Optical encoder comprising a plurality of encoder wheels

US 5,640,007 A
Filed: 06/21/1995
Issued: 06/17/1997
Est. Priority Date: 06/21/1995
Status: Expired due to Term

First Claim

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1. An absolute encoder comprising:

a plurality of rotatably mounted encoder wheels, each encoder wheel including at least one code sequence defining a series of slots through said wheel at spaced separation extending concentrically around the encoder wheel, whereby said plurality of encoder wheels in combination define a plurality of code sequences, wherein said plurality of code sequences comprise a predetermined number of absolute code sequences and at least one incremental code sequence;

attachment means for rotatably connecting said encoder wheels;

sensing means including light emitting means for illuminating a defined region of a predetermined number of said plurality of code sequences of said encoder wheels and detector means for identifying light illuminated by said light emitting means passing through each said encoder wheel when a slot comprises the defined region of said code sequence; and

control means for identifying a position of said absolute encoder, wherein said absolute encoder operates in at least first and second modes, said control means communicating with said sensing means for monitoring said defined region of each of said absolute code sequences to identify a position of said absolute encoder when said absolute encoder is operating in said first mode, said control means communicating with said sensing means for monitoring at least during a defined first time interval only said defined region of said at least one incremental code sequence, to identify a position of said absolute encoder when said absolute encoder is operating in said second mode.

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Abstract

An absolute encoder monitors rotary position and senses rotary displacement relative to a measuring scale. The absolute encoder evaluates rotary displacement by providing a plurality of rotatably mounted encoder wheels, and each wheel includes at least one code sequence which in combination comprises the measuring scale. A pinion is provided between each pair of encoder wheels in order that each of the encoder wheels will be rotated upon the rotation of the shaft. Each code sequence of the encoder wheel is monitored by a sensing mechanism and this information is utilized to evaluate the shaft position. The sensing mechanism includes both light emitting and light detecting devices which monitor a defined region of each code sequence and this is evaluated in determining the rotary position.

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34 Claims

1. An absolute encoder comprising:
- a plurality of rotatably mounted encoder wheels, each encoder wheel including at least one code sequence defining a series of slots through said wheel at spaced separation extending concentrically around the encoder wheel, whereby said plurality of encoder wheels in combination define a plurality of code sequences, wherein said plurality of code sequences comprise a predetermined number of absolute code sequences and at least one incremental code sequence;
  
  attachment means for rotatably connecting said encoder wheels;
  
  sensing means including light emitting means for illuminating a defined region of a predetermined number of said plurality of code sequences of said encoder wheels and detector means for identifying light illuminated by said light emitting means passing through each said encoder wheel when a slot comprises the defined region of said code sequence; and
  
