Measuring curvature of transparent or translucent material
First Claim
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1. An apparatus to determine the diameter of the bore, the height of the inside wall, and/or the radius of curvature of the inside wall of a transparent or translucent tube comprising:
- a laser which provides a light beam at a wavelength for which the material being measured is transparent or translucent;
directing means for said laser beam to aim said laser beam toward a tube location and normal to a longitudinal axis of the tube while moving the aimed beam to scan the tube transverse to the longitudinal axis;
light detection means positioned to receive laser light polarized normal to the axis of the tube from said laser beam which laser light has been reflected or refracted by the inside wall of the tube, said light detection means capable of generating signals responsive to the light received, andsignal processing means associated with said light detection means for processing signals to determine the position of the inside wall of the tube by means of analyzing when the signals from said reflected or refracted laser light change from being reflected by to being refracted through the inside wall of the tube.
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Abstract
An apparatus and method to determine with a high degree of precision the position of the inside wall of a translucent or transparent tube comprises a laser beam at a wavelength for which the material being measured is transparent or translucent and a directing means for aiming the laser beam toward the tube and normal to the axis of the tube while moving the aimed beam to traversely scan the tube. A light detection means, positioned to receive light polarized normal to the axis of the tube which light, having been reflected by the inside wall and refracted by the tube, causes the detection means to generate signals. The signals are processed to analyze when the light beam is reflected by and when the light is refracted at the inside wall of the tube. The apparatus is also useful in connection with finding the position of the inside wall of curved material of generally uniform thickness. The method includes the steps of aiming a beam of laser light polarized normal to the axis of the tube and intercepting the outside wall of the tube at a height substantially equal to the inside wall and normal to the axis of the tube so that the laser light reflected by or refracted through the inside wall can be detected and related to the transition point between reflection and refraction as a measure of the radius of curvature of the inside wall.
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Citations
12 Claims
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1. An apparatus to determine the diameter of the bore, the height of the inside wall, and/or the radius of curvature of the inside wall of a transparent or translucent tube comprising:
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a laser which provides a light beam at a wavelength for which the material being measured is transparent or translucent; directing means for said laser beam to aim said laser beam toward a tube location and normal to a longitudinal axis of the tube while moving the aimed beam to scan the tube transverse to the longitudinal axis; light detection means positioned to receive laser light polarized normal to the axis of the tube from said laser beam which laser light has been reflected or refracted by the inside wall of the tube, said light detection means capable of generating signals responsive to the light received, and signal processing means associated with said light detection means for processing signals to determine the position of the inside wall of the tube by means of analyzing when the signals from said reflected or refracted laser light change from being reflected by to being refracted through the inside wall of the tube. - View Dependent Claims (2, 3, 4)
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5. An instrument for finding the radius of curvature of the inside wall of a material curved about an axis which material is translucent or transparent to certain wavelengths of polarized laser light which includes:
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a laser which provides a light beam polarized normal to an axis of the curved material and at a wavelength for which the material is transparent or translucent; laser beam directing means for aiming said laser beam along a path normal to the axis of the curved material, and movement means associated with at least the curved material or said laser beam directing means for directing the path of said laser beam for traversing transverse to the axis of the curved material to change the optical influence of the curved material upon said laser light beam from total reflection off the inside wall of the curved material to refraction at the inside wall of the curved material upon intercepting the outside wall of the curved material at a height substantially equal to the height of the inside wall resulting in a measurable variation on the reflected or refracted light relative to the curvature of the inside wall of the curved material.
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6. A method for finding the radius of the curvature of the inside wall of a tubular member which is transparent or translucent to certain wavelengths of laser light including the following steps:
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aiming a beam of laser light so it is directed normal to an axis of a tubular member and during scanning the tubular member axis transversely with the aimed beam, said tubular member having an outside wall and inside wall; intersecting the outside wall of the tubular member around a height substantially equal to the height of the inside wall and normal to the axis of the tubular member; detecting when laser light polarized normal to the axis of the tubular member is totally reflected by the inside wall of the tubular member; detecting when laser light polarized normal to the axis of the tubular member is refracted at the inside wall of the tubular member, and relating the transition point between reflection and refraction to the position of the inside wall of the tubular member. - View Dependent Claims (7, 8, 9)
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10. A method of forming a tubular member which is transparent or translucent to certain wavelengths of laser light including the following steps:
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drawing a tubular member having an outside wall and an inside wall from glass heated to a molten, workable and flowable state; aiming a beam of laser light so it is directed normal to an axis of the drawn tubular member; scanning the tubular member transverse to the axis with the aimed beam; intersecting the outside wall of the tubular member around a height substantially equal to the height of the inside wall and normal to the axis of the tubular member; detecting when laser light polarized normal to the axis of the tubular member is totally reflected by the inside wall of the tubular member; detecting when laser light polarized normal to the axis of the tubular member is refracted through the inside wall of the tubular member, and relating the transition point between reflection and refraction to the position of the inside wall of the tubular member. - View Dependent Claims (12)
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11. The method of claim wherein the step of drawing produces an elongate tubular member.
Specification
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Current AssigneeBecton, Dickinson & Co
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Original AssigneeBecton, Dickinson & Co
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InventorsMersch, Steve
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Primary Examiner(s)Nelms, David C.
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Application NumberUS07/194,614Time in Patent Office463 DaysField of Search250/560, 250/561, 250/223 B, 250/235, 250/225, 356/381, 356/382, 356/386, 356/387, 356/239, 356/240US Class Current250/559.22CPC Class CodesG01B 11/08 for measuring diametersG01B 11/12 internal diametersG01B 11/255 for measuring radius of cur...G01B 11/272 using photoelectric detecti...
