Tower monitoring
Tower monitoring
- inexpensive
- Automatic report generation and delivery
- Early Warning Information Text Messages
- Personalization
System Advantages
shot
Live View 3D Visualization
Beidou+Multi-source Sensor
Risk stability analysis
Short-range heavy rainfall forecast
Monitoring elements
Monitoring Principles
Horizontal and vertical monitoring is realized by satellite RTK differential technology with real-time accuracy of centimeter level and post-decompute accuracy of millimeter level.
Monitoring Principles
GNSS All-in-One
Monitoring Principles
Mainly consists of a pole, wind vane, wind cup, wind speed and wind direction sensor, the wind vane pointing that is the direction of the wind, according to the wind cup speed to calculate the wind speed.
Monitoring equipment
Wind speed and direction sensors
- Monitoring Principles
Converts temperature and humidity quantities into electrical signals that can be easily measured and processed.
- Monitoring equipment
Temperature and humidity sensors
Monitoring Principles
The tilt deformation generated by the structure is transmitted to the tilt sensor via the mounting bracket.
- Monitoring equipment
Sensors for inclinometers
Monitoring Principles
Utilizing the principle of connecting liquid, the liquid level of multiple tanks connected together by connecting tubes is always at the agreed level, and by measuring the liquid level heights of different tanks, the relative difference in settling of each static level can be derived after calculation.
- Monitoring equipment
static level
Monitoring Principles
A strain gauge is attached to a test object so that it expands and contracts with the strain of the test object, and the metal foil inside expands or shortens in response to the strain.
Monitoring equipment
Surface Stress Gauge
- Monitoring Principles
Through the application of video recording, playback, linkage alarm, monitoring strategy formulation and emergency command for remote monitoring objects, it achieves the dual functions of monitoring and communication, and fully meets the needs of remote monitoring and emergency command.
- Monitoring equipment
surveillance camera
Monitoring elements
Working Principle
Horizontal and vertical monitoring is realized by satellite RTK differential technology with real-time accuracy of centimeter level and post-decompute accuracy of millimeter level.
Monitoring equipment
Working Principle
Mainly consists of a pole, wind vane, wind cup, wind speed and wind direction sensor, the wind vane pointing that is the direction of the wind, according to the wind cup speed to calculate the wind speed.
Monitoring equipment
Working Principle
Converts temperature and humidity quantities into electrical signals that can be easily measured and processed.
Monitoring equipment
Working Principle
The tilt deformation generated by the structure is transmitted to the tilt sensor via the mounting bracket.
Monitoring equipment
Working Principle
Utilizing the principle of connecting liquid, the liquid level of several tanks connected together by connecting tubes is always at the same level, and the liquid level of the tanks is always at the same level.
By measuring the liquid level of the impassable tanks, the relative differential settlement of each static level can be calculated.
Monitoring equipment
Working Principle
A strain gauge is attached to a test object so that it expands and contracts with the strain of the test object, and the metal foil inside expands or shortens in response to the strain.
Monitoring equipment
Working Principle
Through the application of video recording, playback, linkage alarm, monitoring strategy formulation and emergency command for remote monitoring objects, it achieves the dual functions of monitoring and communication, and fully meets the needs of remote monitoring and emergency command.
Monitoring equipment
system platform
One Map Platform
A single chart synthesizes information from multiple monitoring programs
Monitoring risk analysis
Multi-source data collection and fusion technology, multi-means early warning analysis, customizable reporting services
Monitoring and early warning mobile
WeChat small program and mobile APP multi-channel display monitoring project
Risk Analysis Functional Module
Fact Sheet
Monitoring the overall status of early warning in the region
GIS + 3D Visualization Integration
Beidou + geotechnical, meteorological and other multi-source sensor fusion
warning message
Red, yellow, orange and blue warning information
Comprehensive analysis of the causes of early warning
Leveled Alert Push
SMS, email and other push methods
data analysis
Trend analysis of Beidou, geotechnical monitoring data
Multi-source data correlation analysis
Improved tangent angle analysis
Stability assessment analysis of the monitoring area
Automatic generation of monitoring reports
Automatically generated by the system according to the settings
Daily, weekly, monthly and annual monitoring reports
Short-range weather warning function module
High-precision three-dimensional water vapor inversion
Real-time high-precision inversion of three-dimensional water vapor content based on ground-based BeiDou.
Real-time dynamic monitoring of regional grid water vapor content.
short-range weather warning
High-time, high-resolution monitoring of temporal and spatial changes in atmospheric water vapor.
Regional grids for short-range weather forecasting can be realized.
Project Cases
High-speed rail communication base station tower automation monitoring
Project BackgroundHigh-speed railway communication base station tower is an important hub of high-speed railway communication network security, which is of great significance and value in the field of high-speed railway. It is difficult for traditional monitoring methods to carry out all-weather automatic monitoring of the displacement of communication towers and the surrounding climate environment, and the put into use of "Automatic Monitoring and Early Warning System for Safe Operation of High-speed Railway Communication Base Station Towers" greatly guarantees the normal operation of high-speed railways.
Project Location: Zhejiang Qingtian High Speed Railway Station
Project period: January 2017-January 2020
Monitoring elements: 1 continuously operating reference station, 2 real-time monitoring stations, 1 real-time meteorological station
State Grid Transmission Line Tower Deformation Monitoring
Project Background: The tower of 220KV Miaozhao 4847 line 35# in Chaohu City, Hefei is located in a landslide area, and transmission line towers are susceptible to tilting, settling or falling under the influence of geological conditions. Once the tower falls, it will cause the transmission line to stop running and the power supply performance to be impaired, and in serious cases, it will even jeopardize the stability of the power grid, resulting in large-scale and long-time power outages. The implementation of the Beidou automated monitoring system for this tower is conducive to timely notification of the tower deformation status.
Project Location: Chaohu City, Hefei City, Anhui Province, China
Project period: April 2020 to present
Monitoring elements: 1 Beidou GNSS reference station, 1 Beidou GNSS surface displacement monitoring station
South Grid transmission line tower deformation monitoring
Project Background: Yunnan 500KV Xiao Chu B line 075 and 076 tower transmission pole tower is located in Yunnan Dali Bai Autonomous Prefecture, 075 tower in the pressure deformation and torsion of the combined force of the combined strain impact, has occurred a slight distortion, a serious threat to the surrounding villages of people's lives and property safety. The establishment of a set of transmission tower attitude safety monitoring and warning system for tower 075 and tower 076 respectively will greatly ensure the safety and stability of the people and facilities in the region.
Project location: Dali Bai Autonomous Prefecture, Yunnan
Project cycle: September 2020
Monitoring elements:: 1 Beidou GNSS reference station, 2 Beidou GNSS surface displacement monitoring stations, 1 meteorological monitoring station