CN208422864U - A kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries - Google Patents
A kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries Download PDFInfo
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- CN208422864U CN208422864U CN201820947084.3U CN201820947084U CN208422864U CN 208422864 U CN208422864 U CN 208422864U CN 201820947084 U CN201820947084 U CN 201820947084U CN 208422864 U CN208422864 U CN 208422864U
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Abstract
The utility model belongs to crystal silicon solar batteries manufacturing technology field, and in particular to a kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries.For in the prior art, to there are problems that in the detection of imbrication battery probe row positional accuracy it is poor, debug time-consuming, the technical solution of the utility model is: arranging including probe row's frame and at least one probe, probe row's frame with respect to the top on both sides be respectively set there are two the sliding slot that is parallel to each other, probe row's frame upper surface is provided with scale, scale is arranged in parallel in the side of sliding slot, probe row both ends are respectively set there are two sliding block, and two sliding block lower parts are slidably connected with two sliding slot compositions respectively.The utility model is suitable for the production of imbrication battery.
Description
Technical field
The utility model belongs to crystal silicon solar batteries manufacturing technology field, and in particular to one kind is used for imbrication crystal silicon
The probe quick alignment device of solar cell test.
Background technique
Crystal silicon solar batteries production On-line efficiency test needs two rows probe row precise contact battery positive electricity respectively
Pole and back electrode.It is upper and lower corresponding, front electrode and rear electrode for conventional crystal silicon battery front electrode and rear electrode
Figure rule, Facad structure signal such as Fig. 1.Probe spacing, position are fixed when test, and main coral line is evenly distributed and adjacent two master
Coral spacing is equal, during the test, can be with methods rapid alignments such as calculating meter method, labelling methods.In addition, conventional crystal silicon electricity
The different regional connectivity of pool surface (tetra- regions A, B, C and D as shown in figure 1), therefore, even if the ranking of a certain Area Probe is set out
Existing error fails accurately to contact with positive electrode or back electrode, will not be to the sun as long as probe row's contact in other regions is good
The testing result of energy battery causes too much influence.Thus in the detection of conventional crystal silicon battery, it is ranked the accuracy of position to probe
It is of less demanding.
And imbrication battery has different structures relative to conventional crystal silicon battery, the structural representation of imbrication battery front side is as schemed
2.Since it needs to meet the particularity structure of components welding, positive electrode is needed to misplace.Therefore the two neighboring main coral of imbrication battery
With different spacing, and electrode pattern is newly-designed special graph.When testing, probe row needs in-site measurement master
Coral spacing carries out installation and debugging.This debugging process can only manual operation, influence production efficiency.In addition, the surface of imbrication battery
The region of segmentation is mutually indepedent (A ', B ' and the region C ' in such as Fig. 2), and the probe row in any one region is not right when detecting
It is quasi- all can the surveyed electrical parameter of extreme influence, thus when imbrication battery detecting to probe be ranked position accuracy requirement it is very high.This adds
The big difficulty of probe row's installation and debugging, in some instances it may even be possible to occur still being unable to reach ideal detection effect by the debugging of a few hours
The case where fruit.Not only affect the yield of production line, it is also possible to cause alignment precision poor, and then cause measurement error big.
Utility model content
For in the prior art, to arranging in the detection of imbrication battery there are probe, positional accuracy is poor, time-consuming for debugging
Problem, the utility model provide a kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries, and purpose exists
In: so that the positioning of probe row is quick and accurate, production efficiency is improved, reduces measurement error.
The technical solution adopted in the utility model is as follows:
A kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries, including probe row's frame and at least
One probe row, probe are arranged frame and are respectively set with respect to the top on both sides there are two the sliding slot being parallel to each other, and probe is arranged on frame
Surface is provided with scale, and scale is arranged in parallel in the side of sliding slot, and probe row both ends are provided with sliding block, under two sliding blocks
Portion is slidably connected with two sliding slot compositions respectively.
After the technical solution, distance on first measuring imbrication battery before debugging between each main coral then will be to be measured
Imbrication battery is fixed on the lower section of probe row's frame.Then the main coral distance obtained according to measurement adjusts each probe row.Due to
There is scale that commissioning staff is helped to judge the distance of sliding in the side of sliding slot, therefore, the process of adjusting can be relatively quickly complete
At.Moreover, the degree of regulation of probe row can also be guaranteed under the premise of scale is sufficiently accurate, each probe is realized
Row accurately contacts with the electrode of imbrication battery, reduces the error of test result.
Preferably, scale is made of the indentation that probe row's frame upper surface is arranged in.
Preferably, scale is the label for being pasted on probe row's frame upper surface.
Indentation is arranged by different modes in above-mentioned preferred embodiment, and two ways does not need to introduce new consumptive material, thus
It not will increase production line test cost, reasonable manner can be selected according to actual processing and working condition.
Preferably, each sliding slot two sides is provided with scale.Four groups of scales are arranged in the preferred embodiment, so that commissioning staff
It is more easier to observe, facilitates operation.
Preferably, the arrow mark of multiple main coral positions for being used to indicate battery product to be checked is provided in scale.This is excellent
Select the case where scheme is for needing the imbrication battery to fixed specification to carry out mass detection.Each arrow mark corresponds to one
The position of one main coral of the imbrication battery of kind of specification, when debugging, without reference to the specific value of the distance between main coral, directly general
Probe row is adjusted to the corresponding arrow mark of alignment, so that operation is more convenient.
