This thesis is dedicated to the development of a device for automated temperature control. The paper examines the basic principles of non-contact pyrometers, their classification, and fields of application. An analysis of literary sources and theoretical foundations related to thermal control using infrared devices is conducted.
The study also justifies the choice of a four-channel radiation pyrometer for controlling the temperature of the insulation of PV-3 1x60 wire. The process of developing the pyrometer's optical system is described, including the selection of materials for lenses and the modeling of optical components.
The proposed solutions ensure accurate and efficient temperature measurement without physical contact with the object, which is critical for industrial conditions where it is necessary to control temperature parameters in real-time. An analysis of the advantages and disadvantages of the developed device is provided, along with recommendations for its use in industrial settings.
Research advisor: A. Protasov
