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The micromirror’s accuracy can be relied upon, and the CNC-machined parts’ measurement accuracy needs to be ensured. As a result, various alignment techniques will be employed. The M-shaped line can be used to align the contour of the measuring portion and assure the measurement accuracy of the CNC machined parts.
Yet, there are two approaches that can be used to have a high degree of proper alignment: In order to measure length, the overlap alignment method is employed. This means that the edge of the contour picture is exactly covered by the dotted line of the Mi shape line, with one half of the line falling inside the contour image and the other outside.
To ensure that the microscope produces accurate measurement data for the CNC machined components, while aligning, the centre of the metre line’s dotted line should be used as the standard, and the extended section of the dotted line should be used as the reference.
The gap to line approach works well for measuring angles. While measuring an angle using a microscope, it is important to keep a small distance between the dotted line of the metre line and the edge of the measured angle whenever the metre line is near the side of the angle being measured in the field of vision. The alignment precision between the dotted line of the m-shaped line and the edge of the DUT image is assessed using the uniformity of the gap size.
The Global CNC inspection microscope market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The MiSTAR 555 CNC inspection microscope, which operates without compressed air and on standard 120V 20 AMP electrical service with movement speeds of 606mm/s and acceleration of 2,695mm/s2, has been launched by Mitutoyo America Corporation. A compact, space-saving in-line or near-line CNC coordinate measuring device with accuracy assurance from 10° C to 40° C, the MiSTAR 555 is designed for high-speed, high-precision measurements.
A walk-up inspection station with an open-structure design and a single support moving bridge allows users to install workpieces from the front, back, and right for easier operability. The base of the main body construction houses the modular control unit and PC, making the MiSTAR more manageable.
