CN207977338U - A kind of device for the adhesive tape on photovoltaic module - Google Patents
A kind of device for the adhesive tape on photovoltaic module Download PDFInfo
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- CN207977338U CN207977338U CN201820358524.1U CN201820358524U CN207977338U CN 207977338 U CN207977338 U CN 207977338U CN 201820358524 U CN201820358524 U CN 201820358524U CN 207977338 U CN207977338 U CN 207977338U
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- adhesive tape
- photovoltaic module
- groove
- workbench
- wheel
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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
The utility model is related to a kind of devices for the adhesive tape on photovoltaic module, including:The workbench that can be moved, the adhesive tape with spool are provided on workbench;Motion comprising photovoltaic module directive wheel, adhesive tape directive wheel, adhesive tape flanging wheel and the adhesive tape contact roller being arranged on the workbench, photovoltaic module are limited and are oriented to by photovoltaic module directive wheel;Start mechanism, is arranged on the workbench and between adhesive tape directive wheel and adhesive tape flanging wheel;Cutting mechanism is arranged on the workbench and starts between mechanism and the adhesive tape flanging wheel positioned at described.The utility model can realize the automatic bonding of photovoltaic module and adhesive tape, and bonding is quick and convenient, improves the working efficiency of photovoltaic module the entire production line.
Description
Technical field
The utility model is related to a kind of devices for the adhesive tape on photovoltaic module.
Background technology
It is that adhesive tape is bonded in the edge of photovoltaic module (to be equivalent to there are one process in the production process of photovoltaic module
Bound edge is carried out to photovoltaic module), as link important on photovoltaic industry assembly line, its efficiency directly affects whole flowing water
The production capacity height of line.Before the adhesive is set, adhesive tape will first be unfolded from tape roll and be wrapped in corresponding mechanism, later again with photovoltaic
Component bonds.Currently on the market winding and adhesive tape method largely for manually carry out, machine winding, adhesive tape and its
Complexity, especially adhesive tape are started part.In view of the above circumstances, it is badly in need of a kind of being bonded on photovoltaic module quickly and easily at present
The device of adhesive tape.
The information for being disclosed in the utility model background technology part is merely intended to deepen the general background to the utility model
The understanding of technology, and be not construed as recognizing or imply in any form the information constitute by those skilled in the art public affairs
The prior art known.
Utility model content
The purpose of this utility model is to provide a kind of devices for the adhesive tape on photovoltaic module, can realize light
The automatic bonding of component and adhesive tape is lied prostrate, bonding is quick and convenient, improves the working efficiency of photovoltaic module the entire production line.
The purpose of this utility model is achieved through the following technical solutions:
A kind of device for the adhesive tape on photovoltaic module, including:
The workbench that can be moved, the adhesive tape with spool are provided on the workbench;
Motion comprising the operating direction that moves along the workbench is successively set on the workbench from front to back
On photovoltaic module directive wheel, adhesive tape directive wheel, adhesive tape flanging wheel and adhesive tape contact roller, photovoltaic module passes through the photovoltaic module
Directive wheel is limited and is oriented to;
Start mechanism, be arranged on the workbench and positioned at the adhesive tape directive wheel and the adhesive tape flanging wheel it
Between, the mechanism that starts includes that cylinder and the adhesive tape for making adhesive tape be engaged with photovoltaic module play header structure, and the adhesive tape is started
Structure is connected with the piston rod of the cylinder, and adhesive tape plays header structure with the adhesive tape and engage via the adhesive tape directive wheel;
Cutting mechanism is arranged on the workbench and starts between mechanism and the adhesive tape flanging wheel positioned at described,
The cutting mechanism includes cutter, the cutting knife cylinder being connect with the cutter and the cutter lifting air being connect with the cutting knife cylinder
Cylinder.
Preferably, the motion further comprises that the supporting plate in the workbench bottom is arranged, and the workbench is logical
The supporting plate is crossed to move along sliding rail.
Preferably, the motion further comprise being arranged one between tape roll and the adhesive tape directive wheel or
Multiple adhesive tape deflecting rollers.
Preferably, adhesive tape plays header structure by the adhesive tape deflecting roller, the adhesive tape directive wheel and the adhesive tape successively;
The adhesive tape rises at header structure, and adhesive tape is risen by header structure engages with the adhesive tape through adhesive tape adhesive surface by the non-adhering face of adhesive tape
It is engaged with photovoltaic module.
