As an important part of water conservancy projects, medium and large sluices undertake multiple functions such as water level regulation, water flow control, flood control and drainage, and play a huge role in flood control and disaster reduction, water resources allocation, and ecological environment improvement. However, due to historical reasons, many sluices have problems such as low construction standards, poor quality, and imperfect supporting facilities. In addition, due to the influence of the idea of "rebuilding light pipes", most sluices lack effective management and maintenance after completion, and there are many safety hazards and prominent risks to safe operation. In order to ensure the safe and stable operation of sluice, find and deal with potential safety hazards in time, sluice safety monitoring system
As an important part of water conservancy projects, medium and large sluices undertake multiple functions such as water level regulation, water flow control, flood control and drainage, and play a huge role in flood control and disaster reduction, water resources allocation, and ecological environment improvement. However, due to historical reasons, many sluices have problems such as low construction standards, poor quality, and imperfect supporting facilities. In addition, due to the influence of the idea of "rebuilding light pipes", most sluices lack effective management and maintenance after completion, and there are many safety hazards and prominent risks to safe operation. In order to ensure the safe and stable operation of sluices and detect and deal with potential safety hazards in a timely manner, the development and application of sluices safety monitoring systems have emerged. The system realizes real-time collection and transmission of sluice operation data by deploying a series of environmental quantity monitoring sensors in the surrounding areas of the sluice and arranging various safety monitoring sensors inside the sluice body. The data collection content includes key information such as water level, flow rate, and gate opening. These data are collected through sensors and transmitted to the digital twin model through the network, so that staff can understand the operating status of the gate in real time, detect and deal with abnormalities in time. With the advancement of science and technology and the rapid development of technologies such as the Internet of Things, big data, and satellite remote sensing, the functions and performance of the sluice safety monitoring system have been significantly improved. The modern sluice safety monitoring system can not only realize real-time monitoring, data analysis, early warning and other functions, but also realize intuitive display of sluice operating status, water flow conditions, water level changes and other data through three-dimensional visualization technology, providing more scientific and accurate basis for management decisions.
The medium and large sluice safety monitoring system is a comprehensive management system that integrates functions such as sensor technology, data collection and processing, remote monitoring and early warning. The system aims to monitor the operating status of the sluice in real time, identify potential safety hazards in a timely manner, and ensure the safe and stable operation of the sluice.
█传感器网络:部署在水闸的关键部位,如闸门、启闭机、支铰等,用于实时监测水闸的变形、应力、振动等参数。
丨 Data collection and processing system: Responsible for collecting data transmitted by the sensor network, pre-processing, storing and analyzing it, and extracting key information for subsequent security assessments.
③ Remote monitoring platform: Provides an intuitive user interface to display real-time monitoring data, historical data and safety assessment results of the sluice, and supports remote operation and early warning functions.
③ Early warning and alarm system: According to the preset safety threshold, real-time monitoring data is analyzed in real time. When the data is abnormal, early warning or alarm is triggered, and relevant personnel are notified to take measures in a timely manner.
③ Real-time monitoring: The system can monitor various parameters of the sluice in real time, such as water level, flow, gate opening, stress, displacement, seepage and vibration. Through real-time monitoring, staff can timely understand the operating status of the sluice and provide basis for the dispatch and operation of the sluice.
丨 Data analysis: The system can conduct in-depth analysis of the collected data and extract useful information. Through the analysis of the data, we can understand the structural health, operating status and potential safety hazards of the sluice, providing scientific basis for the safety assessment and maintenance of the sluice.
█预警报警:当监测到异常情况时,系统能够及时发出预警或报警信号,提醒工作人员采取相应的措施进行处理,避免事故的发生或扩大。
③ Remote monitoring: The system supports remote monitoring functions. Staff can remotely access the monitoring center through the network to view the operating status and data of the sluice in real time. This helps improve work efficiency and reduce labor costs.
③ Three-dimensional visualization: By building a three-dimensional model of the sluice, real-time collection, analysis and visualization of sluice operating status, water flow conditions, water level changes and other data can be realized. In this way, managers can more intuitively understand the operating status of the sluice and improve management efficiency.
█历史数据查询:系统能够记录并存储历史数据,方便工作人员随时查询和比对,了解水闸在过去一段时间内的运行状态和变化趋势,为未来的运行和维护提供参考。
丨 Account management and data security: The system has the function of separately authorizing and managing accounts, and grants different levels of management authority according to the staff's responsibilities. The transmission between data uses an encryption mechanism to ensure data security.
◆ High-precision monitoring: Adopt advanced sensor technology and data processing algorithms to ensure the accuracy and reliability of monitoring data.
④ Real-time early warning: Real-time monitoring and early warning functions can detect potential safety hazards in a timely manner and improve the safety performance of the sluice.
③ Remote management: Support remote monitoring and control, reduce management costs, and improve management efficiency.
③ Extensibility: The system has good extensibility and can add monitoring points and functions according to actual needs.
The significance of medium and large sluice safety monitoring systems is to ensure the safe operation of sluices, optimize water resource allocation, improve flood control and disaster reduction capabilities, and promote the modernization of water conservancy project management. The application of this system is of great significance for improving the safety and efficiency of water conservancy projects. By monitoring the structural status, hydrological data and environmental changes of the sluice in real time, potential risks and problems can be discovered in a timely manner, and corresponding preventive measures can be taken to ensure the stability and durability of the sluice. In addition, through data analysis and model prediction, water resources can be dispatched more scientifically, water resources can be rationally allocated, waste can be reduced, and water resource utilization efficiency can be improved. In terms of flood control, the monitoring system can provide accurate information such as water level and flow, provide scientific basis for flood control decisions and effectively reduce losses caused by flood disasters. In the end, this system will promote the development of water conservancy project management in an intelligent and information-based direction, and improve the management level of the entire water conservancy industry and its ability to respond to emergencies.
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