
Positive unit join end to end when tiling lamination, and the conducting resinl after the cell piece silk-screen printing unit printing can be by adjacent two
A small pieces photovoltaic cell covering;The cell piece lamination take pictures and correct unit can be set into it is one or more groups of;The electricity
Pond piece solidified cell be used to join end to end tile lamination small pieces photovoltaic cell between conducting resinl heating or illumination curing, it is real
Existing small pieces photovoltaic cell connection growth optical crosstalk lies prostrate battery strings;The cell piece solidified cell can be set into one or more groups of.
The second object of the present invention is to provide a kind of high speed solar photovoltaic assembly preparation method.
Technical solution is as follows:
A kind of high speed solar photovoltaic assembly preparation method, steps are as follows:
1) multiple large stretch of photovoltaic cells are uniformly put into the feeding of laser scribing means, large stretch of photovoltaic cell is carried to and is taken pictures
Unit, after the completion of photographing unit takes pictures to large stretch of photovoltaic cell, large stretch of photovoltaic cell is transferred to cell piece and cut by equipment
Unit, cell piece cutter unit carry out cutting processing to large stretch of photovoltaic cell according to the result of taking pictures of photographing unit, and cutting adds
Cell piece cutting agency can successively put large stretch of photovoltaic cell on cell piece blanking transmission line after the completion of work, then will be electric
Pond piece is successively transferred to the cell piece feed unit of screen process press;
2) large stretch of photovoltaic cell on the blanking transmission line of light scribing machine is transferred to the cell piece feed unit of screen process press
Afterwards, large stretch of photovoltaic cell can be transferred to cell piece printing automatically and take pictures and correct unit by feed unit, to large stretch of photovoltaic electric
After pond piece is taken pictures and corrected, cell piece prints handling unit and large stretch of photovoltaic cell is transported to cell piece silk-screen printing list
Member, cell piece silk-screen printing unit carries out printing conducting resinl to cell piece, and after being completed for printing, cell piece prints handling unit will be big
Piece photovoltaic cell is transported to cell piece discharging unit;
3) cell piece discharging unit reforms the cell piece that large stretch of photovoltaic cell is transferred to breaking machine unit, and unit of being reformed is returned
After just, large stretch of photovoltaic cell is transported on cell piece sliver unit by cell piece sliver handling unit, cell piece sliver unit
Sliver is carried out to large stretch of photovoltaic cell, large stretch of photovoltaic cell sector-meeting is split into several small pieces photovoltaic cells at this time;Electricity
Small pieces photovoltaic cell is carried to the cell piece lamination feed unit of laminating machine by pond piece sliver handling unit;
4) small pieces photovoltaic cell is transferred to cell piece lamination and takes pictures and correct list by the cell piece lamination feed unit of laminating machine
Member, cell piece lamination are taken pictures and are corrected unit and successively carry out the lamination that tiles that joins end to end according to the position of small pieces photovoltaic cell,
It is then communicated to cell piece solidified cell to solidify the small pieces photovoltaic cell after lamination, is fabricated to a lot of photovoltaic cell
String.
Compared with prior art, the preparation of realization of High Speed photovoltaic module of the present invention, effective guarantee photovoltaic module it is extensive
It promotes and applies.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the embodiment of the present invention.
Fig. 2 is the structural schematic diagram of laser scribing means.
Fig. 3 is the structural schematic diagram of screen process press.
Fig. 4 is the structural schematic diagram of cell piece breaking machine.
Specific embodiment
Embodiment:
The present embodiment shows a kind of high speed photovoltaic module production equipment referring to FIG. 1 to FIG. 4:
Including laser scribing means 1, laser scribing means 1 is provided with cell piece feeding unit material 5, cell piece scribing carrying mechanism 6, battery
Piece photographing unit 7, cell piece cutter unit 8, cell piece cutting agency 9, cell piece blanking transmission line 10.
The laser scribing means 1 includes: cell piece feeding unit material 5, and cell piece feeding unit material 5 can be big by what is manually placed
Piece photovoltaic cell 11 is carried to cell piece photographing unit 7, and after the completion of taking pictures, cell piece scribing carrying mechanism 6 again will be large stretch of
Photovoltaic cell 11 is transported to the lower section of cell piece cutter unit 8, and cell piece cutter unit 8 is according to the bat of cell piece photographing unit 7
Cutting processing is carried out to large stretch of photovoltaic cell 11 according to result, after the completion of cutting processing, cell piece cutting agency 9 can be by large stretch of light
Volt cell piece 11 is successively put on cell piece blanking transmission line 10, and large stretch of photovoltaic cell 11 is successively then transferred to silk screen
The cell piece feed unit 12 of printing machine 2.
