Automatic Pouch Cell Laser Die Cutter For Battery Electrode

I. Equipment Introduction

1.1 Overview of device functions :

  This equipment is mainly used for the forming of positive and negative electrode plates in the stacking process of power batteries (continuous coating process).

AGV/manual installation of electrode coils on the unwinding inflatable shaft of the equipment, automatic unwinding of the equipment, automatic correction of the unwinding process by the correction mechanism, and control of the unwinding tension through the tension control system. Before entering the laser cutting, secondary correction (process correction) is carried out, electrode blade dust removal, tension control, electrode buffer, CCD defect detection, and the punching station uses hardware molds to punch V-angles, Then, the material is pulled to the cutting position through the pulling mechanism and cut into pieces. It is transported to the size inspection through a conveyor belt. After powder brushing inspection (on both sides), defective products are automatically removed into the NG material box, and qualified products are collected into the finished product box.
 

 1.4  Equipment characteristics:
1) Single roll feeding mechanism: Each shaft can be fed with a maximum diameter of 700mm. The pneumatic expansion shaft adopts a special design to reduce the friction between the coil and the pneumatic expansion shaft, saving labor and time, and making material replacement convenient and fast; The automatic unwinding is driven by a servo motor, and the program controls the automatic unwinding. The size change of the pole piece coil is calculated through the coil diameter algorithm to determine whether the pole piece is about to be used up. When the coil is used up, the machine sends an alarm signal and automatically stops.
2) Pulling mechanism: The patented servo pulling mechanism is used, with a pulling accuracy of ± 0.2mm.
3) Material storage mechanism: Adopting servo+module drive and tension coordinated buffer, it can ensure continuous uncoiling during die-cutting, improve production efficiency, and ensure material drawing accuracy.
4) Pole cutting knife: adopts a patented cutting mechanism, with small powder loss and burrs. In addition, the device can adjust the positioning of the cutting tool based on the size of the electrode through servo drive, improving the width accuracy of the electrode.
5) Integrated function: This machine can integrate CCD detection and electrode powder brushing functions to improve the utilization rate of the entire machine.
6) Patent dust removal method: reduces secondary pollution of dust and effectively avoids damage to the electrode by brushing powder.
7) Laser die-cutting of electrode ears: greatly reducing the forming cost of electrode plates.
8) When encountering tape die-cutting and cutting knives, automatic avoidance is used to reduce damage to the molds and cutting knives caused by tape.
9) Material receiving uniformity: In polar servo feeding mode, the material receiving uniformity is ± 1.
10) Control dust in different areas of the equipment, increase the efficient FFU filtration system inside the equipment, and make the dust inside the equipment reach 100000 levels.
11) Two network ports are reserved for MES communication function.

1.5  Patents possessed by this machine:

 
2.2.  Electrode die-cutting method

IV. Main component composition and function  
4.2.1 Unwinding module

4.2.2Taping mechanism
Ø Equipped with a coil material splicing platform and auxiliary marking lines for convenient manual splicing;
Ø There is a dust collection box at the cutting position, which is collected and cleaned by negative pressure extraction;

4.2.3 Tension mechanism:
Ø Swing roll speed synchronous control, the potentiometer detection signal is sent to PLC, and PLC controls the speed of servo motor;
Ø PLC+low friction cylinder+electrically controlled proportional valve to adjust tension, with a tension range of 10-150N and stable operation with tension fluctuation of ≤ 5%;

4.2.4.Process correction
Ø The process correction adopts a correction module, which has high correction accuracy and simple operation; The deviation correction compensation can be manually performed by clicking the module button to ensure the overall unwinding and deviation correction accuracy;
Ø Process deviation correction accuracy ≤ ± 0.1mm, deviation correction stroke ± 20mm;

4.2.5Laser die-cutting module:
1.250W fiber laser, pulse width adjustable, laser power stability<5%
2. Laser focal length adjustment accuracy ± 0.01mm
3.The repeated positioning accuracy of the galvanometer is ± 0.02mm
4.The minimum cutting R angle is greater than or equal to 1
5.Dual station laser cutting system
6.Accurate cutting size, non adhesive tab and non pole ear sides are installed with non cutting and missed cutting induction detection
7.During the unwinding process of the electrode piece, defects in the incoming material can be detected, which can detect the incoming tape and the machine's broken tape connection. After detecting the tape, normal cutting or skip cutting can be set. After skip cutting, the distance between the first tab position and the connection position can be set to improve material utilization
8.The entire cutting area is wrapped in a semi enclosed dust cover, and the laser cutting area has an independent two-stage closed structure. The dust generated during the cutting process is directly sucked away by a negative pressure vacuum cleaner, with a design wind speed of ≥ 20-25m/s (adjustable) and real-time monitoring of the wind speed
9.Laser protection: The observation window of the outer cover of the laser cutting studio adopts a laser protection plate
10.The waste generated by laser cutting is collected by the compactor, and the waste enters the compactor through the waste pipeline without affecting continuous cutting
11.Metal pipes are used for dust removal within 1 meter of the laser cutting position, while flame-retardant pipes are used for non-metallic pipes
12.The laser cutting control system has two cutting modes: equal spacing and unequal spacing, which can be freely switched and parameter set
13.With PSO control technology, it can accurately control the size of single point energy and output it at the designated position. With laser frequency conversion control, it can avoid over cutting or continuous cutting, and effectively control burrs and Heat-affected zone.

