CN205657649U - Photovoltaic module detection device - Google Patents
Photovoltaic module detection device Download PDFInfo
- Publication number
- CN205657649U CN205657649U CN201620345658.0U CN201620345658U CN205657649U CN 205657649 U CN205657649 U CN 205657649U CN 201620345658 U CN201620345658 U CN 201620345658U CN 205657649 U CN205657649 U CN 205657649U
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- CN
- China
- Prior art keywords
- bar
- junction
- connecting rod
- support
- photovoltaic module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
Abstract
The utility model provides a photovoltaic module detection device, include a frame and at least one install in infrared camera on the frame, the frame includes double -phase support to parallel arrangement, a binding the support frame and an at least crossbeam of two supports, each crossbeam sets up on one of them support, and each infrared camera sets up on one of them crossbeam and another support that does not set up the crossbeam of orientation.
Description
Technical field
This utility model relates to a kind of detection device, particularly relates to a kind of photovoltaic module detecting device.
Background technology
Photovoltaic module (solar panel) generally need to carry out full automatic EL(electroluminescence before dispatching from the factory, electroluminescent) test, i.e. utilize the near-infrared image of high-resolution infrared camera shooting photovoltaic module so that photovoltaic module is carried out defects detection, as detected, photovoltaic module internal is hidden to be split, fragment, rosin joint, disconnected grid, poor efficiency sheet, evil mind sheet, short-circuit and different switching efficiency monolithic battery is abnormal, so that it is guaranteed that photovoltaic module product is intact when dispatching from the factory does not has any internal flaw, or producer carries out grade classification according to the different internal flaw situations detected and sells buyer (such as power station) again.
Above-mentioned factory testing is generally only the producer of photovoltaic module and is responsible for detection, and usual buyer is not engaged in, and is also easily caused photovoltaic module when photovoltaic module is at power station in-site installation due to construction problem and internal flaw occur.Therefore, at photovoltaic module, the photovoltaic module also needing to arrange installation rear-inclined is installed and carries out EL test.Prior art is directly to be installed on spider to detect single or multiple photovoltaic modules one by one by infrared camera.But, because of photovoltaic module be obliquely installed, the factor such as photovoltaic module is spaced, ground flat degree, need to detect again after carrying out loaded down with trivial details adjustment to being installed in spider upper end infrared camera, thus the time of consuming and manpower.
Utility model content
In view of this, it is necessary to the photovoltaic module detecting device of a kind of simple in construction is provided.
A kind of photovoltaic module detecting device, it is installed in the infrared camera on described framework including a framework and at least one, described framework includes two supports relatively be arrangeding in parallel, the bracing frame of a described two stands of link and at least one crossbeam, each crossbeam is disposed therein on a support, and each infrared camera is disposed therein on a crossbeam and is not provided with the support of crossbeam towards another.
Preferably, each support is rectangular, it includes the first bar, the second bar, the 3rd bar and the 4th bar that head and the tail are sequentially connected with, described first bar forms one first junction with the junction of described second bar, described second bar forms one second junction with the junction of described 3rd bar, described 3rd bar forms one the 3rd junction with the junction of described 4th bar, described 4th bar forms one the 4th junction with the junction of described first bar, and described crossbeam is located between described first bar and described 3rd bar.
Preferably, each support also includes four fixing bars, and wherein, one fixes bar arranges adjacent to described first junction and links described first bar with described second bar to form triangular structure;One fixes bar arranges adjacent to described second junction and links described second bar with described 3rd bar to form triangular structure;One fixes bar arranges adjacent to described 3rd junction and links described 3rd bar with described 4th bar to form triangular structure;Remaining one fixes bar arranges adjacent to described 4th junction and links described 4th bar with described first bar to form triangular structure.Junction, junction, junction, junction
Preferably, support frame as described above includes head rod, the second connecting rod, the 3rd connecting rod and the 4th connecting rod, described head rod links the first junction of described two stands, described second connecting rod links the second junction of described two stands, described 3rd connecting rod links the 3rd junction of described two stands, described 4th connecting rod links the 4th junction of described two stands, described head rod, the second connecting rod, the 3rd connecting rod and the 4th connecting rod are each perpendicular to described two stands, and make described two stands be arranged in parallel.
