The Device on the Base of the Infrared Pyroelectric Detector for Remote Temperature Measurement for the Axle-Box Units of Rail Transport During Movement
DOI:
https://doi.org/10.15407/scin3.02.034Keywords:
pyroelectric detector, stability to vibrations, infrared, optical scheme, microprocessor.Abstract
The paper presents the device which was designed in Institute of Physics of NASU on the base of the two-spectral radiometer for temperature measurement of the axle-box units of rail transport. Technical parameters of the device allow to install temperature monitoring of train axle-box units during movement. This will considerably increase traffic safety of railway transport.
References
Iona F., Shirane D. Segnetojelektricheskie kristally. M.: Mir, 1965: 387–388 [in Russian].
Kremenchugskij L. S. Segnetojelektricheskie priemniki izluchenija. Kyiv: Nauk. dumka, 1971: 86–90 [in Russian].
Kremenchugskij L. S., Rojcina O. V. Pirojelektricheskie priemniki izluchenija. Kyiv: Nauk. dumka, 1979: 77–78 [in Russian].
Kremenchugskij L. S., Rojcina O. V. Pirojelektricheskie priemnye ustrojstva. Kyiv: Nauk. dumka, 1982: 14–17 [in Russian].
Spravochnik po priemnikam opticheskogo izluchenija. Pod red. L. Z. Kriksunova i L. S. Kremenchugskogo. Kyiv: Tehnika, 1985: 44–47 [in Russian].
Kuz'minov Ju. S. Segnetojelektricheskie kristally dlja upravlenija lazernym izlucheniem. M.: Nauka, 1982: 258–261 [in Russian].
Voronkova E. M., Grechushnikov B. N., Distler G. I., Petrov I. P. Opticheskie materialy dlja infrakrasnoj tehniki. M.: Nauka, 1965 [in Russian].
Anpilov M. V., Dolganin Ju. N. Rezervy povyshenija jeffektivnosti avtomatizirovannyh sistem kontrolja tehnicheskogo sostojanija podvizhnogo sostava. Avtomatika, svjaz', informacija. 2002, No 11: 18–21 [in Russian].
