CN117969418B - Color difference identification equipment and method for Top-Con monocrystalline silicon battery piece - Google Patents

Abstract

The invention relates to the technical field of color difference identification of Top-Con monocrystalline silicon battery pieces, and discloses a device and a method for color difference identification of Top-Con monocrystalline silicon battery pieces. The invention realizes that the collected image data is received through the data receiving module, then the image is analyzed through the data analyzing module, then the parameter is adjusted through the parameter adjusting module, then the test data is recorded through the data recording module, the data analyzing module analyzes according to the database, then the test data is backed up through the data backup module, the data loss is prevented, then the data which does not exist in the database is updated through the data updating module, the collected data is analyzed through the data analyzing module, and then the database is updated through the data updating module, thereby facilitating the subsequent production work of the battery piece.

Description

Color difference identification equipment and method for Top-Con monocrystalline silicon battery piece

Technical Field

The invention relates to the technical field of color difference identification of Top-Con monocrystalline silicon battery pieces, in particular to a device and a method for color difference identification of Top-Con monocrystalline silicon battery pieces.

Background

The monocrystalline silicon battery piece is a type of solar battery piece and is made of monocrystalline silicon materials, the monocrystalline silicon battery piece has the characteristics of high efficiency, stability and long service life, the monocrystalline silicon battery piece color difference identification device is widely applied to solar power generation systems, an optical imaging technology is generally adopted, color differences are identified through scanning and analysis on the surface of the monocrystalline silicon battery piece, so that the quality and the quality of the monocrystalline silicon battery piece are judged, the device generally comprises a light source, a camera, an image processing system, a control system and other components, the color difference situation on the surface of the monocrystalline silicon battery piece can be monitored and identified in real time, the production efficiency and the product quality are improved, when the battery piece is detected by detection equipment, simple data viewing and analysis can only be carried out, the battery piece data in different environments cannot be analyzed and recorded, and the battery piece production is inconvenient to follow-up, so that the invention provides the color difference identification device and the method for the Top-Con monocrystalline silicon battery piece, but the inventor finds that at least the following problems are unresolved in the prior art in the implementation of the invention: 1. when the detection equipment detects the battery piece, only simple data checking and analysis can be performed, and the data of the battery silicon chip in different environments cannot be analyzed and recorded, so that the subsequent production of the battery piece is inconvenient; 2. when the battery piece is detected, the battery piece is detected only by simple white light, the irradiation light source is single, and when the camera captures an image, if the image is blurred, the device is fixed and cannot be adjusted conveniently, so that the detection accuracy is reduced; 3. when the battery piece is detected, the ambient temperature is room temperature, the light source is stable, and the battery piece with different temperatures and color differences under the light source cannot be tested, so that the reliability of a test result is reduced. Therefore, the invention designs a device and a method for identifying chromatic aberration of a Top-Con monocrystalline silicon battery piece.

Disclosure of Invention

The invention aims to solve the defects existing in the prior art, such as: when detecting the battery piece, the detection equipment can only check and analyze simple data, can not analyze and record the battery silicon wafer data under different environments, is inconvenient to produce the battery piece subsequently, and when detecting the battery piece, only detects through simple white light, irradiates the light source singly, and when capturing the image by the camera, if the image is fuzzy, because the equipment is fixed, the adjustment work can not be conveniently carried out on the image, thereby reducing the detection accuracy, and when detecting the battery piece, the ambient temperature is room temperature, the light source is stable, and the different temperatures and the color difference of the battery piece under the light source can not be tested, thereby reducing the reliability of the test result. Therefore, the invention designs a device and a method for identifying chromatic aberration of a Top-Con monocrystalline silicon battery piece.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a chromatic aberration identification equipment of Top-Con monocrystalline silicon battery piece, includes the workstation, the bottom fixed mounting of workstation has a storage frame, the inside bottom fixed mounting of storage frame has the fixed slot, the Top fixed mounting of workstation has the cage, the both sides fixed mounting of cage has a fixed frame, the Top fixed mounting of fixed frame has the protection sleeve, the Top fixed mounting of protection sleeve has the mount pad, one side fixed mounting of fixed frame has the casing, the Top fixed mounting of casing has the display, one end fixed mounting in the casing has the circuit board, the surface fixed mounting of circuit board has the data record module, one side fixed mounting of data record module has the parameter adjustment module, one side fixed mounting of parameter adjustment module has the data analysis module, one side fixed mounting of data analysis module has the data receiving module, the bottom fixed mounting of data record module has the result outgoing module, one side fixed mounting of result outgoing module has the data base, one side fixed mounting of data base, one side fixed mounting of data base back up module has the data base, one side fixed mounting of data base has the update module.

