Detector device for simultaneously detecting both the direction and number of rotations of rotating member

US 5,004,981 A
Filed: 11/09/1989
Issued: 04/02/1991
Est. Priority Date: 11/18/1988
Status: Expired due to Fees

First Claim

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1. A detector device for detecting a number of revolutions of a rotating member which is rotated in forward and reverse directions, comprising:

a signal generating member arranged around an outer peripheral surface of the rotating member, the signal generating member having an outer peripheral surface, and first and second reference boundaries defined on the outer peripheral surface thereof and dividing same into two regions adjacent to each in a circumferential direction thereof for generating first and second signals with different properties;

detecting means securely arranged in the vicinity of the signal generating member and having a receiving section for receiving the first and second signals when corresponding ones of the two regions are close thereto, the detecting means providing a binary signal with an output level corresponding to the first or second signal when the receiving section is receiving the first or second signal, respectively, the output level of the binary signal being inverted every time each of the first and second reference boundaries of the signal generating member passes by the receiving section;

signal producing means for producing a discrimination signal which is shifted in phase from the binary signal output from the detecting means, during rotation of the rotating member; and

counter means, which receives the binary signal from the detecting means and the discrimination signal from the signal producing means, and including a counter means for counting the number of revolutions of the rotating member, the counter means determining a direction of rotation of the rotating member by a logic operation based on changes in the binary signal and in the discrimination signal, and incrementing or decrementing a value of the counter means from an initial value thereof in accordance with direction of rotation of the rotating member ever time the output level of the binary signal is inverted.

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Abstract

A sensor for detecting a number of revolutions of a rotary shaft is provided which comprises a ring magnet secured to the outer peripheral surface of the rotary shaft, the number of revolutions of which is to be detected, a Hall IC arranged near the outer peripheral surface of the rotary shaft, for detecting the magnetism of the ring magnet. The ring magnet has one circumferential half of the outer peripheral surface thereof magnetized to serve as the north pole and the other circumferential half of the outer peripheral surface thereof magnetized to serve as the south pole.

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22 Claims

1. A detector device for detecting a number of revolutions of a rotating member which is rotated in forward and reverse directions, comprising:
- a signal generating member arranged around an outer peripheral surface of the rotating member, the signal generating member having an outer peripheral surface, and first and second reference boundaries defined on the outer peripheral surface thereof and dividing same into two regions adjacent to each in a circumferential direction thereof for generating first and second signals with different properties;
  
  detecting means securely arranged in the vicinity of the signal generating member and having a receiving section for receiving the first and second signals when corresponding ones of the two regions are close thereto, the detecting means providing a binary signal with an output level corresponding to the first or second signal when the receiving section is receiving the first or second signal, respectively, the output level of the binary signal being inverted every time each of the first and second reference boundaries of the signal generating member passes by the receiving section;
  
  signal producing means for producing a discrimination signal which is shifted in phase from the binary signal output from the detecting means, during rotation of the rotating member; and
  
  counter means, which receives the binary signal from the detecting means and the discrimination signal from the signal producing means, and including a counter means for counting the number of revolutions of the rotating member, the counter means determining a direction of rotation of the rotating member by a logic operation based on changes in the binary signal and in the discrimination signal, and incrementing or decrementing a value of the counter means from an initial value thereof in accordance with direction of rotation of the rotating member ever time the output level of the binary signal is inverted.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The detector device according to claim 1, wherein:
    - said signal generating member includes a first ring member attached to the outer peripheral surface of the rotating member, the first ring member having a north pole region extending over one circumferential portion of an outer peripheral surface thereof and a south pole region extending over another circumferential portion of the outer peripheral surface thereof, the first and second reference boundaries being defined as boundaries between the north pole region and the south pole region; and
      
      said receiving section of the detecting means comprising a first magnetic probe for detecting polarities of the north and south pole regions of the first ring member when opposed thereto, and outputting the binary signal in accordance with the detected polarities.
  - 3. The detector device according to claim 2, wherein said first ring member comprises a ring magnet having one circumferential half of the outer peripheral surface thereof magnetized to serve as the north pole region, and the other circumferential half of the outer peripheral surfaces thereof magnetized to serve as the south pole region.
  - 4. The detector device according to claim 2, wherein said first magnetic probe includes an integrated circuit having a Hall element providing a signal in accordance with polarities of the first ring magnet when the first ring magnet is rotated.
  - 5. The detector device according to claim 4, wherein said integrated circuit further includes a comparator for converting the signal into a binary pulse signal, and means for shaping the waveform of the binary pulse signal and providing a shaped binary pulse signal.
  - 6. The detector device according to claim 2, wherein:
    - said signal producing means include a second ring member attached to the outer peripheral surface of the rotating member, located adjacent to the first ring member at a predetermined distance therefrom, the second ring member having substantially the same shape as the first ring member, and the second ring member having a north pole region extending over one circumferential portion of an outer peripheral surface thereof and a south pole region extending over another circumferential portion of the outer peripheral surface thereof, the north pole region and south pole region of the second ring member being shifted in rotational phase by a predetermined number of degree in the circumferential direction of the rotating member from corresponding ones of the north pole region and south pole region of the first ring member; and
      
