CN210937748U - Solar panel separation and transmission structure - Google Patents

Solar panel separation and transmission structure Download PDF

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Publication number
CN210937748U
CN210937748U CN201921451099.1U CN201921451099U CN210937748U CN 210937748 U CN210937748 U CN 210937748U CN 201921451099 U CN201921451099 U CN 201921451099U CN 210937748 U CN210937748 U CN 210937748U
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frame
solar panel
welding
input
conveying
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CN201921451099.1U
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常明旺
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Qihe Double 100 Digital Imaging Equipment Co ltd
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Qihe Double 100 Digital Imaging Equipment Co ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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Abstract

The utility model discloses a solar panel separation conveying structure, including welding body frame, battery cluster handling frame, solar panel input frame, input conveyer belt, solar panel output frame, output conveyer belt, body frame glass conveyer belt, welding body frame left side is equipped with the solar panel input frame, is equipped with the input conveyer belt of liftable in the solar panel input frame, welding body frame right side is equipped with the solar panel output frame, is equipped with the output conveyer belt of liftable in the solar panel output frame, the fixed battery cluster handling frame of welding body frame upper portion slidable, battery cluster handling frame include half section on the left, half section on the right, half section on the left side, half section on the right remove simultaneously to it is corresponding respectively in solar panel input frame, solar panel output frame, welding body frame lower part is equipped with body frame glass conveyer belt. The process is scientific, the glass battery string is separated for welding, the welding mode is various, and the application range is wide.