2 groups of cell piece feeding unit materials 5, cell piece photographing unit 7, cell piece cutting are provided on the laser scribing means 1
Unit 8, cell piece cutting agency 9, cell piece blanking transmission line 10 are realized two groups and are produced simultaneously, to improve the production speed of equipment
Degree.
Screen process press 2 includes: cell piece feed unit 12, unit 13 is taken pictures and corrected in cell piece printing, cell piece prints
Brush handling unit 14, cell piece silk-screen printing unit 15, cell piece discharging unit 16.It is characterized by: the screen process press 2
Including cell piece feed unit 12, large stretch of photovoltaic cell 11 can be transmitted to cell piece printing and clapped by cell piece feed unit 12
According to and correction unit 13, after the completion of being taken pictures and being corrected, cell piece printing handling unit 14 large stretch of photovoltaic cell 11 is removed again
15 lower section of cell piece silk-screen printing unit is transported to, 15 pairs of cell piece silk-screen printing unit large stretch of photovoltaic cells 11 print,
After being completed for printing, large stretch of photovoltaic cell 11 can be successively transferred to the electricity of cell piece sliver mechanism 3 by cell piece discharging unit 16
Pond piece is reformed on unit 17.
The screen process press 2 is provided with 2 groups of cell piece feed units 12, unit 13 is taken pictures and corrected in cell piece printing,
Cell piece prints handling unit 14, cell piece silk-screen printing unit 15, cell piece discharging unit 16.
Cell piece is provided in cell piece sliver mechanism 3 to reform unit 17, cell piece sliver handling unit 18, battery leafing
Blade unit 19.
Cell piece sliver mechanism 3 includes that cell piece is reformed unit 17, and cell piece unit 17 of reforming can exist setting
Large stretch of photovoltaic cell 11 that the transmission of cell piece discharging unit 16 of screen process press 2 comes carries out machinery and reforms, completion of being reformed
Afterwards, large stretch of photovoltaic cell 11 is transported to cell piece sliver unit 19, cell piece sliver again by cell piece sliver handling unit 18
Large stretch of photovoltaic cell 11 is cleaved into small pieces photovoltaic cell 20 by unit 19, and cell piece sliver handling unit 18 can be by small pieces photovoltaic
Cell piece 20 is successively put into the cell piece lamination feed unit 21 that cell piece laminating machine 4 is arranged in.
Unit 22, battery are taken pictures and corrected to cell piece laminating machine 4 including cell piece lamination feed unit 21, cell piece lamination
Piece solidified cell 23.It is characterized by: the cell piece laminating machine 4 includes cell piece lamination feed unit 21, cell piece lamination
Small pieces photovoltaic cell 20 can be transferred to cell piece lamination and take pictures and correct unit 22 by feed unit 21, taken pictures and corrected
Afterwards, the tiling that successively joins end to end of small pieces photovoltaic cell 20 is overlapped on cell piece solidified cell 23, after the completion of cured, shape
Growth string photovoltaic cell string 24.
Unit 22, cell piece solidified cell 23 are taken pictures and corrected to the cell piece lamination feed unit 21, cell piece lamination
2 groups are set as to improve equipment speed of production.