The top of the inside of the isolation cover is provided with atomizing heads at equal intervals, the two sides of the inside of the isolation cover are provided with heating modules at equal intervals, the top of the atomizing head is fixedly provided with a data transmission module, the other side of the data transmission module is fixedly provided with an atomizing speed adjusting module, and the other side of the atomizing speed adjusting module is fixedly provided with a temperature module;

The top of mount pad is run through and is installed electric putter, electric putter's bottom is run through and is installed the threaded rod, the bottom fixed mounting of threaded rod has the bottom plate, the bottom fixed mounting of bottom plate has the camera, the both sides fixed mounting of camera has the LED lamp, the both sides fixed mounting of LED lamp has the infrared lamp, the both sides fixed mounting of bottom plate has the regulation pole, movable mounting has the filter between the both sides of the bottom of regulation pole, the both sides of regulation pole are run through and are installed the regulation bolt.

Preferably, a closing plate is fixedly arranged on the surface of the shell, and fastening bolts are equidistantly arranged on the surface of the closing plate.

Preferably, heat dissipation holes are formed in the fastening bolts at equal intervals, and the fastening bolts are made of stainless steel.

Preferably, a heat dissipation net is fixedly arranged between the heating modules, and the heat dissipation net is made of stainless steel.

Preferably, the top of mount pad fixed mounting has the mounting bolt, and the mounting bolt adopts the steel material.

Preferably, a fixed rod is fixedly arranged at the bottom end inside the workbench, and a transmission belt is fixedly arranged at the top of the fixed rod.

Preferably, the two sides of the storage frame are fixedly provided with limit sleeves, the two sides of each limit sleeve are penetrated and provided with clamping rods, the bottoms of the storage frames are equidistantly provided with moving wheels, the opposite surfaces of the clamping rods are fixedly provided with clamping plates, and the opposite surfaces of the clamping plates are fixedly provided with protection pads.

Preferably, a fixing plate is fixedly arranged between two sides of the inside of the fixing groove, standby batteries are equidistantly arranged at two ends of the fixing plate, and a partition plate is fixedly arranged between the standby batteries.

Preferably, a fixing bolt is installed on one side of the fixing frame in a penetrating manner.

The application method of the color difference identification device of the Top-Con monocrystalline silicon battery piece comprises the following steps:

S1, installing a fixed rod through a workbench, then installing a transmission belt through the fixed rod, then transmitting a belt sheet through the transmission belt, installing a limit sleeve through a storage frame, then adjusting a clamping plate through the clamping rod, then moving equipment through a moving wheel, installing the fixed plate through a fixed slot, then storing a standby battery through the fixed plate, supplying electric energy when the equipment is powered off, installing an isolation cover through a fixed bolt, installing a display through a shell, closing the shell through the closed plate, installing the closed plate through a fastening bolt, facilitating heat dissipation of the shell through a heat dissipation hole, then displaying a detection color difference result through the display, adjusting parameters, installing a module through a circuit board, then receiving acquired image data through a data receiving module, analyzing the image through a data analysis module, then adjusting the parameters through a parameter adjustment module, recording test data through a data recording module, analyzing the test data according to a database, and then carrying out standby test data through a data backup module;

