SU1125489A1 - Device for measuring object angular position - Google Patents

Abstract

1. DEVICE LNA MEASURED COVER POSITION OF AN OBJECT containing optically coupled modulated light source with a readout unit - modulation frequency, optical system, coordinate-sensitive photodetector, two differential amplifiers and a recording unit, whose inputs are connected to the outputs of differential amplifiers, distinguished by that, in order to increase measurement accuracy, it is equipped with a shutter, blocking the light flux of the modulated light source, four adders, the first inputs of which are connected They are connected to the outputs of the coordinate-sensitive photo-standard, the outputs of the adders are connected with the inputs of the differential amplifiers, the unit for the formation of the supporting voltages, the control input ko. second, through a switch, connected to the output of the modulation frequency reading unit, the outputs of the reference voltage generation unit are connected to the second inputs of the adders. 2. A device according to claim 1, characterized in that the forming unit, the reference voltages are made in the form of a set of modulators, two phase inverters, a phase rotation generator, and a band-pass filter, whose input is the input of the block and the output of the band-pass filter connected to the inputs of the modulators The outputs of which are the outputs of the block, the output of the generator is connected to the control input of the first modulator, the input of the phase shifter and the input of the first phase inverter, the outputs of which are connected to the control input of the second modulator, the output of the phase shifter is connected to control of the third modulator input and the second phase inverter input, the output of which is connected to the control input of the fourth modulator.

Description

The invention relates to a measuring technique and can be used to measure the angular position of various objects, for example when centering lenses. A device for measuring the angular position of an object is known, comprising an optically coupled light source, an optical system, a coordinate-sensitive photomultiplier, a differential amplifier, and a ClJ recording unit. The disadvantage of the yctrometer is the low accuracy of measurements performed by DC operation. The device closest to the invention in its technical essence is a device for measuring the angular position of an object, containing an optically coupled modulated light source with a modulation frequency reading unit, an optical system, -sensitive photodetector, dual-differential amplifier and recording unit, the inputs of which are connected to the outputs of differential amplifiers 2. A disadvantage of the known devices is are drift measurement results when working with weak svetov1mi streams. The aim of the invention is to improve the measurement accuracy. This goal is achieved by the fact that a device for measuring the angular position of an object, containing an optically coupled source of modulated light with a modulation frequency reading block, an optical system, a coordinate-sensitive photodetector, two differential amplifiers and a recording unit, whose inputs are connected to the outputs of the differential amplifiers, equipped with a curtain, blocking the luminous flux of the modulated light source, four adders, the first inputs of which are connected to the outputs of the coordinate-sensing Yelnia fotopri emnika, the outputs of adders are coupled with the inputs of differential amplifier unit for generating a reference voltage, the control input of which is connected through a switch to the output frequency of the read unit block modulation outputs tion generating reference voltages are connected to second inputs of op with ummat in. In addition, the reference voltage generation unit is made in the form of four modulators, two phase inverters, a phase shifter generator and a bandpass filter whose input is the input of the block, the output of the bandpass filter is connected to the inputs of the modulators whose outputs are the output of the block, the output of the generator connected to the control input of the first modulator, the input of the phase shifter and the input of the first phase inverter, the outputs of which are connected to the control input of the second modulator, the output of the phase shifter is connected to the control input of the third motor Str torus and the input of the second phase inverter whose output is connected to the control input of the fourth modulator. The drawing shows the functional diagram of the device. The device comprises a light source 1, a power supply unit 2, a condenser 3, a luminous flux modulation unit 4 with a modulation frequency reading unit consisting of a modulator 5, a modulator drive 6, a light guide 7, an additional photodetector 8, aperture 9, aperture diaphragm 10, a translucent element 11, a colliding lens 12, a focusing lens 13, a modulating aperture 1.4, a shutter 15, a blocking light flux, a coordinate-sensitive photodetector 16, adders 17-20, the first inputs of which are connected to a coordinate-sensitive photodetector 16, an information signaling unit 21, consisting of series-connected band-pass filters 22-25, whose inputs are connected to the outputs of adders 17, detectors 26-29, low-pass filters 30-33, differential amplifiers 34 and 35, whose inputs are connected to the outputs of the filters 30-33, registration unit 36, whose inputs are connected to the outputs of differential amplifiers 34 and 35, adder 37, whose inputs are connected to the outputs of low-pass filters, indicator 3.8 connected to the output of adder 37, voltage-generating unit 39 , with The rest of the modulators 40-43, the outputs of which are connected to the second inputs of the adders 17-20 of the band-pass filter 44, the input of which is connected to the output of the additional photoelectric 8,

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phase inverters 45 and 46, the outputs of which are connected to the control inputs of the modulators 41 and 43, generator 47, the output of which is connected to the control input of the modulator 40, the input of the phase inverter 45 and the input of the phase rotator 48, the output of which is connected to the control input of the modulator 42 and input fazoin: sertor 46, key 49, connecting the output of the band-pass filter 44 and control inputs of the modulators 40-43.

