CN206076202U - A kind of full-automatic photovoltaic test system - Google Patents
A kind of full-automatic photovoltaic test system Download PDFInfo
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- CN206076202U CN206076202U CN201621075741.7U CN201621075741U CN206076202U CN 206076202 U CN206076202 U CN 206076202U CN 201621075741 U CN201621075741 U CN 201621075741U CN 206076202 U CN206076202 U CN 206076202U
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- thimble
- connecting pole
- supporting plate
- full
- test system
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Abstract
The utility model discloses a kind of full-automatic photovoltaic test system, including electric control gear, frock, ejector pin mechanism, detection means and lifting body, electric control gear is connected with detection means, lifting body, frock is made up of supporting plate and holder, jaws is formed between holder and the upper face of supporting plate, contact plate is provided with supporting plate lower face both sides;Ejector pin mechanism includes tabular thimble, spring, connecting pole and gripper shoe, thimble and connecting pole are made using conductive material, lifting body has piston rod, the end of piston rod is fixed on the lower face of gripper shoe, through hole is provided with the supporting plate, the lower end of connecting pole is passed down through through hole and is provided with the snap-in structure for being fastened under through hole in peritreme at the end, thimble is fixed on the top of the connecting pole, spring is set on connecting pole and is between gripper shoe and thimble, and contact plate is relative up and down with thimble.This utility model can be automatically obtained various tests of component, and without personnel demand, high working efficiency, safety are good.
Description
Technical field
This utility model is related to a kind of full-automatic photovoltaic test system, it is adaptable in solar module production process
Test.
Background technology
Conventional photovoltaic component IV, pressure, EL tests of insulating are required to be tested using artificial plug line mode, concrete mistake
Journey be when component flow into associated test areas position after, manually component adaptor is connected with mechanism for testing, it is to be tested finish after
Again adaptor is disconnected, component flows out.Various tests of component are required for repeating operation.
But, there is following defect in this test mode:(1) personnel demand amount is big, operation intensity is high and inefficiency.
(2) there is certain operational danger, safety is poor.(3) the automated production theory promoted at present is not met.
Utility model content
The purpose of this utility model is that to provide a kind of simple structure, low cost of manufacture, high working efficiency, safety good
Full-automatic photovoltaic test system.
The purpose of this utility model is realized by following technical measures:A kind of full-automatic photovoltaic test system, its feature
It is:It includes electric control gear, frock, ejector pin mechanism, detection means and lifting body, the electric control gear respectively with the inspection
Survey device, lifting body to be connected, the frock is mainly by the supporting plate and the folder on supporting plate avris for support components support
Gripping member is constituted, and forms the jaws for being clamped on module frame, described between the holder and the upper face of supporting plate
The lower face both sides of supporting plate are provided with a pair of contact plates;The ejector pin mechanism include the thimble of a pair of plate-shaped, a pair of springs, a pair
Connecting pole and gripper shoe, the thimble and connecting pole are made using conductive material, and the lifting body has piston rod, the work
The end of stopper rod is fixed on the lower face of gripper shoe, and a pair of through holes, the lower end of the connecting pole are provided with the gripper shoe
Being passed down through through hole and the snap-in structure for being fastened under through hole in peritreme being provided with the end, the thimble is fixed on the company
Connect on the top of post, the spring is set on connecting pole and is between gripper shoe and thimble, on the contact plate and thimble
Lower relative, the detection means detecting tool is sent a signal in place afterwards to electric control gear, electric control gear control lifting body to
Upper pushing tow thimble is contacted to be tested, and after being completed to which with contact plate, lifting body homing, so that
Thimble returns to initial position.
This utility model has low resistance characteristic, therefore affects minimum to module testing, can be automatically obtained many of component
Test is planted, without personnel demand, high working efficiency, and safety are good.Frock of the present utility model can be clamped on module frame,
And be difficult to drop in component switching process;And adopt detection means automatic detection frock whether in place, can prevent contact plate with
Power deviation caused by thimble is out of alignment.Spring can be such that thimble is flexibly connected with gripper shoe, prevent component by jacking cylinder top
Rise and damage, while can also ensure that thimble is contacted well with contact plate.This utility model simple structure, low cost of manufacture, it is easy to
Realize, be suitable to be widely popularized and be suitable for.
As a kind of embodiment of the present utility model, a pair of gears are provided with the avris of the supporting plate fixation clamp gripping member
Side, this pair of rib are located at the both sides of holder, and the holder is in the hook shape bent towards supporting plate so that holder is by group
Part is clamped on supporting plate.
Used as a kind of embodiment of this utility model, the snap-in structure is using the card being arranged on the periphery of connecting pole lower end
Block or jump ring.
Used as a kind of embodiment of the present utility model, the detection means adopts photoelectric sensor, the photoelectric sensing
Device is arranged on the upper face of gripper shoe.