S2, installing the atomizing head through an isolating cover, installing the heating module through the isolating cover, increasing air humidity when detecting the battery piece by using the atomizing head, heating the detected environment temperature of the battery piece through the heating module, adjusting the humidity release size of the atomizing head through an atomizing speed adjusting module, adjusting the temperature of the heating module through the temperature module, and transmitting and receiving a parameter adjustment instruction through a data transmission module;

S3, installing an installation seat through an installation bolt, installing an electric push rod through the installation seat, connecting a threaded rod through the electric push rod, installing a bottom plate through a threaded rod, installing a camera, an LED lamp and an infrared lamp through the bottom plate, collecting images through the camera, providing different light sources for a detection light source through the LED lamp and the infrared lamp, installing an optical filter through an adjusting rod, and adjusting the height of the optical filter through the adjusting bolt.

Compared with the prior art, the invention has the beneficial effects that:

The display is fixedly arranged at the top of the shell, the data receiving module can receive collected image data, the data analyzing module analyzes the image, the parameter adjusting module adjusts the parameter, the data recording module records test data, the data analyzing module analyzes the test data according to the database, the data backup module spares the test data to prevent data loss, the data updating module updates the data which does not exist in the database, the data analyzing module analyzes the collected data, and the data updating module updates the database according to the latest data after analysis, so that the subsequent production work of the battery piece is convenient.

According to the invention, the electric push rod is installed at the top of the installation seat in a penetrating way, the electric push rod can be installed through the installation seat, then the threaded rod is connected through the electric push rod, then the base plate is installed through the threaded rod, then the camera, the LED lamp and the infrared lamp are installed through the base plate, then the image is collected through the camera, then different light sources are provided for the detection light source through the LED lamp and the infrared lamp, so that the color difference detection is more accurate, the optical filter is installed through the adjusting rod, the height of the optical filter can be adjusted through the adjusting bolt, the equipment can be conveniently and timely adjusted and calibrated in the test, the image collection stability is ensured, and various light sources can be provided through the LED lamp and the infrared lamp, so that the accuracy and the robustness of the color difference detection are improved.

According to the invention, the atomizing heads are equidistantly arranged at the top end inside the isolation cover, the atomizing heads can be arranged through the isolation cover, then the heating module is arranged through the isolation cover, the air humidity is increased when the battery piece is detected by the atomizing heads, then the detected ambient temperature of the battery piece is heated through the heating module, then the humidity release size of the atomizing heads can be adjusted through the atomizing speed adjusting module, then the temperature of the heating module can be adjusted through the temperature module, and the data transmission module can transmit and receive the parameter adjustment instructions, so that the detection temperature and the ambient humidity can be conveniently adjusted, and the color difference test result of the battery piece is reliable.

Drawings

Fig. 1 is a perspective view of a chromatic aberration identifying device for a Top-Con monocrystalline silicon battery piece according to the present invention;

Fig. 2 is a schematic structural diagram of a chromatic aberration identifying device for a Top-Con monocrystalline silicon battery piece according to the present invention;

Fig. 3 is a schematic diagram of a partial structure of a casing of a chromatic aberration identifying device for a Top-Con monocrystalline silicon battery piece according to the present invention;

Fig. 4 is a schematic diagram of a partial structure of an isolation cover of a chromatic aberration recognition device of a Top-Con monocrystalline silicon battery piece provided by the invention;

fig. 5 is a schematic diagram of a partial structure of a mounting seat of a chromatic aberration identifying device for a Top-Con monocrystalline silicon battery piece according to the present invention;

fig. 6 is a partial perspective view of a storage frame of a color difference recognition device for Top-Con monocrystalline silicon battery cells according to the present invention;

Fig. 7 is a schematic diagram of a partial structure of a fixing groove of a chromatic aberration identifying device for a Top-Con monocrystalline silicon battery piece according to the present invention;

Fig. 8 is a partial perspective view of a fixing frame of a chromatic aberration recognition device for a Top-Con monocrystalline silicon battery piece according to the present invention;

Fig. 9 is a schematic diagram of a partial structure of a workbench of a device for identifying chromatic aberration of a Top-Con monocrystalline silicon battery piece according to the present invention

Fig. 10 is a schematic diagram of a chromatic aberration identifying apparatus for a Top-Con monocrystalline silicon battery piece according to the present invention.

