CN205240591U - Glass in solar PV modules production line moves and carries device - Google Patents
Glass in solar PV modules production line moves and carries device Download PDFInfo
- Publication number
- CN205240591U CN205240591U CN201521092805.XU CN201521092805U CN205240591U CN 205240591 U CN205240591 U CN 205240591U CN 201521092805 U CN201521092805 U CN 201521092805U CN 205240591 U CN205240591 U CN 205240591U
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- China
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- conveyer belt
- frame
- glass
- production line
- glass plate
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Abstract
The utility model discloses a glass in solar PV modules production line moves and carries device, include: first transport frame, second transport frame are provided with first conveyer belt and two travel switch in first transport frame, carrying the frame, the second be provided with the second conveyer belt that can go up and down on, carrying the frame, the second still be provided with the rollgang on, the second conveyer belt is 90 degrees with the direction of delivery of rollgang, when the second conveyer belt rises to the highest position, transport facial height in the transport face of rollgang of second conveyer belt, when the second conveyer belt drops to the extreme lower position, the transport face of second conveyer belt is less than the transport face of rollgang, still be provided with the fluorescent lamp in the first transport frame of first conveyer belt below, carry the outside of frame to be provided with stop device at the second, stop device highly is higher than the maximum height that the second conveyer belt raise the during operation. The utility model has the advantages that: can effectively detect glass board defect and prevent that its is wounded.
Description
Technical field
The utility model relates to solar photovoltaic assembly production line, refers more particularly to the glass shifting apparatus in this production line.
Background technology
In conventional solar photovoltaic assembly production line, need to glass plate be lifted to assembly lamination working region by staff, then staff utilizes torch to irradiate the surface of glass plate, check on glass plate and whether have flaw, if there is no flaw, take out an EVA film film from EVA film film lay down location again, EVA film film is covered on glass plate, and then by conveyer belt, glass plate is transported to next station.
In above-mentioned process, irradiate and can not effectively detect the defect on glass plate with torch; And manual placing glass plate is not easy to put level and puts, in course of conveying, easily cause glass plate to collide with and cracked, above-mentioned two situations all very likely cause scrapping of photovoltaic module, have not only reduced operating efficiency, have also increased production cost.
Utility model content
The purpose of this utility model is: provide a kind of and can detect easily the defect of glass plate and prevent the glass shifting apparatus in solar photovoltaic assembly production line that glass plate collides with in the process of transporting.
For achieving the above object, the technical solution adopted in the utility model is: the glass shifting apparatus in solar photovoltaic assembly production line, comprise: first carries frame, second conveyor frame, in the first conveying frame, be provided with some the first conveyer belts can carrying glass plate, carry in frame and be respectively arranged with the travel switch that can respond to glass plate at first of the two ends of the first conveyer belt, on second conveyor frame, be provided with the second conveyer belt of some energy liftings, the throughput direction of the second conveyer belt is identical with the throughput direction of the first conveyer belt, on second conveyor frame, be also provided with the rollgang being formed by some conveying rollers that are arranged side by side, the throughput direction of the second conveyer belt and the throughput direction of rollgang are 90 degree, in the time that the second conveyer belt rises to extreme higher position, the conveyor surface of the second conveyer belt is higher than the conveyor surface of rollgang, and the second conveyer belt can be accepted the glass plate of being come by the first tape transport, in the time that the second conveyer belt drops to extreme lower position, the conveyor surface of the second conveyer belt is lower than the conveyor surface of rollgang, now being positioned at glass plate on the second conveyer belt is transferred roller-way and carries and carry, in the first conveying frame, be also provided with fluorescent lamp, fluorescent lamp is positioned at the below of the conveyor surface of the first conveyer belt, and fluorescent lamp can irradiate the glass plate being positioned on the first conveyer belt, at the arranged outside limited location device of second conveyor frame, the maximum height of the height of described stopping means during higher than the second conveyer belt rise work, thus stopping means can be stopped by the glass plate of the second tape transport.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line wherein, is arranged at intervals with three the first conveyer belts that are arranged in parallel in the first conveying frame.