Preferably, the working face of the adhesive tape header structure is equipped with step groove, and the step groove includes for engaging glue
First groove of band and the second groove for making adhesive tape and photovoltaic module be inserted into together, second groove are recessed from described first
Extend to adhesive tape inside configuration of starting among trench bottom, the width of first groove is more than the width of second groove
Degree, it is vertical with horizontally disposed photovoltaic module in the first groove adhesive tape.
Preferably, adhesive tape is adsorbed on by vacuumizing in first groove by first groove.
Preferably, second groove is slit, and the width of second groove is bigger 0.2mm than the thickness of photovoltaic module,
The depth of second groove is the half of tape width.
Preferably, the cutter of the cutting mechanism includes the first cutter and the second cutter, first cutter and described the
Two cutters are connect with the cutting knife cylinder respectively, so that first cutter and second cutter is closed by the cutting knife cylinder
Or it separates.
Further, the device of adhesive tape on photovoltaic module that is used for further comprises for recycling waste tape
The material volume recovering mechanism of skin, the material volume recovering mechanism include the friction pulley that can be moved synchronously being arranged on the workbench
With waste recovery shaft, the friction pulley and the adhesive tape directive wheel are closely tangent, and adhesive tape is from the friction pulley and the adhesive tape
It is passed through between directive wheel.
Preferably, the lower part of the friction pulley and the lower part of the waste recovery shaft are equipped with belt wheel, the friction pulley
Belt wheel pass through synchronous band connection with the belt wheel of the waste recovery shaft.
The beneficial effects of the utility model are:
The utility model can realize the automatic bonding of photovoltaic module and adhesive tape, and bonding is quick and convenient, improves photovoltaic group
The working efficiency of part the entire production line.Adhesive tape bonding is uniform, and adhesive tape side is parallel with component side, and bonding is smooth, without fold.
Cut-off part uses double-pole shear-type structure, notch smooth.
Description of the drawings
Fig. 1 is the vertical view for the device of adhesive tape on photovoltaic module described in the utility model embodiment;
Fig. 2 is the side view for the device of adhesive tape on photovoltaic module described in the utility model embodiment;
Fig. 3 and Fig. 4 is the solid for the device of adhesive tape on photovoltaic module described in the utility model embodiment
Figure;
Fig. 5 and Fig. 6 is the work for the device of adhesive tape on photovoltaic module described in the utility model embodiment
State diagram;
Fig. 7 is the side view of the mechanism that starts described in the utility model embodiment;
Fig. 8 is the stereogram of the adhesive tape header structure in the mechanism that starts described in the utility model embodiment;
Fig. 9 is the side view of the adhesive tape header structure in the mechanism that starts described in the utility model embodiment;
Figure 10 is the structural schematic diagram of the cutting mechanism described in the utility model embodiment.
Reference sign:
1. workbench;2. tape roll;3. photovoltaic module directive wheel;4. adhesive tape directive wheel;5. adhesive tape flanging wheel;6. adhesive tape pressure
Bearing up pulley;7. photovoltaic module;8. start mechanism;9. cylinder;10. adhesive tape;11. adhesive tape plays header structure;12. cutting mechanism;13. cutter
Cylinder;14. cutter lifting cylinder;15. adhesive tape deflecting roller;16. supporting plate;17. compression cylinder;18. the first groove;19. second is recessed
Slot;20. lateral blind hole;21. vertical blind hole;22. adsorbing aperture;23. the first cutter;24. the second cutter;25. scrap rubber belt leather;
26. friction pulley;27. waste recovery shaft;28. belt wheel;29. synchronous belt;30. synchronous belt compressing structure.
Specific implementation mode
With reference to specific embodiment and respective drawings, the utility model is described in further detail.
It is to be appreciated that appended attached drawing is not proportionally drawn, and merely to illustrating the basic principle of the utility model
Various features the suitably simplified technique of painting.The specific design feature of the utility model disclosed herein includes for example specific ruler
Very little, direction, position and shape will be partly determined by the specific application and use environment.
In appended multiple attached drawings, same or equivalent component (element) is indexed with identical reference numeral.
