Cupid Laser Cleaning Machine: Effortlessly Tackling Complex Surface Cleaning Challenges

Cupid series precision laser cleaning machine

The Cupid Series Precision Laser Cleaning Machine is a revolutionary solution designed to simplify and streamline the cleaning process for intricate and complex surfaces. Leveraging the latest fiber laser technology, this machine offers unparalleled precision and versatility, making it the go-to choice for a wide range of industrial applications.

76125 word2
Key Features
1. Large Laser Spot with High Single Pulse Energy

The Cupid Series boasts a large laser spot paired with high single pulse energy, ensuring efficient cleaning of even the most stubborn dirt and contaminants. This powerful combination allows for rapid and effective removal of rust, paint, coatings, and other residues from various surfaces.

2. Simple Operation and Efficient Multiple Laser Cleaning Patterns

User-friendliness is at the core of the Cupid Laser Cleaning Machine. Its intuitive controls and efficient multiple laser cleaning patterns enable operators to quickly adjust settings and execute cleaning tasks with ease. This eliminates the need for extensive training, making it an ideal solution for both novice and experienced users.

3. Multiple Safety Operation Locks and Parameter Storage

Safety is paramount in any industrial setting. The Cupid Series incorporates multiple safety operation locks to prevent unauthorized access and minimize the risk of accidents. Additionally, the machine can store multiple sets of working parameters, allowing users to conveniently retrieve and apply pre-set cleaning profiles, significantly reducing work preparation time.

Benefits

– No Harm to Base Material: The precision laser technology ensures that only the target contaminants are removed, leaving the underlying material unharmed.

– Optical Components Protection: Optical components are fully protected, ensuring safe transportation and storage, further minimizing the risk of damage.

– Stable Operation: An independent high-precision cooling system keeps the equipment running smoothly and stably, even under heavy loads.

– Eco-Friendly: The cleaning process requires no chemicals or other media, making it a green and environmentally friendly alternative to traditional cleaning methods.

– Highly Integrated and Portable: The Cupid Series is highly integrated, occupying minimal space and being conveniently suited for mobile operations.

Application Scenarios
Automobile Tire Mold Cleaning

The Cupid Laser Cleaning Machine is ideal for cleaning automobile tire molds, removing grease, rubber residues, and other contaminants that can accumulate during the manufacturing process. This ensures the molds remain in optimal condition, improving tire quality and production efficiency.

Automotive Industry Parts Rust and Paint Removal

In the automotive industry, the Cupid Series excels at removing rust and paint from parts, replacing traditional and often environmentally harmful processes. Its precision and versatility make it the perfect choice for restoring parts to their original condition or preparing them for repainting.

PVD Coating Removal

Efficiently removing PVD coatings from metal surfaces without harming the environment is now possible with the Cupid Laser Cleaning Machine. This eliminates the need for harsh chemicals, reducing environmental impact and improving workplace safety.

Electrophoretic Paint Cleaning

The machine is also adept at cleaning oil, oxidation, and other residues from metal surfaces during electrophoretic paint processes. This ensures a clean and even paint finish, enhancing the overall quality and appearance of the final product.

In conclusion, the Cupid Series Precision Laser Cleaning Machine is a powerful and versatile solution that effortlessly tackles complex surface cleaning challenges. Its combination of precision, efficiency, and eco-friendliness makes it the preferred choice for a wide range of industrial applications.

Scroll to Top
Contact us and we will get back to you as soon as possible
Please enable JavaScript in your browser to complete this form.