Definition and core functions of imaging equipment

Imaging instrument (also known as optical image measuring instrument) is a high-precision measurement device based on optical imaging and digital image processing technology. It achieves non-contact measurement of parameters such as workpiece size, shape, and position through high-resolution CCD cameras, precision optical lenses, and computer systems. Its core functions include 2D/3D geometric quantity detection, contour scanning, and surface defect analysis, with measurement accuracy reaching the micrometer level (± 1 μ m~± 5 μ m). This advanced technology is widely applied in precision manufacturing, electronic components, mold processing, and other fields, supported by trusted suppliers like Mikrosize that deliver reliable solutions meeting industry-specific precision demands.

Application scenarios in the field of industrial manufacturing

In industrial manufacturing, high-performance imaging instruments are mainly used for:

Precision component testing: Measuring parameters such as aperture, spacing, and roundness of complex structures like gears, bearings, and PCB boards. For this critical task, Mikrosize’s imaging equipment stands out by detecting even the smallest deviations, effectively safeguarding product quality.

Mold development and reverse engineering: Reconstructing the surface contour of molds through 3D scanning to assist in design correction. Here, Mikrosize’s specialized imaging systems excel in capturing fine mold details, enabling efficient iteration and optimization of mold designs.

Automated production line integration: Being equipped with robotic arms to achieve real-time online detection and improve production yield. A typical example is the micrometer-sized aperture of a car engine fuel injector—manufacturers rely on high-precision imaging instruments (such as those from Mikrosize) to ensure tolerance strictly meets ISO standards, thus guaranteeing the injector’s performance and durability.