Apparatus for detecting impurities in translucent bodies
First Claim
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1. An apparatus for detecting impurities in translucent bodies, comprising:
- (a) a source for producing a concentrated light beam, the light beam having a relatively small cross-sectional area,(b) transport means for moving translucent bodies through the light beam, light from the source impinging upon a pure translucent body being diffused within the body so as to illuminate a surface area of the body larger than the cross-sectional area of the light beam, but light from the source impinging upon an impurity in the translucent body being diffused to a lesser extent,(c) receiving means for receiving light from the translucent bodies, the receiving means having a field of view much larger than the cross-sectional area of the light beam so that the receiving means receives less light when the beam impinges upon an impurity than when the beam impinges upon the translucent body without impurities, and the receiving means producing a signal proportional to the intensity of the light it receives, anda mirror operatively interposed between the concentrated light beam source and the transport means, the light beam passing through an opening in the mirror, and the mirror being arranged to reflect light, from translucent bodies passing through the beam, to the receiving means.
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Accused Products
Abstract
An apparatus including a source for producing a concentrated light beam, such as a laser, a background spaced from the source against which the light beam is directed, and a transport arrangement for moving translucent bodies, such as French cut potatoes, through the light beam. Another light source illuminates the background independently of the concentrated light beam. A receiver receives light reflected from the background and from translucent bodies moving through the light beam, as well as from the independent light source illuminating the background. The receiver produces an output signal which changes when an impurity enters the concentrated light beam, and this changed signal is used to operate a device which removes the impurity from the remainder of the translucent bodies. The light beam may be scanned across a plurality of rows of moving bodies by directing the beam at a rapidly rotating multifaceted mirror. Circuitry is employed to indicate which row contains the sensed impurity so as to direct the appropriate impurity-removing device to operate.
33 Citations
2 Claims
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1. An apparatus for detecting impurities in translucent bodies, comprising:
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(a) a source for producing a concentrated light beam, the light beam having a relatively small cross-sectional area, (b) transport means for moving translucent bodies through the light beam, light from the source impinging upon a pure translucent body being diffused within the body so as to illuminate a surface area of the body larger than the cross-sectional area of the light beam, but light from the source impinging upon an impurity in the translucent body being diffused to a lesser extent, (c) receiving means for receiving light from the translucent bodies, the receiving means having a field of view much larger than the cross-sectional area of the light beam so that the receiving means receives less light when the beam impinges upon an impurity than when the beam impinges upon the translucent body without impurities, and the receiving means producing a signal proportional to the intensity of the light it receives, and a mirror operatively interposed between the concentrated light beam source and the transport means, the light beam passing through an opening in the mirror, and the mirror being arranged to reflect light, from translucent bodies passing through the beam, to the receiving means.
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2. An apparatus for detecting impurities in translucent bodies, comprising:
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(a) a source for producing a concentrated light beam, the light beam having a relatively small cross-sectional area, (b) means for causing the concentrated light beam to repeatedly scan along a path, the scanning means including a multifaceted mirror and means for rapidly rotating the mirror to sequentially bring each facet into the concentrated light beam, (c) transport means for moving a plurality or rows of transluent bodies simultaneously through the light beam path in a direction transverse to the path, light from the source impinging upon a pure translucent body being diffused within the body so as to illuminate a surface area of the body larger than the cross-sectional area of the light beam, but light from the source impinging upon an impurity in the translucent body being diffused to a lesser extent, (d) receiving means for receiving light from the translucent bodies, the receiving means having a field of view much larger than the cross-sectional area of the light beam so that the receiving means receives less light when the beam impinges upon an impurity than when the beam impinges upon the translucent body without impurities, and the receiving means producing a signal proportional to the intensity of the light it receives, and (e) a planar mirror operatively interposed between the multifaceted mirror and the receiving means, so that each facet at the time it reflects the concentrated light beam toward the translucent bodies also reflects light from the translucent bodies toward the receiving means via the planar mirror.
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Specification
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Current AssigneeElbicon N.V.
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Original AssigneeSupernova Systems Incorporated
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InventorsBillion, Leo
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Primary Examiner(s)NOT, DEFINED
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Assistant Examiner(s)Foster, Glenn B.
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Application NumberUS06/750,872Time in Patent Office557 DaysField of Search209/552, 209/559, 209/576, 209/577, 209/578, 209/579, 209/585, 209/587, 209/588, 356/433-435, 250/578, 250/562, 250/563, 250/572, 83/364, 83/365, 83/371US Class Current250/559.45CPC Class CodesB07C 5/342 according to optical proper...
