SmartBalancer

SmartBalancer is a new portable measuring instrument for field balancing designed by Schenck – a specialist in balancing equipment. The new field balancer with its many outstanding major and minor design features incorporates our vast expertise in balancing, along with up-to-date vibration measuring equipment.

Field balancing with the SmartBalancer – a most efficient addition to your balancing equipment.

Benefits at a Glance

* A comprehensive package at an extremely favourable price-performance ratio.
* 2 simultaneous measurement channels for highly efficient field balancing.
* Optimised balancing for up to 4 measuring points.
* Graphical presentation of unbalance and test run vectors for all measuring points.
* Machine diagnosis with FFT and SmartFFT analysis
* Overall vibration measurement in accordance with relevant standards.
* Oscilloscope function.
* Powerful SmartReport software included in the price.
* New laser-optical reference sensor enables safe balancing at a distance of up to 0.5 m from the rotor shaft.
* 6 hours of operation on a single battery charge - no replacement batteries required.

High Ease of Operation

* Clear graphical display
* Dialog-based operator prompting
* 6 hours of operation on a single battery charge
* No replacement batteries required
* Laser-optical reference sensor (emitting visible light) enables safe balancing at a distance of up to 0.5 m from the rotor shaft
* SmartBalancer report software

Specifications

Measurement Tasks

* Field balancing of rotors in one and two planes.
* Measurement of overall vibrations for evaluation of the machine condition.
* Frequency analysis for identification of the causes of vibrations.
* Start-up and run-down curves of the first harmonic for the detection of machine and mounting resonances.
* Display of overall vibrations and of the first harmonic versus time.
* Oscilloscope function for visualisation of vibration - time signature.

Measurement Channels

* 2 channels for vibrations
* 1 channel for speed and reference signal

Measurement Inputs

* 2 inputs for acceleration sensors
* 1 input for laser-optical reference sensor
* All inputs provide power supply for the sensors.

Measurement Variables

* Vibration displacement in µm and mils
* Vibration velocity in mm/s and inch/s
* Vibration acceleration in m/s2 and g

Signal Detection Types

* RMS value
* Peak-to-peak value
* Peak value