| 摘要 |
1,248,853. Measuring displacements electrically. QUANTIC INDUSTRIES Inc. 29 Sept., 1969 [20 Nov., 1968], No. 47787/69. Heading G4U. [Also in Division G2] An optical encoder for sensing angular motion of a shaft uses MoirÚ fringe techniques. A slitted mask 12 is illuminated by a lamp 13 and condenser 14 and the beam is collimated by a lens 16 which directs it to a double reflecting system such as a Porro prism 11 as shown, or an Amici prism or arrangement of two mirrors (not shown), attached to the shaft 10. The reflected light then re-traverses lens 16 and is focused via a semi-reflector 17 on a second slitted mask 18. The mask 12 may comprise an outer ring (23), Fig. 2 (not shown), of regularly spaced slits and an inner ring (24) of irregularly spaced slits; the mask 18 would then comprise a similar outer ring (26, Fig. 3, not shown) with regularly spaced slits at two portions (29, 31) diametrically opposite on the ring, the spacings of these slits being slightly different from the spacings of the corresponding slits on mask 12, together with an inner ring with slits arranged over a portion (32) in a pattern which is the photographic negative of the irregular pattern of the inner ring of mask 12. Photodetectors 19, 21 sense the changing MoirÚ pattern as the shaft 10 and reflector 11 rotate, whilst photodetector 20 provides a reference position of the shaft since. The signals from the outer detectors 19, 21 may be added (Fig. 6) and divided by two and the average value fed to a digital counter which gives an output representative of the angular movement of the shaft. A " transmission prism " arrangement is described with reference to Fig. 5 (not shown). |