Further, glass shifting apparatus in aforesaid solar photovoltaic assembly production line, wherein, two travel switches lay respectively at first of the feed end of the first conveyer belt and discharge end position and carry in frame, and distance between two travel switches is not more than the width of institute's processing glass sheets.
Further, glass shifting apparatus in aforesaid solar photovoltaic assembly production line, wherein, on second conveyor frame, be arranged at intervals with four be arranged in parallel can liftings the second conveyer belt, between conveying roller and the second conveyer belt across being crisscross arranged in second conveyor frame.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line wherein, is provided with the LED fluorescent lamp that two rows are arranged in parallel in the first conveying frame.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line, wherein, has two stopping means in the arranged outside of second conveyor frame.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line, wherein, described stopping means is damping rubber block.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line wherein, is provided with the blowing platform of placing EVA film film above second conveyor frame.
Further, the glass shifting apparatus in aforesaid solar photovoltaic assembly production line, wherein, in the time that the second conveyer belt rises to extreme higher position, the conveyor surface of the second conveyer belt flushes with the conveyor surface of the first conveyer belt.
The utility model has the advantage of: utilize the brightness of LED fluorescent lamp evenly, without dodging the advantages such as frequency, by LED fluorescent lamp, glass plate is irradiated, can clearly observe all sidedly on glass plate, whether have the defect such as slight crack, bubble; On second conveyor frame, stopping means is set, can prevent from colliding with cracked because signal error causes glass plate to reach the follow-up reforwarding row of predetermined station, like this, can effectively detect the defect of glass plate, can prevent that again glass plate from colliding with in the process of transporting, not only improve operating efficiency, also reduced production cost.
Brief description of the drawings
Fig. 1 is the plan structure schematic diagram of the glass shifting apparatus in solar photovoltaic assembly production line described in the utility model.
Fig. 2 be second conveyor frame in Fig. 1 A to shown in structural representation.
Detailed description of the invention
Below in conjunction with accompanying drawing and preferred embodiment, technical scheme described in the utility model is further described.
As Fig. 1, shown in Fig. 2, glass shifting apparatus in solar photovoltaic assembly production line described in the utility model, comprise: first carries frame 1, second conveyor frame 2, in the first conveying frame 1, being arranged at intervals with three is arranged in parallel, can carry the first conveyer belt 11 of glass plate, in the feed end of the first conveyer belt 11 and the first conveying frame 1 at discharge end position, be respectively arranged with the first travel switch 12 and second travel switch 13 that can respond to glass plate, and the distance between two travel switches is not more than the width of institute's processing glass sheets, in the first conveying frame 1, be also provided with the LED fluorescent lamp 14 that two rows are arranged in parallel, LED fluorescent lamp 14 is positioned at the below of the conveyor surface of the first conveyer belt 11, and LED fluorescent lamp 14 can irradiate the glass plate being positioned on the first conveyer belt 11, on second conveyor frame 2, being arranged at intervals with four is arranged in parallel, the second conveyer belt 21 of energy lifting, the throughput direction of the second conveyer belt 21 is identical with the throughput direction of the first conveyer belt 11, on second conveyor frame 2, be also provided with the rollgang being formed by some conveying rollers that are arranged side by side 22, between described conveying roller 22 and the second conveyer belt 21 across being crisscross arranged in second conveyor frame 2, second throughput direction of conveyer belt 21 and the throughput direction of rollgang are 90 degree, in the time that the second conveyer belt 21 rises to extreme higher position, the conveyor surface of the second conveyer belt 21 is higher than the conveyor surface of rollgang, and flush with the conveyor surface of the first conveyer belt 11, now the second conveyer belt 21 can be accepted by the first conveyer belt 11 and carry the glass plate of coming, in the time that the second conveyer belt 21 drops to extreme lower position, the conveyor surface of the second conveyer belt 21 is lower than the conveyor surface of rollgang, now being positioned at glass plate on the second conveyer belt 21 is transferred roller-way 23 and carries and carry, for the EVA film film of conveniently taking, above second conveyor frame 2, be provided with the blowing platform 23 of placing EVA film film.