4.2.6.Material storage mechanism
Ø The use of servo+precision screw as a buffer for driving and tension coordination can ensure continuous uncoiling during die cutting, improve production efficiency, ensure stable tension, and ensure material drawing accuracy.
Ø The drum is made of lightweight materials, reducing the inertia moment of the storage drum, improving the drawing accuracy, and equipment stability.
Ø  The roller is designed with carbon fiber.
Ø The control method adopts electronic cam overlay control.

4.2.7.V-angle punching mechanism
Ø Two sets of V-angle punching and cutting forms are used to complete the forming of the tab;
Ø The mold punching module has an automatic deviation correction function, which detects the position of the pole pieces through sensors and adjusts the inner and outer positions of the mold in real time to ensure that the height and size of the pole piece punching are consistent; 2 color code sensors are used for positive side tape detection and skip cutting.
Ø Equipped with safety gratings, when the equipment is in operation, the grating equipment should be immediately shut down to prevent safety accidents from occurring;
Ø The bottom plate of the mold is made of marble material, which improves the flatness of the bottom plate and ensures that the mold does not deform after installation. The flatness is 0.01mm.
Ø Quick positioning is used between the mold and the mold base plate, making disassembly and assembly easy and the mold replacement time less than 0.5 hours;

4.2.8. Pulling mechanism
Ø Patented servo pulling mechanism is adopted, with a maximum pulling speed of 60m/min and a pulling accuracy of ± 0.2mm
Ø The pulling roller is made of EPDM material and has a roller shaft. During normal operation of the equipment, no surface dust or particle accumulation occurs, ensuring that the surface of the electrode is flat and free from defects such as scratches.
Ø The upper and lower rollers are coated with adhesive and have a hardness of 90 degrees to maintain a snug fit.
Ø  The pull-down material is a HV750 steel roller with thick hard chromium plating and precision grinding and polishing, with a roughness of Ra0.2
Ø The upper roller is compressed by a cylinder to ensure the accuracy of the pole size.
Ø Upper and lower driving mode of the cutting tool: servo motor drive with cam mechanism. 
Ø Edge: Made of imported G5 tungsten steel
Ø  The replacement time should not be longer than 0.5 hours.

4.2.10.Brushing mechanism

Brushing powder to clean the surface of the electrode can timely remove waste materials, dust, etc. generated during the punching process. Through the dust collection and filtration system, it ensures that the dust does not diffuse to the surrounding area of the equipment.

Ø Dust removal system noise:≤75db

Ø The cleaning device adopts centralized dust removal.

Ø  A powerful dust removal mechanism combining ion blowing and suction is used for dust removal.

Ø The powder brushing mechanism is equipped with 10000Gs of strong magnetism for dust removal containing magnetic dust

Ø Clean the dust on the surface of the electrode by suction at the unwinding point.

Ø Die-cutting generates dust by suction through the lower hollow and negative pressure.

Ø Under the cutting knife, the dust is sucked away by suction.

Ø Clean stubborn dust on the electrode with a brush.
 

4.2.12.Defect detection

Ø When the electrode passes through the roller, a linear array camera is used to scan the surface of the electrode row by row and concatenate it into a complete image. A specific image detection algorithm is used to analyze and calculate the characteristics of the image. Based on the pre-set indicators of each defect parameter, the software outputs a pass/fail signal, and the defective electrode is automatically removed by the defective product removal mechanism.

Ø Using two 16 K linear array black and white high-speed industrial cameras and a high brightness linear light source with an effective length of 400mm, the electrode width can be detected to be 400mm.

Ø All defect data detected on the front and back sides of the CCD monitoring electrode can be directly exported to a CSV document. Test standard parameters (actual process parameters shall prevail), with a missed judgment of 0, a false judgment of ≤ 0.5%, and a grayscale difference of no less than 30.

Ø Artificial intelligence identifies defective products and categorizes them.

4.2.13.CCD Size detection mechanism

Ø By taking photos of the electrode plate using CCD, the height of the electrode ear strip and exposed foil can be detected, including the length, distance from the electrode ear to the edge, width, and angle of the electrode plate. The detection accuracy is ± 0.1mm, with a missed judgment of 0 and a misjudgment of ≤ 3 ‰.

Ø Using an array industrial camera for detection.

Ø Adopting a backlight source detection scheme, the backlight source illumination scheme can improve detection accuracy;

Ø Before size inspection, there is a pressing mechanism to flatten the electrode plate to prevent detection errors caused by poor adsorption;

Ø The size inspection items include: electrode width, height, angle, electrode shoulder width, electrode tape material, etc.
 

4.2.14.Control system

Composed of 1 set of PLC, 1 15 inch touch screen, and other electrical components; Adopting bus connection reduces the number of cables and makes the connection of the electrical box more concise and aesthetically pleasing.

4.2.15.Rack cover

Ø The rack is made of high-strength square steel pipes welded and the surface is painted.

Ø The equipment is equipped with dustproof covers made of aluminum alloy or sheet metal and organic glass.

Ø The top of the outer cover is equipped with an FFU filtering unit to supply air to the inside of the machine, which, in conjunction with a vacuum cleaner, circulates and flows air inside the machine.

Ø The internal cleanliness of the equipment cover should be ≥ 100000 levels.