The rapid advancements in augmented reality (AR) technology have led to an increased demand for high-quality AR diffractive optical waveguide lenses. These lenses require precise cutting and splitting to achieve optimal performance. Han’s Laser, a renowned leader in laser technology, has introduced the Fully Automatic AR Diffractive Optical Waveguide Lens Cutting and Splitting Machine. This cutting-edge equipment revolutionizes the manufacturing process by offering exceptional precision, efficiency, and customization options. In this article, we delve into the features and functionalities of this remarkable machine.
AR lens cutting machine for R&D or small batch
Application Object: AR Lens, Optical Coated Glass
The laser cutting machine is specifically designed to cater to the cutting and splitting needs of AR lenses and optical coated glass. Its versatility allows for the precise handling of various materials used in AR lens production, ensuring consistent quality and performance.
1.Fully Automatic Design
The machine boasts a fully automatic design, streamlining the production process. It features a manual feeding box for initial loading, followed by automatic feeding. Consistency in feeding is crucial to ensure optimal results. The equipment incorporates edge finding and positioning capabilities, eliminating human errors and maximizing operational efficiency.
AR lens cutting machine for mass production use
2.Double-Station Interactive Design
To enhance productivity, the machine adopts a double-station interactive design. This innovative approach enables concurrent processing, significantly reducing the overall production time.
3.Ultra-Fast Infrared Laser Cutting
The cutting process employs ultra-fast infrared laser technology, ensuring excellent and stable beam quality. This feature guarantees precise cutting edges, consistent performance, and meets the stringent standards of AR lens manufacturing.
4.High-Power CO2 Laser Splitting
For efficient splitting of lenses, the machine utilizes a high-power CO2 laser. This powerful laser ensures high splitting efficiency, facilitating smooth and accurate separation of the lenses.
5.High-Precision Linear Motor Platform
The machine incorporates a high-precision linear motor platform constructed with Longmen marble. This platform, coupled with a high-pixel visual positioning system, delivers exceptional processing precision and ensures stable process effects. The result is consistently high-quality AR lenses with superior optical performance.
6.Self-Developed Cutting Software
Han’s Laser provides self-developed cutting software that offers humanized customized services. This intuitive software allows users to optimize cutting parameters, tailoring the machine’s performance to meet specific requirements. It further enhances the machine’s versatility, flexibility, and ease of use.
7.Vacuum Adsorption and Fan Filter Unit
To prevent damage to delicate lenses during processing, the machine incorporates vacuum adsorption on the stage. This feature ensures a secure hold while maintaining the integrity of the product. Additionally, an integrated fan filter unit maintains cleanliness within the equipment, safeguarding the lenses from contaminants and maximizing their lifespan.
To ensure optimal performance and stability, the machine requires an anti-seismic foundation or placement on an anti-seismic platform. These measures reduce the impact of environmental vibrations, ensuring consistent cutting precision and prolonging the machine’s operational lifespan.
AR lens cutting smaple
Han’s Laser fully automatic AR diffractive optical waveguide lens laser cutting and splitting machine represents a significant technological advancement in AR lens manufacturing. By incorporating state-of-the-art features such as precise cutting edges, high processing efficiency, and customization options, this machine revolutionizes the production process. With its advanced laser technology, high-precision positioning system, and comprehensive software support, Han’s Laser sets a new standard for AR lens manufacturing, offering manufacturers improved precision, efficiency, and customization capabilities.