Įvadas į į darbinis principas infraraudonųjų spindulių termometras
infraraudonųjų spindulių termometras yra komponuojama iš optinė sistema, fotodetektorius, signalas stiprintuvas, signalas apdorojimas, ekranas išėjimas ir kitos dalys: the optical system rens the target infrared radiation energy in its field of view, and the size of the field of view is determined the optical parts of the thermometer. And its position is determined. Infrared energy is focused on the photodetector and converted into a corresponding elektra signalas. Signalas praeina per stiprintuvas ir signalas apdorojimas grandinė, ir is konvertuota į į temperatūrą iš išmatuota taikinys po būtis pataisyta pagal į į the algorithm of the internal treatment of the instrument and the emissivity of the target value.
In gamta, visi objektai su a temperatūra aukštesnė nei absoliutus nulis are nuolat spinduliavimas infraraudonieji spinduliuotė energija į the aplinkinė erdvė. The size of the infrared radiation energy of an object and its distribution according to the wavelength have a very close relationship with its surface temperature. Todėl, pagal matavimas the infraraudonųjų spindulių energija spinduliuojama pagal the object pats, jos paviršius temperatūra gali būti tiksliai nustatyta, kuris yra tikslas pagrindas už infraraudonųjų spindulių temperatūra matavimas.
A blackbody is an idealized radiator, which absorbs all wavelengths of radiant energy, has no reflection or transmission of energy, and has an emissivity of 1 on its surface. However, practical objects in nature are almost not black bodies. In order to clarify and obtain the distribution of infrared radiation, an appropriate model must be selected in theoretical research. This is the quantized oscillator model of body cavity radiation proposed by Planck, thus Derived the law of Planck's black body radiation, that is, the black body spectral radiance expressed by wavelength, which is the starting point of all infrared radiation theories, so it is called the law of black body radiation. The radiation amount of all actual objects depends not only on the radiation wavelength and the temperature of the object, but also on the type of material constituting the object, the preparation method, the thermal process, the surface state and the environmental conditions. Therefore, in order to make the law of black body radiation applicable to all practical objects, a proportional coefficient related to material properties and surface states must be introduced, that is, emissivity. This coefficient indicates how close the thermal radiation of the actual object is to the black body radiation, and its value is between zero and a value less than 1. According to the law of radiation, as long as the emissivity of the material is known, the infrared radiation characteristics of any object are known. The main factors affecting emissivity are: material type, surface roughness
degree, fizinis ir cheminis struktūra ir medžiaga storis, etc.
Kai naudojimas an infraraudonųjų spindulių spinduliuotė termometras to matas temperatūra a taikinys, it is pirmas būtinas matas the infrared radiacija of the target within its band range, and then the temperature of the measured target is calculated by the thermometer. The monochrome thermometer is proportional to the radiation in the band; the two-color thermometer is proportional to the ratio of the radiation in the two bands.
