Featured Product
This Week in Quality Digest Live
Metrology Features
Walter Nowocin
Software as a service can help reduce costs and provide a more robust platform
NIST
NIST improves the ability of optical microscopes to measure the volume of microdroplets
Tim Mouw
It might be time to establish digital standards, document processes, and service measurement devices
Dan Hamilton
Identify trace elements and alloys, analyze precious metals, and determine coating weight and plating thickness
Geert Elie
Should you use water or CO2?

More Features

Metrology News
Measures ultra-high temp oils in heating and cooling circuit systems
University acquires the Invizo 6000 atom probe tomography (APT) instrument
Jan. 27, 2022, at 9 a.m. Pacific; Feb. 24, 2022, at 8 a.m. Pacific
Blue light scanners utilize optical noncontact technology to quickly capture millions of accurate points in a single scan
Available in 50 mm and 80 mm FOV, they offer the power, speed, efficiency of digital imaging in a compact package
Detect macro-geometry (nicks, runout) and micro-geometry (gear-mesh excitation, ghost orders) defects
Features low price-for-performance ratio, excellent in-run bias stability, zero cross-coupling by design, and Allan variances from 5 µg
Solutions provider to the world’s leading manufacturers says open data and collaboration is key to industrializing additive manufacturing
High image quality with low doses at fast scanning speeds for enhanced patient safety and experience

More News

Quality Digest

Metrology

Brunson’s KinAiry Adapts to ISO 10360-10:2021 Interim Field Test of Laser Trackers

KinAiry system features 2.3-m reference bar custom-tailored to precision requirements of the ISO interim field test

Published: Tuesday, November 9, 2021 - 12:00

(Brunson Instrument Co.: Kansas City, MO) -- With the August 2021 release of ISO 10360-10:2021, laser tracker end users can now test their instruments in the field with a simplified, internationally approved ISO process—in less than 30 minutes.

“Laser trackers and laser radars are mechanical systems that rely on the relative positions of components within the instrument,” said Mark Meuret, Brunson Instrument Company’s Director of Engineering. “These sensitive and highly accurate components can be thrown off, creating misalignment and geometric error sources,” he added.

ISO Guidelines for Frequency of Interim Field-Testing

(Excerpt from Annex E of ISO 10360-10:2021)

• Some users with high-value and/or safety-critical workpieces may elect to perform daily tests, while other users will possibly test weekly or monthly.
• The frequency of interim testing is a matter of economics and necessity, i.e., the time period between interim tests should be chosen in a manner that meets the needs of the measurement system user while not compromising the integrity of the measurement tasks performed.
• A laser tracker that is in a stable environment with a single user will typically need interim testing less often than one that is frequently transported, used by multiple operators, or in a harsh environment.
• The frequency of testing is also strongly affected by balancing the cost of interim testing against the consequences of accepting a bad workpiece or rejecting a good one.
• It may be useful to consider the interim testing interval as a percentage of total laser tracker operating hours.
• Interim testing should be conducted after any sort of significant event such as the laser tracker being subject to excessive vibrations or potential damage.

Shipping an instrument, wear and tear from frequent usage, environmental hardships, multiple end-users, or simply the age of the instrument can create internal misalignments that degrade measurement accuracy. (See ISO release excerpt in box at right.)

“This new ISO procedure is about empowering metrologists, letting them easily check their trackers in the field and maintain confidence in their precision measurement processes,” Meuret added.

Brunson Instrument Co. initially offered the KinAiry Laser Tracker Field Testing Solution based on the NIST IR-8016 test, and the company will soon update the KinAiry software process to accommodate the new ISO procedure. (See image below.)

“Brunson has been involved in laser tracker field testing from very early on,” said Meuret. “And applaud ISO for recognizing this vital need for end-users to maintain confidence in their laser tracker performance,” he added.

The KinAiry system features hardware—a 2.3-meter reference bar—that is custom-tailored to the precision requirements of the ISO interim field test. The three-piece, easily transportable 2.3-meter reference bar is kinematically mounted at its airy points to provide the required stability. KinAiry software guides the user through the process, which results in a graph that portrays tracker conformance to manufacturers’ specifications. (See image below.)

Diminished accuracy can become a metrologist’s worst nightmare. It can lead to unsatisfied customers, time-consuming research to validate past performance data, costly rework, instrument downtime and, potentially, mission failure. How frequently should an end user conduct an interim field test? Below is an excerpt of ISO’s recommendations for tracker testing intervals.


Applying the new ISO testing process, the ISO-10360-10:2021 Annex E, is Brunson’s lead mechanical engineer, Tyler Santoro (right), as Brunson director of engineering Mark Meuret observes. The recently approved Annex E interim testing procedure is similar to the earlier NIST IR­8016 process.


Confidence maintained. The KinAiry software generates a graph of the ISO 10360-10 field-test results, displaying Length Measurement Errors (left) within a range, indicated in grey, representing the uncertainty associated with each measurement (95% confidence interval.) The 2-Face Measurement Errors are displayed at right. Millimeters are displayed on the Y-axis, and the blue, horizontal bars indicate the manufacturer’s maximum permissible errors. With the comprehensive, volumetric interim test complete, the KinAiry software reports a tracker that is measuring very accurately. Brunson will soon test this tracker again as part of a monthly schedule.

About Brunson Instrument Company

Brunson Instrument Company designs, manufactures, and markets portable measurement and alignment solutions for high-precision industrial applications. The company’s product line includes metrology instrument stands, laser tracker target holders, calibration equipment, optical tooling instruments and scaling artifacts. In addition to private-label and contract manufacturing, the company offers a full spectrum of client services for aerospace, automotive, shipbuilding, lumber, power generation, and other industries. Headquartered in Kansas City, Missouri, Brunson Instrument Company serves its international client base out of its unique underground production facility through strategic distributors in Europe, Asia, and the Americas.

Discuss

About The Author

Quality Digest’s picture

Quality Digest

For 40 years Quality Digest has been the go-to source for all things quality. Our newsletter, Quality Digest, shares expert commentary and relevant industry resources to assist our readers in their quest for continuous improvement. Our website includes every column and article from the newsletter since May 2009 as well as back issues of Quality Digest magazine to August 1995. We are committed to promoting a view wherein quality is not a niche, but an integral part of every phase of manufacturing and services.