  control means for identifying a position of said absolute encoder, wherein said absolute encoder operates in at least first and second modes, said control means communicating with said sensing means for monitoring said defined region of each of said absolute code sequences to identify a position of said absolute encoder when said absolute encoder is operating in said first mode, said control means communicating with said sensing means for monitoring at least during a defined first time interval only said defined region of said at least one incremental code sequence, to identify a position of said absolute encoder when said absolute encoder is operating in said second mode.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. An absolute encoder of claim 1, wherein the attachment means comprises at least one pinion, with the pinion defining a substantially elongated member having an outer surface including a plurality of teeth at predefined separation extending circumferentially around the outer surface thereof, and each encoder wheel includes a plurality of teeth at predefined separation for engaging said teeth of said pinion.
  - 3. An absolute encoder according to claim 2, wherein said sensing means further includes a plurality of substantially aligned towers for housing said light emitting means and said detector means, each tower defining substantially aligned upper and bottom surfaces at spaced separation, with the upper and bottom surfaces extending from a base to a terminating end defining a cavity, wherein at least one of the upper and bottom surfaces of each tower includes at least one aperture therethrough provided at a distance from said base toward the terminating end, with said light emitting means or said detector means being provided within said tower cavity proximate said base, wherein each encoder wheel is positioned between a pair of towers, with the tower aperture being positioned adjacent the defined region of said code sequence, wherein said terminating end further includes an outer terminating surface and an inner terminating surface, said inner terminating surface having a taper relative to said outer terminating surface, said inner terminating surface further having means for reflecting light through approximately 90°
    - , whereby light entering said tower cavity through said tower aperture is reflected by said reflecting means to be detected by said detector means and light from said light emitting means is reflected by said reflecting means to pass from said tower cavity out through said tower aperture.
  - 4. An absolute encoder according to claim 3, wherein said encoder wheel includes four code sequences extending concentrically around the encoder wheel at space separation and four defined regions corresponding with said four code sequences, with the light emitting means and detector means being associated with each of the defined regions of said code sequences, wherein each tower includes four apertures within at least one of its upper and bottom surfaces.
  - 5. An absolute encoder according to claim 4, wherein said light emitting means comprises a plurality of light emitting diodes for illuminating light through said tower apertures and said detector means comprises a plurality of photo transistors for sensing light entering through said tower apertures.
  - 6. An absolute encoder according to claim 5, wherein said towers are developed according to selection of material and special processing, wherein an infrared reflective coating is applied to said towers, and comprises means of transmitting and confining illuminating light from said plurality of light emitting diodes through said tower apertures to a plurality of said photo transistors in a manner which precludes ambiguity.
  - 7. An absolute encoder according to claim 5, wherein said sensing means includes processing means for actuating the light emitting diodes at defined intervals and storing data identified by the photo transistors.
  - 8. An absolute encoder according to claim 7, wherein said processing means includes a shift register connected with said light emitting diodes and said photo transistors.
  - 9. An absolute encoder according to claim 7, wherein said towers are mounted on a circuit board including said processing means, light emitting diodes and photo transistors.
  - 10. An absolute encoder according to claim 4 further comprising four encoder wheels and three pinions, with the first and third encoder wheels being mounted on a first shaft at spaced separation, and the second and fourth encoder wheels being mounted on a second shaft at spaced separation, the three pinions being mounted on a third shaft with the first pinion being positioned between the first and second encoder wheels, the second pinion being positioned between the second and third encoder wheels, and the third pinion being positioned between the third and fourth encoder wheels, wherein the sensing means further includes six towers arranged in two columns of three towers, with the first encoder wheel being positioned between the first and second towers of the first column, the second encoder wheel being positioned between the first and second towers of the second column, the third encoder wheel being positioned between the second and third towers of the first column, and the fourth encoder wheel being positioned between the second and third towers of the second column.
  - 11. An absolute encoder according to claim 10, wherein said first and fourth encoder wheels have a single row of teeth at predetermined spaced separation and the second and third encoder wheels have two rows of teeth defining upper and lower rows, with the teeth in each of the two rows being provided at predetermined spaced separation, wherein the teeth of said pinion define alternating long and short teeth, with the long teeth extending substantially the entire elongated surface of the pinion and the short teeth extending a distance of the elongated surface less than the long teeth, wherein the short teeth of the pinions are in engagement with the single row of teeth of the first encoder wheel and the upper rows of teeth of the second and third encoder wheels, and wherein the long teeth of the pinions are in engagement with the single row of teeth of the fourth encoder wheel and the lower rows of teeth of the second and third encoder wheels.
  - 12. An absolute encoder according to claim 11, wherein the first encoder wheel is mounted for rotation with the first shaft and the third, second and fourth encoder wheels are mounted for being rotatable relative to the first and second shafts, respectively.
  - 13. An absolute encoder according to claim 11, wherein the defined region of each code sequence comprises one bit, with the defined regions of said 16 code sequences comprising 16 bits, wherein said series of slots defining said 16 code sequences of said four encoder wheels are configured in order to provide a grey code representation defined by said 16 bits.
  - 14. An absolute encoder according to claim 12, wherein said encoder wheels are provided in the housing, with the housing including an inner surface having a boss onto which the second encoder wheel seats, wherein said second and fourth encoder wheels are offset relative to a horizontal axis of said first and third encoder wheels.
  - 15. An absolute encoder of claim 1, wherein when said absolute encoder is operating in said second mode, said control means also communicates with said sensing means for monitoring at least during a defined second time interval said defined region of each of said absolute code sequences, to identify a position of said absolute encoder.
  - 16. An absolute encoder of claim 15, wherein said control means communicates with said sensing means for monitoring sequentially one at a time said defined region of each of said absolute code sequences.
  - 17. An absolute encoder of claim 16, wherein said first mode is a rest mode and said second mode is a run mode, wherein when said absolute encoder is operating in said run mode, said control means communicates with said sensing means for monitoring a greater number of times only said defined region of said at least one incremental code sequence than said defined region of each of said absolute code sequences.
  - 18. An absolute encoder of claim 17, wherein said control means includes light emitter control means communicating with said sensing means for illuminating said defined region of each of said absolute code sequences when said absolute encoder is operating in said first mode, said light emitter control means communicating with said sensing means either for illuminating said defined region of each of said absolute code sequences or for illuminating only said defined region of said at least one incremental code sequence, when said absolute encoder is operating in said second mode, wherein said light emitter control means communicates with said sensing means for illuminating a greater number of times only said defined region of said at least one incremental code sequence than said defined region of each of said absolute code sequences.
  - 19. An absolute encoder of claim 18 further including motor means for controlling operation of said absolute encoder, wherein said motor means comprises at least an on state and an off state, wherein said absolute encoder is in said rest mode when said motor means is in the off state and said absolute encoder is in said run mode when said motor means is in the on state.
  - 20. An absolute encoder of claim 19, wherein said control means detects a pulse count for identifying a position of said absolute encoder when monitoring said defined region of said at least one incremental code sequence when said absolute encoder is in said run mode.