As shown in Figures 1 to 6, the device for the adhesive tape on photovoltaic module described in the utility model embodiment,
Including:
The workbench 1 that can be moved, the tape roll 2 with spool are placed on the workbench 1;
Motion comprising the operating direction that moves along the workbench 1 is successively set on the work from front to back
Photovoltaic module directive wheel 3, adhesive tape directive wheel 4, adhesive tape flanging wheel 5 on platform 1 and adhesive tape contact roller 6, photovoltaic module 7 pass through described
Photovoltaic module directive wheel 3 is limited and is oriented to;
The mechanism that starts 8 is arranged on the workbench 1 and positioned at the adhesive tape directive wheel 4 and the adhesive tape flanging wheel 5
Between, the mechanism 8 that starts includes that cylinder 9 and the adhesive tape for making adhesive tape 10 be engaged with photovoltaic module 7 play header structure 11, described
Adhesive tape plays header structure 11 and is connected with the piston rod of the cylinder 9, and adhesive tape 10 rises via the adhesive tape directive wheel 4 with the adhesive tape
Header structure 11 engages;
Cutting mechanism 12 is arranged on the workbench 1 and positioned at mechanism 8 and the adhesive tape flanging wheel 5 of starting
Between, the cutting mechanism 12 includes cutter, the cutting knife cylinder 13 being connect with the cutter and is connect with the cutting knife cylinder 13
Cutter lifting cylinder 14.
In this example, the motion further comprises being arranged two between tape roll 2 and the adhesive tape directive wheel 4
Adhesive tape deflecting roller 15;Adhesive tape 10 plays header structure by the adhesive tape deflecting roller 15, the adhesive tape directive wheel 4 and the adhesive tape successively
11;It is risen at header structure 11 in the adhesive tape, adhesive tape 10 is risen with the adhesive tape by header structure 11 engages by the non-adhering face of adhesive tape to be led to
Adhesive tape adhesive surface is crossed to engage with photovoltaic module 7.
Adhesive tape deflecting roller 15, adhesive tape directive wheel 4, adhesive tape flanging wheel 5 and adhesive tape contact roller 6 are equipped with race so that adhesive tape
It can limit in race, adhesive tape deflecting roller 15, adhesive tape directive wheel 4, adhesive tape flanging wheel 5 and adhesive tape contact roller 6 are according to itself work(
The needs of energy, the width of its own race are different.Adhesive tape deflecting roller 15 and adhesive tape directive wheel 4 are primarily to will be from adhesive tape
The adhesive tape of 2 expansion of volume is transmitted to the mechanism that starts, and therefore, their wheel well width is equal to or more than tape width;Adhesive tape flanging wheel
Effect be in order to make adhesive tape further be folded to photovoltaic module after adhesive tape is engaged with photovoltaic module, therefore, adhesive tape flanging wheel
Wheel well width be less than tape width;And adhesive tape contact roller is to can further compress after so that adhesive tape is folded to photovoltaic module
It is bonded on photovoltaic module, therefore the wheel well width of adhesive tape contact roller is also smaller than the wheel well width of adhesive tape flanging wheel.
During the work time, photovoltaic module 7 is fixed, and workbench 1 is led with the photovoltaic module being disposed thereon
It is moved together along the edge of photovoltaic module to wheel 3, adhesive tape directive wheel 4, the mechanism that starts 8, adhesive tape flanging wheel 5 and adhesive tape contact roller 6
Dynamic, photovoltaic module directive wheel 3 also is provided with race, and photovoltaic module 7 will first pass through the limit of photovoltaic module directive wheel 3 and be oriented to, then
Adhesive tape is engaged with photovoltaic module at the mechanism that starts, finally by adhesive tape flanging wheel and adhesive tape contact roller by the further flanging of adhesive tape and
It is pressed on photovoltaic module.After the one side edge of photovoltaic module is all encased by adhesive tape bonding, by cutting mechanism by belt cutting
It is disconnected, then carry out the bonding bound edge at next edge.
