Magnetostrictive sensor structures

US 5,437,197 A
Filed: 08/20/1993
Issued: 08/01/1995
Est. Priority Date: 08/20/1993
Status: Expired due to Term

First Claim

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1. A magnetostrictive force sensor comprising:

a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;

means for inducing a magnetic field in the magnetic circuit;

means for sensing a magnetic field within the magnetic circuit; and

means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element.

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Abstract

A magnetostrictive force sensor in which magnetically conductive support members are interposed between magnetically conductive end plates. The support members have magnetic properties which vary in accordance with the compressive or tensile load applied to them. The support members and end plates magnetically cooperate to create a magnetic circuit in which magnetic flux is induced by applying an alternating-current signal to a coil wound around one of the support members or by placing a permanent magnet into the magnetic circuit. When a load is applied to the magnetically conductive end plates, the magnetic properties of the support members vary to cause a change in the flux established in the magnetic circuit. The flux is detected by a second coil wound around the second support member, and the output signal detected by the detection coil is decoded to determine the load applied to the force sensor.

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27 Claims

1. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit;
  
  means for sensing a magnetic field within the magnetic circuit; and
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The apparatus as defined in claim 1 further comprising means for retaining the strained element in position in relation to the magnetically conductive end structures.
  - 3. The apparatus as defined in claim 1 further comprising a decoding means for determining the force applied to the magnetically conductive end structures in accordance with the magnetic field sensed by the magnetic field sensing means.
  - 4. The apparatus as defined in claim 1 wherein the means for inducing a magnetic field comprises a coil in magnetic communication with the magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to an alternating-current signal.
  - 5. The apparatus as defined in claim 1 wherein one of the end structures includes a permanent magnet, the permanent magnet inducing the magnetic field in the magnetic circuit, and variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor.
  - 6. The apparatus as defined in claim 1 wherein the strained element is preloaded in accordance with a projected load to be measured by the strained element.

7. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit;
  
  means for sensing a magnetic field within the magnetic circuit;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element; and
  
  a decoding means for determining the force applied to the magnetically conductive end structures in accordance with the magnetic field sensed by the magnetic field sensing means.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The apparatus as defined in claim 7 further comprising means for retaining the strained element in position in relation to the magnetically conductive end structures.
  - 9. The apparatus as defined in claim 7 wherein the means for inducing a magnetic field further comprises a coil in magnetic communication with the magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to an alternating-current signal.
  - 10. The apparatus as defined in claim 7 wherein one of the end structures includes a permanent magnet, the permanent magnet inducing the magnetic field in the magnetic circuit, and variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor.
  - 11. The apparatus as defined in claim 7 wherein the strained element is preloaded in accordance with a projected load to be measured by the strained element.

12. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element; and
  
  means for retaining the strained element in position in relation to the magnetically conductive end structures.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. The apparatus as defined in claim 12 further comprising means for inducing a magnetic field in the magnetic circuit.
  - 14. The apparatus as defined in claim 13 further comprising means for sensing a magnetic field in the magnetic circuit.
  - 15. The apparatus as defined in claim 14 wherein the means for inducing a magnetic field further comprises a decoding means for determining the force applied to the magnetically conductive end structures in accordance with the magnetic field sensed by the magnetic field sensing means.
  - 16. The apparatus as defined in claim 14 wherein the means for inducing a magnetic field further comprises a coil in magnetic communication with the magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to an alternating-current signal.
  - 17. The apparatus as defined in claim 14 wherein one of the end structures includes a permanent magnet, the permanent magnet inducing the magnetic field in the magnetic circuit and variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor.
  - 18. The apparatus as defined in claim 12 wherein the strained element is preloaded in accordance with a projected load to be measured by the strained element.

19. A magnetostrictive dynamic force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit, the magnetic field remaining constant in accordance with a constant load applied to the strained element and varying in accordance with a variation in load applied to the strained element;
  
  means for sensing a variation in the magnetic field within the magnetic circuit;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element; and
  
  a decoding means for determining a variation in load applied to the magnetically conductive end structures in accordance with the variation in the magnetic field sensed by the magnetic field sensing means.
- View Dependent Claims (20, 21)
- - 20. The apparatus as defined in claim 19 wherein the means for inducing the magnetic field further comprises a permanent magnet interposed in the magnetic circuit.
  - 21. The apparatus as defined in claim 19 wherein the strained element is preloaded in accordance with a projected load to be measured by the strained element.