In the time that moving on second conveyor frame 2, glass plate there is run signal mistake, after will causing glass plate to arrive predetermined station, can not stop, thereby can make glass plate strike conveying frame and cause breaking, for preventing the generation of above-mentioned situation, so have two damping rubber blocks 24 as stopping means in the arranged outside of second conveyor frame 2, and the maximum height when height of damping rubber block 24 rises work higher than the second conveyer belt 21, thereby make damping rubber block 24 can stop the glass plate of being carried by the second conveyer belt 21, if glass plate is because can not stop striking damping rubber block 24 time, just can there is not the accident that glass plate is damaged.
The elevating mechanism of the second conveyer belt 21 of above-mentioned energy lifting is the usual technology using of mechanical field, for example: can in second conveyor frame 2, be provided with cylinder, on the piston rod of cylinder, be provided with can oscilaltion mounting bracket, the second conveyer belt 21 is arranged on mounting bracket, just can realizes elevating function.
In process of production, staff is placed on glass plate on three the first conveyer belts 11, open LED fluorescent lamp 14, staff is by checking light refraction situation on glass plate, whether detect on glass plate defectiveness, if after glass plate is qualified, the blowing platform 24 of staff from second conveyor frame 2 takes off EVA film film and covers on glass plate, then starting the first conveyer belt 11 transports glass plate toward the direction of second conveyor frame 2, glass plate is from the top process of the first travel switch 12 and the second travel switch 13, in the time that the first travel switch 12 and the second travel switch 13 are all responded to less than glass plate, control the first conveyer belt 11 out of service. now the first conveyer belt 11 has been transported to glass plate on the second conveyer belt 21 that is elevated to high workload position, by the second conveyer belt 21 and continue to transport glass plate, when glass plate is transported to after the predetermined station of second conveyor frame 2, the second conveyer belt 21 is out of service, then the second conveyer belt 21 is brought down below the position of conveying roller 22, now glass plate is transferred roller-way and accepts, and then by conveying roller 22, glass plate is transported to next operating position.
The utility model has the advantage of: utilize the brightness of LED fluorescent lamp evenly, without dodging the advantages such as frequency, by LED fluorescent lamp, glass plate is irradiated, can clearly observe all sidedly on glass plate, whether have the defect such as slight crack, bubble; On second conveyor frame, stopping means is set, can prevent from colliding with cracked because signal error causes glass plate to reach the follow-up reforwarding row of predetermined station, like this, can effectively detect the defect of glass plate, can prevent that again glass plate from colliding with in the process of transporting, not only improve operating efficiency, also reduced production cost.
Claims (9)
1. the glass shifting apparatus in solar photovoltaic assembly production line, comprise: first carries frame, second conveyor frame, it is characterized in that: in the first conveying frame, be provided with some the first conveyer belts can carrying glass plate, carry in frame and be respectively arranged with the travel switch that can respond to glass plate at first of the two ends of the first conveyer belt, on second conveyor frame, be provided with the second conveyer belt of some energy liftings, the throughput direction of the second conveyer belt is identical with the throughput direction of the first conveyer belt, on second conveyor frame, be also provided with the rollgang being formed by some conveying rollers that are arranged side by side, the throughput direction of the second conveyer belt and the throughput direction of rollgang are 90 degree, in the time that the second conveyer belt rises to extreme higher position, the conveyor surface of the second conveyer belt is higher than the conveyor surface of rollgang, and the second conveyer belt can be accepted the glass plate of being come by the first tape transport, in the time that the second conveyer belt drops to extreme lower position, the conveyor surface of the second conveyer belt is lower than the conveyor surface of rollgang, now being positioned at glass plate on the second conveyer belt is transferred roller-way and carries and carry, in the first conveying frame, be also provided with fluorescent lamp, fluorescent lamp is positioned at the below of the conveyor surface of the first conveyer belt, and fluorescent lamp can irradiate the glass plate being positioned on the first conveyer belt, at the arranged outside limited location device of second conveyor frame, the maximum height of the height of described stopping means during higher than the second conveyer belt rise work, thus stopping means can be stopped by the glass plate of the second tape transport.
