China University of Mining and Technology’s sensor and detection technology training platform successfully passed the acceptance
  1. Equipped with the latest third-generation sensors, all sensors utilize a detachable assembly method. A single main control device only needs to purchase sensors once throughout its lifetime. If a sensor fails during use, it can be returned to the factory for repair, eliminating the need for subsequent sensor purchases and saving 80% on annual maintenance costs.
  2. The third-generation sensors abandon the glue-based bonding method of the first-generation sensors, avoiding delamination and effectively preventing the release of formaldehyde from adhesives in the laboratory, thus eliminating the risk of human harm.
  3. The third-generation sensors can be disassembled by students themselves (with professional tools), facilitating the demonstration of the structure, enhancing students’ understanding of sensor principles, and stimulating their interest in technological research and development.
  4. The improved piezoelectric sensor produces a smooth and perfect waveform in vibration tests, avoiding waveform distortion or instability issues that are difficult to address in the industry.
  5. The speed measuring turntable uses a snap-fit ​​design, avoiding the use of glue to bond magnets, effectively eliminating the risk of formaldehyde release from adhesives in the laboratory, thus eliminating the risk of human harm. 6. The sensor structure is trending towards industrial-grade sensor design, combining qualitative and quantitative methods with a certain level of accuracy, facilitating computer-based experimental characteristic analysis.
  6. The instrument is equipped with temperature, gas, vibration, and rotation sources. Sensors come with corresponding experimental modules for easy operation and management. After experiments, they can be stored in cabinets on the lab bench and in sensor boxes. Enhanced sensors and modules can be added or custom-made to meet teaching needs.
  7. Various common sources can also be used for student course design, graduation projects, and developmental experiments. Power and signal sources are equipped with protection circuits to ensure student safety and prevent equipment damage in case of misoperation.
  8. All sensors and machined parts are manufactured using new materials in a single molding process, effectively avoiding the risk of paint peeling from the sensor and machined parts casings. Compared to traditional processes, the appearance of various sensors and machined parts is more practical and aesthetically pleasing, making them easier for students to observe and learn from, and easier for teachers to store and organize.