Next generation of portable machine vibration assessment tool

Identify machine problems on the spot with the most cost-effective solution for portable, wireless data collection and analysis, says SKF. It has launched the SKF Wireless MicroVibe that allows users to safely, quickly and easily assess any problems with their machinery. The vibration assessment tool is suitable for analysing rotating equipment. Portable, compact and lightweight, this versatile and easy-to-use tool offers reliable and fast wireless (WiFi) data collection.

In conjunction with a tablet or smart phone, the new SKF Wireless MicroVibe provides the functionality of basic vibration data collection and analysis. It’s a great entry-level, cost-efficient solution for machine vibration measurements, root cause analysis, and small route-based data collection.

“The wireless sensor will help customers assess data in a much easier and quicker way than other comparable technology  on the market. Anyone who owns a tablet can check the condition of a machine to ISO standards or bearing condition or by user defined alarms. They can even start a simple condition monitoring programme for their rotating machinery with this entry level solution”, says Torsten Bark, SKF Product Line Manager.

Once the judgment of the overall vibration measurements results in an alert or danger, the FFT spectra and waveforms function will provide information to help indicate the root cause of the vibration.

The SKF Wireless MicroVibe, CMVL 4000-EN, allows multi-point automation for faster data collection. The data collected, assessed and stored includes enveloped acceleration, acceleration, velocity and displacement, in both FFT spectrum and time waveform displays.

Should vibration measurements (based on ISO vibration severity standard and SKF bearing condition evaluation) trigger an alarm, FFT spectrum analysis enables engineers to pinpoint problems such as unbalance, misalignment, bearing, or any other cause. Transferring all this vibration data to a computer, it will also store and recall measurements for trending and further analysis.