Adjustable Magnetic Target

US 20110050373A1
Filed: 09/02/2009
Published: 03/03/2011
Est. Priority Date: 09/02/2009
Status: Active Grant

First Claim

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1. A magnetic target assembly comprising:

a body tube having an open proximal end, a distal end opposite the proximate end, and a distal surface adjacent to the distal end, the open end defining a bore longitudinally disposed within the body tube;

an adjusting member having an adjustment portion, an engagement portion coupled to the adjustment portion, and a contact surface disposed adjacent to a distal end of the engagement portion, wherein the engagement portion is received into the bore and is displaceably coupled to the body tube;

a stationary magnet disposed within the bore such that a second pole of the stationary magnet is proximate to the distal end of the body tube and a first pole of the stationary magnet is opposite the second pole; and

a movable magnet disposed within the bore between the adjusting member and the stationary magnet such that a first pole of the movable magnet is adjacent to the first pole of the stationary magnet and a second pole of the movable magnet is proximate to the contact surface of the adjusting member,wherein a top surface of the movable magnet adjacent to the second pole is arranged to engage the contact surface of the adjusting member such that a longitudinal displacement of the adjusting member towards the distal end of the body tube displaces the movable magnet towards the stationary magnet, thereby causing a magnetic flux field of the stationary magnet to extend away from a longitudinal axis of the stationary magnet and a magnetic flux field of the movable magnet to extend away from a longitudinal axis of the movable magnet.

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Abstract

A magnetic target is provided for use with a magnetic proximity switch. The magnetic target includes a cylindrical body tube having an open end that partially defines a bore. A stationary magnet is located within the bore opposite the open end, and a movable magnet is disposed within the bore between the stationary magnet and the open end. An adjusting member is received into the bore, and a contact surface of the adjusting member engages the movable magnet. When the adjusting member is axially displaced, the contact surface causes a corresponding displacement of the movable magnet relative to the stationary magnet, eventually causing the magnetic flux field of each magnet to expand in a radial direction away from the longitudinal axis of each magnet. The stationary magnet and the movable magnet may be either axially-magnetized samarium-cobalt magnets or axially-magnetized neodymium magnets.

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20 Claims

1. A magnetic target assembly comprising:
- a body tube having an open proximal end, a distal end opposite the proximate end, and a distal surface adjacent to the distal end, the open end defining a bore longitudinally disposed within the body tube;
  
  an adjusting member having an adjustment portion, an engagement portion coupled to the adjustment portion, and a contact surface disposed adjacent to a distal end of the engagement portion, wherein the engagement portion is received into the bore and is displaceably coupled to the body tube;
  
  a stationary magnet disposed within the bore such that a second pole of the stationary magnet is proximate to the distal end of the body tube and a first pole of the stationary magnet is opposite the second pole; and
  
  a movable magnet disposed within the bore between the adjusting member and the stationary magnet such that a first pole of the movable magnet is adjacent to the first pole of the stationary magnet and a second pole of the movable magnet is proximate to the contact surface of the adjusting member,wherein a top surface of the movable magnet adjacent to the second pole is arranged to engage the contact surface of the adjusting member such that a longitudinal displacement of the adjusting member towards the distal end of the body tube displaces the movable magnet towards the stationary magnet, thereby causing a magnetic flux field of the stationary magnet to extend away from a longitudinal axis of the stationary magnet and a magnetic flux field of the movable magnet to extend away from a longitudinal axis of the movable magnet.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The magnetic target assembly of claim 1, wherein the stationary magnet and the movable magnet are both cylindrical axially-magnetized samarium-cobalt magnets or are both cylindrical axially-magnetized neodymium magnets.
  - 3. The magnetic target assembly of claim 1, wherein the bore has a threaded portion adjacent to the proximal end adapted to couple to a threaded portion of the engagement portion of the adjusting member such that a rotation of the adjusting member relative to the body tube results in the longitudinal displacement of the adjusting member.
  - 4. The magnetic target assembly of claim 3, wherein the adjustment portion comprises a flanged end integrally formed with the engagement portion.
  - 5. The magnetic target assembly of claim 1, wherein the first pole of both the stationary magnet and the movable magnet is north, and the second pole of both the stationary magnet and the movable magnet is south.
  - 6. The magnetic target assembly of claim 1, wherein the first pole of both the stationary magnet and the movable magnet is south, and the second pole of both the stationary magnet and the movable magnet is north.

