SU872987A1 - Photoelastic transducer - Google Patents

Description

(, 54) PHOTOELASTIC CONVERTER

Claims (2)

The invention relates to load-measuring equipment and can be used in load-measuring devices by accelerometers, force meters, etc. Photoelastic transformations are known, which use a polarization-optical system and a differential measurement circuit in combination with an auto-amplified light flow control system. . The disadvantage of data converters is the nonlinearity of their static characteristics. The closest in technical essence to the invention is a device comprising a successively located light source, a polarizer, a photoelastic element, a jam and an electronic circuit consisting of; from two photodetectors connected in series to a constant voltage source , amplifier and G2X driver. However, the stability of the converter operation depends on the parameters of the polarization-optical circuit and photodetectors, therefore the accuracy of the device is lower than tic. The purpose of the invention is to improve accuracy, simplify the setup and operation of a photoelastic converter. The goal is achieved by introducing into the electronic circuit of a photointer converter a summediner and subtractor device and a rectifier, while the constant voltage source is connected to one of the inputs of the summing and subtracting device and amplifier, generator output connected to the second inputs of the summing and subtracting devices and the input of the rectifier, the output of which is connected to the second input of the amplifier connected the output to the amplitude control input of the generator, and the outputs of the summing and subtractive devices are connected to one output of the photodetectors, the second outputs of which are connected and connected to the driver. The drawing shows schematically the proposed photoelastic converter. The converter contains a light source, the luminous flux from which enters the polarization-optical system (LOS) 2, consisting of successively located polarizer 3, photoelastic element (FES) 4, and bianalyzer 5. Two beams Φ ., and F, which are fed to the photoresistors 6 and 7, respectively, connected sequentially. A shaper 8 is connected to the common connection point of the photoresistors, and the outputs of the summing and subtracting devices 9 and 10 are connected to the free ends of the photoresistors. A constant voltage source 11 is connected to one of the inputs of the summing and subtracting devices and amplifiers: power 12. The output of the generator 13 is connected to the second inputs of the summing and subtracting devices, and the input of the rectifier 14, the output of which is connected to the second input of the amplifier 12 connected to the output of the control of the amplitude of the generator. The device operates as follows. In PIC 2, under the action of a measured value P), light signals Fp are generated. Using photoresis, tori 6 and 7, the light signals Φ and Φ are transformed, into electric currents -t h. Shaper 8 is triggered at times when the difference between the currents i -in of photoreistors is zero. When the conditions Kd, Q,, are fulfilled, the duration of the pulses at the output of the form-equalizer is -ty, -M KoF I, where w is the frequency of the generator 12; K (h is the sensitivity of the FUE. The pulse duration at the output of the former is linearly connected, with measurable force and independent: the unstable light source flux, the loss of light in the PIC, the sensitivity of the photoresistor, and depends on the transfer coefficients of the summer and subtractive devices and rectifiers that, in the practical implementation of summing and subtracting devices and rectifiers based on integrated operational amplifiers, provides not only high accuracy of the initial conditions but also the stability of these conditions over a wide range of changes in ambient temperature. Formula voltage, harmonic oscillator, amplifier and driver, characterized in that, in order to improve accuracy, simplify the configuration and operation of the photoelastic transducer l, the summing and subtracting devices and the rectifier are entered into it, the DC source is connected to one of the inputs of the summing and subtracting devices and the amplifier, the generator output is connected to the second inputs of the summing and subtracting devices - and the rectifier input, whose output enabled on. the second input of the amplifier connected to the output of the generator amplitude control input, and the outputs of the summing and subtracting devices are connected to one output of the photodetectors, the second outputs of which are connected and connected to the driver. Sources of information taken into account in the examination 1. USSR author's certificate number 567964, cl. G OIL 1/24, 1972. 2. USSR author's certificate number 637734, cl. With OIL 1/24, 1977. (prototype.). .