In the figure: 1. a work table; 101. a fixed rod; 102. a transmission belt; 2. a storage frame; 201. a limit sleeve; 202. a clamping rod; 203. a moving wheel; 204. a clamping plate; 205. a protective pad; 3. a fixing groove; 301. a fixing plate; 302. a standby battery; 303. a partition plate; 4. a fixed frame; 401. a protective sleeve; 402. a fixing bolt; 5. a mounting base; 501. a mounting bolt; 502. an electric push rod; 503. a threaded rod; 504. a bottom plate; 505. a camera; 506. an LED lamp; 507. an infrared lamp; 508. an adjusting rod; 509. a light filter; 510. an adjusting bolt; 6. an isolation cover; 601. an atomizing head; 602. a heating module; 603. a heat dissipation net; 604. a data transmission module; 605. an atomization speed adjusting module; 606. a temperature module; 7. a housing; 701. a closing plate; 702. a fastening bolt; 703. a heat radiation hole; 704. a display; 705. a circuit board; 706. a data receiving module; 707. a data analysis module; 708. a parameter adjustment module; 709. a data recording module; 710. a data updating module; 711. a database; 712. a data backup module; 713. the result is passed out of the module.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 10, the present invention provides a device and a method for identifying chromatic aberration of Top-Con monocrystalline silicon battery pieces, which comprises a workbench 1, wherein a storage frame 2 is fixedly installed at the bottom of the workbench 1, a fixed slot 3 is fixedly installed at the bottom end inside the storage frame 2, an isolation cover 6 is fixedly installed at the Top of the workbench 1, fixed frames 4 are fixedly installed at both sides of the isolation cover 6, a protection sleeve 401 is fixedly installed at the Top of the fixed frame 4, a mounting seat 5 is fixedly installed at the Top of the protection sleeve 401, a casing 7 is fixedly installed at one side of the fixed frame 4, a display 704 is fixedly installed at the Top of the casing 7, a circuit board 705 is fixedly installed at one end inside the casing 7, a data recording module 709 is fixedly installed at the surface of the circuit board 705, a parameter adjustment module 708 is fixedly installed at one side of the data recording module 709, a data analysis module 707 is fixedly installed at one side of the parameter adjustment module 708, a data receiving module 706 is fixedly installed at the bottom of the data recording module 709, a data backup module 713 is fixedly installed at one side of the result transmission module 713, a data backup module 712 is fixedly installed at one side of the data backup module 711, a new data base 711 is fixedly installed at one side of the data base 711;

Atomizing heads 601 are equidistantly arranged at the top end of the inside of the isolation cover 6, heating modules 602 are equidistantly arranged at the two sides of the inside of the isolation cover 6, a data transmission module 604 is fixedly arranged at the top of the atomizing heads 601, an atomizing speed adjusting module 605 is fixedly arranged at the other side of the data transmission module 604, and a temperature module 606 is fixedly arranged at the other side of the atomizing speed adjusting module 605;

The electric putter 502 is run through at the top of mount pad 5, the threaded rod 503 is run through to the bottom of electric putter 502, the bottom fixed mounting of threaded rod 503 has bottom plate 504, the bottom fixed mounting of bottom plate 504 has camera 505, the both sides fixed mounting of camera 505 has LED lamp 506, the both sides fixed mounting of LED lamp 506 has infrared lamp 507, the both sides fixed mounting of bottom plate 504 has regulation pole 508, movable mounting has filter 509 between the both sides of the bottom of regulation pole 508, the both sides of regulation pole 508 run through and install adjust bolt 510.

