Contactless controllers sensing displacement along two orthogonal directions by the overlap of a magnet and saturable cores

US 4,639,667 A
Filed: 05/23/1983
Issued: 01/27/1987
Est. Priority Date: 05/23/1983
Status: Expired due to Fees

First Claim

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1. A contactless, multi-directional controller of the kind having a reference frame and a carrier, means for guiding the carrier with respect to the reference frame in first and second generally orthogonal directions while restraining motion of the carrier with respect to the reference frame in a third generally orthogonal direction, manipulator means attached to the carrier for manually positioning the carrier with respect to the reference frame in the first and second directions, and contactless sensing means comprising carrier-based means fixed to the carrier and reference-based means fixed to the reference frame, the carrier-based means being adjacent the reference-based means along the third direction, wherein the sensing means comprise first sensing means for sensing the displacement of the carrier with respect to the reference frame in the first direction, and second sensing means for sensing the displacement of the carrier with resect to the reference frame in the second direction,wherein the improvement comprises,said carrier and frame are generally cylindrical, said carrier is telescopingly received in said frame, the first and second directions are the axial and circumferential directions of the cylinder of the carrier, and the third direction is the radial direction of the cylinder of the carrier;

andsaid sensing means comprise at least one magnet and at least two pairs of magnetically saturable cores overlapped by said magnet, each pair of said cores being associated with a respective one of the two directions, the proportional part of each core that is saturated sensing the displacement of the carrier along the associated direction.

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Abstract

A multi-directional contactless controller senses the displacement of a manipulator with respect to a reference frame along two orthogonal directions and also indicates rotation of the manipulator with respect to the reference frame. The manipulator is journaled to a carrier and means are provided for preventing rotation of the carrier with respect to the reference frame. A rotary-type sensor indicates the rotation of the manipulator with respect to the carrier. Contactless linear sensors indicate the displacement of the carrier with respect to the reference frame. In one preferred embodiment, the carrier is planar and carries a square flat magnet which differentially saturates two pairs of saturable cores secured to the reference frame. In a second embodiment, the carrier is cylindrical and telescopes within a cylindrical frame. In a third embodiment, the carrier is spherical and is received in a ball-and-socket type joint fashioned in the reference frame. A contactless controller is also disclosed having the polarity of the indication for a first direction of control selected by a second direction of control, the first direction of control providing a linear response and the second direction of control providing a nonlinear response.

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6 Claims

1. A contactless, multi-directional controller of the kind having a reference frame and a carrier, means for guiding the carrier with respect to the reference frame in first and second generally orthogonal directions while restraining motion of the carrier with respect to the reference frame in a third generally orthogonal direction, manipulator means attached to the carrier for manually positioning the carrier with respect to the reference frame in the first and second directions, and contactless sensing means comprising carrier-based means fixed to the carrier and reference-based means fixed to the reference frame, the carrier-based means being adjacent the reference-based means along the third direction, wherein the sensing means comprise first sensing means for sensing the displacement of the carrier with respect to the reference frame in the first direction, and second sensing means for sensing the displacement of the carrier with resect to the reference frame in the second direction,wherein the improvement comprises,said carrier and frame are generally cylindrical, said carrier is telescopingly received in said frame, the first and second directions are the axial and circumferential directions of the cylinder of the carrier, and the third direction is the radial direction of the cylinder of the carrier;
- andsaid sensing means comprise at least one magnet and at least two pairs of magnetically saturable cores overlapped by said magnet, each pair of said cores being associated with a respective one of the two directions, the proportional part of each core that is saturated sensing the displacement of the carrier along the associated direction.
- View Dependent Claims (2)
- - 2. The combination as claimed in claim 1, wherein the number of saturable cores associated with each of the first and second directions is two, the two cores associated with each direction undergoing differential saturation upon displacement of the carrier with respect to the reference frame in the associated direction.