In this example, the motion further comprises that the supporting plate 16 in 1 bottom of the workbench, the workbench is arranged
It is moved along sliding rail by the supporting plate 16.Workbench is moved along photovoltaic module, and adhesive tape is bonded in the edge of photovoltaic module, complete
After the bonding of one side edge and cutter cut-out adhesive tape, workbench returns to along sliding rail in situ to carry out glue next time again
The bonding of band and photovoltaic module.The movement of workbench is driven by motor.In addition, the bottom of workbench 1 also with compression
Cylinder 17 is connected, and compression cylinder 17 makes entire workbench 1 close proximity to photovoltaic module 7, to make on workbench with photovoltaic module
The component of contact is compressed with photovoltaic module as possible.
As shown in figs. 7 to 9, in this example, the working face that the adhesive tape plays header structure 11 is equipped with step groove, the step
Slot includes the second groove 19 for the first groove 18 of joint tape 10 and for making adhesive tape and photovoltaic module be inserted into together, institute
The second groove 19 11 internal stretch of header structure to the adhesive tape among 18 bottom of the first groove is stated, the first groove 18
Width can be slightly less than, equal to or more than the width of adhesive tape, and the width of the first groove 18 is more than the width of second groove 19,
Adhesive tape is vertical with horizontally disposed photovoltaic module at first groove 18.
Step groove can be the slot that section is "convex" shaped, and adhesive tape 10 is located at the first groove 18, adhesive tape 10 perpendicular to
The edge of photovoltaic module 7 and engaged with photovoltaic module, at this moment risen with adhesive tape the cylinder that is connected of header structure by adhesive tape header structure into
Push photovoltaic module to one step, photovoltaic module is made to be inserted into the second groove together with adhesive tape.
Since the second groove 19 is slit, the width of the second groove 19 is bigger 0.2mm than the thickness of photovoltaic module 7, and second is recessed
The depth of slot 19 is the half of 10 width of adhesive tape, and after photovoltaic module 7 and adhesive tape 10 are inserted into the second groove 19, adhesive tape can be folded to photovoltaic
Component, then by cylinder 9 make adhesive tape rise header structure 11 retract, adhesive tape flanging wheel 5 by photovoltaic module when can by adhesive tape into
It is folded to one step photovoltaic module, is finally compressed using adhesive tape contact roller 6.
As shown in figs. 7 to 9, in this example, adhesive tape 10 is adsorbed on described first by first groove 18 by vacuumizing
In groove 18.Specifically, the bottom of the first groove 18 is separated into two parts up and down by the second groove 19, and header structure is played in adhesive tape
11 side opens up parallel with 18 bottom of the first groove two lateral blind holes 20, and the positions of two lateral blind holes 20 is respectively with the
The upper and lower part of one groove 18 corresponds to, and is then opened up at the top of adhesive tape header structure 11 and is connected to described two lateral blind holes 20
A vertical blind hole 21, the port sealing of described two transverse direction blind holes 20, port and the vacuum of the vertical blind hole 21 occur
Device is connected, and the inside that header structure can be thus played in adhesive tape forms the space of a vacuum, finally in 18 bottom of the first groove
Upper and lower part (being separated by the second groove 19) open up the absorption aperture being connected to described two lateral blind holes 20 respectively
22, the absorption of adhesive tape 10 can be located in the first groove 18 by adsorbing aperture 22, be made in the case where vacuumizing in this way
The non-adhering face of adhesive tape is obtained to engage with adhesive tape header structure, and adhesive tape adhesive surface is engaged with photovoltaic module.
As shown in Figure 10, in this example, the cutter of the cutting mechanism 12 includes the first cutter 23 and the second cutter 24, described
First cutter 23 and second cutter 24 are connect with the cutting knife cylinder 13 respectively, make described by the cutting knife cylinder 13
One cutter 23 and second cutter 24 are closed or separate.During adhesive tape and photovoltaic module bond, cutter lifting cylinder
14 rise the connection cutter of cutting knife cylinder 13 together, and one landing of cutter is connected to when needing to cut off adhesive tape, then by cutting knife cylinder 13
Under, cutting knife cylinder 13 makes the first cutter 23 and the second cutter 24 be closed and cut off adhesive tape.