21. A rotary shaft position indicator comprising:
- four rotatably mounted encoder wheels, each encoder wheel including at least one code sequence extending concentrically around the encoder wheel, whereby said four encoder wheels in combination define a plurality of code sequences, wherein said plurality of code sequences comprise a predetermined number of absolute code sequences and at least one incremental code sequence;
  
  three pinions, each pinion being provided between two encoder wheels for rotating the second encoder wheel a predetermined amount following a predetermined amount of rotation of the first encoder wheel, whereby a first pinion is between a first encoder wheel and a second encoder wheel, a second pinion is between said second encoder wheel and a third encoder wheel, and a third pinion is between said third encoder wheel and a fourth encoder wheel;
  
  sensing means including light emitting means for illuminating a defined region of a predetermined number of said plurality of code sequences and detector means for identifying light illuminated by said light emitting means, said sensing means further including a plurality of substantially aligned towers for housing said light emitting means and said detector means, each tower defining substantially aligned upper and bottom surfaces at spaced separation, with the upper and bottom surfaces extending from a base to a terminating end defining a cavity into which at least one said light emitting means and said detector means are received, wherein at least one of the upper and bottom surfaces of each tower includes at least one aperture therethrough provided at a distance from said base toward the terminating end for providing a passage for said light emitting means and said detector means, wherein each encoder wheel is positioned between a pair of towers, with the tower aperture being positioned adjacent the defined region of said code sequence; and
  