When the invention works, multiple cell pieces 11 are manually placed into the cell piece feeding being arranged on laser scribing means 1
Unit 5, the large stretch of photovoltaic cell 11 manually placed is carried to cell piece photographing unit 7 by cell piece feeding unit material 5, through taking pictures
After the completion, large stretch of photovoltaic cell 11 is transported to 8 lower section of cell piece cutter unit, battery again by cell piece scribing carrying mechanism 6
Piece cutter unit 8 carries out cutting processing to large stretch of photovoltaic cell 11 according to the result of taking pictures of cell piece photographing unit 7, and cutting adds
After the completion of work, cell piece cutting agency 9 successively puts large stretch of photovoltaic cell 11 on cell piece blanking transmission line 10, then
Large stretch of photovoltaic cell 11 is successively transferred to the cell piece feed unit 12 that screen process press 2 is arranged in, cell piece charging is single
Large stretch of photovoltaic cell 11 is transmitted to cell piece printing and takes pictures and correct unit 13 by member 12, after the completion of being taken pictures and being corrected, electricity
Pond piece prints handling unit 14 and large stretch of photovoltaic cell 11 is transported to 15 lower section of cell piece silk-screen printing unit, cell piece silk screen
15 pairs of printing element large stretch of photovoltaic cells 11 print, and after being completed for printing, cell piece discharging unit 16 can be by large stretch of photovoltaic
Cell piece 11, which is successively transferred to, to be arranged in the cell piece of cell piece sliver mechanism 3 and reforms on unit 17, and cell piece is reformed unit 17
Large stretch of photovoltaic cell 11 is carried out machinery to reform, after the completion of reforming, cell piece sliver handling unit 18 is again by large stretch of photovoltaic
Cell piece 11 is transported to cell piece sliver unit 19, and large stretch of photovoltaic cell 11 is cleaved into small pieces photovoltaic by cell piece sliver unit 19
Cell piece 20, small pieces photovoltaic cell 20 is successively put by cell piece sliver handling unit 18 is arranged in cell piece laminating machine 4
In cell piece lamination feed unit 21, small pieces photovoltaic cell 20 is transferred to cell piece lamination by cell piece lamination feed unit 21
Unit 22 is taken pictures and corrected, after taking pictures and correcting, the tiling that successively joins end to end of small pieces photovoltaic cell 20 is overlapped into battery
On piece solidified cell 23, after the completion of cured, long string photovoltaic cell string 24 is formed.
It is worth noting that:
In the present embodiment, can increase for photovoltaic cell between any position or inside in preparation process flow
Detection, as EL(electroluminescent fluorescent detect), PL(laser induced fluorescence detection) and AOI(vision-based detection).
It is directed to the detection of photovoltaic cell simultaneously, can be because of the needs of actual production line, cutting and print to photovoltaic cell
Brush conducting resinl can be in the same face or different sides of photovoltaic cell.
Above-described is only some embodiments of the present invention.For those of ordinary skill in the art, not
Under the premise of being detached from the invention design, various modifications and improvements can be made, these belong to protection model of the invention
It encloses.
Claims (10)
1. a kind of high speed photovoltaic module production equipment, it is characterised in that: including laser that is being correspondingly arranged and being used in conjunction with each other
Scribing machine, screen process press, cell piece breaking machine and cell piece laminating machine;
Laser scribing means includes cell piece feeding unit material, cell piece scribing carrying mechanism, cell piece photographing unit, cell piece cutting
Unit, cell piece cutting agency, cell piece blanking transmission line;
Screen process press include cell piece feed unit, cell piece printing take pictures and correct unit, cell piece print handling unit,
Cell piece silk-screen printing unit, cell piece discharging unit;
Breaking machine includes that cell piece is reformed unit, cell piece sliver handling unit, cell piece sliver unit;
Laminating machine includes that unit, cell piece solidified cell are taken pictures and corrected to cell piece lamination feed unit, cell piece lamination.
2. a kind of high speed photovoltaic module production equipment according to claim 1, it is characterised in that: the cell piece feed material list
Member is for one by one or multiple separation, then successively carrying multiple large stretch of photovoltaic cells and putting cell piece scribing carrying mechanism
On;The cell piece feeding unit material and cell piece scribing carrying mechanism can be using linear reciprocating structure or rotary knots
Structure;Calculated result is sent to by cell piece photographing unit for carrying out calculating of taking pictures to the position of large stretch of photovoltaic cell
Cell piece cutter unit;Cell piece photographing unit can be set into one or more groups of, can be set in large stretch of photovoltaic cell
Either above or below or upper and lower are arranged simultaneously.
