Why does the bus duct need temperature measurement
Closed busbar trunking (abbreviated as busbar trunking) is widely used in power supply systems of high-rise buildings and buildings. But with the rapid increase in electricity consumption, the heating of the bus duct is particularly severe, especially at the connection head, which seriously affects the normal operation of the bus duct and requires real-time monitoring of electricity safety. Traditional temperature sensing cables have serious defects in the setting, quantification, positioning, and reusability of temperature alarm points, which cannot meet the needs of production process management. यद्यपि, high-precision point type thermometers or thermocouples cannot solve the needs of linear and continuous monitoring.
What are the advantages of distributed fiber optic temperature measurement systems
The distributed fiber optic temperature monitoring system adopts a brand new design, with good performance indicators and system stability. This system is developed based on the principles of backward Raman scattering and optical time-domain reflection (OTDR) positioning, and has functions such as optical signal generation, spectral analysis, photoelectric conversion, signal amplification, and processing. The system uses dedicated temperature sensing optical cables as temperature sensors, integrating computer, fiber optic communication, fiber optic sensing, optoelectronic control and other technologies. It has inherent safety, जंग प्रतिरोध, and is not affected by electromagnetic interference. It continuously monitors long-distance and large-scale environmental temperature information.
Characteristics of Distributed Fiber Optic Bus Channel Temperature Monitoring System
Using distributed fiber optic temperature sensing equipment to sense cable temperature and position information for signal detection and transmission, achieving no electricity detection and intrinsic safety explosion-proof;
Using advanced distributed fiber optic temperature sensing as the measurement unit, with advanced technology and high measurement accuracy:
Distributed temperature sensing optical cables have a long-term operating temperature range of -40 ℃ to 150 ℃, with a maximum of 200 ℃, and a wide range of applications;
Adopting a detector single loop measurement method, simple installation and low cost; Can reserve spare cores;
Real time display of temperature in various zones, and the ability to display historical data and change curves, as well as average temperature changes:
The system has a compact structure, simple installation, and convenient maintenance;
Through software, different warning and alarm values can be set according to actual situations; The alarm methods are diverse, including constant temperature alarm, temperature rise rate alarm, and temperature difference alarm.
Through software, data can be queried: point by point query, alarm record query, interval query, historical data query, and report printing.
On site installation diagram of distributed fiber optic bus duct
Distributed fiber optic temperature measurement software interface
Provide a user-friendly and easy-to-use fiber optic temperature monitoring application software. The software mainly includes functional modules such as temperature monitoring, fire alarm, and visual display.
Temperature curve display
The system can display the real-time temperature distribution curve of the entire optical cable, and when there is an abnormal temperature at a certain location, the curve can show whether the temperature at that location increases or decreases.
Historical temperature statistics
Provide historical temperature data statistical analysis function, provide temperature change trends, including:
(1) The temperature distribution curve at different positions of the cable at a certain moment;
(2) The temperature change curve of a cable at a certain point on a certain day;
(3) The temperature change curve at a certain point of the cable during a certain period of time;
(4) The curve of the highest temperature change on a certain day.
Over temperature alarm
Provide various flexible fire alarm methods such as fixed temperature, temperature rise, and regional temperature difference, and the alarm parameters can be graded and set by region. When the measured temperature exceeds the threshold temperature, the system will automatically emit alarm signals such as sound, LED indicator lights, text, and images. If multi-level temperature alarm (such as initial alarm at 30 ℃, pre alarm at 40 ℃, and measures taken at 50 ℃) and temperature rise rate can be set, temperature correction can be made according to different environments. The set value of temperature rise rate can be determined by on-site monitoring.
Visual interface
Provide a visual display interface that maps the fiber optic position to the image through a graphical configuration module. Once a temperature anomaly occurs at a certain point of the fiber optic, the alarm information is directly displayed on the image, making it visually appealing.