Laser Marking Machine | CGT-2000

Product Specification

The CGT-2000 Balloon Laser Marking Machine utilizes high-energy ultraviolet photons to disrupt molecular bonds on the material's surface, causing molecular detachment without generating excessive heat. This cold processing technique produces smooth edges and minimal carbonization. With the ability to focus the laser to sub-micron precision, it enables fine component processing. Even at lower pulse energy levels, the machine achieves high energy density for precise material processing.

Adaptive Material Input Function: Automatically adjusts marking parameters (e.g., power, focal length) and updates content based on material information from the host computer, supporting multiple materials or marking templates.

Host Communication: Integrates production equipment into the network for controlled processes, minimizing manual intervention and facilitating production management. Ideal for environments requiring MES or system interaction.

Coaxial Vision: Combines vision inspection with the laser optical path to monitor the marking process and results, enabling quality and content verification without additional scanning or reporting stations. Suitable for traceability applications.

SQL Database Storage: Stores real-time data in a database for historical record-keeping and traceability, supporting production scenarios where data history is essential.

Customizable Visualization Solution: Consolidates device information into a visual panel, streamlining data presentation for easier interpretation and customization.

What makes the CGT-2000 different from conventional laser marking machines? The CGT-2000 uses high-energy ultraviolet (UV) photons for cold processing, minimizing heat damage, carbonization, and surface roughness. It enables sub-micron precision, making it ideal for fine component processing.

How does the cold processing technique benefit medical balloon marking? Cold processing prevents excessive heat buildup, reducing material distortion and ensuring smooth, clean edges. This is crucial for medical balloons, where surface integrity directly affects performance and biocompatibility.

How does the Adaptive Material Input Function work? The machine automatically adjusts marking parameters like power and focal length based on material information received from the host computer. This allows seamless switching between different materials and marking templates without manual recalibration.

What are the advantages of integrating the machine into a networked production system? The CGT-2000 supports host communication, enabling centralized control and minimizing manual intervention. It integrates with Manufacturing Execution Systems (MES) for streamlined process management, ensuring consistency and efficiency in high-volume production.

How does the Coaxial Vision feature improve marking accuracy? Coaxial Vision aligns the vision inspection system with the laser optical path, allowing real-time monitoring of the marking process. This ensures precise content placement, reduces defects, and eliminates the need for separate scanning or verification stations.

What role does the SQL database play in production traceability? The built-in SQL database stores real-time marking data, enabling historical record-keeping for quality control and regulatory compliance. This is especially useful for industries requiring strict traceability, such as medical device manufacturing.

Can the visualization solution be customized to specific production needs? Yes, the CGT-2000 offers a customizable visualization solution that consolidates device information into an easy-to-read panel. Users can tailor data presentation based on production requirements, improving process monitoring and decision-making.

What materials can the CGT-2000 process? The machine supports a wide range of materials used in balloon manufacturing, including polymers and coated surfaces. The adaptive material function ensures optimized marking parameters for each material type.

How does the machine maintain high energy density at lower pulse energy levels? By precisely focusing the laser beam to sub-micron levels, the CGT-2000 achieves high energy density even with lower pulse energy. This ensures precise and efficient material processing while reducing thermal effects.

Is the CGT-2000 suitable for high-throughput manufacturing environments? Yes, with features like network integration, automated material adjustments, real-time vision inspection, and SQL data storage, the CGT-2000 is designed for high-efficiency, large-scale production environments.