SU1693380A1 - Photoelectric displacement converter - Google Patents

Abstract

The invention relates to a measurement technique. The purpose of the invention is to increase the resolution of a converter. Light source 1 Generates a radiation flux, which, after passing through the capacitor 2, passes the measuring raster 3, the indicator raster 4 and the additional indicator raster 5, a coarse signal is detected from the photodetectors 6, detected by the signal processing unit 9. With the threshold device 8 connected to the additional photodetectors 7, the signals of the exact counting are recorded, fixed by the signal processing unit 9. Accurate reading signals are generated by the vernial matching of the measuring raster 3 and the additional indicator raster 5. 2 Il.

Description

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The invention relates to a measurement technique and can be used to measure linear and angular movements of various objects.

A device for measuring movement is known, comprising a radiation source, a lens, a raster junction of measuring and indicator grids with four groups of strokes, a group of photodetectors by the number of groups of strokes, one risk of origin, on each grid with appropriate photoreceivers, and a processing circuit signal 1.

The disadvantage of the device is low resolution due to low sampling rate.

A photoelectric displacement transducer is known, which contains a radiation source, a condenser lens, a raster junction of measuring and indicator plates, containing four groups of raster gratings displaced from one another by a quarter of a period, a block of photodetectors, and a signal processing circuit that further divides the signal 2.

A disadvantage of the known transducer is the low measurement accuracy due to the influence of the raster scale application error and the errors introduced by the processing unit when dividing the signal period.

The aim of the invention is to improve the accuracy by providing, in addition to a coarse and accurate reading in the optical path.

The purpose of the invention is achieved in that in a photoelectric displacement transducer containing an optically coupled light source, a condenser lens, a measuring raster with a scale, an indicator raster with a scale and photoreceivers, a signal processing unit whose input is connected to photodetectors, a threshold device is inserted, additional photodetectors, the indicator raster is made with an additional scale, which forms a cone junction and with the scale of the measuring raster. It is an accurate reference scale, additional photodetectors are located in the areas of the formation of vernier bands, the threshold device is connected to additional photoreceivers and a signal processing unit by inputs and outputs.

Figure 1 presents the functional diagram of the Converter; Fig. 2 shows the construction of measuring and indicator rasters and the arrangement of additional photodetectors.

The converter contains optically coupled light source 1, a condenser 2, a measuring 3 and an indicator 4 rasters, an additional indicator raster 5, which forms with the measuring raster 3 a bottom conjugation, photodetectors 6, additional photodetectors 7 located in the zones of the formation of combinational cone bands threshold

a device 8, the inputs of which are connected to additional photo-perimeters 7, a signal processing unit 9, the inputs of which are connected to the photo-detectors 6 and the outputs of the threshold device 8.

The Converter operates as follows.

The light source 1 generates a radiation flux directed to condenser 2. The radiation flux passed through the measuring and indicator rasters 3-5 generates electrical signals at the outputs of the photoreceivers 6 and additional photoreceivers 7, the amplitude of which changes as the measuring raster 3 moves.

The signal processing unit 9 fixes the amount of coarse movement of the measuring raster 3 by the number of signals generated at the output of the photodetectors 6. One signal is formed when the measuring raster is moved by an amount equal to one period of the dashed grid applied to the measuring raster 3. When the measuring raster 3 is moved by equal to one period

the dashed grating; at the outputs of the additional photodetectors 7, signals are successively formed, the number of which is equal to the number of combination moire bands formed by the measuring raster 3 and the additional indicator raster 5.

The signals generated at the outputs of the additional photodetectors 5 are fed to the threshold device 8, which discriminates in amplitude, and then to the input of the signal processing unit 9.

The signal processing unit 9 fixes the movement of the measuring raster 3 by an amount less than the dashed period.

gratings applied to the measuring raster 3.

The use of the converter allows to increase its resolution to a value shorter than the period

dashed grating deposited on the measuring raster.

Claims (1)

The invention of a photoelectric displacement transducer comprising an optically coupled light source, a condenser lens, a measuring raster with a scale, an indicating raster with a scale, photodetectors, a signal processing unit, the input of which is associated with photodetectors, characterized in that it is equipped with a threshold device, additional photodetectors, the indicator raster is made with additional With a scale that forms a vernier conjugation with an exact counting scale with the scale of the measuring raster, additional photoreceivers are located in the zones of formation of combinational cone strips, the threshold device is connected to additional photoreceivers and a signal processing unit. T7 T T T T i w o w w 2