3. a kind of high speed photovoltaic module production equipment according to claim 2, it is characterised in that: cell piece cutter unit root
Cutting processing is carried out to cell piece according to the calculated result of cell piece photographing unit;The cell piece cutter unit can be set into one
Group or multiple groups can be set in the either above or below of large stretch of photovoltaic cell;Multiple groups cell piece cutter unit is synchronization
It has more than beam of laser and carries out cutting processing to a piece of large stretch of photovoltaic cell or multi-disc sheet photovoltaic cell;Or it is same sharp
Light source is divided into multiple laser by device and is cut;Cell piece cutter unit can be set into cell piece photographing unit same
As soon as position, i.e. cell piece photographing unit are taken pictures, cell piece cutter unit carries out cutting processing after the completion of calculating, then again by drawing
Piece carrying mechanism is carried;The cell piece cutter unit also can be set into cell piece photographing unit not in same position
It sets, i.e., after the completion of cell piece photographing unit takes pictures calculating, is carried by scribing carrying mechanism, then cell piece cutter unit is again
Carry out cutting processing.
4. a kind of high speed photovoltaic module production equipment according to claim 3, it is characterised in that: cell piece cutting agency can
To be arranged to merge with cell piece feeding unit material, i.e., cell piece feeding unit material is toward putting on cell piece scribing carrying mechanism
When macrophotograph photovoltaic cell, same group of mechanism realizes the function of large stretch of photovoltaic cell cutting agency simultaneously;Cell piece blanking
Mechanism also can be set into be separated with cell piece feeding unit material;Cell piece cutting agency can using linear reciprocating structure or
Rotary structure.
5. a kind of high speed photovoltaic module production equipment according to claim 4, it is characterised in that: the cell piece charging is single
After cutting processing of the member for carrying out laser scribing means transmission but it is linked to be whole large stretch of photovoltaic cell and is removed by rotation
Fortune or linear transmission or straight line are transported to cell piece printing and take pictures and correct unit;Cell piece printing is taken pictures and is corrected unit and is used for
Large stretch of photovoltaic cell take pictures and calculating location information, then carries out the position correction of large stretch of photovoltaic cell;Battery
The calibration function that piece printing is taken pictures and corrected in unit can also be moved to cell piece silk-screen printing unit, by adjusting silk-screen printing
The location matches with large stretch of photovoltaic cell are realized in the position of unit.
6. a kind of high speed photovoltaic module production equipment according to claim 5, it is characterised in that: the cell piece printing is removed
Transportation unit is transported to below cell piece silk-screen printing unit for realizing by the large stretch of photovoltaic cell for completion of taking pictures;The battery
Linear reciprocating structure or rotary structure can be used in piece printing handling unit;The cell piece silk-screen printing unit is used for
Conducting resinl is printed onto large stretch of photovoltaic cell on piece;The cell piece silk-screen printing unit can be set into one or more groups of;Institute
State screen process press large stretch of photovoltaic cell on piece printing conducting resinl can be with laser cutting process in the same face or different sides.
7. a kind of high speed photovoltaic module production equipment according to claim 6, it is characterised in that: the cell piece is reformed list
Member is for reforming the cell piece come from the transmission of screen process press discharging unit;Cell piece unit of reforming can carry out
It separately or concurrently reforms along large stretch of photovoltaic cell transmission direction or vertical large stretch of photovoltaic cell transmission direction.
8. a kind of high speed photovoltaic module production equipment according to claim 7, it is characterised in that: the cell piece sliver is removed
Transportation unit is used to large stretch of photovoltaic cell being transported to cell piece sliver unit;The cell piece sliver handling unit can make
With conveying type structure or linear reciprocating structure or rotary structure;The cell piece sliver unit is used for large stretch of photovoltaic
Cell piece splits into several small pieces photovoltaic cells;The cell piece sliver unit, which can according to need, is arranged to one group or more
Group also can according to need and be arranged to large stretch of photovoltaic cell splitting into small pieces photovoltaic cell piecewise or disposably;It is described
Cell piece lamination feed unit, which is used to for the large stretch of cell piece for printing conducting resinl to be transferred to cell piece lamination, takes pictures and corrects list
Member;Conveying type structure or linear reciprocating structure or rotary structure can be used in cell piece lamination feed unit.
9. a kind of high speed photovoltaic module production equipment according to claim 8, it is characterised in that: the cell piece lamination is clapped
Be used to take pictures small pieces photovoltaic cell according to correction unit, and according to the position of small pieces cell piece by small pieces cell piece successively
Carry out the lamination that tiles that joins end to end;The cell piece lamination is taken pictures and is corrected unit and join end to end when tiling lamination, described
Conducting resinl after the printing of cell piece silk-screen printing unit can be covered by two adjacent small pieces photovoltaic cells;The cell piece is folded
Piece take pictures and correct unit can be set into it is one or more groups of;The cell piece solidified cell is for the lamination that tiles that will join end to end
Small pieces photovoltaic cell between conducting resinl heating or illumination curing, realize small pieces photovoltaic cell connection growth optical crosstalk lie prostrate battery
String;The cell piece solidified cell can be set into one or more groups of.
