●Temperature zone compensation and data stability: By adopting MEMS micro-electromechanical systems, the errors between shafting systems are perfectly eliminated through high integration. The temperature zone compensation model is used to eliminate the optimal data fluctuation of the shafting system, which is only 0.01mm.
●Accurate direction and reliable precision: Each node is independently calibrated by a high-precision fully automatic calibration system. After assembly, it is calibrated as a whole again to ensure the accuracy in the X, Y, and Z directions. The displacement resolution per section (500mm) can reach up to 0.005mm at most.
●Online transmission and real-time analysis: Supports 4G full network connection, serial port and other communication methods. After installation, simply connect the power supply and make simple Settings. The monitoring data can be collected in real time and transmitted online. The collection frequency can reach once per second. Users can analyze and download the data in real time through the monitoring cloud platform.
●Deviation correction: If the inclinometer tube has already twisted during the initial installation of the flexible inclinometer, the correction can be made based on the Angle between the Mark line direction of the first section of the flexible inclinometer and the direction of the deformation to be measured during installation, ensuring the accuracy of the monitoring direction.
●
●Torsion correction: After the installation of the flexible inclinometer is completed, during the monitoring process, if the inclinometer tube twists, the Angle generated by the twisting process of the inclinometer tube driving the flexible inclinometer to twist can be corrected to ensure the accuracy of the measurement results.
●Secondary development/Platform compatibility: The protocol is open and highly compatible. Users can connect it to data collectors of other brands for data transmission as needed, or send its monitoring data back to other monitoring software for viewing.
●Segmented design/reusability: Adopting a segmented assembly design, users can combine on-site according to the requirements of different monitoring projects, freely splicing the total length of the array displacement meter, truly achieving reusability.
