cylindrical battery decarboner is a special decarboner designed for laboratory analysis of the internal state of cylindrical batteries. Different molds of different specifications can be selected to split different types of cylindrical batteries
CY-530B cylindrical battery decarboner is a special decarboner designed for laboratory analysis of the internal state of cylindrical batteries. Different molds of different specifications can be selected to split different types of cylindrical batteries. Max: Diameter 50mm x length 100mm; Min: Diameter 5mm x length 40mm; The device uses tungsten steel saw blade to cut the battery shell and take out the battery core; Cutting burr < 0.1mm.
1. Saw blade rotation anatomy, smooth cutting edge, smooth cutting, small burrs;
2. It is convenient and quick to remove and replace the corresponding mold of different types of cylindrical batteries;
3. Compact and light, can be used in argon environment;
4. The whole machine is flexible and convenient to use, designed protective cover, safe and reliable operation;
5. It can be used inside the glove box with a diameter ≥390mm.
If you are interested in our cylindrical battery decarbonizer, please contact us for more information and a quote.
Phone:+86 136 6380 8508
Email:jason@cysitech.com
Sales manger:Jason.Zhang
WhatsApp:+86 150 3827 2566
Wechat:cykytech
Electric source | Single-phase AC110-220V±10%, frequency 50/60Hz, power 120W |
Cutter speed | 750rpm |
Die speed | 140rpm |
Shell saw blade | Material: Tungsten steel |
Remover mold | Specification: D50*d12.7*T0.2mm/128 teeth |
Equipment size | Standard 18650, can be customized: Max: diameter 50mm x length 100mm; Min: Diameter 5mm x length 40mm |
weight | L380*W310*H330mm |
Experiment preparation:
1. Material preparation: Prepare an appropriate amount of cylindrical lithium batteries to be dismantled, including the batteries that have completed the assembly of positive and negative electrode sheets, electrolyte injection and packaging.
2. Tools: In addition to the cylindrical battery casper, prepare auxiliary tools such as gloves, scissors, and rulers.
3. Environment preparation: Ensure that the operation area is clean and dust-free, and that the temperature and humidity meet the technical requirements to avoid the impact of static electricity and dust. The operation area should be equipped with a ventilation system to prevent the accumulation of harmful gases.
Experimental procedure
Battery pretreatment:
1. Place the cylindrical lithium battery to be disassembled on the operating table to check whether there are leaks or other defects.
2. Confirm the packaging effect of the battery, and ensure that the aluminum shell is well fitted to the internal components of the battery, without bubbles and leaky sealing.
Parameter setting:
1. According to the battery specifications and requirements, set the cylinder battery dismantling machine dismantling parameters, including dismantling speed, dismantling force and dismantling time.
2. Small batch test can be carried out first, adjusted to the best state and then officially put into production.
Battery loading:
Place the battery on the work table of the cylindrical battery decarbonizer to ensure the correct and stable position of the battery.
1. Adjust the fixture so that the battery is fixed in the proper position to avoid moving during the disassembling process.
Detaching operation:
1. Start the shell removal procedure, and the shell removal device will automatically disassemble the battery shell.
2. Ensure that internal battery components are not damaged during the unpacking process, and that the unpacking cable is continuous, flat, and free of burrs.
3. After the dismantling is completed, the dismantling device is automatically returned, and the internal components of the battery are completely removed.
Quality inspection:
1. Carefully check the internal components of the battery after the shell is removed to ensure that there is no damage, crack, or deformation.
2. Use tools such as microscope and thickness gauge for detailed inspection and record relevant data.
Performance test:
1. Some samples were randomly selected for electrochemical performance test to evaluate the performance of the internal components of the battery after dismantling.
2. Record the test results and analyze the impact of disassembling on the internal components of the battery.
Result analysis:
Through the use of cylindrical battery decarbonizer, the company achieved the following results in the dismantling process of cylindrical lithium batteries:
Improve the quality of disassembly: the high-precision disassembly system ensures the continuity and flatness of the disassembly line, reduces burr and crack phenomenon, and improves the integrity of the internal components of the battery.
Enhanced safety: The high quality disassembly reduces the potential safety risks of the battery during disassembly, avoids damage to internal components, and improves the safety of operation.
Improve production efficiency: the automated all-in-one machine design significantly shortens the disassembling time, improves production efficiency and reduces labor costs.
Reduce defective product rate: The standardized operation process and high-precision equipment reduce the error caused by human operation and reduce the defective product rate.
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