Preferably, described 3rd connecting rod two ends link the 3rd junction described in two, described 4th connecting rod two ends link the 4th junction described in two, one end of described head rod and described second connecting rod links the first junction and second junction of the support being provided with infrared camera respectively, and the other end is stretched out to form holding end by the first junction of another support and the second junction respectively.Junction, junction, junction, junction, junction, junction
Preferably, described head rod two ends link the first junction described in two, described second connecting rod two ends link the second junction described in two, and described 3rd connecting rod two ends link the 3rd junction described in two, and described 4th connecting rod two ends link the 4th junction described in two.
Preferably, support frame as described above also includes four affixed bars, and wherein, an affixed bar arranges adjacent to described first junction and links described second bar with described head rod to form triangular structure;One affixed bar arranges adjacent to described second junction and links described second bar with described second connecting rod to form triangular structure;One affixed bar arranges adjacent to described 3rd junction and links described 4th bar with described 3rd connecting rod to form triangular structure;Remaining affixed bar arranges adjacent to described 4th junction and links described 4th bar with described 4th connecting rod to form triangular structure.Junction, junction, junction, junction
Preferably, support frame as described above also includes that eight connect the support bar of support described in two, and each support bar includes a support end, for supporting described photovoltaic module detecting device, wherein, four support bars are respectively perpendicular the first bar connecting two stands, and remaining four support bar is respectively perpendicular the 3rd bar connecting two stands.
Preferably, support frame as described above also includes that a gobo, described gobo cover on described framework.
Compared to photovoltaic module detecting device of the prior art, photovoltaic module detecting device of the present utility model, without adjusting angle, can be placed directly on photovoltaic module and detect photovoltaic module, easy to use.
Accompanying drawing explanation
Fig. 1 is the structural representation of the photovoltaic module detecting device of this utility model better embodiment.
Fig. 2 is the structural representation of photovoltaic another angle of module detecting device shown in Fig. 1.
Main element symbol description
| Photovoltaic module detecting device | 100 |
| Photovoltaic module | 200 |
| Framework | 10 |
| Infrared camera | 30 |
| Support | 11 |
| Bracing frame | 13 |
| First bar | 111 |
| Second bar | 112 |
| 3rd bar | 113 |
| 4th bar | 114 |
| First junction | 115 |
| Second junction | 116 |
| 3rd junction | 117 |
| 4th junction | 118 |
| Fixing bar | 110 |
| Head rod | 131 |
| Second connecting rod | 132 |
| 3rd connecting rod | 133 |
| 4th connecting rod | 134 |
| Affixed bar | 130 |
| Crossbeam | 15 |
| Support seat | 40 |
| Loading surface | 41 |
| Support bar | 136 |
Following detailed description of the invention will further illustrate this utility model in conjunction with above-mentioned accompanying drawing.
Detailed description of the invention
Referring to Fig. 1 and Fig. 2, this utility model better embodiment provides a kind of photovoltaic module detecting device 100, for detecting the internal flaw of photovoltaic module 200.
Described photovoltaic module detecting device 100 includes that a framework 10 and at least is installed in the infrared camera 30 on described framework 10.
Described framework 10 is substantially in cuboid, and it can be made by aluminium.Described framework 10 includes two support 11 relatively be arrangeding in parallel and the bracing frames 13 of a described two stands 11 of link.
