SU1176182A1 - Apparatus for contactless temperature measurement - Google Patents

Abstract

A non-contact temperature measurement device containing a bridge circuit with measuring and compensating photoresistors, at the output of which an amplifier, a matching stage and a radiation source optically connected to one of the compensation photoresistors are connected in series that, in order to increase the accuracy by stabilizing the radiation source, the matching cascade is designed as a differential amplifier; in addition, a photoresistor is optically coupled to the source m radiation and connected to the inverting input of the differential amplifier and a power source. JV Od 00 K9

Description

The invention relates to radiation pyrometry, in particular, to means for measuring the temperature of heated objects by their own radiation. The purpose of the invention is to increase the measurement accuracy by stabilizing the radiation source. The drawing shows a diagram of the device. The device contains a measuring bridge circuit including photoresistors 1, 2 and 3 and resistors 4, 5 and 6, an amplifier-integrator, made on an operational amplifier 7, a resistor 8 and a capacitor 9, a measuring device 10, a flow control unit of the compensating radiation source, a differential amplifier 11, a resistor 12 and a photoresistor 13, a matching pick-up, made on transistors 14 and 15 and a resistor 16, and compensating the radiation source 17 (the radiation source 17 and photoresistors 3, 13 are made in the same housing and double optocoupler). The device works as follows. Measuring the flux of infrared rays from the body. the temperature of which is measured, is fed to the photoresistor 1, the resistance value of the resistor varies and on the measuring diagonal of the bridge circuit is the voltage unbalance that goes to the amplifier integrator, which is used to eliminate the static measurement error. The integrator output signal is fed to the light source control unit. Due to the large gain factor of the differential amplifier 11, the input differential voltage is zero. the voltage from the output of the integrator is equal to the voltage at the midpoint of the divider formed by the resistor 12 and the photoresistor 13, and this, in turn, is determined by the resistance of the photoresistor 13 depending on the flux of the radiation source 17. The amiter follower on transistors 14 and 15 is used to amplify the current output. Thus, the control unit provides a strictly constant value of the radiation flux of the radiation source 17, which at each time point is determined by the voltage coming from the integrator to the positive input of the differential amplifier, and does not depend on the source parameters. The presence of a radiation flow control system eliminates the need for re-calibration of the device when changing the radiation source, and due to the high speed of the amplifier, the radiation intensity is kept constant during the warm-up period of the source thread, reducing the measurement time. The presence of a luminous flux control unit under conditions of a sharp increase in sensitivity is necessary; it provides the necessary accuracy of measurement.

Claims (1)

(57.) DEVICE FOR NON-CONTACT TEMPERATURE MEASUREMENT, containing a bridge circuit with measuring and compensation photoresistors, at the output of which an amplifier is connected in series, matching a cascade and a radiation source optically connected to one of the compensation photoresistors, characterized in that, in order to increase accuracy by stabilization of the radiation source, the matching stage is made in the form of a differential amplifier, in addition, a photoresistor optically coupled to the radiation source is additionally introduced and connected to the inverting input of a differential amplifier and a power source.