VIBRO-LASER PRO
World's first system with automatic distance measurement. Distance control at every point delivers maximum measurement accuracy.
SmartDistance™
Based on a high-precision laser distance control and measurement system that automatically determines the distance between the measurement units up to 20 meters with accuracy up to ±1 mm, completely eliminating the need for manual measurements with rulers and tape measures.
O’CLOCK
This is the classic three-point method that can be used in most cases. It is suitable for measuring most machines.
SMARTANGEL
The truncated angle method is used for articulated machines where the shafts are restricted to rotation angles of less than 180°.
SMARTSECTOR
The sector method can be used for coupled machines with a shaft rotation of 360°, but due to their design there are some visibility limitations between the units.
SMARTPOINTS
The multi-point measurement mode is designed for measurements on large equipment or equipment with sleeve bearings, where shaft rotation is difficult or limited in angle.
SMARTSPIN™
The continuous measurement method is suitable for high-speed coupled machines with a shaft rotation of 360°.
How it works
Measurement points are recorded at fixed positions: 9, 12, and 3 o'clock.
The method allows starting the measurement from any shaft position by recording at least three points with a 20° interval between them. To improve accuracy and repeatability, record two additional points by rotating the shafts to positions different from those already recorded.
Take measurements in any of the 8 available sectors, and the automatic data analysis algorithm will suggest which sector is best for the most accurate result.
The method records hundreds of points at 3° intervals. To simplify work and improve measurement accuracy, the automatic data analysis algorithm will suggest the shaft position for the next measurement point.
While the shaft rotates, the system continuously records hundreds of points per second until the automatic quality control system stops the measurement process. The recorded data forms a graphical representation of the rotation centers with the RMS (root-mean-square) deviation of the measurement points.
Precision inclinometer 0.1° A high-precision inclinometer determines the position of the measurement units on the shaft with accuracy up to 0.1°, ensuring maximum accuracy and measurement stability.
Precision inclinometer 0.1° A high-precision inclinometer determines the position of the measurement units on the shaft with accuracy up to 0.1°, ensuring maximum accuracy and measurement stability.
VIBRO-LASER ALIGNMENT PRO
