Difference between revisions of "Measuring Square or Rectangular Tube"
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* <b>TRUE CENTERLINE LOCATION:</b> The process and logic automatically calculates the location of the centerline from the true surface data. The nominal width data is not needed to find the centerline.<br><br> | * <b>TRUE CENTERLINE LOCATION:</b> The process and logic automatically calculates the location of the centerline from the true surface data. The nominal width data is not needed to find the centerline.<br><br> | ||
− | * <b>BALL PROBE:</b> The most reliable way to measure square or rectangular tubing is using the ball-probe. We recommend using the ball probe when possible. Watch how to measure square tube with a ball probe in video 29 in the [ | + | * <b>BALL PROBE:</b> The most reliable way to measure square or rectangular tubing is using the ball-probe. We recommend using the ball probe when possible. Watch how to measure square tube with a ball probe in video 29 in the [[VTube-LASER Videos]] page.<br><br> |
Latest revision as of 19:04, 23 October 2015
Measuring Square and Rectangular Tubes with VTube-LASER
VTube-LASER can measure square and rectangular tubing with the ball probe or laser probe.
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Measuring Center Adapter for ROMER, DOCS, Supravision
ROMER DOCS and Supravision software packages use non-contact infrared probes (sensors) that can measure tube, pipe, or rod that are bent. Customers sometimes ask if rectangular or square tube can be measured using the same non-contact sensors. This is the method recommended by Romer: In order to simulate a cylindrical shape, it is necessary to change the shape of the square or rectangular tube using an adapter that is designed as shown in this image. This device allows the measuring center to find the centerline of the tube shape just as if it were a cylindrical tube. |