Infrared temperature measurement technology is a very common non-contact temperature measurement technology, which can quickly and accurately measure the surface temperature of an object by detecting the infrared radiation emitted by the object. However, different environmental conditions will have a certain impact on the accuracy of infrared temperature measurement, so it is necessary to analyze the influence of infrared temperature measurement in different environments in practical applications.

(1) The influence of temperature environment on infrared temperature measurement is more significant. In an environment of extreme high or low temperature, the accuracy of infrared thermometers will be affected. In an extremely high temperature environment, the surface of the object will produce strong radiation, which may cause the measurement result of the infrared thermometer to be too high. In an extremely low temperature environment, the radiant energy on the surface of the object will be limited, which may lead to low measurement results of the infrared thermometer. Therefore, the use of infrared temperature measurement technology in extreme temperature environments requires correction and calibration to ensure the accuracy of the measurement results.

(2) Ambient humidity will also have a certain impact on the accuracy of infrared temperature measurement. In a high humidity environment, due to the absorption of infrared radiation by moisture molecules, the measurement results of infrared thermometers may be low. Therefore, it is necessary to pay attention to the influence of humidity when using infrared temperature measurement technology in a high humidity environment, and to correct and calibrate it.

(3) The gas in the environment will also affect the infrared temperature measurement. In an environment containing a large amount of gas, gas molecules will absorb infrared radiation, thereby affecting the measurement results of infrared thermometers. For example, in the environment of smoke, dust, steam, etc., the measurement results of infrared thermometers may be high or low. Therefore, the use of infrared temperature measurement technology in these environments requires correction and calibration to ensure the accuracy of the measurement results.

(4) The lighting conditions in the environment will also affect the accuracy of infrared temperature measurement. Under strong lighting conditions, the infrared thermometer may not be able to accurately detect the infrared radiation on the surface of the object, thus affecting the measurement results. Therefore, the use of infrared temperature measurement technology in a strong light environment requires correction and calibration to ensure the accuracy of the measurement results. To sum up, different environmental conditions will have a certain impact on the accuracy of infrared temperature measurement. In practical application, it needs to be corrected and calibrated according to specific environmental conditions to ensure the accuracy and reliability of infrared temperature measurement technology.