ZEIS CMM SPECTRUM 10-16-6 RDS VAST XXT – Year 2023

Zeiss Spectrum 10/16/6 Measuring Unit
Measuring range: 1000*1600*600(mm)
Machine is in excellent condition
X-axis travel 1000 mm
Y-axis travel 1600 mm
Z-axis travel 600 mm

Technical Evaluation of the ZEISS SPECTRUM 10-16-6

CMM with RDS and VAST XXT (Year 2023)

1. Technical Evaluation Overview

The ZEISS SPECTRUM 10-16-6 is a coordinate measuring machine (CMM) manufactured in 2023, configured with RDS and a VAST XXT measuring sensor. The stated measuring range of 1000 × 1600 × 600 mm defines the usable inspection volume and aligns with the listed X/Y/Z travels of 1000 mm / 1600 mm / 600 mm.
No additional specifications are provided regarding probing accuracy, speed, environmental requirements, software version, or controller configuration. The machine is described as being in excellent condition, but this statement is not supported by quantitative performance data within the provided information.

2. What to Check Before Buying

Given the limited technical detail, verification should focus on functional and metrological integrity. The VAST XXT sensor should be tested for repeatability and stability across the full measuring volume, and the RDS (rotary head system) should be checked for indexing accuracy and smooth operation.
Axis motion should be evaluated for straightness, backlash, and consistent speed, particularly near the limits of travel. Environmental compensation, air supply quality, and vibration isolation—if applicable—should be confirmed, as these factors directly influence measurement results.
From a control and software perspective, confirmation of installed ZEISS metrology software, licensing status, calibration validity, and availability of recent backups is recommended, as none of these details are specified.

3. Typical Industrial Applications

Based strictly on the stated measuring volume and sensor configuration, this CMM is suitable for dimensional inspection of medium to large precision components, including prismatic parts, machined housings, and assemblies that fit within the 1000 × 1600 × 600 mm envelope. The combination of an articulating head and scanning probe supports inspection tasks requiring multi-angle access, provided accuracy requirements align with verified performance data.

4. Common Risks in Used Machines

For used CMMs, typical risks include loss of calibration integrity, sensor wear or damage, and degradation of air bearings or guideways. Control and software risks may involve expired licenses, missing calibration certificates, or undocumented configuration changes. Even on newer machines, transport or improper environmental conditions can affect measurement reliability.

5. Maintenance and Service Considerations

Maintenance considerations depend on actual operating hours and service history, which are not provided. Regular calibration, clean air supply, and controlled environmental conditions are essential for maintaining measurement performance. Long-term service planning should include verification of sensor support, software updates, and availability of authorized service resources. Without documented maintenance and calibration records, these aspects should be confirmed prior to reliance on the system for production inspection.

Final Note:
While the year of manufacture and measuring range are clearly stated, critical information—such as accuracy specifications, probing configurations, software version, and calibration history—is important. These elements should be verified through documentation review and on-site testing before forming final technical conclusions.