Basic principles of infrared thermometers
In 1672, it was discovered that sunlight (white light) is composed of light of various colors. At the same time, Newton made the conclusion that monochromatic light is simpler in nature than white light. Use a dichroic prism to decompose sunlight (white light) into monochromatic lights of red, orange, yellow, green, blue, blue, purple, etc. In 1800, the British physicist F. W. Huxel discovered infrared rays when he studied various colored lights from the thermal point of view. When he was studying the heat of various colors of light, he deliberately blocked the first window of the dark room with a dark plate, and opened a rectangular hole in the plate, and a beam splitter prism was installed in the hole. When sunlight passes through the prism, it is decomposed into colored light bands, and a thermometer is used to measure the heat contained in different colors in the light bands. In order to compare with the ambient temperature, Huxel used several thermometers placed near the colored light band as comparative thermometers to measure the ambient temperature. During the experiment, he accidentally discovered a strange phenomenon: a thermometer placed outside the reddish light had a higher value than other temperatures in the room. After trial and error, this so-called high-temperature zone with the most heat is always located outside the red light at the edge of the light band. So he announced that in addition to visible light, there is also a "red light" invisible to the human eye in the radiation emitted by the sun. This invisible "red light" is located outside the red light and is called infrared light. Infrared is a kind of electromagnetic wave, which has the same essence as radio waves and visible light. The discovery of infrared is a leap in human understanding of nature, and it has opened up a new broad road for the research, utilization and development of infrared technology.
The wavelength of infrared rays is between 0.76 and 100 μm. According to the wavelength range, it can be divided into four categories: near infrared, mid infrared, far infrared, and extreme far infrared. Its position in the continuous spectrum of electromagnetic waves is the area between radio waves and visible light. . Infrared radiation is one of the most extensive electromagnetic radiation in nature. It is based on the fact that any object will produce its own molecular and atomic irregular motions in a conventional environment, and continuously radiate thermal infrared energy, molecules and atoms. The more intense the movement, the greater the radiated energy, and vice versa, the smaller the radiated energy.
Objects with a temperature above zero will radiate infrared rays due to their own molecular motion. After the power signal radiated by the object is converted into an electrical signal by the infrared detector, the output signal of the imaging device can completely simulate the spatial distribution of the surface temperature of the scanned object one by one. After being processed by the electronic system, it is transmitted to the display screen and obtained The thermal image corresponding to the heat distribution on the surface of the object. Using this method, it is possible to realize the long-distance thermal state image imaging and temperature measurement of the target and analyze and judge.