10. a kind of high speed solar photovoltaic assembly preparation method, raw using a kind of high speed photovoltaic module as claimed in claim 9
It produces equipment and carries out photovoltaic module preparation, steps are as follows:
1) multiple large stretch of photovoltaic cells are uniformly put into the feeding of laser scribing means, large stretch of photovoltaic cell is carried to and is taken pictures
Unit, after the completion of photographing unit takes pictures to large stretch of photovoltaic cell, large stretch of photovoltaic cell is transferred to cell piece and cut by equipment
Unit, cell piece cutter unit carry out cutting processing to large stretch of photovoltaic cell according to the result of taking pictures of photographing unit, and cutting adds
Cell piece cutting agency can successively put large stretch of photovoltaic cell on cell piece blanking transmission line after the completion of work, then will be electric
Pond piece is successively transferred to the cell piece feed unit of screen process press;
2) large stretch of photovoltaic cell on the blanking transmission line of light scribing machine is transferred to the cell piece feed unit of screen process press
Afterwards, large stretch of photovoltaic cell can be transferred to cell piece printing automatically and take pictures and correct unit by feed unit, to large stretch of photovoltaic electric
After pond piece is taken pictures and corrected, cell piece prints handling unit and large stretch of photovoltaic cell is transported to cell piece silk-screen printing list
Member, cell piece silk-screen printing unit carries out printing conducting resinl to cell piece, and after being completed for printing, cell piece prints handling unit will be big
Piece photovoltaic cell is transported to cell piece discharging unit;
3) cell piece discharging unit reforms the cell piece that large stretch of photovoltaic cell is transferred to breaking machine unit, and unit of being reformed is returned
After just, large stretch of photovoltaic cell is transported on cell piece sliver unit by cell piece sliver handling unit, cell piece sliver unit
Sliver is carried out to large stretch of photovoltaic cell, large stretch of photovoltaic cell sector-meeting is split into several small pieces photovoltaic cells at this time;Electricity
Small pieces photovoltaic cell is carried to the cell piece lamination feed unit of laminating machine by pond piece sliver handling unit;
4) small pieces photovoltaic cell is transferred to cell piece lamination and takes pictures and correct list by the cell piece lamination feed unit of laminating machine
Member, cell piece lamination are taken pictures and are corrected unit and successively carry out the lamination that tiles that joins end to end according to the position of small pieces photovoltaic cell,
It is then communicated to cell piece solidified cell to solidify the small pieces photovoltaic cell after lamination, is fabricated to a lot of photovoltaic cell
String.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910140084.1A CN109742192B (en) | 2019-02-26 | 2019-02-26 | High-speed photovoltaic module production equipment and production method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910140084.1A CN109742192B (en) | 2019-02-26 | 2019-02-26 | High-speed photovoltaic module production equipment and production method |
Publications (2)
Publication Number | Publication Date |
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CN109742192A true CN109742192A (en) | 2019-05-10 |
CN109742192B CN109742192B (en) | 2023-12-08 |
Family
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CN110379742A (en) * | 2019-07-29 | 2019-10-25 | 威米深智(苏州)工业技术有限公司 | A kind of high-speed, high precision photovoltaic cell imbrication manufacturing process |
CN115274916A (en) * | 2022-05-19 | 2022-11-01 | 杭州利珀科技有限公司 | Photovoltaic crystalline silicon primary silicon wafer subfissure positioning and splitting system and method |
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CN109378360A (en) * | 2018-09-29 | 2019-02-22 | 苏州迈为科技股份有限公司 | A kind of imbrication component manufacturing line and production technology |
CN209447831U (en) * | 2019-02-26 | 2019-09-27 | 苏州辰正太阳能设备有限公司 | High speed photovoltaic module production equipment |
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CN109378360A (en) * | 2018-09-29 | 2019-02-22 | 苏州迈为科技股份有限公司 | A kind of imbrication component manufacturing line and production technology |
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