2. the glass shifting apparatus in solar photovoltaic assembly production line according to claim 1, is characterized in that: in the first conveying frame, be arranged at intervals with three the first conveyer belts that are arranged in parallel.
3. the glass shifting apparatus in solar photovoltaic assembly production line according to claim 2, it is characterized in that: two travel switches lay respectively at first of the feed end of the first conveyer belt and discharge end position and carry in frame, and distance between two travel switches is not more than the width of institute's processing glass sheets.
4. according to the glass shifting apparatus in the solar photovoltaic assembly production line described in claim 1 or 2 or 3, it is characterized in that: on second conveyor frame, be arranged at intervals with four be arranged in parallel can liftings the second conveyer belt, between conveying roller and the second conveyer belt across being crisscross arranged in second conveyor frame.
5. according to the glass shifting apparatus in the solar photovoltaic assembly production line described in claim 1 or 2 or 3, it is characterized in that: in the first conveying frame, be provided with the LED fluorescent lamp that two rows are arranged in parallel.
6. the glass shifting apparatus in solar photovoltaic assembly production line according to claim 4, is characterized in that: have two stopping means in the arranged outside of second conveyor frame.
7. according to the glass shifting apparatus in the solar photovoltaic assembly production line described in claim 1 or 6, it is characterized in that: described stopping means is damping rubber block.
8. according to the glass shifting apparatus in the solar photovoltaic assembly production line described in claim 1 or 2 or 3, it is characterized in that: above second conveyor frame, be provided with the blowing platform of placing EVA film film.
9. according to the glass shifting apparatus in the solar photovoltaic assembly production line described in claim 1 or 2 or 3, it is characterized in that: in the time that the second conveyer belt rises to extreme higher position, the conveyor surface of the second conveyer belt flushes with the conveyor surface of the first conveyer belt.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201521092805.XU CN205240591U (en) | 2015-12-25 | 2015-12-25 | Glass in solar PV modules production line moves and carries device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201521092805.XU CN205240591U (en) | 2015-12-25 | 2015-12-25 | Glass in solar PV modules production line moves and carries device |
Publications (1)
Publication Number | Publication Date |
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CN205240591U true CN205240591U (en) | 2016-05-18 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201521092805.XU Expired - Fee Related CN205240591U (en) | 2015-12-25 | 2015-12-25 | Glass in solar PV modules production line moves and carries device |
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CN (1) | CN205240591U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105460539A (en) * | 2015-12-25 | 2016-04-06 | 江苏创基新能源有限公司 | Glass transfer device used in production line of solar photovoltaic assembly |
CN110267893A (en) * | 2017-02-09 | 2019-09-20 | 玻璃技术公司 | The system and correlation technique of optical characteristics for on-line measurement glass plate |
-
2015
- 2015-12-25 CN CN201521092805.XU patent/CN205240591U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105460539A (en) * | 2015-12-25 | 2016-04-06 | 江苏创基新能源有限公司 | Glass transfer device used in production line of solar photovoltaic assembly |
CN110267893A (en) * | 2017-02-09 | 2019-09-20 | 玻璃技术公司 | The system and correlation technique of optical characteristics for on-line measurement glass plate |
CN110267893B (en) * | 2017-02-09 | 2022-05-13 | 玻璃技术公司 | System for on-line measurement of optical properties of glass sheets and related method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160518 Termination date: 20191225 |
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CF01 | Termination of patent right due to non-payment of annual fee |