      said receiving section of the detecting means further comprising;
      
      a second magnetic probe securely arranged in a side-by-side relation to the first magnetic probe, the second magnetic probe being located close to the peripheral surface of the second ring member.
  - 7. A detector device according to claim 6, wherein said circumferential portions of said second ring member are circumferential half portions.
  - 8. A detector device according to claim 6, wherein said circumferential portions of said first ring member are circumferential half portions.
  - 9. A detector device according to claim 2, wherein said circumferential portions of said first ring member are circumferential half portions.
  - 10. A detector device according to claim 6, wherein:
    - said circumferential portions of said first ring member are circumferential half portions;
      
      said circumferential portions of said second ring member are circumferential half portions; and
      
      said predetermined number of degrees is 90°
      
      .

11. A detector device for detecting a number of revolutions of a rotating member which is rotated in forward and reverse directions, comprising:
- a magnet assembly arranged around an outer peripheral surface of the rotating member, the magnet assembly including first and second ring magnets securely arranged and surrounding the outer peripheral surface of the rotating member, the first and second ring magnets each having a north pole region magnetized to be a north magnetic pole and extending over one circumferential portion of an outer peripheral surface thereof and a south pole region magnetized to be a south magnetic pole and extending over another circumferential portion of the outer peripheral surface thereof, the north and south pole regions of the first ring magnet being shifted in rotational phase by a predetermined number of degrees in a circumferential direction of the rotating member from the north and south pole regions of the second ring magnet, respectively.magnetism detecting means for detecting changes in polarity caused by movement of the north and south pole regions of the first and second ring magnets, at a predetermined circumferential positon relative to the circumfential direction of the rotating member when the first and second ring magnets are rotated together with the rotating member, and for outputting a result of the detection, the magnetism detecting means including a first magnetic probe securely arranged in the vicinity of the outer peripheral surface of the first ring magnet and always opposed to same, and a second magnetic probe securely arranged in the vicinity of the outer peripheral surface of the second ring magnet and always opposed to same, the first magnetic probe outputting a binary signal of a different level depending on whether it is opposed on the north or south pole region of the first ring magnet, the second magnetic probe being located at the same circumferential position as the first magnetic probe with respect to the circumferential direction of the rotating member, and outputting a binary signal of a different level depending on whether it is opposed to the north or south pole region of the second ring magnet; and
  
  measuring means for counting the number of revolutions of the rotating member based on a reference angualr position thereof, in accordance with the outputs of the first and second magnetic probes, the measuring means including a counter, a value of which is incremented or decremented from an initial value thereof every time the output level of the binary signal from at least one of the first and second magnetic probes is inverted, the incrementing or decrementing of the counter being determined by a logical operation based a direction of inversion of the output level of the binary signal from one magnetic probe and the output level of the binary signal from the other magnetic probe.
- View Dependent Claims (12, 13)
- - 12. The detector device of claim 11, wherein said circumferential portion of at least one of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof.
  - 13. The detector device of claim 12, wherein said circumferential portion of each of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof;
    - and said predetermined number of degrees is 90°
      
      .

14. A sensor for detecting direction and number of revolutions of a rotating member which is rotated in forward and reverse directions, comprising:
- a magnetic assembly arranged around an outer peripheral surface of the rotating member, the magnet assembly including first and second ring magnets of identical shape, securely arranged and surrounding the outer peripheral surface of the rotating member and spaced apart from each other at a predetermined distance in an axial direction of the rotating member, the first and second ring magnets each having a north pole region magnetized to be a north magnetic pole and extending over one circumferential portion of an outer peripheral surface thereof and a south pole region magnetized to be a south magnetic pole and extending over another circumferential portion of the other peripheral surface thereof, the north and south pole regions of the first ring magnet being shifted in rotational phase by a predetermined number of degrees in a circumferential direction of the rotating member from the north and south pole regions of the second ring magnet, respectively; and
  
  magnetism detecting means for detecting changes in polarity caused by movement of the north and south pole regions of the first and second ring magnets, at a predetermined circumferential position relative to the circumferential direction of the rotating member when the first and second ring magnets are rotated together with the rotating member, and for outputting a result of the detection, the magnetism detecting means including a first magnetic probe securely arranged in the vicinity of the outer peripheral surface of the first ring magnet and always opposed to same, and a second magnetic probe securely arranged in the vicinity of the outer peripheral surface of the second ring magnet and always opposed to same, the first magnetic probe outputting a binary signal of a different level depending on whether it is opposed to the north or south pole region of the first ring magnet, the second magnetic probe being located at the same circumferential position as the first magnetic probe with respect to the circumferential direction of the rotating member, and outputting a binary siganl of a different level depending on whether it is opposed to the north or south region of the second ring magnet.
- View Dependent Claims (15, 16)
- - 15. The detector device of claim 14, wherein said circumferential portion of at least one of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof.
  - 16. The detector device of claim 15, wherein said circumferential portion of each of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof;
    - and said predetermined number of degrees is 90°
      
      .