Each support 11 is generally rectangular shaped, and it includes the first bar the 111, second bar the 112, the 3rd bar 113 and the 4th bar 114 that head and the tail are sequentially connected with.Described first bar 111 is almost parallel with described 3rd bar 113, and the same length of described first bar 111 and described 3rd bar 113.Described second bar 112 is almost parallel with described 4th bar 114, and the same length of described second bar 112 and described 4th bar 114.Described first bar 111 forms one first junction 115 with the junction of described second bar 112, described second bar 112 forms one second junction 116 with the junction of described 3rd bar 113, described 3rd bar 113 forms one the 3rd junction 117 with the junction of described 4th bar 114, and described 4th bar 114 forms one the 4th junction 118 with the junction of described first bar 111.
Each support 11 may also include at least one and fixes bar 110, and each fixing bar 110 is arranged adjacent to a junction, and its two ends link two bars being connected with described junction respectively to form triangular structure.In present embodiment, each support 11 includes that four fix bar 110, and wherein, one fixes bar 110 is arranged adjacent to described first junction 115, and its two ends link described first bar 111 respectively and formed with triangular structure with described second bar 112;One fixes bar 110 is arranged adjacent to described second junction 116, and its two ends link described second bar 112 with described 3rd bar 113 respectively to form triangular structure;One fixes bar 110 is arranged adjacent to described 3rd junction 117, and its two ends link described 3rd bar 113 with described 4th bar 114 respectively to form triangular structure;Remaining one fixes bar 110 is arranged adjacent to described 4th junction 118, and its two ends link described 4th bar 114 with described first bar 111 respectively to form triangular structure.Above-mentioned triangular structure improves the stability of described support 11 structure.
Support frame as described above 13 includes head rod the 131, second connecting rod the 132, the 3rd connecting rod 133 and the 4th connecting rod 134.Described head rod 131 links the first junction 115 of described two stands 11, described second connecting rod 132 links the second junction 116 of described two stands 11, described 3rd connecting rod 133 links the 3rd junction 117 of described two stands 11, and described 4th connecting rod 134 links the 4th junction 118 of described two stands 11.Described head rod the 131, second connecting rod the 132, the 3rd connecting rod 133 and the 4th connecting rod 134 are each perpendicular to described two stands 11, and make described two stands 11 be arranged in parallel.
In present embodiment, described 3rd connecting rod 133 two ends link the 3rd junction 117 described in two, and described 4th connecting rod 134 two ends link the 4th junction 118 described in two.One end of described head rod 131 and described second connecting rod 132 links the first junction 115 and the second junction 116 of same support 11 respectively, the other end is stretched out to form holding end (figure is not marked) by the first junction 115 of another support 11 and the second junction 116 respectively, in order to user grips described head rod 131 with the holding end of described second connecting rod 132 with mobile described photovoltaic module detecting device 100.
In other embodiments, described head rod 131 two ends link the first junction 115 described in two, described second connecting rod 132 two ends link the second junction 116 described in two, described 3rd connecting rod 133 two ends link the 3rd junction 117 described in two, and described 4th connecting rod 134 two ends link the 4th junction 118 described in two.It is appreciated that, one end of described head rod 131, described second connecting rod 132, described 3rd connecting rod 133 and described 4th connecting rod 134 links the first the 115, second junction the 116, the 3rd, junction junction 117 and the 4th junction 118 of same support 11 respectively, and other end junction, the 115, second junction 116 the 3rd, the first junction 117 and the 4th junction 118 by another support 11 respectively is stretched out.
Support frame as described above 13 may also include at least one affixed bar 130, and each affixed bar 130 links a support 11 and a connecting rod to form triangular structure.In present embodiment, support frame as described above 13 includes four affixed bars 130, and wherein, an affixed bar 130 is arranged adjacent to described first junction 115, and its two ends link described second bar 112 with described head rod 131 respectively to form triangular structure;One affixed bar 130 is arranged adjacent to described second junction 116, and its two ends link described second bar 112 with described second connecting rod 132 respectively to form triangular structure;One affixed bar 130 is arranged adjacent to described 3rd junction 117, and its two ends link described 4th bar 114 with described 3rd connecting rod 133 respectively to form triangular structure;A remaining affixed bar 130 is arranged adjacent to described 4th junction 118, and its two ends link described 4th bar 114 with described 4th connecting rod 134 respectively to form triangular structure.
