Infrastructure such as bridges, tunnels, and underground pipelines are like the lifeline of a city, and their health and safety are directly related to the normal operation of the city and the quality of life of residents. To ensure the safety and stability of these critical nodes, the application of intelligent acceleration monitoring devices is an important step. However, when it comes to intelligent acceleration monitoring devices, many people may mistakenly believe that they are only limited to monitoring acceleration as a single function. In fact, this high-tech device has demonstrated extraordinary abilities in safeguarding the lifeline of the city with its multifunctional features.
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1、 Vibration acceleration monitoring: accurately capturing dynamic changes
Acceleration monitoring is one of the core functions of intelligent acceleration monitoring devices. By real-time monitoring the acceleration changes of structures such as bridges and tunnels under external forces such as wind and vehicle loads, Senther Technology's 394A three-axis micro vibration sensor and 374A single axis micro vibration sensor can quickly capture small vibrations or abnormal reactions of the structure, providing valuable data support for engineers. These data not only help evaluate the health status of the structure, but also play an important role in disaster warning, accident analysis, and other aspects. For example, in earthquake prone areas, intelligent acceleration monitoring devices can monitor the impact of seismic waves on bridge structures in real time, providing scientific basis for earthquake resistance and disaster reduction.
2、 Tilt angle monitoring: ensuring structural stability
The intelligent acceleration monitor also has tilt angle monitoring function. Tilt angle monitoring refers to real-time monitoring of the tilt angle of a structure in the horizontal or vertical direction. For infrastructure such as bridges and tunnels, even small changes in inclination can have a serious impact on the safety and stability of the structure. Therefore, through tilt angle monitoring, engineers can promptly detect and correct structural tilt issues, ensuring that they maintain good working condition throughout their design lifespan. Tilt monitoring data can also be used to evaluate the deformation of structures during long-term use, providing strong support for structural maintenance and reinforcement.
3、 Temperature Monitoring: Addressing Extreme Climate Challenges
The impact of temperature changes on infrastructure cannot be ignored under extreme weather conditions. The intelligent acceleration monitor can monitor the temperature changes around the structure in real time through its built-in temperature sensor. This function is of great significance in preventing structural damage caused by temperature stress. Bridge structures in cold regions may experience brittle fracture due to sudden temperature drops; In hot areas, material properties may decrease due to high temperatures. Through temperature monitoring, engineers can adjust maintenance strategies based on real-time data to ensure that the structure remains safe and stable even under extreme weather conditions.
The multifunctional characteristics of intelligent acceleration monitoring devices have demonstrated strong comprehensive application capabilities in safeguarding urban lifelines. Through real-time monitoring and analysis of multidimensional data such as acceleration, tilt angle, and temperature, engineers can comprehensively assess the health status and safety risks of infrastructure.
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