Sticking machine for cylindrical cells – Taipu Technology

Application: This machine is applied to cylindrical cell sticking, the surface pad material is highland barley paper or PVC material, slow wire walking, high precision, include 21 inch LCD screen + PC synchronous display + industrial computer, the brief information is as follows: Parameters: Equipment power supply: single phase ~ 220V, 50Hz Rated power: 1.5KW. …

Sticking machine for cylindrical cells

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Sticking machine for cylindrical cells - Taipu Technology

Application: This machine is applied to cylindrical cell sticking, the surface pad material is highland barley paper or PVC material, slow wire walking, high precision, include 21 inch LCD screen + PC synchronous display + industrial computer, the brief information is as follows: Parameters: Equipment power supply: single phase ~ 220V, 50Hz Rated power: 1.5KW. …

What is the Sticking Machine for Cylindrical Cells?

The Sticking Machine for Cylindrical Cells is an essential equipment in modern battery manufacturing lines, designed specifically for efficient and accurate labeling of cylindrical cell batteries. Its primary function is to apply labels or markings onto the exterior surface of these cells, ensuring proper identification, traceability, and compliance with industry standards.

How Does the Sticking Machine Operate?

This advanced machine utilizes a combination of automation, precision mechanics, and intelligent controls to achieve highly accurate label application. The typical operating process involves the following steps:

1. Cell Handling: Cylindrical cells are automatically fed into the machine and positioned with precision alignment mechanisms.

2. Label Application: High-quality labels or markings are applied onto the cell surface using specialized applicator heads and adhesive systems.

3. Inspection: Integrated vision systems inspect each labeled cell, ensuring proper label placement, legibility, and quality.

4. Sorting: Properly labeled cells are sorted and transferred for subsequent manufacturing processes, while any defective units are diverted for rework or inspection.

Enhancing Your Battery Production Efficiency

By incorporating the Sticking Machine for Cylindrical Cells into your production line, you can achieve numerous benefits that enhance overall efficiency and quality:

- High-speed labeling: The machine's automated operation enables high-volume throughput, significantly increasing production rates.

- Consistent quality: Precise label application and inspection ensure consistent labeling quality across all battery cells.

- Traceability: Clear and accurate labeling supports end-to-end traceability, essential for quality control and regulatory compliance.

- Reduced waste: Automated inspection minimizes labeling defects, reducing waste and improving yield.

Versatility and Customization

While designed primarily for cylindrical cell batteries, the versatility of this machine allows it to be adapted for various cell sizes and labeling requirements. We offer customizable options, including adjustable machine dimensions, label material compatibility, and configurable operational parameters, tailored to meet your specific production needs.

Seamless Integration and User-Friendly Operation

The Sticking Machine for Cylindrical Cells is engineered for seamless integration into existing production lines, with plug-and-play connectivity and compatibility with upstream and downstream equipment. Its user-friendly interface, comprehensive safety features, and intuitive operation make it accessible for operators, minimizing downtime and maximizing productivity.

Comprehensive Support and Services

Our commitment to your success extends beyond the initial purchase. We offer comprehensive support services, including on-site installation, commissioning, operator training, and ongoing maintenance and technical assistance. Our remote support capabilities ensure prompt resolution of any issues, minimizing downtime and maximizing the return on your investment.

Elevate your cylindrical cell battery production with the Sticking Machine. Contact us today to learn more about how this cutting-edge solution can streamline your labeling processes, enhance quality, and provide a competitive edge in the dynamic battery market.

Application: This machine is applied to cylindrical cell sticking, the surface pad material is highland barley paper or PVC material, slow wire walking, high precision, include 21 inch LCD screen + PC synchronous display + industrial computer, the brief information is as follows:

Parameters:

  • Equipment power supply: single phase ~ 220V, 50Hz
  • Rated power: 1.5KW.
  • Material requirements: the maximum insulation paper roll material (W) 100MM, (H) 0.3MM; the maximum
  • diameter of the insulation roll material is 350MM, and the inner diameter of the paper roll core is 72-75MM.
  • Feeding method: Put into the discharge core hopper, 500PCS can be put in one time.
  • Use air pressure: 0.4-0.8Mpa.
  • Cushioning power: Pneumatic (Airtac).
  • Control device: 7.0 inch touch screen, PLC programmer and servo motor.
  • Efficiency: 4500-4800PCS/h, 18650 cell punching pad 4PCS, 21700, 26650, 32650 punching pad 3PCS
  • Overall dimensions: 1000mm × 700mm × 1630mm

Sticking machine for cylindrical cells Information

What is a Sticking Machine for Cylindrical Cells?