Description

Solar panel separation and transmission structure
Technical Field
The utility model relates to a photovoltaic equipment technical field, concretely relates to a separation transport structure for solar panel's automatic weld equipment.
Background
When solar panel is produced, need weld the battery cluster through the busbar. In many cases, when welding the battery string, glass is fed to a welding apparatus together with the battery string, and then the bus bar is put on the battery string to be welded. The welding mode has poor welding effect and more welding spots, and can not meet the market application requirements.
There is a pressing need in the market today for an automated device that places bus bars into the underside of a battery string for welding.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a solar panel separation transport structure has overcome the above-mentioned not enough of prior art, and its structural design is simple, reasonable, and the technology science adopts the mode of glass battery cluster separation to weld, and the welding mode is various, is favorable to improving welding quality, can be used to the welding of half piece formula, whole piece formula battery cluster, and application scope is wide, satisfies the user demand, the popularization of the product of being convenient for.
In order to achieve the above design purpose, the utility model discloses a technical scheme as follows:
a solar panel separation and conveying structure comprises a welding main frame, a battery string conveying frame, a solar panel input frame, an input conveying belt, a solar panel output frame, an output conveying belt, a main frame glass conveying belt and a welding station, wherein the solar panel input frame is arranged on the left side of the welding main frame, a liftable input conveying belt is arranged in the solar panel input frame, the input conveying belt is used for being connected with a solar panel to be welded, the solar panel output frame is arranged on the right side of the welding main frame, a liftable output conveying belt is arranged in the solar panel output frame and used for sending out the welded solar panel, the battery string conveying frame is fixed on the upper portion of the welding main frame in a slidable mode, the battery string conveying frame is used for absorbing a battery string on the solar panel and conveying the battery string into the welding main frame and conveying the welded battery string out of the welding main frame, and comprises a left half section, Half section on the right side, half section on the left side, half section on the right side adopt the same structure, and half section on the left side, half section on the right side all can once absorb all battery strings on a solar panel alone, half section on the left side, half section on the right side remove simultaneously to it is corresponding in solar panel input frame, solar panel output frame respectively, welding body frame lower part is equipped with body frame glass conveyer belt for conveying solar panel's glass conveys glass from solar panel input frame to solar panel output frame.
The left half section of the battery string conveying frame enters a solar panel input frame and sucks up a battery string on a solar panel on an input conveying belt, the whole battery string conveying frame moves towards a solar panel output frame, the battery string sucked by the left half section of the battery string conveying frame enters a welding main frame and is placed in a welding station arranged in the welding main frame for welding, meanwhile, glass on the solar panel on the input conveying belt in the solar panel input frame descends along with the input conveying belt and is conveyed to the glass conveying belt of the main frame and is conveyed to an output conveying belt after descending in the solar panel output frame through the glass conveying belt of the main frame, the output conveying belt rises and supports the glass, at the moment, the input conveying belt rises, a second solar panel enters the input conveying belt of the solar panel input frame, the whole battery string conveying frame moves towards the solar panel input frame and sucks the battery string on the second solar panel through the left half section of the battery string conveying frame, meanwhile, the right half section of the battery string conveying frame is located on the upper side of a welding station in the welding main frame, welded battery strings are sucked, the battery string conveying frame integrally moves towards the solar panel output frame, the welded battery strings sucked by the right half section of the battery string conveying frame enter the solar panel output frame and are placed on glass on an output conveyor belt in the solar panel output frame, meanwhile, the battery strings on a second solar panel sucked by the left half section of the battery string conveying frame enter the welding main frame and are placed in the welding station to wait for welding, the processes are repeated, glass of the solar panel and the battery strings are separated to enter the welding main frame, and after the welding of the battery strings is completed, the battery strings are placed on the glass.
The battery string conveying frame is characterized in that a battery string suction mechanism is arranged on the lower side of the battery string conveying frame and used for sucking a battery string, the battery string suction mechanism mainly comprises a suction nozzle group, the battery string suction mechanism is divided into a left suction nozzle group and a right suction nozzle group, the left suction nozzle group corresponds to the left half section of the battery string conveying frame, and the right suction nozzle group corresponds to the right half section of the battery string conveying frame.
The left side suction nozzle group includes first section, second section, and right side suction nozzle group includes first section, second section, and first section, second section correspond first, second half of the battery cluster on a half-chip solar panel respectively to satisfy the absorption demand of half-chip battery cluster.