Used as a kind of embodiment of the present utility model, the contact plate adopts copper nickel-plated sheet, can effectively prevent copper in sky
Oxidation in gas, while increasing the wearability of contact plate.
As a kind of embodiment of the present utility model, cross section of the aperture of through hole more than connecting pole in the gripper shoe
Diameter, so as to have gap between connecting pole and the hole wall of through hole, can make connecting pole free inclination certain angle, to ensure in work
Fill it is inclined in the case of, thimble also can be with contact plate good contact.
Full-automatic photovoltaic test system described in the utility model also includes alarm device, the alarm device and electric control gear
It is connected, to electric control gear sending signal when photoelectric sensor is not detected by frock in place, is sent out by electric control gear control alarm device
Go out alarm.
Compared with prior art, this utility model has following significant effect:
(1) this utility model has low resistance characteristic, therefore affects minimum to module testing, can be automatically obtained component
Various tests, without personnel demand, high working efficiency, and safety are good.
(2) this utility model frock can be clamped on module frame, and is difficult to drop in component switching process.
(3) whether in place this utility model adopts detection means automatic detection frock, can prevent contact plate with thimble position not
Power deviation caused by positive institute.
(4) this utility model spring can be such that thimble is flexibly connected with gripper shoe, prevent component by jacking cylinder jack-up damage group
Part, while can also ensure that thimble is contacted well with contact plate.
(5) there is between connecting pole and the hole wall of through hole gap, make the connecting pole can be with free inclination certain angle, to ensure
In the case of frock is inclined, thimble also can be with contact plate good contact.
This utility model simple structure, low cost of manufacture, be easily achieved, be suitable to be widely popularized and be suitable for.
Description of the drawings
The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Fig. 1 is structural blast perspective diagram of the present utility model.
Specific embodiment
As shown in figure 1, be a kind of full-automatic photovoltaic test system of this utility model, including electric control gear, frock 2, thimble
Mechanism, detection means, lifting body and alarm device, electric control gear respectively with detection means, lifting body, alarm device phase
Even, lifting body adopts jacking cylinder 10, and frock 2 is main by the supporting plate 11 for being used for support components support and located at 11 avris of supporting plate
On holder 1 constitute, be provided with a pair of ribs 13 on the avris of 11 fixation clamp gripping member 1 of supporting plate, this pair of rib 13 is located at folder
The jaws for being clamped on module frame is formed between the upper face of the both sides of gripping member 1, holder 1 and supporting plate 11, is clamped
Part 1 is in the hook shape bent towards supporting plate 11 so that holder 1 is clamped in component on supporting plate 11.Under supporting plate 11
Plate face both sides are provided with a pair of contact plates 3, and contact plate 3 adopts copper nickel-plated sheet, can effectively prevent the aerial oxidation of copper, while increasing
The wearability of adjunction touch panel;Ejector pin mechanism includes the thimble 4 of a pair of plate-shaped, a pair of springs 6, a pair of connecting poles 7 and gripper shoes 8,
Thimble 4 and connecting pole 7 are made using conductive material, and in the present embodiment, connecting pole 7 adopts copper post, jacking cylinder to have piston
Bar 9, the end of piston rod 9 are fixed on the lower face of gripper shoe 8, are provided with a pair of through holes 12, under copper post 7 in gripper shoe 8
End is passed down through through hole 12 and is provided with the snap-in structure for being fastened in 12 times peritremes of through hole at the end, in the present embodiment,
Snap-in structure is fixed on the top of copper post 7 using the jump ring (being not drawn in figure) being arranged on 7 lower end of copper post, thimble 4, spring
6 are set in copper post 7 and are between gripper shoe 8 and thimble 4, and contact plate 3 is relative about 4 with thimble, and detection means adopts light
Electric transducer 5, photoelectric sensor 5 are arranged on the upper face of gripper shoe 8.5 detecting tool 2 of photoelectric sensor sends letter in place afterwards
Number to electric control gear, pushing tow thimble 4 is contacted to be surveyed with contact plate 3 electric control gear control jacking cylinder 10 to which upwards
Examination, and after being completed, 10 homing of jacking cylinder, so that thimble 4 returns to initial position.And photoelectric sensor 5 is not examined
To electric control gear sending signal when measuring frock in place, alarm is sent by electric control gear control alarm device.
Cross-sectional diameter of the aperture of through hole 12 more than copper post 7 in gripper shoe 8 so that the hole wall of copper post 7 and through hole 12 it
Between have gap, copper post free inclination certain angle can be made, to ensure in the case of frock is inclined, thimble also can be with contact plate
Good contact.In other embodiments, snap-in structure can also adopt the fixture block being arranged on the periphery of copper post lower end.
