M50 underwater obstacle avoidance sensor Introduction: The M50 underwater obstacle avoidance sensor is a high-precision measurement device specifically designed for underwater environments. Its application in nearshore water depth measurement can be reflected in the following aspects: 1. Marine surveying and terrain survey: The M50 sensor can be mounted on measuring ships or underwater robots to conduct detailed mapping of marine terrain. By measuring the depth and terrain of the seabed, accurate nautical charts can be drawn, which is crucial for ocean resource development, environmental monitoring, and navigation safety. 2. Underwater structure detection: In marine engineering, M50 sensors can be used to detect underwater structures such as bridges, docks, pipelines, etc., to ensure their safety and stability. By measuring the distance between these structures and the seabed, potential risks and damages can be identified in a timely manner. 3. Environmental Monitoring and Protection: The M50 sensor can help scientists monitor changes in the marine environment, including changes in water depth, sediment distribution, and the condition of marine habitats. This is crucial for protecting marine ecosystems and conducting scientific research. 4. Underwater Archaeology: In the field of underwater archaeology, M50 sensors can be used to detect and map sunken ship sites, ancient ports, and other underwater relics. By accurately measuring the depth and distribution of these sites, archaeologists can better understand history and protect cultural heritage. 5. Underwater robot navigation: M50 sensors can be integrated into underwater robot systems to assist robots in autonomous navigation and obstacle avoidance in complex underwater environments. This is very important for underwater robots that perform underwater search, rescue, and maintenance tasks. Technical parameters: Measurement accuracy: ± 0.5% (maximum range) Size: φ50mm*150mm &&φ; 50mm * 120mm+M30 thread * h25mm Communication: ModBus-RS485 standard protocol Power supply: 10.8 VDC~26.4VDC Environmental temperature:- 20℃< . C <60℃ Protection level: IP68, Withstand voltage 150m Exploration cable: 4-core industrial cable Interface method: aviation plug connector or direct outgoing line
Introduction: The M50 underwater obstacle avoidance sensor is a high-precision measurement device specifically designed for underwater environments. Its application in nearshore water depth measurement can be reflected in the following aspects: 1. Marine surveying and terrain survey: The M50 sensor can be mounted on measuring ships or underwater robots to conduct detailed mapping of marine terrain. By measuring the depth and terrain of the seabed, accurate nautical charts can be drawn, which is crucial for ocean resource development, environmental monitoring, and navigation safety. 2. Underwater structure detection: In marine engineering, M50 sensors can be used to detect underwater structures such as bridges, docks, pipelines, etc., to ensure their safety and stability. By measuring the distance between these structures and the seabed, potential risks and damages can be identified in a timely manner. 3. Environmental Monitoring and Protection: The M50 sensor can help scientists monitor changes in the marine environment, including changes in water depth, sediment distribution, and the condition of marine habitats. This is crucial for protecting marine ecosystems and conducting scientific research. 4. Underwater Archaeology: In the field of underwater archaeology, M50 sensors can be used to detect and map sunken ship sites, ancient ports, and other underwater relics. By accurately measuring the depth and distribution of these sites, archaeologists can better understand history and protect cultural heritage. 5. Underwater robot navigation: M50 sensors can be integrated into underwater robot systems to assist robots in autonomous navigation and obstacle avoidance in complex underwater environments. This is very important for underwater robots that perform underwater search, rescue, and maintenance tasks.
