OverviewThe LEYBOLD OPTICS MIR 1200 is a drum-coating solution engineered to apply uniform and gradient thin-film coatings on highly curved substrates. It is optimized for ophthalmic applications including spectacle lenses, visors, ski goggles and sports eyewear.
Key benefits- Optimized ergonomics: replaceable substrate-holder drum reduces operator physical strain and the risk of work-related injuries, improving safety and productivity.
- Design versatility: drum accepts a wide range of substrate sizes and geometries, enabling treatment of lenses, visors, ski goggles and sports glasses.
- Operational efficiency: integrated turbomolecular pumping system delivers high-quality coatings with reduced cycle times, lower operating costs and minimized carbon footprint.
Highlight features- Advanced substrate handling — Drum holder for secure and efficient operation: drum substrate holder positions substrates precisely and secures them for fast loading and unloading.
- Dual turbomolecular pumps for ultra-high vacuum — Exceptional vacuum performance: two turbomolecular pumps ensure superior vacuum integrity for contaminant-free processing, optimal adhesion and consistent surface finish.
- Uniform and gradient coatings — Distribution masks: accepts up to two distribution masks to produce uniform or gradient coatings on demand.
Applications- Coating of highly curved ophthalmic substrates
- Anti-reflective, mirror and decorative/fashion coatings for ophthalmic and protective eyewear
Caractéristiques / spécifications techniques- Commercial designation: MIR 1200
- Series: LEYBOLD OPTICS MIR series
- Product type: Drum vacuum thin-film coater for ophthalmic applications
- Coating capabilities: Uniform and gradient coatings; accepts up to two distribution masks
- Substrate handling: Replaceable drum substrate holder; compatible with various sizes and geometries (lenses, visors, ski goggles, sports glasses)
- Vacuum system: Dual turbomolecular pumps for ultra-high vacuum
- Ergonomics: Easy-to-replace substrate-holder drum for reduced operator strain
- Operational benefits: Reduced operating costs and minimized carbon footprint through turbomolecular pumping technology