As depicted in figs. 1 and 2, in this example, the device of adhesive tape on photovoltaic module that is used for further comprises
Material volume recovering mechanism for recycling scrap rubber belt leather 25 comprising be arranged on the workbench 1 can move synchronously rub
Wheel 26 and waste recovery shaft 27 is wiped, the friction pulley 26 is closely tangent with the adhesive tape directive wheel 4, and adhesive tape 10 is from the friction
It is passed through between wheel 26 and the adhesive tape directive wheel 4;The lower part of the friction pulley 26 and the lower part of the waste recovery shaft 27 are equal
Equipped with belt wheel 28, the belt wheel of the friction pulley 26 is connect with the belt wheel of the waste recovery shaft 27 by synchronous belt 29, synchronous
Band 29 is equipped with synchronous belt compressing structure 30.
Before start-up operation, first manually a bit of scrap rubber belt leather 25 is detached with adhesive tape at adhesive tape deflecting roller 15,
The scrap rubber belt leather 25 separated is wrapped in waste recovery shaft 27, then since friction pulley 26 and adhesive tape directive wheel 4 are close
Tangent and adhesive tape is advanced between, and the effect of frictional force can be such that friction pulley 26 rotates, since friction pulley 26 and waste material return
It receives shaft 27 to move synchronously, to drive waste recovery shaft 27 also to rotate together, such scrap rubber belt leather 25 will be with
The rotation of waste recovery shaft 27 is constantly wrapped in waste recovery shaft 27, such scrap rubber belt leather 25 can automatically with
Adhesive tape detaches, simple to operate, saves manpower.
The specific work process for the device of adhesive tape on photovoltaic module described in the utility model embodiment is such as
Under:One section of adhesive tape 10 is unfolded first from tape roll 2, the adhesive tape 10 of expansion is successively via adhesive tape deflecting roller 15 and adhesive tape directive wheel
After 4, the part of starting of adhesive tape 10 in the first groove 18 that adhesive tape plays header structure 11, has at this moment been fixed by vacuumizing and adsorbing
Photovoltaic module 7 can tentatively be engaged with adhesive tape, adhesive tape rise header structure 11 by cylinder 9 to photovoltaic module 7 promote, make light
Volt component connection adhesive tape is started partly to be inserted into the second groove 19 together, so that adhesive tape is folded to photovoltaic module viscous with photovoltaic module edge
It closes, then adhesive tape is played header structure 11 and retracted by cylinder 9, and motor drive operational platform 1 is advanced, since the part of starting of adhesive tape has been glued
It is attached on photovoltaic module, at this moment advances along photovoltaic module with workbench, adhesive tape can be pullled, and constantly be drawn from tape roll
Go out, to adhesive tape along photovoltaic module edge bond, and by adhesive tape flanging wheel and adhesive tape contact roller further flanging and
It compresses, is finally completed the bound edge to photovoltaic module, cutting mechanism falls the cut-out for completing adhesive tape, in the process as previously described
Waste tape micromicro is wrapped in automatic separation in waste recovery shaft.Adhesive tape bonding is uniform, and adhesive tape side is flat with component side
Row, bonding is smooth, without fold.Cut-off part cuts examination structure using double-pole, and notch is smooth.
The description that the specific illustrative embodiment of the utility model is presented in front is for the purpose of illustration and description.
The description of front, which is not intended to become, to be not intended to the utility model is limited to disclosed accurate shape without missing
Formula, it is clear that many change and variations are all possible according to the above instruction.Select illustrative embodiments and be described be for
The certain principles and practical application for explaining the utility model, so that others skilled in the art can be realized simultaneously
Utilize the various illustrative embodiments of the utility model and its various selection forms and modification.The scope of the utility model
It is intended to be limited by the appended claims and its equivalents.
Claims (10)
1. a kind of device for the adhesive tape on photovoltaic module, which is characterized in that including:
The workbench that can be moved, the adhesive tape with spool are provided on the workbench;
Motion comprising the operating direction that moves along the workbench is successively set on from front to back on the workbench
Photovoltaic module directive wheel, adhesive tape directive wheel, adhesive tape flanging wheel and adhesive tape contact roller, photovoltaic module are oriented to by the photovoltaic module
Wheel limit and guiding;
Start mechanism, is arranged on the workbench and between the adhesive tape directive wheel and the adhesive tape flanging wheel, institute
It includes cylinder and for making the adhesive tape that adhesive tape engages with photovoltaic module play header structure to state the mechanism that starts, the adhesive tape rise header structure with
The piston rod of the cylinder is connected, and adhesive tape plays header structure with the adhesive tape and engage via the adhesive tape directive wheel;
Cutting mechanism is arranged on the workbench and starts between mechanism and the adhesive tape flanging wheel positioned at described, described
Cutting mechanism includes cutter, the cutting knife cylinder being connect with the cutter and the cutter lifting cylinder being connect with the cutting knife cylinder.