When the device works, the display 704 is installed through the shell 7, then the detection color difference result is displayed through the display 704, the parameters are adjusted, then the module is installed through the circuit board 705, then the collected image data is received through the data receiving module 706, then the image is analyzed through the data analyzing module 707, then the parameters are adjusted through the parameter adjusting module 708, testing is conveniently carried out under different parameters, then the test data is recorded through the data recording module 709, the analysis is carried out according to the database 711 through the data analyzing module 707, then the test data is standby through the data backup module 712, data which does not exist in the database 711 is prevented from being lost, then the collected data is analyzed through the data analyzing module 707, then the analyzed latest data is updated to the database 711 through the data updating module 710, so that the elements with unstable color difference of the battery piece can be analyzed, and the subsequent production work of the battery piece is convenient.

The atomizing head 601 is installed through the isolation cover 6, the heating module 602 is installed through the isolation cover 6, the air humidity is increased when the battery piece is detected through the atomizing head 601, then the detected environment temperature of the battery piece is heated through the heating module 602, then the humidity release size of the atomizing head 601 can be adjusted through the atomizing speed adjusting module 605, then the temperature of the heating module 602 can be adjusted through the temperature module 606, and a parameter adjustment instruction can be transmitted and received through the data transmission module 604, so that the detection temperature and the environment humidity can be conveniently adjusted, and the test result of the battery piece color difference is reliable;

The electric push rod 502 is installed through the installation seat 5, then the threaded rod 503 is connected through the electric push rod 502, then the bottom plate 504 is installed through the threaded rod 503, then the camera 505, the LED lamp 506 and the infrared lamp 507 are installed through the bottom plate 504, then the image is collected through the camera 505, then different light sources are provided for the detection light source through the LED lamp 506 and the infrared lamp 507, so that the color difference detection is accurate, the optical filter 509 is installed through the adjusting rod 508, the height of the optical filter 509 can be adjusted through the adjusting bolt 510, in order to facilitate the timely adjustment and calibration of equipment in the test, ensure the stability of image collection, and provide various light sources through the LED lamp 506 and the infrared lamp 507, thereby ensuring the improvement of the accuracy and the robustness of the color difference detection;

Wherein, the surface of the shell 7 is fixedly provided with a closing plate 701, and the surface of the closing plate 701 is equidistantly provided with fastening bolts 702;

When the device is operated, the closing plate 701 can perform a closing action on the casing 7, and then the fastening bolt 702 is used for mounting the closing plate 701;

Wherein, the heat dissipation holes 703 are equidistantly arranged between the fastening bolts 702, and the fastening bolts 702 are made of stainless steel;

it should be noted that, the heat dissipation hole 703 facilitates the heat dissipation of the casing 7;

Wherein, a heat dissipation net 603 is fixedly arranged between the heating modules 602, and the heat dissipation net 603 is made of stainless steel;

It should be noted that, the heat dissipation net 603 facilitates the heat dissipation of the heating module 602 with stable temperature, so as to ensure the stable temperature inside the isolation cover 6;

Wherein, the top of the mounting seat 5 is fixedly provided with a mounting bolt 501, and the mounting bolt 501 is made of steel;

The mounting base 5 is mounted by the mounting pin 501;

Wherein, the bottom end inside the workbench 1 is fixedly provided with a fixed rod 101, and the top of the fixed rod 101 is fixedly provided with a transmission belt 102;

The fixing rod 101 is mounted by the table 1, the conveyor belt 102 is mounted by the fixing rod 101, and then the conveyor belt 102 carries out the conveying action with the battery sheet.