17. A motor-driven actuator for driving a driven member, comprising;
- an electric motor continuously driven in a forward or reverse direction;
  
  a gear train for transmitting rotation of the electric motor to the driven member while converting the rotation of the motor to reciprocating motion of the driven member; and
  
  a sensor for detecting direction and number of rotations of a rotary member which includes at least one rotary shaft included in at least one of the gear train and an output shaft of the motor, the sensor including;
  
  a magnet assembly arranged around an outer peripheral surface of one of the rotary shafts and the output shaft, the magnet assembly including first and second ring magnets of identical shape, securely arranged and surrounding the puter peripheral surface of the rotating member and spaced apart from each other at a predetermined distance in an axial direction of the rotating member, the first and second ring magnets each having a north pole region magnetized to north pole and extending over one circumferential portion of an outer peripheral surface thereof and a south pole region magnetized to be a south magnetic pole and extending over another circumferential portion of the outer pheripheral surface thereof, the north and south pole regions of the first ring magnetic being shifted in rotational phase by a predetermined number of degrees in a circumferential direction of the rotating member from the north and south pole regions of the second ring magnet, respectively; and
  
  magnetism detecting means for detecting changes in polarity caused by movement of the north and south pole regions of the first and second ring magnets, at a predetermined circumferential position relative to the circumferential direction of the rotating member when the first and second ring magnets are rotated together with the rotating member, and for outputting a result of the detection, the magnetism detecting means including a first magnetic probe securely arranged in the vicinity of the outer peripheral surface of the first ring magnet and always opposed to same, and a second magnetic probe securely arranged in the vicinity of the outer peripheral surface of the second ring magnet and always opposed to same, the first magnetic probe outputting a binary signal of a different level depending on whether it is opposed to the north or south pole region of the first magnet, the second magnetic probe being located at the same circumferential position as the first probe with respect to the circumferential direction of the rotating member, and outputting a binary signal of a different level depending on whether it is opposed to the north or south pole region of the second ring magnet.
- View Dependent Claims (18, 19, 20, 21, 22)
- - 18. The motor-driven actuator according to claim 17, wherein said first and second ring members each comprise a ring magnet, each of the ring magnets having one circumferential half of the outer peripheral surface thereof magnetized to serve as the north pole region, and the other circumferential half of the outer peripheral surface thereof magnetize to serve as the south pole region.
  - 19. The motor-driven actuator according to claim 17, wherein each of said first and second magnetic probes includes an integrated circuit having a Hall element, said Hall element provinding a signal in accordance with polarities of the ring magnet associated therewith when the associated ring magnet rotates.
  - 20. The motor-driven actuator according to claim 19, wherein said integrates circuit further includes a comparator for converting the signal into a binary pulse signal, and means for shaping the waveform of the binary pulse signal and providing a shaped binary pulse signal.
  - 21. The detector device of claim 17, wherein said circumferential portion of at least one of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof.
  - 22. The detector device of claim 21, wherein said circumferential portion of each of said first and second ring magnets comprises a circumferential half of the outer peripheral surface thereof;
    - and said predetermined number of degrees is 90°
      
      .

Specification

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Current Assignee
Mitsubishi Jidosha Kogyo Kabushiki Kaisha
Original Assignee
Mitsubishi Jidosha Kogyo Kabushiki Kaisha
Inventors
Takabatake, Masato, Hashimoto, Toru, Takahashi, Akira, Chino, Masashi
Primary Examiner(s)
Strecker, Gerard R.

Application Number

US07/434,082
Time in Patent Office

509 Days
Field of Search

324/165, 324/173, 324/174, 324/207.12, 324/207.2, 324/207.25, 377/17, 73/517 R, 73/518, 73/519, 310/156, 318/653, 340/686, 123/617, 137/47
US Class Current

324/207.22
CPC Class Codes

B82Y 15/00   Nanotechnology for interact...

G01B 7/02   for measuring length, width...

G01P 13/04   Indicating positive or nega...

G01P 3/487   delivered by rotating magnets

Y10T 137/0971   Speed responsive valve control

Detector device for simultaneously detecting both the direction and number of rotations of rotating member

First Claim

1 Assignment

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Accused Products

Abstract

40 Citations

22 Claims

Specification

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Detector device for simultaneously detecting both the direction and number of rotations of rotating member

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

40 Citations

22 Claims

Specification

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Use Cases

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Others