2. the device according to claim 1 for the adhesive tape on photovoltaic module, which is characterized in that the fitness machine
Structure further comprises that the supporting plate in the workbench bottom is arranged, and the workbench is moved by the supporting plate along sliding rail.
3. the device according to claim 1 for the adhesive tape on photovoltaic module, which is characterized in that the fitness machine
Structure further comprises being arranged one or more adhesive tape deflecting rollers between tape roll and the adhesive tape directive wheel.
4. the device according to claim 3 for the adhesive tape on photovoltaic module, which is characterized in that adhesive tape passes through successively
It crosses the adhesive tape deflecting roller, the adhesive tape directive wheel and the adhesive tape and plays header structure;It is risen at header structure in the adhesive tape, adhesive tape is logical
The non-adhering face of adhesive tape is crossed to engage with the adhesive tape header structure and engage with photovoltaic module by adhesive tape adhesive surface.
5. the device according to claim 1 for the adhesive tape on photovoltaic module, which is characterized in that the adhesive tape rises
The working face of header structure be equipped with step groove, the step groove include for joint tape the first groove and for make adhesive tape and
The second groove that photovoltaic module is inserted into together, second groove are started knot among first bottom portion of groove to the adhesive tape
Structure internal stretch, the width of first groove is more than the width of second groove, in the first groove adhesive tape and water
The photovoltaic module of flat setting is vertical.
6. the device according to claim 5 for the adhesive tape on photovoltaic module, which is characterized in that described first is recessed
Adhesive tape is adsorbed on by vacuumizing in first groove by slot.
7. the device according to claim 5 for the adhesive tape on photovoltaic module, which is characterized in that described second is recessed
Slot is slit, and the width of second groove is bigger 0.2mm than the thickness of photovoltaic module, and the depth of second groove is that adhesive tape is wide
The half of degree.
8. the device according to claim 1 for the adhesive tape on photovoltaic module, which is characterized in that the cutting machine
The cutter of structure includes the first cutter and the second cutter, and first cutter and second cutter connect with the cutting knife cylinder respectively
It connects, so that first cutter and second cutter is closed or is separated by the cutting knife cylinder.
9. the device according to claim 1 for the adhesive tape on photovoltaic module, which is characterized in that further comprise
Material volume recovering mechanism for recycling scrap rubber belt leather, the material volume recovering mechanism include be arranged on the workbench can be same
The friction pulley and waste recovery shaft of movement are walked, the friction pulley and the adhesive tape directive wheel are closely tangent, and adhesive tape rubs from described
It wipes and is passed through between wheel and the adhesive tape directive wheel.
10. the device according to claim 9 for the adhesive tape on photovoltaic module, which is characterized in that the friction
The lower part of wheel and the lower part of the waste recovery shaft are equipped with belt wheel, the belt wheel of the friction pulley and the waste recovery shaft
Belt wheel pass through synchronous band connection.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820358524.1U CN207977338U (en) | 2018-03-16 | 2018-03-16 | A kind of device for the adhesive tape on photovoltaic module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820358524.1U CN207977338U (en) | 2018-03-16 | 2018-03-16 | A kind of device for the adhesive tape on photovoltaic module |
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Publication Number | Publication Date |
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CN207977338U true CN207977338U (en) | 2018-10-16 |
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ID=63765779
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CN201820358524.1U Active CN207977338U (en) | 2018-03-16 | 2018-03-16 | A kind of device for the adhesive tape on photovoltaic module |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109326668A (en) * | 2018-11-19 | 2019-02-12 | 苏州晟成光伏设备有限公司 | Photovoltaic module automatic edger |
-
2018
- 2018-03-16 CN CN201820358524.1U patent/CN207977338U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109326668A (en) * | 2018-11-19 | 2019-02-12 | 苏州晟成光伏设备有限公司 | Photovoltaic module automatic edger |
CN109326668B (en) * | 2018-11-19 | 2024-02-13 | 苏州晟成光伏设备有限公司 | Automatic edge bonding machine for photovoltaic module |
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