Described framework 10 also includes at least one crossbeam 15.Each crossbeam 15 is located between the first bar 111 of a support 11 and the 3rd bar 113 or is located between the second bar 112 of a support 11 and institute's the 4th bar 114.Described infrared camera 30 is installed on described crossbeam 15.
In present embodiment, described framework 10 includes that two are arranged at away from the crossbeam 15 on the support 11 of described holding end, and described two crossbeams 15 are all located between described first bar 111 and described 3rd bar 113.The almost parallel interval of described two crossbeams 15 is arranged.Described photovoltaic module detecting device 100 includes that two infrared cameras 30, described two infrared cameras 30 are installed in respectively on described two crossbeams 15 and are not provided with the support 11 of crossbeam towards another.
Described photovoltaic module 200 is carried on support seat 40.Described support seat 40 includes a loading surface 41 relative to ground inclination, is used for carrying photovoltaic module 200.Described framework 10 is not equiped with the support 11 of infrared camera 30 and is placed on described photovoltaic module 200 to be detected the photovoltaic module 200 on loading surface 41 by the infrared camera 30 on another support 11.In present embodiment, described framework 10 is fastened in, by described holding end, the side that described photovoltaic module 200 is higher.It should be understood that when described framework 10 does not forms holding end, described framework 10 can be helped to complete the detection to the photovoltaic module 200 on loading surface 41 by human assistance.
Support frame as described above 13 may also include the support bar 136 of support 11 described in some connections two, and each support bar 136 includes a support end, is used for supporting described photovoltaic module detecting device 100 in described loading surface 41.In present embodiment, the quantity of described support bar 136 is eight, and wherein four support bars 136 are respectively perpendicular the first bar 111 connecting two stands 11, and remaining four support bar 136 is respectively perpendicular the 3rd bar 113 connecting two stands 11.
When, after overall outer housing one gobo of described framework 10 (figure is not marked), on-the-spot photovoltaic module 200 can be detected by described photovoltaic module detecting device 100 by day.Photovoltaic module detecting device 100 of the present utility model, simple in construction, and easy to use.
Claims (9)
1. a photovoltaic module detecting device, it is installed in the infrared camera on described framework including a framework and at least one, it is characterized in that: described framework includes two supports relatively be arrangeding in parallel, the bracing frame of a described two stands of link and at least one crossbeam, each crossbeam is disposed therein on a support, and each infrared camera is disposed therein on a crossbeam and is not provided with the support of crossbeam towards another.
2. photovoltaic module detecting device as claimed in claim 1, it is characterized in that: each support is rectangular, it includes the first bar, the second bar, the 3rd bar and the 4th bar that head and the tail are sequentially connected with, described first bar forms one first junction with the junction of described second bar, described second bar forms one second junction with the junction of described 3rd bar, described 3rd bar forms one the 3rd junction with the junction of described 4th bar, described 4th bar forms one the 4th junction with the junction of described first bar, and described crossbeam is located between described first bar and described 3rd bar.
3. photovoltaic module detecting device as claimed in claim 2, it is characterised in that: each support also includes four fixing bars, and wherein, one fixes bar arranges adjacent to described first junction and links described first bar with described second bar to form triangular structure;One fixes bar arranges adjacent to described second junction and links described second bar with described 3rd bar to form triangular structure;One fixes bar arranges adjacent to described 3rd junction and links described 3rd bar with described 4th bar to form triangular structure;Remaining one fixes bar arranges adjacent to described 4th junction and links described 4th bar with described first bar to form triangular structure.