The battery string carrying frame is fixed on the carrying frame lifting frame through an electric cylinder, the battery string carrying frame is driven by the electric cylinder to move on the carrying frame lifting frame, the carrying frame lifting frame is fixed on the welding main frame through the electric cylinder, and the carrying frame lifting frame is driven by the electric cylinder to lift on the welding main frame.
The solar panel input frame and the input conveyor belt are of the same structure as the solar panel output frame and the solar panel output conveyor belt.
The solar panel input frame is internally provided with a bottom frame for fixing the input conveying belt through an electric cylinder, and the bottom frame of the input conveying belt can lift in the solar panel input frame through the electric cylinder to drive the input conveying belt to lift in the solar panel input frame.
The bottom frame of the input conveying belt is fixed in the solar panel input frame through the air cylinder, the bottom frame of the input conveying belt can lift in the solar panel input frame through the air cylinder, and the input conveying belt is driven to lift in the solar panel input frame.
The upper part of the welding main frame is also provided with an intermediate welding frame, and an intermediate welding head is fixed on the intermediate welding frame through an electric cylinder; the upper part of the welding main frame is also provided with a complex end welding frame, and a complex end welding head is fixed on the complex end welding frame through an electric cylinder; the upper part of the welding main frame is also provided with a simple end welding frame, and a simple end welding head is fixed on the simple end welding frame through an electric cylinder.
And one sides of the middle welding head, the complex end welding head and the simple end welding head are respectively provided with a CCD camera.
Solar panel separation conveying structure beneficial effect be: structural design is simple, reasonable, and the technology science adopts the mode of glass battery cluster separation to weld, and the welding mode is various, is favorable to improving welding quality, can be used to the welding of half piece formula, whole piece formula battery cluster, and application scope is wide, satisfies the user demand, the popularization of the product of being convenient for.
Drawings
Fig. 1 is a perspective view of a solar panel separating and conveying structure according to the present invention;
fig. 2 is a top view of the solar panel separating and conveying structure according to the present invention;
fig. 3 is a schematic view of a solar panel input frame of the solar panel separating and conveying structure according to the present invention;
fig. 4 is a schematic view of the welding main frame of the solar panel separating and conveying structure of the present invention.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
The concrete structure is shown in fig. 1-4, the solar panel separation and transmission structure comprises a welding main frame 1, a battery string conveying frame 2, a solar panel input frame 9, an input conveyor belt 10, a solar panel output frame 11, an output conveyor belt 12, a main frame glass conveyor belt 13 and a welding station 16, wherein the solar panel input frame 9 is arranged on the left side of the welding main frame 1, the solar panel input frame 9 is internally provided with the liftable input conveyor belt 10, the input conveyor belt 10 is used for connecting a solar panel to be welded and conveying the glass conveyed by the solar panel into the welding main frame 1, the solar panel output frame 11 is arranged on the right side of the welding main frame 1, the liftable output conveyor belt 12 is arranged in the solar panel output frame 11, the output conveyor belt 12 is used for conveying the welded solar panel, the battery string conveying frame 2 is fixed on the upper portion of the welding main frame 1 in a sliding manner, and the battery string conveying frame 2, and is transported into the welding main frame 1, and transports the welded battery string out of the welding main frame 1, the battery string transporting frame 2 comprises a left half section and a right half section, the left half section and the right half section adopt the same structure, the left half section and the right half section can independently absorb all the battery strings on one solar panel at a time, the left half section and the right half section move simultaneously and respectively correspond to the solar panel input frame 9 and the solar panel output frame 11, namely, after the battery string transporting frame 2 moves towards the solar panel input frame 9, the left half section of the battery string transporting frame 2 enters the solar panel input frame 9, meanwhile, the right half section of the battery string transporting frame 2 enters the welding main frame 1, after the battery string transporting frame 2 moves towards the solar panel output frame 11, the right half section of the battery string transporting frame 2 enters the solar panel output frame 11, and simultaneously, the left half section of the battery string transporting frame 2 enters the welding main frame 1, the lower part of the welding main frame 1 is provided with a main frame glass conveying belt 13 which is used for conveying the glass of the solar panel and conveying the glass from the solar panel input frame 9 to the solar panel output frame 11; when the solar energy power generation device is used, the left half section of the battery string conveying frame 2 enters the solar panel input frame 9 and sucks up a battery string on a solar panel on the input conveying belt 10, the whole battery string conveying frame 2 moves towards the solar panel output frame 11, the battery string sucked by the left half section of the battery string conveying frame 2 enters the welding main frame 1 and is placed in a welding station 16 arranged in the welding main frame 1 for welding, meanwhile, glass on the solar panel on the input conveying belt 10 in the solar panel input frame 9 descends along with the input conveying belt 10 and is conveyed to the main frame glass conveying belt 13 and is conveyed to the output conveying belt 12 descending in the solar panel output frame 11 through the main frame glass conveying belt 13, the output conveying