22. A magnetostrictive dynamic strain sensor comprising:
- a permanent magnet, for providing a source of magnetic flux, interposed between a pair of magnetically conductive support members, the magnetically conductive members being attachable to a target material; and
  
  means for sensing a magnetic field within one of the magnetically conductive support members;
  
  whereby the target material has magnetic properties which vary in accordance with a load applied to the target material and completes a magnetic circuit which includes the permanent magnet and the magnetically conductive support members, and the magnetic field sensed by the sensing means is constant in response to a constant load applied to said target material and varies in response to a variation in the load applied to the target material.

23. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit including a coil in magnetic communication with a magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to a direct-current signal;
  
  means for sensing a magnetic field within the magnetic circuit where variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor; and
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element.

24. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit including a coil in magnetic communication with the magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to a direct-current signal;
  
  means for sensing a magnetic field within the magnetic circuit where variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element; and
  
  a decoding means for determining the force applied to the magnetically conductive end structures in accordance with the magnetic field sensed by the magnetic field sensing means.

25. A magnetostrictive force sensor comprising:
- a magnetic circuit having magnetically conductive end structures operatively connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a load applied to the strained element;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element;
  
  means for retaining the strained element in position in relation to the magnetically conductive end structures;
  
  means for inducing a magnetic field in the magnetic circuit including a coil in magnetic communication with the magnetic circuit, the coil inducing the magnetic field in the magnetic circuit in response to a direct-current signal; and
  
  means for sensing a magnetic field in the magnetic circuit where variations in the magnetic field detected by the magnetic field sensing means indicate a change in force applied to said magnetostrictive force sensor.

26. A magnetostrictive dynamic force sensor comprising:
- a magnetic circuit having magnetically conductive end structures connected by magnetically conductive members, at least one of the magnetically conductive members being a strained element within the magnetic circuit, the strained element having magnetic properties which vary in accordance with a lead applied to the strained element;
  
  means for inducing a magnetic field in the magnetic circuit, the magnetic field remaining constant in accordance with a constant lead applied to the strained element and varying in accordance with a variation in lead applied to the strained element;
  
  means for sensing a variation in the magnetic field within the magnetic circuit;
  
  means for compressing the strained element to preload the strained element and initiate a magnetostrictive response in the strained element; and
  
  a decoding means for determining a variation in load applied to the magnetically conductive end structures in accordance with the variation in the magnetic field sensed by the magnetic field sensing means;
  
  a coil in magnetic communication with the magnetic circuit; and
  
  a source of direct current voltage applied to the coil.

27. A magnetostrictive dynamic strain sensor comprising:
- a permanent magnet, for providing a source of magnetic flux, interposed between a pair of magnetically conductive support members, the support members being in magnetic communication with a magnetically conductive target material, the target material having magnetic properties which vary in accordance with a load applied to the target material, the target material completing a magnetic circuit including the permanent magnet and the magnetically conductive support members; and
  
  a magnetic coil for sensing a magnetic field within one of the magnetically conductive support members, the magnetic field being constant in response to a constant load applied to said target material, and the magnetic field varying in response to a variation in the load applied to the target material.

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Current Assignee
Wayne State University
Original Assignee
Wayne State University
Inventors
Uras, H. Mehmet, Kleinke, Darrell K.
Primary Examiner(s)
Chilcot, Jr., Richard E.
Assistant Examiner(s)
Dougherty, Elizabeth L.

Application Number

US08/109,840
Time in Patent Office

711 Days
Field of Search

73/862.69, 73/DIG. 2, 73/779, 324/209
US Class Current

73/862.69
CPC Class Codes

G01L 1/125   by using magnetostrictive m...

G01L 1/127   by using inductive means G0...

Y10S 73/02   Magnetostrictive

Magnetostrictive sensor structures

First Claim

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Abstract

58 Citations

27 Claims

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Magnetostrictive sensor structures

First Claim

1 Assignment

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Accused Products

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Abstract

58 Citations

27 Claims

Specification

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Solutions

Use Cases

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