Film materials play roles such as shock absorption, waterproofing, dustproofing, thermal insulation, and soundproofing in electronic products. They are typically formed using punching processes, which require high efficiency in dimensional measurement.

For small-sized die-cut products, multiple products within a single field of view can be measured simultaneously. For large-sized die-cut products, moving a small platform is enough to complete the measurement of the entire product, significantly improving measurement efficiency.

Fiber optic communication has been widely applied in telecom networks, cable television networks, and the internet, all of which are closely related to people's lives. Optical modules are a critical part of fiber optic communication, responsible for converting optical signals. The placement accuracy of optical emitters and receivers in optical modules is crucial to reduce signal loss and interference, and to improve transmission efficiency and stability.

Video measuring machine equipped with an automatic zoom lens with the advantage of a large field of view at low magnification, automatically locates products and identifies serial numbers. With high magnification, the high resolution allows precise measurement of the placement accuracy of optoelectronic devices. Products in trays can be measured in batches, and measurement data is automatically uploaded to the MES system.

Laptop shells are typically made of magnesium-aluminum alloy, and CNC processing is the main forming method. During large-scale production, environmental factors (temperature, vibration), fluctuations in machine conditions, and tool wear would change the product features. Conventional vision-based measurement requires manual feature extraction, leading to low efficiency and high labor costs.

During manual feature extraction, have the AI model embedded in the software and do the learning automatically. Once the learning process is complete, intelligent extraction of features and automated dimensional measurement can be achieved, significantly improving measurement efficiency and reducing labor costs.

Smartphone cover glass and back glass not only enhance the aesthetics and feel of the phone but also protect internal components, assist in heat dissipation, support signal transmission, and enable wireless charging. Strict dimensional requirements are needed for cover and back glass.

Video measuring machine, using an automatic zoom lens in conjunction with a flash measurement lens. The flash lens, with its large field of view, quickly completes measurements of larger dimensions like the length and width of the glass. The zoom lens, with higher magnification, is used for measuring smaller dimensions, such as bevels, balancing measurement efficiency and precision.

The smartphone frame, located between the front panel and rear cover, serves to fix and support internal components. The smartphone frame is typically made of metal or plastic, processed through multiple CNC and injection molding processes, resulting in a complex and intricate structure.

The CMM (Coordinate Measuring Machine), equipped with a rotating measuring seat and touch probe, enables precise measurement of the all the features of smartphone frame parts throughout the entire manufacturing process, ensuring full-dimension precision.