  control means for identifying a position of said rotary shaft position indicator, wherein said rotary shaft position indicator operates in at least first and second modes, said control means communicating with said sensing means for monitoring said defined region of each of said absolute code sequences to identify a position of said rotary shaft position indicator when said rotary shaft position indicator is operating in said first mode, said control means communicating with said sensing means for monitoring at least during a defined first time interval only said defined region of said at least one incremental code sequence, to identify a position of said rotary shaft position indicator when said rotary shaft position indicator is operating in said second mode.
- View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34)
- - 22. A rotary shaft position indicator of claim 21, wherein each said pinion defines a substantially elongated member having an outer surface including a plurality of teeth at predefined separation extending circumferentially around the outer surface thereof, and each encoder wheel includes a plurality of teeth at predefined separation for engaging said teeth of said pinion.
  - 23. A rotary shaft position indicator according to claim 22, wherein said first and fourth encoder wheels have a single row of teeth at predetermined spaced separation and the second and third encoder wheels have two rows of teeth defining upper and lower rows, with the teeth in each of the two rows being provided at predetermined spaced separation, wherein the teeth of said pinion define alternating long and short teeth, with the long teeth extending substantially the entire elongated surface of the pinion and the short teeth extending a distance of the elongated surface less than the long teeth, wherein the short teeth of the pinions are in engagement with the single row of teeth of the first encoder wheel and the upper rows of teeth of the second and third encoder wheels, and wherein the long teeth of the pinions are in engagement with the single row of teeth of the fourth encoder wheel and the lower rows of teeth of the second and third encoder wheels.
  - 24. A rotary shaft position indicator according to claim 21, wherein the first and third encoder wheels are mounted on a first shaft at spaced separation, and the second and fourth encoder wheels are mounted on a second shaft at spaced separation, the three pinions being mounted on a third shaft with the first pinion being positioned between the first and second encoder wheels, the second pinion being positioned between the second and third encoder wheels, and the third pinion being positioned between the third and fourth encoder wheels, wherein the sensing means defines six towers arranged in two columns of three towers, with the first encoder wheel being positioned between the first and second towers of the first column, the second encoder wheel being positioned between the first and second towers of the second column, the third encoder wheel being positioned between the second and third towers of the first column, and the fourth encoder wheel being positioned between the second and third towers of the second column, wherein each encoder wheel includes four code sequences extending concentrically around the encoder wheel at space separation and four defined regions corresponding with said four code sequences, with each of said code sequences defining a series of slots through the encoder wheel, wherein the light emitting means and detector means are associated with each of the defined regions of said code sequences and each tower includes four apertures in at least one of its upper and bottom surfaces.
  - 25. A rotary shaft position indicator according to claim 24, wherein the defined region of each code sequence comprises one bit, with the defined regions of said 16 code sequences comprising 16 bits, wherein said 16 code sequences of said four encoder wheels are configured in order to provide a grey code representation of said rotary shaft position defined by said 16 bits.
  - 26. A rotary shaft position indicator according to claim 24, wherein the first encoder wheel is mounted for rotation with the first shaft and the third, second and fourth encoder wheels are mounted for being rotatable relative to the first and second shafts, respectively, and wherein said encoder wheels are provided in a housing, with the housing including an inner surface having a boss onto which the second encoder wheel seats, wherein said second and fourth encoder wheels are offset relative to a horizontal axis of said first and third encoder wheels.
  - 27. A rotary shaft position indicator according to claim 21, wherein said light emitting means comprises light emitting diodes and said detector means comprises photo transistors, said sensing means further including processing means for actuating the light emitting diodes at defined intervals and storing data identified by the photo transistors, wherein said processing means includes a shift register connected with said light emitting diodes and said photo transistors, and said towers are mounted on a circuit board including said processing means, light emitting diodes and photo transistors.
  - 28. A rotary shaft position indicator of claim 21, wherein when said rotary shaft position indicator is operating in said second mode, said control means also communicates with said sensing means for monitoring at least during a defined second time interval said defined region of each of said absolute code sequences, to identify a position of said rotary shaft position indicator.
  - 29. A rotary shaft position indicator of claim 28, wherein said control means communicates with said sensing means for monitoring sequentially one at a time said defined region of each of said absolute code sequences.
  - 30. A rotary shaft position indicator of claim 29, wherein said first mode is a rest mode and said second mode is a run mode, wherein when said rotary shaft position indicator is operating in said run mode, said control means communicates with said sensing means for monitoring a greater number of times only said defined region of said at least one incremental code sequence than said defined region of each of said absolute code sequences.
  - 31. A rotary shaft position indicator of claim 30, wherein said control means includes light emitter control means communicating with said sensing means for illuminating said defined region of each of said absolute code sequences when said rotary shaft position indicator is operating in said first mode, said light emitter control means communicating with said sensing means either for illuminating said defined region of each of said absolute code sequences or for illuminating only said defined region of said at least one incremental code sequence, when said rotary shaft position indicator is operating in said second mode, wherein said light emitter control means communicates with said sensing means for illuminating a greater number of times only said defined region of said at least one incremental code sequence than said defined region of each of said absolute code sequences.
  - 32. A rotary shaft position indicator of claim 31 further including motor means for controlling operation of said rotary shaft position indicator, wherein said motor means comprises at least an on state and an off state, wherein said rotary shaft position indicator is in said rest mode when said motor means is in the off state and said rotary shaft position indicator is in said run mode when said motor means is in the on state.
  - 33. A rotary shaft position indicator of claim 32, wherein said control means detects a pulse count for identifying a position of said rotary shaft position indicator when monitoring said defined region of said at least one incremental code sequence when said rotary shaft position indicator is in said run mode.
  - 34. A rotary shaft position indicator of claim 33, wherein said plurality of code sequences comprises four absolute code sequences on three encoder wheels and three absolute code sequences with one incremental code sequence on one encoder wheel.

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Current Assignee
Flowserve Management Company (Flowserve Corporation)
Original Assignee
Limitorque Corp. (Schneider Electric SE)
Inventors
Hooss, William C., Austin, James A., Hylton, Charles L., Smith, Paul R. Jr., Schulz, Kevin G., Adams, David V. IV, Talbott, Kenneth R.
Primary Examiner(s)
Westin, Edward P.
Assistant Examiner(s)
Lee, John R.

Application Number

US08/493,271
Time in Patent Office

727 Days
Field of Search

250/321.15, 250/231.18, 250/231.1, 250/231.13, 250/231.14, 250/231.17, 250/229, 250/239, 250/237 G
US Class Current

250/231.15
CPC Class Codes

G01D 5/3473 Circular or rotary encoders

G01D 5/34792 with only digital scales or...

Optical encoder comprising a plurality of encoder wheels

First Claim

6 Assignments

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Abstract

90 Citations

34 Claims

Specification

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Optical encoder comprising a plurality of encoder wheels

First Claim

6 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

90 Citations

34 Claims

Specification

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Solutions

Use Cases

Quick Links