belt 12 rises and supports the glass, at the moment, the input conveying belt 10 rises, and a second solar panel enters the input conveying belt 10 of the solar panel input frame 9, the whole battery string conveying frame 2 moves towards the solar panel input frame 9, and absorbs the battery strings on the second solar panel through the left half section of the battery string conveying frame 2, meanwhile, the right half section of the battery string conveying frame 2 is positioned at the upper side of the welding station 16 in the welding main frame 1 to absorb the welded battery strings, the whole battery string conveying frame 2 moves towards the solar panel output frame 11, so that the welded battery strings absorbed by the right half section of the battery string conveying frame 2 enter the solar panel output frame 11 and are placed on the glass on the output conveyor belt 12 in the solar panel output frame 11, meanwhile, the battery strings on the second solar panel absorbed by the left half section of the battery string conveying frame 2 enter the welding main frame 1 and are placed in the welding station 16 to wait for welding, the processes are repeated, so that the glass of the solar panel and the battery strings are separated to enter the welding main frame, and after the welding of the battery strings is completed, and then the battery string is placed on the glass, the mode is fast, the process is reasonable and simple, the battery string is independently welded (separated from the glass), the bus bar can be rapidly placed on the lower side of the battery string (the glass without the lower side of the battery string blocks), and the market use requirement is met.
The battery string conveying frame is characterized in that a battery string suction mechanism 15 is arranged on the lower side of the battery string conveying frame 2, the battery string suction mechanism 15 is used for sucking a battery string, the battery string suction mechanism 15 mainly comprises a suction nozzle group, the battery string suction mechanism 15 is divided into a left suction nozzle group and a right suction nozzle group, the left suction nozzle group corresponds to the left half section of the battery string conveying frame 2, and the right suction nozzle group corresponds to the right half section of the battery string conveying frame 2.
The left side suction nozzle group includes first section, second section, and right side suction nozzle group includes first section, second section, and first section, second section correspond first, second half of the battery cluster on a half-chip solar panel respectively to satisfy the absorption demand of half-chip battery cluster.
The battery string conveying frame 2 is fixed on the conveying frame lifting frame 14 through an electric cylinder, the battery string conveying frame 2 is driven to move on the conveying frame lifting frame 14 through the electric cylinder, the conveying frame lifting frame 14 is fixed on the welding main frame 1 through the electric cylinder, and the conveying frame lifting frame 14 is driven to lift on the welding main frame 1 through the electric cylinder.
The solar panel input frame 9 and the input conveyor belt 10 are of the same structure as the solar panel output frame 11 and the output conveyor belt 12.
The bottom frame of the input conveyor belt 10 is fixed in the solar panel input frame 9 through an electric cylinder, and the bottom frame of the input conveyor belt 10 can ascend and descend in the solar panel input frame 9 through the electric cylinder to drive the input conveyor belt 10 to ascend and descend in the solar panel input frame 9.
The bottom frame of the input conveyor belt 10 is fixed in the solar panel input frame 9 through the air cylinder, the bottom frame of the input conveyor belt 10 can lift in the solar panel input frame 9 through the air cylinder, and the input conveyor belt 10 is driven to lift in the solar panel input frame 9.
The solar panel input frame 9 is internally provided with a bottom frame for fixing the input conveying belt 10 through a servo motor, a nut and a screw rod assembly, the bottom frame of the input conveying belt 10 can be lifted in the solar panel input frame 9 through the servo motor, the nut and the screw rod assembly, and the input conveying belt 10 is driven to lift in the solar panel input frame 9.
The upper part of the welding main frame 1 is also provided with an intermediate welding frame 3, an intermediate welding head 4 is fixed on the intermediate welding frame 3 through an electric cylinder, and the intermediate welding head 4 is used for welding the butt joint end of the half-chip battery string.
The upper portion of the welding main frame 1 is further provided with a complex end welding frame 5, a complex end welding head 6 is fixed on the complex end welding frame 5 through an electric cylinder, and the complex end welding head 6 is used for welding a complex end of a battery string.
The upper part of the welding main frame 1 is also provided with a simple end welding frame 7, a simple end welding head 8 is fixed on the simple end welding frame 7 through an electric cylinder, and the simple end welding head 8 is used for welding a simple end of the battery string.
And CCD cameras are respectively arranged on one sides of the middle welding head 4, the complex end welding head 6 and the simple end welding head 8 and are used for detecting the position of the battery string and assisting in adjusting the position of the battery string so as to improve the welding quality.
The foregoing is a more detailed description of the invention, taken in conjunction with the specific preferred embodiments thereof, so that those skilled in the art can readily understand and apply the invention, and it is not intended to limit the invention to the specific embodiments described. To the ordinary technical personnel in the technical field that the utility model belongs to, can also make a plurality of simple deductions or replacement under the prerequisite that does not deviate from the utility model discloses the design, and needn't pass through creative work. Therefore, the simple modifications made by those skilled in the art according to the disclosure of the present invention should be within the scope of the present invention.