Element 50 of the optical system is monitored.

The device works as follows.

The image of the source 1 of the light supplied by the power supply unit 2 is projected by the condenser 3 into the plane of installation of the diaphragm 9. The image of the diaphragm 9 is transmitted to the plane of installation of the modulating diaphragm using a translucent element 11, collimating 12 and focusing 13 lenses. 14

The luminous flux transmitted through the modulating aperture 14 falls on the coordinate-sensitive photodetector 16, from which output the information signals are amplified by adders 17-20. The first harmonic component of the information signals is provided by bandpass filters 22-25 and 30-33. The signals from the filters 30 and 31 of the lower frequencies are fed to the differential amplifier 34, and from the output of the filters 32 and 33 of the lower frequencies to the differential amplifier 35.

The signals from the output of the differential amplifiers 34 and 35 are fed to the inputs of the -36 registration unit.

Information signals from the output of the filters 30-33 are also fed to the inputs of the zgmmator 37, from which output the sum of the voltages is indicated by the indicator 38.

The light flux is modulated by the modulator disk 5, which is rotated by the drive 6, intermittently interrupting the light flux by raster gratings.

The reference signal with a frequency equal to the modulation frequency is read by means of the light guide 7 and the additional photodetector 8 and enters

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on the bandpass filter 44, the first harmonic component is present.

The signal through the switch 49 is fed to the inputs of the modulators 405 43, the output of which is fed to the second inputs of the adders 17-20.

The modulators are controlled by generator 47, the output signals from which are fed to 0 by the control input of the modulator 4O, and shifted by 180 ° by the phase inverter 45 to the control input of the modulator 4 1.

Signals from oscillator 47, shifted in phase by 9rf by phase shifter 48, are fed to control 1 st input of modulator 42, and shifted by 180 by phase inverter 46 to control input of modulator 43.

0 The output signals of the modulators 4043 have a frequency equal to the modulation frequency of the light flux by the disk of the modulator 5, and are modulated in amplitude with a frequency equal to the frequency of the oscillator 47, and the envelope phases at the outputs of the modulators 4043 are shifted relative to each other by 90

The luminous flux may overlap with element 15.

The aperture diaphragm 10 limits the aperture of the rays emanating from the diaphragm 9.

When the element 50 of the controlled optical system rotates in the case of its decentration, the image of the diaphragm 9 describes a circle along the surface of the coordinate-sensitive photodetector.

The signals from the coordinate-sensitive photodetector 16, the difference of which is proportional to the shift of the light spot, i.e. The de-centering is formed at the output of the differential amplifiers 34 and 35 and is indicated by the registration unit 36.

The noise components of the signal taken from the coordinate-sensitive photodetector 16 are filtered out by band-pass filters 22-25 and do not affect the result of the control.

The focusing on the monitored surface is carried out with the help of focusing power1 (its lens 12 and is controlled by max: at indicator readings 38. In the case of: changes in the value of the total light

Claims (2)

1. A DEVICE FOR MEASURING AN ANGLE APPOSITION OF AN OBJECT, containing optically coupled modulated light source with a read-modulation frequency unit, an optical system, a coordinate-sensitive photodetector, two differential amplifiers and a recording unit, the inputs of which are connected to the outputs of differential amplifiers, characterized in that, in order to increase the accuracy of measurements, it is equipped with a curtain that blocks the luminous flux of the modulated light source, four adders, the first inputs of which are connected to the outputs of the coordinate-sensitive photodetector, the outputs of the adders are connected to the inputs of the differential amplifiers, the reference voltage generation unit, the control input of which is connected via a key to the output of the modulation frequency reader, the outputs of the reference voltage generation unit are connected to the second inputs of the adders. 2. The device according to claim 1, characterized in that the forming unit. The reference voltage is made in the form of four modulators, two phase inverters, a phase shifter generator and a bandpass filter, the input of which is the input of the block, the output of the bandpass filter is connected to the inputs of the modulators, the outputs of which are the outputs of the block, the generator output is connected to the control input of the first modulator, the input phase shifter and the input of the first phase inverter, the outputs of which are connected to the control input of the second modulator, the output of the phase shifter is connected to the control input of the third modulator and the input of the second phase nvertora whose output is connected to the control input of the fourth modulator. >