Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
REMOTE MONITORING METHOD FOR CONSTRUCTION MACHINE AND REMOTE MONITORING SYSTEM FOR CONSTRUCTION MACHINE
To provide a remote monitoring method for a construction machine capable of accurately determining whether a failure has occurred in a construction machine located at a distance and accurately estimating the cause of the failure.SOLUTION: A remote monitoring method for a construction machine that uses a communication line to monitor a construction machine located at a distance includes a failure determination step (S6) of receiving equipment status data indicating the status of a target equipment to be monitored in the construction machine via the communication line, and determining whether a failure has occurred in the construction machine on the basis of the received equipment status data, and a failure cause primary and secondary analysis steps (S7, S8) of analyzing the failure cause of the construction machine on the basis of failure data related to the failure cause when it is determined that a failure has occurred in the construction machine in the failure determination step.SELECTED DRAWING: Figure 2
【課題】遠方に位置する建設機械に故障が発生したか否かを正確に判断することができるとともに、故障の原因を正確に推定することができる建設機械の遠方監視方法を提供する。【解決手段】遠方に位置する建設機械を通信回線を利用して監視する建設機械の遠方監視方法であって、建設機械における監視対象となる対象機器の状態を示す機器状態データを通信回線を介して受信し、受信した機器状態データに基づいて建設機械に故障が発生したか否かを判断する故障判断工程(S6)と、故障判断工程において建設機械に故障が発生したと判断した場合に、故障原因に関する故障データに基づいて建設機械の故障原因を解析する故障原因一次、二次解析工程(S7,S8)とを包含する建設機械の遠方監視方法。【選択図】図2
REMOTE MONITORING METHOD FOR CONSTRUCTION MACHINE AND REMOTE MONITORING SYSTEM FOR CONSTRUCTION MACHINE
To provide a remote monitoring method for a construction machine capable of accurately determining whether a failure has occurred in a construction machine located at a distance and accurately estimating the cause of the failure.SOLUTION: A remote monitoring method for a construction machine that uses a communication line to monitor a construction machine located at a distance includes a failure determination step (S6) of receiving equipment status data indicating the status of a target equipment to be monitored in the construction machine via the communication line, and determining whether a failure has occurred in the construction machine on the basis of the received equipment status data, and a failure cause primary and secondary analysis steps (S7, S8) of analyzing the failure cause of the construction machine on the basis of failure data related to the failure cause when it is determined that a failure has occurred in the construction machine in the failure determination step.SELECTED DRAWING: Figure 2
【課題】遠方に位置する建設機械に故障が発生したか否かを正確に判断することができるとともに、故障の原因を正確に推定することができる建設機械の遠方監視方法を提供する。【解決手段】遠方に位置する建設機械を通信回線を利用して監視する建設機械の遠方監視方法であって、建設機械における監視対象となる対象機器の状態を示す機器状態データを通信回線を介して受信し、受信した機器状態データに基づいて建設機械に故障が発生したか否かを判断する故障判断工程(S6)と、故障判断工程において建設機械に故障が発生したと判断した場合に、故障原因に関する故障データに基づいて建設機械の故障原因を解析する故障原因一次、二次解析工程(S7,S8)とを包含する建設機械の遠方監視方法。【選択図】図2
REMOTE MONITORING METHOD FOR CONSTRUCTION MACHINE AND REMOTE MONITORING SYSTEM FOR CONSTRUCTION MACHINE
建設機械の遠方監視方法、及び建設機械の遠方監視システム
NAKAMURA TAKENOBU (Autor:in) / TANABE TATSUYA (Autor:in) / KISHIMOTO TATSUYUKI (Autor:in)
31.08.2020
Patent
Elektronische Ressource
Japanisch
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