In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:
1. due to the distance that the side in sliding slot has scale that commissioning staff is helped to judge sliding, the process energy of adjusting
It is enough relatively quickly to complete.Moreover, the degree of regulation of probe row can also be guaranteed under the premise of scale is sufficiently accurate,
It realizes that each probe row accurately contacts with the electrode of imbrication battery, reduces the error of test result.
2. not needing to introduce new consumptive material, because without increasing production line test cost.
3. the device exactly matches producing line equipment operation, easy to operate, it is not required to special technique personnel operation.
Detailed description of the invention
The utility model will illustrate by example and with reference to the appended drawing, in which:
Fig. 1 is conventional crystal silicon battery positive structure schematic;
Fig. 2 is imbrication battery front side structural schematic diagram;
Fig. 3 is the top view of the utility model;
Fig. 4 is cross-sectional view of the utility model along probe row's setting direction;
Fig. 5 is the position cooperation of the utility model middle probe row's frame and the conventional crystal silicon battery with detection and imbrication battery
Schematic diagram;
Fig. 6 is the schematic diagram on scale surface in the utility model.
Wherein, 1- probe arranges frame, 2- sliding slot, 3- scale, 4- sliding block, 5- probe row, the main coral of 6- routine crystal silicon battery, 7-
The main coral of imbrication battery.
Specific embodiment
All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
It elaborates below with reference to Fig. 1 to Fig. 6 to the utility model.
A kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries, including probe row's frame 1 and extremely
Few probe row 5, the quantity of probe row 5 are determined by the region division on mesuring battary surface.Probe row 1 lower part of frame is provided with
For fixing the fixation device of mesuring battary.Probe is arranged should be relatively fixed between frame 1 and the fixation device of mesuring battary, mesh
Be so that relative to will not move between probe row's frame 1 and mesuring battary.Probe arranges upper part of the frame 1 with respect to both sides
Not She Zhi there are two the sliding slots 2 that are parallel to each other, probe row 1 upper surface of frame to be provided with scale 3, scale 3 is arranged in parallel in sliding slot 2
Side.Probe arranges 5 lower ends and is provided with the rows of probe for being used to detect mesuring battary of arrangement.The probe is arranged 5 both ends and is all provided with
It is equipped with sliding block 4, two 4 lower parts of sliding block are slidably connected with two compositions of sliding slot 2 respectively.
The distance on mesuring battary between each main coral is first being measured before debugging, and mesuring battary is then fixed on probe row's frame
The lower section of frame 1.Then the main coral distance obtained according to measurement adjusts each probe row 5.It can with the mesuring battary that the present apparatus detects
To be conventional crystal silicon battery, it is also possible to imbrication battery.After mesuring battary is mounted below probe row's frame 1, conventional crystal silicon
The main coral 6 of battery and the main coral 7 of imbrication battery and the positional relationship of probe row's frame 1 are as shown in Figure 5.
As preferred mode, the scale 3 is made of the indentation that probe row 1 upper surface of frame is arranged in.As another
The preferred mode of kind, the scale 3 are the label for being pasted on probe row 1 upper surface of frame, the signal of label surface such as Fig. 6 institute
Show.It can select to use according to actual working condition.
In order to keep observation more convenient, each described 2 two sides of sliding slot are provided with scale 3, i.e. scale 3 shares four groups.
Preferably, it if often detecting the imbrication battery of a certain specification, is provided in scale 3 and multiple is used to indicate electricity to be checked
The arrow mark of the main coral position of pond product.Judge whether probe row 5 is aligned according to arrow mark every time in this way, it can be further
Reduce the time of debugging.
The specific embodiment of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
The limitation to the application protection scope therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art
For, under the premise of not departing from technical scheme design, various modifications and improvements can be made, these belong to this
The protection scope of application.
Claims (5)
1. a kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries, it is characterised in that: arranged including probe
Frame (1) and at least one probe row (5), probe row frame (1) are respectively set with respect to the top on both sides there are two being parallel to each other
Sliding slot (2), probe row frame (1) upper surface be provided with scale (3), scale (3) is arranged in parallel in the side of sliding slot (2), institute
It states probe row (5) both ends to be provided with sliding block (4), two sliding block (4) lower parts constitute with two sliding slots (2) be slidably connected respectively.
2. a kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries described in accordance with the claim 1,
Be characterized in that: the scale (3) is made of the indentation that probe row frame (1) upper surface is arranged in.
3. a kind of probe quick alignment device for the test of imbrication crystal silicon solar batteries described in accordance with the claim 1,
Be characterized in that: the scale (3) is the label for being pasted on probe row frame (1) upper surface.
4. quickly right according to a kind of described in any item probes for the test of imbrication crystal silicon solar batteries of claims 1 to 3
Position device, it is characterised in that: each described sliding slot (2) two sides are provided with scale (3).
5. quickly right according to a kind of described in any item probes for the test of imbrication crystal silicon solar batteries of claims 1 to 3
Position device, it is characterised in that: the arrow of multiple main coral positions for being used to indicate battery product to be checked is provided in the scale (3)
Label.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110138338A (en) * | 2019-05-30 | 2019-08-16 | 尚德太阳能电力有限公司 | EL test method for imbrication battery |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110138338A (en) * | 2019-05-30 | 2019-08-16 | 尚德太阳能电力有限公司 | EL test method for imbrication battery |
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