The course of work of the present utility model is as follows:
1. use photovoltaic adaptor and the contact plate 3 in cable connection frock 2,7 bottom of copper post to use cable and test machine
Platform connects;
2. the fixed position on component will be clamped in frock 2 on module frame using holder 1, and component is connected
Device is connected in frock 2;
3., after frock 2 is installed, after component automatically flows into IV test systems positioning, photoelectric sensor 5 is started working, when
When 5 detecting tool of photoelectric sensor, 2 positions are correct, electric control gear controls jacking cylinder 10 jacking piston rod 9 and gripper shoe 8 upwards
Move up thimble 4, after thimble 4 is contacted with contact plate 3, spring 6 starts compression, and copper post 7 is moved downward, until jacking
Cylinder 10 proceeds by IV tests to after electric control gear feedback in place signal;
4. if photoelectric sensor 5 is not detected by frock 2, feeds back to electric control gear and send alarm, to ensure top
Pin 4 is correct with 3 contact position of contact plate;
After 5.IV is completed, jacking cylinder 10 falls after rise, and thimble 4 returns to initial position under the restoring force effect of spring 6.
According to above-mentioned identical process, pressure survey of insulating can be carried out in insulation voltage-withstand test, EL test stations respectively using this utility model
Examination, EL tests.
Embodiment not limited to this of the present utility model, according to the above of the present utility model, according to the general of this area
Logical technological know-how and customary means, snap-in structure, detection means, the material of connecting pole on this utility model copper post lower end etc. are also
With other embodiment.Therefore, this utility model can also be made the modification of other various ways, replace or change, and fall
Within this utility model rights protection scope.
Claims (7)
1. a kind of full-automatic photovoltaic test system, it is characterised in that:It includes electric control gear, frock, ejector pin mechanism, detection means
And lifting body, the electric control gear is connected with the detection means, lifting body respectively, and the frock is mainly by for support
The supporting plate of component and the composition of the holder on supporting plate avris, form between the holder and the upper face of supporting plate
For the jaws being clamped on module frame, a pair of contact plates are provided with the lower face both sides of the supporting plate;The thimble machine
Structure includes that the thimble of a pair of plate-shaped, a pair of springs, a pair of connecting poles and gripper shoes, the thimble and connecting pole adopt conductive material
Make, the end that the lifting body has piston rod, the piston rod is fixed on the lower face of gripper shoe, in the support
A pair of through holes are provided with plate, the lower end of connecting pole is passed down through through hole and is provided with for being fastened under through hole in peritreme at the end
Snap-in structure, the thimble are fixed on the top of the connecting pole, and the spring is set on connecting pole and in gripper shoe
Between thimble, the contact plate is relative up and down with thimble;The detection means detecting tool sends a signal to automatically controlled in place afterwards
Device, pushing tow thimble is contacted to be tested with contact plate electric control gear control lifting body to which upwards, and is being tested
Bi Hou, lifting body homing, so that thimble returns to initial position.
2. full-automatic photovoltaic test system according to claim 1, it is characterised in that:In the supporting plate fixation clamp gripping member
Avris be provided with a pair of ribs, this pair of rib is located at the both sides of holder, and the holder is curved in what is bent towards supporting plate
Hook is so that holder is clamped in component on supporting plate.
3. full-automatic photovoltaic test system according to claim 2, it is characterised in that:The snap-in structure is adopted and is arranged on
Fixture block or jump ring on the periphery of connecting pole lower end.
4. full-automatic photovoltaic test system according to claim 3, it is characterised in that:The detection means adopts photoelectric transfer
Sensor, the photoelectric sensor are arranged on the upper face of gripper shoe.
5. full-automatic photovoltaic test system according to claim 4, it is characterised in that:The contact plate adopts copper nickel plating
Plate.
6. full-automatic photovoltaic test system according to claim 5, it is characterised in that:The aperture of through hole in the gripper shoe
More than the cross-sectional diameter of connecting pole, so as to have gap between connecting pole and the hole wall of through hole.
7. full-automatic photovoltaic test system according to claim 6, it is characterised in that:The full-automatic photovoltaic test system
Also include alarm device, the alarm device is connected with electric control gear, to automatically controlled when photoelectric sensor is not detected by frock in place
Device sending signal, sends alarm by electric control gear control alarm device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621075741.7U CN206076202U (en) | 2016-09-23 | 2016-09-23 | A kind of full-automatic photovoltaic test system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621075741.7U CN206076202U (en) | 2016-09-23 | 2016-09-23 | A kind of full-automatic photovoltaic test system |
Publications (1)
Publication Number | Publication Date |
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CN206076202U true CN206076202U (en) | 2017-04-05 |
Family
ID=58440314
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621075741.7U Active CN206076202U (en) | 2016-09-23 | 2016-09-23 | A kind of full-automatic photovoltaic test system |
Country Status (1)
Country | Link |
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CN (1) | CN206076202U (en) |
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2016
- 2016-09-23 CN CN201621075741.7U patent/CN206076202U/en active Active
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