Fiber optik temperatur sensoru, Ağıllı monitorinq sistemi, Çində paylanmış fiber optik istehsalçısı
The application of fiber optic sensors
Fiber optic is widely used in the sensing field due to its small size, light weight, corrosion resistance, and resistance to strong electromagnetic interference. Temperature detection is an important application field of fiber optic sensing technology. Compared with traditional electronic temperature sensors, fiber optic temperature sensors can be more widely used in specific fields such as aerospace, nuclear testing research, biomedicine, və s.
There is a certain correspondence between the fluorescence afterglow characteristics of fluorescent materials and temperature, such as light intensity, duration, wavelength, və s. By using this correspondence, various parameters of the fluorescence afterglow stage of fluorescent materials can be measured, and through certain conversions, corresponding temperature data can be obtained. The fiber optic fluorescence temperature measurement probe is one of the key components of the fiber optic fluorescence thermometer designed based on this principle. The fiber optic temperature sensing probe and demodulation method aim to improve the sensitivity of temperature detection while ensuring that the preparation method of the fiber optic temperature sensing probe is simple and the preparation cost is low.
Temperature detection is a crucial process in many fields of industrial production. Currently, there are various types of temperature measurement instruments used in industrial processes, laboratories, or special industrial environments. Onların arasında, fluorescence fiber temperature sensing technology based on the combination of fluorescence technology and fiber optic sensing technology is the most active field. This technology utilizes the fluorescence decay time and temperature related characteristics of fluorescent materials to detect the temperature of the luminescent area. It has the advantages of high reliability, good insulation performance, resistance to electromagnetic interference, good repeatability, fast response speed, and small volume.
What are the types of fiber optic temperature sensors
Fiber optic temperature sensors mainly include fiber optic Fabry Perot, fiber optic grating, and fiber optic fluorescence sensors. And most of the demodulation systems corresponding to these sensors are also implemented using optical demodulation methods. The demodulation systems of the first two sensors are easily affected by environmental factors due to the use of optical demodulation methods. The demodulation system of the fiber optic fluorescence temperature sensor adopts electrical methods. The fiber optic fluorescence temperature measurement probe is compact, easy to bend, corrosion-resistant, and can be used to measure in various environments. As a probe for various measurement equipment, it can work in environments where existing temperature measurement devices are difficult to work. The implementation method is flexible, fast, and has strong universality.
Fiber optic temperature measurement probe
Fiber optic fluorescence temperature measurement probe, including fiber optic protective sleeve, fiber optic connector, fluorescent component, fiber optic and fiber optic protective sleeve base; The fluorescent component is fixed at one end of the optical fiber, and the other end of the optical fiber is fixedly connected to the optical fiber connector; The fiber optic protective sleeve is sheathed on the fiber optic, with one end fixedly connected to the fiber optic connector and the other end sealed and connected to the base of the fiber optic protective sleeve.
The fluorescent fiber optic temperature sensor fiber optic probe has the advantages of simple structure, small volume, light weight, high measurement accuracy, large measurement range, good repeatability, long service life, resistance to chemical corrosion, and electromagnetic interference. The fluorescent fiber optic temperature sensor fiber optic probe comprises a light transmitting fiber optic, one section of which is fixed in the connecting head through epoxy resin, and the other section is set in the protective sleeve; A reflective resin layer is set on the end face of the optical fiber inside the protective sleeve, and a fluorescent layer is set on the reflective resin layer; The protective sleeve is connected to the connector through epoxy resin sealing.