Claims (9)

1. The utility model provides a solar panel separation transport structure which characterized in that: the solar cell string conveying frame comprises a welding main frame, a cell string conveying frame, a solar panel input frame, an input conveying belt, a solar panel output frame, an output conveying belt, a main frame glass conveying belt and a welding station, wherein the solar panel input frame is arranged on the left side of the welding main frame, the liftable input conveying belt is arranged in the solar panel input frame, the input conveying belt is used for being connected with a solar panel to be welded, the solar panel output frame is arranged on the right side of the welding main frame, the liftable output conveying belt is arranged in the solar panel output frame, the output conveying belt is used for sending out the welded solar panel, the cell string conveying frame is fixed on the upper portion of the welding main frame in a sliding mode, the cell string conveying frame is used for sucking a cell string on the solar panel and conveying the cell string into the welding main frame, and conveying the welded cell string out of the welding main frame, and comprises, All battery strings on a solar panel can once be absorb alone to half section on the right side, half section on the left side, half section on the right side remove simultaneously to it is corresponding with solar panel input frame, solar panel output frame respectively, welding body frame lower part is equipped with body frame glass conveyer belt for conveying solar panel's glass conveys glass from solar panel input frame to solar panel output frame.
2. The solar panel separation transport structure of claim 1, wherein: the battery string conveying frame is characterized in that a battery string suction mechanism is arranged on the lower side of the battery string conveying frame and used for sucking a battery string, the battery string suction mechanism mainly comprises a suction nozzle group, the battery string suction mechanism is divided into a left suction nozzle group and a right suction nozzle group, the left suction nozzle group corresponds to the left half section of the battery string conveying frame, and the right suction nozzle group corresponds to the right half section of the battery string conveying frame.
3. The solar panel separation transport structure of claim 2, wherein: the left suction nozzle group comprises an upper half section and a lower half section, the right suction nozzle group comprises an upper half section and a lower half section, and the upper half section and the lower half section respectively correspond to an upper half piece and a lower half piece of a battery string on a half-piece solar panel.
4. The solar panel separation transport structure of claim 2, wherein: the battery string carrying frame is fixed on the carrying frame lifting frame through an electric cylinder, the battery string carrying frame is driven by the electric cylinder to move on the carrying frame lifting frame, the carrying frame lifting frame is fixed on the welding main frame through the electric cylinder, and the carrying frame lifting frame is driven by the electric cylinder to lift on the welding main frame.
5. The solar panel separation transport structure of claim 1, wherein: the solar panel input frame and the input conveyor belt are of the same structure as the solar panel output frame and the solar panel output conveyor belt.
6. The solar panel separating and conveying structure of claim 5, wherein: the solar panel input frame is internally provided with a bottom frame for fixing the input conveying belt through an electric cylinder, and the bottom frame of the input conveying belt can lift in the solar panel input frame through the electric cylinder to drive the input conveying belt to lift in the solar panel input frame.
7. The solar panel separating and conveying structure of claim 5, wherein: the bottom frame of the input conveying belt is fixed in the solar panel input frame through the air cylinder, the bottom frame of the input conveying belt can lift in the solar panel input frame through the air cylinder, and the input conveying belt is driven to lift in the solar panel input frame.
8. The solar panel separation transport structure of claim 1, wherein: the upper part of the welding main frame is also provided with an intermediate welding frame, and an intermediate welding head is fixed on the intermediate welding frame through an electric cylinder; the upper part of the welding main frame is also provided with a complex end welding frame, and a complex end welding head is fixed on the complex end welding frame through an electric cylinder; the upper part of the welding main frame is also provided with a simple end welding frame, and a simple end welding head is fixed on the simple end welding frame through an electric cylinder.
9. The solar panel separation transport structure of claim 8, wherein: and one sides of the middle welding head, the complex end welding head and the simple end welding head are respectively provided with a CCD camera.
CN201921451099.1U 2019-09-01 2019-09-01 Solar panel separation and transmission structure Active CN210937748U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921451099.1U CN210937748U (en) 2019-09-01 2019-09-01 Solar panel separation and transmission structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921451099.1U CN210937748U (en) 2019-09-01 2019-09-01 Solar panel separation and transmission structure

Publications (1)

Publication Number Publication Date
CN210937748U true CN210937748U (en) 2020-07-07

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921451099.1U Active CN210937748U (en) 2019-09-01 2019-09-01 Solar panel separation and transmission structure

Country Status (1)

Country Link
CN (1) CN210937748U (en)

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