A Sticking Machine for Cylindrical Cells is an automated system used in the battery manufacturing process to apply adhesive materials to cylindrical cells. This process is crucial for securing components, improving structural integrity, and ensuring the longevity of the battery. The machine is designed to handle various adhesive types, including tapes and films, and can be customized to meet specific production requirements. By automating the sticking process, the machine minimizes human error and maximizes efficiency, making it an essential tool for modern battery production lines.

What are the Key Features and Functions?

The Sticking Machine for Cylindrical Cells is equipped with advanced features that set it apart from traditional manual methods. Its primary function is to apply adhesive materials with high precision, ensuring uniform coverage and strong adhesion. The machine features a high-speed adhesive feeding system, which allows for rapid application without compromising accuracy.

Additionally, the machine includes an intelligent control system that enables operators to adjust parameters such as adhesive tension, application speed, and alignment. This ensures consistent results, even when working with cells of varying sizes or shapes. The machine also boasts a user-friendly interface, allowing operators to monitor and control the process in real time, further enhancing productivity and ease of use.

Where is the Machine Used?

The Sticking Machine for Cylindrical Cells is widely utilized in industries that rely on cylindrical lithium-ion batteries. One of its primary applications is in the electric vehicle (EV) industry, where the demand for durable and high-performance batteries is rapidly increasing. The machine is also essential in the production of consumer electronics, such as power tools, laptops, and portable devices, where reliable and long-lasting batteries are critical.

Furthermore, the machine is used in the renewable energy sector, particularly in the manufacturing of batteries for solar and wind energy storage systems. As the world shifts toward cleaner energy sources, the need for efficient and robust energy storage solutions has never been greater. The Sticking Machine for Cylindrical Cells helps meet this demand by ensuring the production of high-quality, well-protected batteries.

What are the Advantages of Using This Machine?

One of the most significant advantages of the Sticking Machine for Cylindrical Cells is its ability to deliver consistent and precise results. The automated process eliminates human error, ensuring that every cell receives uniform adhesive application. This consistency is critical for maintaining the quality and reliability of the final product.

Another advantage is the machine's high-speed operation, which significantly boosts production efficiency. By automating the adhesive application process, manufacturers can achieve faster throughput and meet tight production deadlines. The machine's intelligent control system also allows for quick adjustments, making it adaptable to different production requirements.

The non-contact nature of the adhesive application process is another key benefit. Unlike manual methods, the machine applies adhesives without physically touching the cell, reducing the risk of damage or contamination. This is particularly important in battery manufacturing, where even minor defects can compromise performance and safety.

What Should You Consider for Optimal Use?

To ensure optimal performance, it is essential to maintain the Sticking Machine for Cylindrical Cells regularly. This includes cleaning the adhesive feeding system, checking the alignment of the application mechanism, and inspecting the adhesive application for consistency. Regular maintenance helps prevent downtime and ensures the machine operates at peak efficiency.

Operators should also receive proper training to understand the machine's functions and controls. This includes learning how to adjust parameters, troubleshoot common issues, and perform routine maintenance. Proper training not only enhances productivity but also extends the lifespan of the machine.

Finally, manufacturers should consider the specific requirements of their cylindrical cell designs when using the machine. Different cell sizes, shapes, and materials may require adjustments to the adhesive application process. By tailoring the machine's settings to meet these needs, manufacturers can maximize its benefits and produce high-quality batteries that meet industry standards.

The Sticking Machine for Cylindrical Cells is a vital tool for modern battery production. Its precision, efficiency, and versatility make it an indispensable asset for manufacturers looking to enhance their production capabilities and meet the growing demand for high-performance batteries. With proper use and maintenance, this machine can significantly improve the quality and reliability of cylindrical cell production, contributing to the advancement of industries that rely on these essential energy storage solutions.

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