Hands on control and monitoring
Currently, non-contact methods cannot accurately locate partial discharge in switchgear at distribution stations. However, the robotic acoustic imaging system offers dynamic monitoring of switchgear, allowing for timely pinpointing of partial discharge points. This solution can reduce up to 80% of the manual inspection workload.
Robot inspection routes are established along fixed lines at the station, enabling periodic monitoring of various equipment and data collection. This system meets the demands for low cost, full coverage, and enhanced visualization. It also supports 5G intelligent transformation, integrating multiple detection devices to provide multi-dimensional sensing of industrial factors such as sound, light, and electricity, while seamlessly interconnecting data and platforms.
Currently, non-contact methods cannot accurately locate partial discharge in switchgear at distribution stations. However, the robotic acoustic imaging system offers dynamic monitoring of switchgear, allowing for timely pinpointing of partial discharge points. This solution can reduce up to 80% of the manual inspection workload.
Currently, non-contact methods cannot accurately locate partial discharge in switchgear at distribution stations. However, the robotic acoustic imaging system offers dynamic monitoring of switchgear, allowing for timely pinpointing of partial discharge points. This solution can reduce up to 80% of the manual inspection workload.
Currently, non-contact methods cannot accurately locate partial discharge in switchgear at distribution stations. However, the robotic acoustic imaging system offers dynamic monitoring of switchgear, allowing for timely pinpointing of partial discharge points. This solution can reduce up to 80% of the manual inspection workload.
Robot inspection routes are established along fixed lines at the station, enabling periodic monitoring of various equipment and data collection. This system meets the demands for low cost, full coverage, and enhanced visualization. It also supports 5G intelligent transformation, integrating multiple detection devices to provide multi-dimensional sensing of industrial factors such as sound, light, and electricity, while seamlessly interconnecting data and platforms.
Robot inspection routes are established along fixed lines at the station, enabling periodic monitoring of various equipment and data collection. This system meets the demands for low cost, full coverage, and enhanced visualization. It also supports 5G intelligent transformation, integrating multiple detection devices to provide multi-dimensional sensing of industrial factors such as sound, light, and electricity, while seamlessly interconnecting data and platforms.
Robot inspection routes are established along fixed lines at the station, enabling periodic monitoring of various equipment and data collection. This system meets the demands for low cost, full coverage, and enhanced visualization. It also supports 5G intelligent transformation, integrating multiple detection devices to provide multi-dimensional sensing of industrial factors such as sound, light, and electricity, while seamlessly interconnecting data and platforms.
Currently, non-contact methods cannot accurately locate partial discharge in switchgear at distribution stations. However, the robotic acoustic imaging system offers dynamic monitoring of switchgear, allowing for timely pinpointing of partial discharge points. This solution can reduce up to 80% of the manual inspection workload.
Robot inspection routes are established along fixed lines at the station, enabling periodic monitoring of various equipment and data collection. This system meets the demands for low cost, full coverage, and enhanced visualization. It also supports 5G intelligent transformation, integrating multiple detection devices to provide multi-dimensional sensing of industrial factors such as sound, light, and electricity, while seamlessly interconnecting data and platforms.
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System Devices
The CRY2623M Fixed Acoustic Imaging Camera utilizes advanced microphone array beamforming technology to map sound source distribution and integrates with high-definition cameras for real-time video capture.
This system supports remote monitoring via local networks (LAN, WiFi) and wide area networks (WAN, ADSL, 4G, and private networks), facilitating industrial digital transformation. It enables real-time video monitoring and provides valuable insights into product quality and safety, allowing for the rapid detection of issues in compressors, pumps, pipes, cables, and more. With an IP66 protection rating, the CRY2623M is built to perform reliably in various harsh environments.