CN202210082U - Novel solar battery component detecting equipment - Google Patents

Abstract

The utility model discloses novel solar battery component detecting equipment which is characterized in that the detecting equipment comprises a clamping and correcting device, a material stop device, and an electrifying device. Under the control of a computer processor, the material stop device rises upwards when a convey device conveys a to-be-tested solar battery component into camera bellows; the convey device stops conveying when the to-be-tested solar battery component and the material stop device are butted with each other, and the clamping and correcting device starts up to correct the to-be-tested solar battery component on the convey device; the electrifying device rises upwards to be in electrode connection with the to-be-tested solar battery component; and an image acquisition device acquires images for the to-be-tested solar battery component which is charged to shine, and sends the acquired images back to the computer processor. The detecting equipment improves the accuracy of the detecting results of the solar battery component, is convenient to operate, lowers work intensity, and has a high practicability.

Description

Novel solar battery component detection equipment

Technical field

This is practical to belong to the setting of solar module defects detection.

Background technology

Solar cell possibly produce various defectives in process of production; Such as silicon materials diffusion, passivation, crackle etc.; These defectives have reduced the conversion efficiency of solar cell; And possibly bring potential danger to later practicality, so defect inspection is very important to the quality control of solar cell.Mainly depending on the artificial visually examine on the solar cell conventional production lines detects; This detection mode human factor is very big; Can only be effective to the very serious defective of product surface, can't estimate discovery for the defective that tiny flaw is inner with being hidden in product, can't guarantee the quality of production of product.

The utility model content

It is high that the purpose of the utility model just provides a kind of solar module defects detection accuracy, easy-operating checkout equipment easy to use, the quality of production and the production efficiency of raising solar module.

The technical scheme that the utility model adopts is:

Novel solar battery component detection equipment comprises camera bellows, image collecting device, and transmitting device, computer processor also comprises clamping rule equipment, stop gauge and electrifying device; Two side lower parts of camera bellows are arranged with charging aperture and discharging opening; Transmitting device is made up of transport tape, discharging transport tape in charging transport tape, the camera bellows; One end of charging transport tape and the charging aperture of camera bellows join, and the two ends of transport tape join with the charging and discharging mouth of camera bellows respectively in the camera bellows, and an end and the camera bellows discharging opening of discharging transport tape join; Under computer processor control; Transmitting device transmits tested solar module turnover camera bellows, and tested battery component is when getting into camera bellows, and stop gauge rises from bottom to top; Rising height adapts with tested solar module height on the transmitting device; When tested solar module and stop gauge joined, transmitting device transmitted and stops, and clamping rule equipment starts; The tested solar module correcting on the transmitting device; Electrifying device rises from bottom to top with tested solar module electrode and is connected, and image collecting device is to the luminous tested solar module images acquired of charging, and the image of gathering is passed back to computer processor.

Computer processor respectively with image collecting device, clamping rule equipment, stop gauge, electrifying device, the transmitting device circuit connects;

Clamping rule equipment is advised positive member by two clampings that are symmetrically distributed in transport tape both sides in the camera bellows and is formed; Clamping is advised positive member and is made up of cylinder, slide block and guide rail; Guide rail is arranged on the interior conveyor belts support platform of camera bellows; Transport tape lateral vertical in guide rail and the camera bellows, slide block drives lower edge guide rail to-and-fro movement at cylinder;

Stop gauge is arranged on the interior conveyor belts support platform of camera bellows between interior transport tape of camera bellows and the camera bellows discharging opening; Stop gauge is that the stop gauge member of center symmetry branch face is formed by two with transport tape in the camera bellows; The stop gauge member is by the backgauge cylinder; Material blocking block constitutes, and material blocking block pumps under the drive of backgauge cylinder;

Electrifying device is located on the interior conveyor belts support platform of camera bellows in the middle of two stop gauge members; Electrifying device is by the electrifying device cylinder, and the jacking piece constitutes, and has contact electrode on the jacking piece, and the jacking piece pumps under the drive of electrifying device cylinder.

The beneficial effect of the utility model is: under computer processor control, transmitting device transmits tested solar module turnover camera bellows, when tested battery component gets into camera bellows; Stop gauge rises from bottom to top; When tested solar module and stop gauge joined, transmitting device transmitted and stops, and clamping rule equipment starts; The tested solar module correcting on the transmitting device; Electrifying device rises from bottom to top with tested solar module electrode and is connected, and image collecting device is to the luminous tested solar module images acquired of charging, and the image of gathering is got back to computer processor.The utility model has improved the accuracy in detection of tested solar module greatly, and has reduced operator's labour intensity, has improved production efficiency.