Wherein, the two sides of the storage frame 2 are fixedly provided with limit sleeves 201, the two sides of the limit sleeves 201 are penetrated and provided with clamping rods 202, the bottom of the storage frame 2 is equidistantly provided with moving wheels 203, the opposite surfaces of the clamping rods 202 are fixedly provided with clamping plates 204, and the opposite surfaces of the clamping plates 204 are fixedly provided with protection pads 205;

It should be noted that, through depositing frame 2 and installing effect to limit sleeve 201, then adjust clamping plate 204 through clamping lever 202, then make things convenient for equipment to carry out the removal effect through removing wheel 203, then carry out clamping operation to fixed slot 3 through clamping plate 204 and protection pad 205, increase the stability of fixed slot 3 installation.

Wherein, fixed plate 301 is fixed between the inside both sides of fixed slot 3, and backup battery 302 is installed to the both ends equidistance of fixed plate 301, is fixed mounting baffle 303 between the backup battery 302.

The fixing plate 301 is mounted through the fixing groove 3, then the standby battery 302 is stored through the fixing plate 301, and the standby battery 302 can supply electric power when the device is powered off.

Wherein, one side of the fixed frame 4 is provided with a fixed bolt 402 in a penetrating way;

the cover 6 is mounted by the fixing bolts 402.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a chromatic aberration identification equipment of Top-Con monocrystalline silicon battery piece, includes workstation (1), its characterized in that, the bottom fixed mounting of workstation (1) has storage frame (2), the inside bottom fixed mounting of storage frame (2) is provided with fixed slot (3), the Top fixed mounting of workstation (1) has cage (6), the both sides fixed mounting of cage (6) has fixed frame (4), the Top fixed mounting of fixed frame (4) is provided with protection sleeve (401), the Top fixed mounting of protection sleeve (401) has mount pad (5), one side fixed mounting of fixed frame (4) has casing (7), the Top fixed mounting of casing (7) has display (704), the inside one end fixed mounting of casing (7) has circuit board (705), the surface fixed mounting of circuit board (705) has data record module (709), one side fixed mounting of data record module (709) has parameter adjustment module (708), one side fixed mounting of parameter adjustment module (708) has data analysis module (707), one side outgoing data module (707) is fixed mounting of data analysis module (713), a data backup module (712) is fixedly arranged on one side of the result outgoing module (713), a database (711) is fixedly arranged on one side of the data backup module (712), and a data updating module (710) is fixedly arranged on one side of the database (711);

Atomizing heads (601) are equidistantly arranged at the top end of the inside of the isolation cover (6), heating modules (602) are equidistantly arranged at the two sides of the inside of the isolation cover (6), a data transmission module (604) is fixedly arranged at the top of the atomizing heads (601), an atomizing speed adjusting module (605) is fixedly arranged at the other side of the data transmission module (604), and a temperature module (606) is fixedly arranged at the other side of the atomizing speed adjusting module (605);

Electric putter (502) are installed in penetrating mode at the top of mount pad (5), threaded rod (503) are installed in penetrating mode to the bottom of electric putter (502), bottom fixed mounting of threaded rod (503) has bottom plate (504), the bottom fixed mounting of bottom plate (504) has camera (505), the both sides fixed mounting of camera (505) has LED lamp (506), the both sides fixed mounting of LED lamp (506) has infrared lamp (507), the both sides fixed mounting of bottom plate (504) has regulation pole (508), movable mounting has filter (509) between the both sides of the bottom of regulation pole (508), regulation bolt (510) are installed in penetrating mode to the both sides of regulation pole (508).

2. The device for identifying the chromatic aberration of the Top-Con monocrystalline silicon battery piece according to claim 1, wherein a closing plate (701) is fixedly arranged on the surface of the machine shell (7), and fastening bolts (702) are equidistantly arranged on the surface of the closing plate (701).

3. The device for identifying the chromatic aberration of the Top-Con single crystal silicon battery piece according to claim 2, wherein heat dissipation holes (703) are formed between the fastening bolts (702) at equal intervals, and the fastening bolts (702) are made of stainless steel.

