Achieve Unmatched Dimensional Accuracy with Our Vision Measuring System

An image measuring machine represents the pinnacle of high-precision metrology, designed to perform continuous and accurate measurements of workpieces through sophisticated image autofocus technology. As a flagship Measuring Testing Instrument, it adeptly caters to a wide spectrum of requirements, from wide-angle macroscopic inspection to intricate micro-measurement tasks. Supplied by industry leaders like Mikrosize, these systems are engineered for reliability and excellence. The core of the device incorporates a high-resolution color camera coupled with an advanced 8-level zoom system, significantly enhancing operational efficiency and measurement repeatability. A key feature of this versatile Measuring Testing Instrument is its support for seamless switching between non-contact and contact measurement modes, providing unparalleled flexibility in a single platform. Typical models, such as the QV-L202Z1L-D offered by Mikrosize, boast an expansive measurement range of up to 250mm on the X-axis, 200mm on the Y-axis, and 150mm on the Z-axis. This substantial capacity makes it an indispensable tool for precision testing and quality control in demanding fields such as chemical engineering, rail transit, aerospace, and electronics manufacturing.

Technical Features and Engineering Excellence

The technological foundation of this Measuring Testing Instrument is both robust and innovative. The image measurement system leverages a high-definition color camera and a precise 8-level zoom system. This combination, supported by a highly responsive autofocus function, allows the machine to clearly and consistently capture the finest contours and surface details of a workpiece, ensuring data integrity. The zoom range is exceptionally versatile; with a base optical zoom ratio of 7x, it can be effectively expanded to 14x by simply changing the objective lens. This capability enables full-scene coverage, facilitating a smooth transition from a low-magnification panoramic observation for overall part assessment to a high-magnification, micrometer-level measurement for critical feature analysis. Furthermore, safety and practicality are paramount in its design. A generous 74mm long working distance is a critical feature, substantially reducing the risk of collision between the objective lens and the workpiece or fixture during the measurement process. This design also provides ample operating space for handling large workpieces or complex custom fixtures, a common requirement in advanced manufacturing environments supplied by providers like Mikrosize.

Function Extension and Multimodal Capabilities

The true power of this advanced Measuring Testing Instrument is revealed in its extensible functionality. It excels in multimodal measurement, a feature that significantly broadens its application scope. The system can be seamlessly equipped with a high-precision contact probe, making it compatible with tactile detection on the solid foundation of non-contact optical measurement. This hybrid approach is perfectly suited for complex measurement scenarios involving mixed materials, such as transparent components, highly reflective surfaces, or workpieces with complex, hard-to-scan curved geometries. By integrating both methods, users can obtain comprehensive dimensional data that would be challenging or impossible to capture with a single technology. This flexibility ensures that whether the task requires the speed of optical scanning or the definitive point-to-point accuracy of a touch probe, the machine, such as those from Mikrosize, delivers consistent and reliable results. This makes it a future-proof investment for any quality assurance laboratory or production floor facing diverse and evolving measurement challenges.

Operational Efficiency and Industry Applications

In practice, the operational efficiency offered by this Measuring Testing Instrument is a significant advantage. The automation provided by the image autofocus and the programmable zoom system minimizes operator intervention, reduces human error, and accelerates the inspection cycle. This is crucial in high-volume production environments where throughput is as important as precision. The application of these machines, readily available from specialized suppliers like Mikrosize, extends across a multitude of industries. In the chemical engineering sector, they are used to measure critical components of pumps and valves. In rail transit, they ensure the dimensional accuracy of safety-critical parts. Additionally, the medical device, automotive, and consumer electronics industries rely on their precision for prototyping and production quality control. The ability to perform both non-contact and contact measurements makes this machine a central, versatile hub for all metrology needs within a modern manufacturing ecosystem.

In conclusion, the image measuring machine, particularly advanced models supplied by Mikrosize, stands as a cornerstone of modern industrial metrology. As a comprehensive Measuring Testing Instrument, it combines high-precision optics, flexible zoom capabilities, and a robust safety design with the critical ability to perform both optical and contact measurements. This synergy of features ensures that it can meet the diverse and demanding requirements of today's advanced manufacturing and R&D sectors, providing the accurate data necessary to drive quality and innovation forward.