QM30VT Series sensors have a low-profile design and rigid metal construction that reduces resonant interference and increases surface contact, enabling exceptional levels of accuracy in measuring RMS velocity and temperature. They are able to detect even slight increases in machine vibration and temperature for early identification of potential problems.
A QM30VT vibration sensor connected to a DX80 Node is mounted on fan motors to collect continuous vibrationvalues. Data is wirelessly transmitted to a DXM100 Controller containing action rules that define thresholds. Ifthresholds are exceeded, third-party monitoring data notifies the customer for immediate corrective action by sendingan email or text message to building maintenance.
QM30VT vibration sensors connected to DX80 Nodes are mounted on cooling fan motors and collect continuousvibration values. Data is wirelessly transmitted to a DXM100 Controller containing action rules that define thresholds. Ifthresholds are exceeded, third party monitoring data notifies the customer for immediate corrective action.
A QM30VT vibration sensor and DX80 Node mount monitoring fan motors by collecting continuous vibration values. Datatransmits wireless to the DXM100 Controller running a machine learning algorithm that defines alarm thresholds. When thethresholds exceed normal operating levels, alarms are triggered via cloud services and corrective action initiated.
A QM30VT2 vibration sensor, DXM Modbus Slave Device, and DXM Controller continuously monitor key vibration characteristics on critical points on a filler to detect problems early. This allows maintenance to schedule repairs without disturbing production.