3. A contactless multi-directional controller comprising a planar frame having an aperture, a planar carrier disposed generally parallel to the frame on a first side of the frame, a manipulator disposed on the opposite, second side of the frame and connected through said aperture to the carrier for permitting manual displacement and positioning of the entire carrier with respect to the frame along each of two orthogonal directions parallel to the plane of the frame and carrier within limits defined by said aperture, magnet means connected to the carrier for establishing a magnetic field responsive to the changes in relative position of the magnet means, and saturable core means connected to the frame for sensing the linear displacement of the carrier with respect to the frame along each of the two orthogonal directions parallel to the plane of the frame and carrier, wherein the saturable core means includes a pair of elongated saturable cores aligned with each of the two orthogonal directions and being overlapped by said magnet means, so that the portion of each core being overlapped and saturated by said magnet means is responsive to the displacement of the carrier along the orthogonal direction aligned with the core, and further comprising mechanical guiding means inserted between the frame and carrier for preventing rotation of the carrier with respect to the frame, wherein the manipulator is journaled to the carrier for rotation with respect to the carrier about an axis perpendicular to the first and second directions, and further comprising means for sensing the rotation of the manipulator with respect to the carrier.

4. A contactless controller of the kind having a reference frame and a carrier, means for guiding the carrier with respect to the reference frame in first and second generally orthogonal directions while restraining motion of the carrier with respect to the reference frame in a third generally orthogonal direction, manipulator means fixed to the carrier for manually positioning the carrier with respect to the reference frame in the first and second directions, and contactless sensing means comprising carrier-based means fixed to the carrier and reference-based means fixed to the reference frame,wherein the improvement comprises,said manipulator means provides means for permitting manual displacement and positioning of the entire carrier with respect to the frame along each of the first and second orthogonal directions,said sensing means comprise means for sensing the linear displacement of the entire carrier with respect to the reference frame in the first direction including at least one magnet means and at least two saturable cores overlapped by said magnet, the proportional part of each core that is saturated sensing the linear displacement of the entire carrier along said first orthogonal direction, andwherein said magnet means provides means for reversing the polarity of the displacement indication of said means for sensing the linear displacement of the entire carrier with respect to the reference frame in said first orthogonal direction in response to linear displacement of the entire carrier along said second orthogonal direction.
- View Dependent Claims (5, 6)
- - 5. The combination as claimed in claim 4, wherein said means for sensing the displacement of the carrier with respect to the reference frame in the first direction comprise a pair of said cores being differentially saturated by the displacement of said magnet with respect to the cores in the first direction, and wherein motion of the carrier in the second direction causes the previously saturated portions of the cores to become unsaturated and the previously unsaturated portions of the cores to become saturated.
  - 6. The combination as claimed in claim 4, further comprising means for preventing polarity reversal when the sensing means indicates a substantial displacement from a central position.

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Current Assignee
Herman J. Andresen
Original Assignee
Herman J. Andresen
Inventors
Andresen, Herman J.
Primary Examiner(s)
Karlsen, Ernest F.
Assistant Examiner(s)
Snow, Walter E.

Application Number

US06/496,843
Time in Patent Office

1,345 Days
Field of Search

324/207, 324/208, 324/253-255, 336/45, 338/32 H, 338/33 R, 74/471 XY, 74/471 R, 340/870.31, 340/870.33, 340/870.35
US Class Current

324/207.18
CPC Class Codes

G05G 2009/04707   with ball joint

G05G 2009/04755   Magnetic sensor, e.g. hall ...

G05G 9/047   the controlling member bein...

H01H 2003/008   with a haptic or a tactile ...

H01H 25/002   having an operating member ...

H03K 17/97   using a magnetic movable el...

Contactless controllers sensing displacement along two orthogonal directions by the overlap of a magnet and saturable cores

First Claim

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Abstract

78 Citations

6 Claims

Specification

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Contactless controllers sensing displacement along two orthogonal directions by the overlap of a magnet and saturable cores

First Claim

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0 Petitions

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Accused Products

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Abstract

78 Citations

6 Claims

Specification

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