4. photovoltaic module detecting device as claimed in claim 2, it is characterized in that: support frame as described above includes head rod, second connecting rod, 3rd connecting rod and the 4th connecting rod, described head rod links the first junction of described two stands, described second connecting rod links the second junction of described two stands, described 3rd connecting rod links the 3rd junction of described two stands, described 4th connecting rod links the 4th junction of described two stands, described head rod, second connecting rod, 3rd connecting rod and the 4th connecting rod are each perpendicular to described two stands, and make described two stands be arranged in parallel.
5. photovoltaic module detecting device as claimed in claim 4, it is characterized in that: described 3rd connecting rod two ends link the 3rd junction described in two, described 4th connecting rod two ends link the 4th junction described in two, one end of described head rod and described second connecting rod links the first junction and second junction of the support being provided with infrared camera respectively, and the other end is stretched out to form holding end by the first junction of another support and the second junction respectively.
6. photovoltaic module detecting device as claimed in claim 4, it is characterized in that: described head rod two ends link the first junction described in two, described second connecting rod two ends link the second junction described in two, described 3rd connecting rod two ends link the 3rd junction described in two, and described 4th connecting rod two ends link the 4th junction described in two.
7. photovoltaic module detecting device as claimed in claim 4, it is characterised in that: support frame as described above also includes four affixed bars, and wherein, an affixed bar arranges adjacent to described first junction and links described second bar with described head rod to form triangular structure;One affixed bar arranges adjacent to described second junction and links described second bar with described second connecting rod to form triangular structure;One affixed bar arranges adjacent to described 3rd junction and links described 4th bar with described 3rd connecting rod to form triangular structure;Remaining affixed bar arranges adjacent to described 4th junction and links described 4th bar with described 4th connecting rod to form triangular structure.
8. photovoltaic module detecting device as claimed in claim 2, it is characterized in that: support frame as described above also includes that eight connect the support bar of support described in two, and each support bar includes a support end, for supporting described photovoltaic module detecting device, wherein, four support bars are respectively perpendicular the first bar connecting two stands, and remaining four support bar is respectively perpendicular the 3rd bar connecting two stands.
9. photovoltaic module detecting device as claimed in claim 4, it is characterised in that: support frame as described above also includes that a gobo, described gobo cover on described framework.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620345658.0U CN205657649U (en) | 2016-04-22 | 2016-04-22 | Photovoltaic module detection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620345658.0U CN205657649U (en) | 2016-04-22 | 2016-04-22 | Photovoltaic module detection device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205657649U true CN205657649U (en) | 2016-10-19 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201620345658.0U Expired - Fee Related CN205657649U (en) | 2016-04-22 | 2016-04-22 | Photovoltaic module detection device |
Country Status (1)
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| CN (1) | CN205657649U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109961674A (en) * | 2019-05-09 | 2019-07-02 | 江苏优埃唯智能科技有限公司 | Simulate unmanned plane photovoltaic panel hot spot detection instructional device and teaching method |
-
2016
- 2016-04-22 CN CN201620345658.0U patent/CN205657649U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109961674A (en) * | 2019-05-09 | 2019-07-02 | 江苏优埃唯智能科技有限公司 | Simulate unmanned plane photovoltaic panel hot spot detection instructional device and teaching method |
| CN109961674B (en) * | 2019-05-09 | 2021-01-12 | 江苏优埃唯智能科技有限公司 | Teaching device and teaching method for simulating hot spot detection of photovoltaic panel of unmanned aerial vehicle |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20190809 Address after: 201600 Songjiang Industrial Zone, Shanghai, Loosen Block III-68C Patentee after: Guo Zeu Electronics (Shanghai) Co., Ltd. Address before: Yushan Zhen Nan Song road Kunshan city Suzhou city 215316 Jiangsu province No. 299 Co-patentee before: Hon Hai Precision Industry Co., Ltd. Patentee before: Fuyu Energy Science & Technology (Kunshan) Co., Ltd. |
|
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161019 Termination date: 20200422 |