Reflective apparatus and method for optically sensing relative torque employing Moirè fringes
First Claim
1. An apparatus for detecting the relative motion between two rotating members in a mechanical system, comprising:
- two identical lasers for generating two identical light beams;
at least one first reflector located on a first rotating member positioned such that the reflection of a first light beam provided from a first of said two identical lasers forms an encoded portion of said first rotating member;
at least one second reflector located on a second rotating member positioned such that the reflection of a second light beam provided from a second of said two identical lasers forms an encoded portion of said second rotating member; and
one detector that detects Moirè
fringes formed as a result of the interaction of images from said first and second encoded portions of said first and second rotating members, wherein said detector is located proximate to said mechanical system.
1 Assignment
0 Petitions
Accused Products
Abstract
Systems and methods analyze the performance of a mechanical system having two identical rotating members therein. Light is directed from two identical light sources to intercept encoded portions of the rotating members. A portion of the light is reflected from the encoded portions of each rotating member. The reflected portion of the light can be then detected to recover performance data maintained therein, wherein the performance data contains performance characteristics of the mechanical system. A reflected portion of the light can be detected to recover performance data. The light sources can be configured as Vertical Cavity Surface Emitting Lasers (VCSEL). The encoded portions of rotating members thereof can include a bar code. Images from a first encoded surface may interact with an image from a second encoded surface after the light beams are reflected off the first and second rotating surfaces to produce Moirè fringes.
83 Citations
15 Claims
-
1. An apparatus for detecting the relative motion between two rotating members in a mechanical system, comprising:
-
two identical lasers for generating two identical light beams;
at least one first reflector located on a first rotating member positioned such that the reflection of a first light beam provided from a first of said two identical lasers forms an encoded portion of said first rotating member;
at least one second reflector located on a second rotating member positioned such that the reflection of a second light beam provided from a second of said two identical lasers forms an encoded portion of said second rotating member; and
one detector that detects Moirè
fringes formed as a result of the interaction of images from said first and second encoded portions of said first and second rotating members, wherein said detector is located proximate to said mechanical system.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
a sensor that analyzes a signal from said detection mechanism, thereby monitoring motion associated with said Moirè
fringes, wherein said sensor is located proximate to said mechanical system.
-
-
3. The apparatus of claim 2 further comprising:
-
at least two collimating lenses located in an optical path of said mechanical system, wherein said collimating lenses render said light beams from said light sources into highly collimated parallel light beams; and
at least two optical elements that operate on said light beams after passing through said at least two collimating lenses, thereby directing said light beams to intercept said encoded portions on said first and second rotating members.
-
-
4. The apparatus of claim 1 wherein light beams from said two Vertical Cavity Surface-Emitting Laser (VCSEL) units are rendered highly collimated by convex collimating lenses before said light beams intercept encoded portions of said first and second rotating members.
-
5. The apparatus of claim 4 wherein said encoded portions comprise:
-
a transparent polymer film having parallel lines of opaque bar code imprinted on an upper surface of said transparent polymer film; and
wherein said parallel lines are spaced evenly, thereby forming a gap therebetween, wherein a width associated with said gap is identical to a width of said parallel lines, such that said transparent polymer film is adhesively attached to a rotating member; and
wherein said parallel lines are positioned at angle in relation to an axis of rotation of said rotating members.
-
-
6. The apparatus of claim 5 wherein:
-
said transparent polymer film comprises a bar code when adhered to a rotating disk; and
wherein said bar code is adhered along a circumferential edge of said rotating member.
-
-
7. The apparatus of claim 1 wherein:
-
said first light beam intercepts said first encoded portion of said first rotating member at an angle of incidence of “
a”
; and
said second light beam, identical to said first light beam, intercepts said second encoded portion of said second rotating member at an angle of incidence of “
a”
;
wherein said first light beam carries an image of a first bar code supported by said first encoded portion after being reflected from said first encoded portion of said first rotating member; and
wherein said second light beam carries an image of a second bar code supported by said second encoded portion after being reflected off said second encoded portion of said second rotating member.
-
-
8. The apparatus of claim 7 wherein the image from said first encoded surface interacts with the image of said second encoded surface after said light beams are reflected off said first and second rotating surfaces to produce Moirè
- fringes.
-
9. The apparatus of claim 8 wherein Moirè
- fringes are observed on a sensor plate.
-
10. The apparatus of claim 9 wherein said sensor plate is located at a Talbot distance from a point where said reflected light beams originate from said encoded surface of said first and second rotating members.
-
11. The apparatus of claim 9 wherein said detector is located on said sensor plate.
-
12. The apparatus of claim 1 wherein said encoded portion of said rotating member is shaped to increase said reflected light in a particular direction.
-
13. The apparatus of claim 1 wherein said encoded portion of a rotating member is shaped to form an optical encoder for encoding data representing performance characteristics of said mechanical system.
-
14. The apparatus of claim 1 wherein said encoded portion of a rotating member is provided as a vernier on said rotating member to increase accuracy for sensing motion thereof.
-
15. The apparatus of claim 1 wherein said encoded portion of said rotating member comprises measuring features recessed into a surface or edge of said rotating member.
Specification