Description of drawings

Fig. 1 is the utility model structural representation

Fig. 2 is the utility model A-A cut-open view

Fig. 3 is the utility model B-B cut-open view

Fig. 4 is the utility model wire connection structure synoptic diagram

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is done further explain:

Extremely shown in Figure 4 like Fig. 1, a kind of novel solar battery component detection equipment,

Novel solar battery component detection equipment, mainly by image collecting device 1, camera bellows 2, transmitting device, computer processor, clamping rule equipment 3, stop gauge 4 constitutes with electrifying device 5;

Computer processor respectively with image collecting device 1, clamping rule equipment 3, stop gauge 4, electrifying device 5 and transmitting device circuit connect, and control its duty respectively;

Two side lower parts of camera bellows 2 are arranged with charging aperture 21 and discharging opening 22;

Transmitting device is made up of transport tape 7, discharging transport tape 8 in charging transport tape 6, the camera bellows; One end of charging transport tape 6 and the charging aperture 21 of camera bellows join, and the two ends of transport tape 7 join with the charging and discharging mouth 21 (22) of camera bellows respectively in the camera bellows, and an end and the camera bellows discharging opening 22 of discharging transport tape 8 join;

Clamping rule equipment 3 is advised positive member by two clampings that are symmetrically distributed in transport tape 7 both sides in the camera bellows and is formed; Clamping is advised positive member and is made up of cylinder 31, slide block 32 and guide rail 33; Guide rail 33 is arranged on the interior conveyor belts support platform of camera bellows; Guide rail 33 and interior transport tape 7 lateral vertical of camera bellows, slide block 32 is reciprocating at cylinder 31 drive lower edge guide rails 33;

Stop gauge 4 is arranged in the camera bellows between the discharging opening 22 of transport tape 7 and camera bellows in the camera bellows on the conveyor belts support platform, is that the stop gauge member of the symmetrical branch face in center is formed by two with transport tape in the camera bellows 7; The stop gauge member is by the backgauge cylinder, and material blocking block constitutes, and material blocking block pumps under the drive of backgauge cylinder;

Electrifying device 5 is arranged on the interior conveyor belts support platform of camera bellows between the discharging opening 22 of transport tape 7 and camera bellows in the camera bellows; Constitute by electrifying device cylinder and jacking piece; Have contact electrode on the jacking piece, the jacking piece pumps under the drive of electrifying device cylinder;

Under computer processor control, charging transport tape 6 transmits tested solar module and gets into camera bellows 2, when tested battery component gets into camera bellows 2; The material blocking block of stop gauge 4 rises under the drive of backgauge cylinder from bottom to top, and when joining with stop gauge 4 transmission of tested solar module transport tape 7 in camera bellows under, the transmitting device transmission stops; Clamping rule equipment 3 starts; The tested solar module correcting on the transport tape in the camera bellows 7, electrifying device 5 rises from bottom to top, and the contact electrode of jacking piece is connected with tested solar module electrode; 1 pair of luminous tested solar module images acquired of charging of image collecting device; And the image that collects passed back to computer processor, and carry out graphical analysis, judge the defective of tested solar module; After image collecting device was accomplished IMAQ, tested solar module was sent on the outer discharging transport tape 8 of camera bellows by transport tape in the camera bellows 7.

The foregoing description only as the explanation to the utility model, limits the utility model never in any form.

Claims (5)

1. novel solar battery component detection equipment comprises image collecting device (1), camera bellows (2), and transmitting device, computer processor is characterized in that: also comprise clamping rule equipment (3), stop gauge (4) and electrifying device (5); Two side lower parts of camera bellows (2) are arranged with charging aperture (21) and discharging opening (22); Transmitting device is made up of transport tape (7), discharging transport tape (8) in charging transport tape (6), the camera bellows; Under computer processor control; Transmitting device transmits tested solar module turnover camera bellows (2), and when tested battery component got into camera bellows (2), stop gauge (4) rose from bottom to top; Rising height adapts with tested solar module height on the transmitting device; Tested solar module and stop gauge (4) are when joining, and transmitting device transmits and stops, and clamping rule equipments (3) start; The tested solar module correcting on the transmitting device; Electrifying device (5) rises from bottom to top with tested solar module electrode and is connected, and image collecting device (1) is to the luminous tested solar module images acquired of charging, and the image of gathering is passed back to computer processor.

2. novel solar battery component detection equipment according to claim 1 is characterized in that: described computer processor respectively with image collecting device (1), clamping rule equipment (3), stop gauge (4), electrifying device (5) and transmitting device circuit connect.

3. novel solar battery component detection equipment according to claim 1; It is characterized in that: described clamping rule equipments (3) are advised positive member by two clampings that are symmetrically distributed in transport tape in the camera bellows (7) both sides and are formed; Clamping is advised positive member and is made up of cylinder (31), slide block (32) and guide rail (33); Guide rail (33) is arranged on the interior conveyor belts support platform of camera bellows, guide rail (33) and interior transport tape (7) lateral vertical of camera bellows, and it is reciprocating that slide block (32) drives lower edge guide rail (33) at cylinder (31).

4. novel solar battery component detection equipment according to claim 1; It is characterized in that: described stop gauge (4) is arranged in the camera bellows between the discharging opening (22) of transport tape (7) and camera bellows in the camera bellows on the conveyor belts support platform, is that the stop gauge member of the symmetrical branch face in center is formed by two with transport tape in the camera bellows (7); The stop gauge member is by the backgauge cylinder, and material blocking block constitutes, and material blocking block pumps under the drive of backgauge cylinder.

5. novel solar battery component detection equipment according to claim 1; It is characterized in that: described electrifying device (5) is arranged on the interior conveyor belts support platform of camera bellows between the discharging opening (22) of transport tape (7) and camera bellows in the camera bellows; Constitute by electrifying device cylinder and jacking piece; Have contact electrode on the jacking piece, the jacking piece pumps under the drive of electrifying device cylinder.

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