4. The device for identifying the chromatic aberration of the Top-Con monocrystalline silicon battery piece according to claim 1, wherein a heat dissipation net (603) is fixedly arranged between the heating modules (602), and the heat dissipation net (603) is made of stainless steel.

5. The device for identifying the chromatic aberration of the Top-Con monocrystalline silicon battery piece according to claim 1, wherein a mounting bolt (501) is fixedly arranged at the Top of the mounting seat (5), and the mounting bolt (501) is made of steel.

6. The device for identifying the chromatic aberration of the Top-Con monocrystalline silicon battery piece according to claim 5, wherein a fixing rod (101) is fixedly arranged at the bottom end inside the workbench (1), and a transmission belt (102) is fixedly arranged at the Top of the fixing rod (101).

7. The Top-Con single crystal silicon battery piece color difference recognition device according to claim 1, wherein limiting sleeves (201) are fixedly installed on two sides of the storage frame (2), clamping rods (202) are installed on two sides of the limiting sleeves (201) in a penetrating mode, moving wheels (203) are installed at the bottom of the storage frame (2) at equal intervals, clamping plates (204) are fixedly installed on opposite faces of the clamping rods (202), and protection pads (205) are fixedly arranged on opposite faces of the clamping plates (204).

8. The device for identifying the chromatic aberration of the Top-Con monocrystalline silicon battery piece according to claim 1, wherein a fixing plate (301) is fixedly arranged between two sides of the inside of the fixing groove (3), standby batteries (302) are equidistantly arranged at two ends of the fixing plate (301), and a partition plate (303) is fixedly arranged between the standby batteries (302).

9. The device for identifying chromatic aberration of Top-Con single crystal silicon battery cell according to claim 1, wherein a fixing bolt (402) is installed through one side of the fixing frame (4).

10. A method for using a Top-Con single crystal silicon battery piece color difference recognition device, based on the Top-Con single crystal silicon battery piece color difference recognition device of any one of claims 1-9, characterized by comprising the following steps:

S1, installing a fixed rod (101) through a workbench (1), installing a conveying belt (102) through the fixed rod (101), conveying a belt battery piece through the conveying belt (102), installing a limit sleeve (201) through a storage frame (2), adjusting a clamping plate (204) through a clamping rod (202), moving a device conveniently through a moving wheel (203), installing a fixed plate (301) through a fixed groove (3), storing a standby battery (302) through the fixed plate (301), providing electric energy through the standby battery (302) when the device is powered off, installing an isolation cover (6) through a fixed bolt (402), installing a display (704) through the fixed bolt (7), closing a shell (7) through the shell (701), installing the closed plate (701) through a fastening bolt (702), facilitating heat dissipation of the shell (7) through a heat dissipation hole (703), displaying detection results and adjusting parameters through the display (704), storing a module (705), analyzing image data through a receiving module (706), then the test data is recorded by a data recording module (709), analyzed according to a database (711) by a data analyzing module (707), and then the test data is reserved by a data backup module (712);

S2, installing an atomizing head (601) through an isolating cover (6), installing a heating module (602) through the isolating cover (6), increasing air humidity when detecting a battery piece by using the atomizing head (601), heating the detected environment temperature of the battery piece through the heating module (602), adjusting the humidity release size of the atomizing head (601) through an atomizing speed adjusting module (605), adjusting the temperature of the heating module (602) through a temperature module (606), and transmitting and receiving a parameter adjustment instruction through a data transmission module (604);

S3, install mount pad (5) through mount pad (501), install electric putter (502) through mount pad (5), then connect threaded rod (503) through electric putter (502), then install bottom plate (504) through threaded rod (503), install camera (505) through bottom plate (504), LED lamp (506) and infrared lamp (507), gather the image through camera (505) then, provide different light sources through LED lamp (506) and infrared lamp (507) to detecting the light source, install filter (509) through regulation pole (508) then, and can adjust the height of filter (509) through adjusting bolt (510).