7. A system of determining the position of a valve element comprising:
- a valve disposed within a housing, the valve having a gate coupled to a valve stem;
  
  a magnetic target coupled to the valve stem, the magnetic target comprising;
  
  a body tube having an open proximal end, a distal end opposite the proximate end, and a distal surface adjacent to the distal end, the open end defining a bore longitudinally disposed within the body tube;
  
  an adjusting member having an adjustment portion, an engagement portion coupled to the adjustment portion, and a contact surface disposed adjacent to a distal end of the engagement portion, wherein the engagement portion is received into the bore and is displaceably coupled to the body tube;
  
  a stationary magnet disposed within the bore such that a second pole of the stationary magnet is proximate to the distal end of the body tube and a first pole of the stationary magnet is opposite the second pole; and
  
  a movable magnet disposed within the bore between the adjusting member and the stationary magnet such that a first pole of the movable magnet is adjacent to the first pole of the stationary magnet and a second pole of the movable magnet is proximate to the contact surface of the adjusting member,wherein a top surface of the movable magnet adjacent to the second pole is arranged to engage the contact surface of the adjusting member such that a longitudinal displacement of the adjusting member towards the distal end of the body tube displaces the movable magnet towards the stationary magnet, thereby causing a magnetic flux field of the stationary magnet to extend away from a longitudinal axis of the stationary magnet and a magnetic flux field of the movable magnet to extend away from a longitudinal axis of the movable magnet; and
  
  a magnetically-triggered proximity switch having a sensor at a proximate end of the switch, the switch being stationary and disposed outside of the housing, wherein the sensor is adapted to detect the magnetic flux field of the stationary magnet or the magnetic flux field of the movable magnet.
- View Dependent Claims (8, 9, 10, 11, 12, 13)
- - 8. The system of determining the position of a valve element of claim 7, wherein the stationary magnet and the movable magnet are both cylindrical axially-magnetized samarium-cobalt magnets or are both cylindrical axially-magnetized neodymium magnets.
  - 9. The system of determining the position of a valve element of claim 7, wherein the bore has a threaded portion adjacent to the proximal end adapted to couple to a threaded portion of the engagement portion of the adjusting member such that a rotation of the adjusting member relative to the body tube results in the longitudinal displacement of the adjusting member.
  - 10. The system of determining the position of a valve element of claim 7, wherein the adjustment portion comprises a flanged end integrally formed with the engagement portion.
  - 11. The system of determining the position of a valve element of claim 7, wherein the first pole of both the stationary magnet and the movable magnet is north, and the second pole of both the stationary magnet and the movable magnet is south.
  - 12. The system of determining the position of a valve element of claim 7, wherein the first pole of both the stationary magnet and the movable magnet is south, and the second pole of both the stationary magnet and the movable magnet is north.
  - 13. The system of determining the position of a valve element of claim 7, wherein the housing is a contained housing.

14. A method for simulating the magnetic flux field of a radially-magnetized permanent magnet using two axially-magnetized permanent magnets, the method comprising:
- providing an axially-magnetized first permanent magnet having a first pole, a second pole, and a first magnetic flux field;
  
  providing an axially-magnetized second permanent magnet having a first pole, a second pole, and a second magnetic flux field;
  
  positioning the first permanent magnet and the second permanent magnet such that a longitudinal axis of the first permanent magnet is substantially coaxial with a longitudinal axis of the second permanent magnet, and the first pole of the first permanent magnet is proximate to the first pole of the second permanent magnet, wherein the first permanent magnet and the second permanent magnet are separated by a longitudinal distance;
  
  providing a mechanism to reduce the longitudinal distance between the first permanent magnet and the second permanent magnet, thereby causing the first magnetic flux field of the first permanent magnet to extend away from a longitudinal axis of the first permanent magnet and the second magnetic flux field of the second permanent magnet to extend away from a longitudinal axis of the second permanent magnet.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The method of claim 14, wherein the first permanent magnet and the second permanent magnet are both cylindrical axially-magnetized samarium-cobalt magnets or are both cylindrical axially-magnetized neodymium magnets.
  - 16. The method of claim 14, wherein the first pole of both the first and second permanent magnets is north, and the second pole of both the first and second permanent magnets is south.
  - 17. The method of claim 14, wherein the first pole of both the first and second permanent magnets is south, and the second pole of both the first and second permanent magnets is north.
  - 18. The method of claim 14, wherein the first permanent magnet and the second permanent magnet are positioned within a bore of a body tube.
  - 19. The method of claim 18, wherein the mechanism to reduce the longitudinal distance between the first permanent magnet and the second permanent magnet comprises an adjusting member having a threaded portion that engages a threaded portion within the bore of the body tube such that a rotation of the adjusting member relative to the body tube results in the longitudinal displacement of the adjusting member.
  - 20. The method of claim 18, further comprising:
    - providing a valve having a displaceable gate within a contained valve housing, the gate being secured to a displaceable valve stem;
      
      coupling the mechanism to reduce the longitudinal distance between the first permanent magnet and the second permanent magnet to the body tube and securing the body tube to the valve stem; and
      
      providing a sensor outside of the valve housing, the sensor being capable of detecting either the first magnetic flux field or the second magnetic flux field when the valve stem is displaced to a desired location.

Specification

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Current Assignee
General Equipment and Manufacturing Company, Inc.
Original Assignee
General Equipment and Manufacturing Company, Inc.
Inventors
Bi, Xueguang, LaFountain, Robert L.

Granted Patent

US 8,264,309 B2
Time in Patent Office

Days
Field of Search
US Class Current

335/205
CPC Class Codes

F16K 37/0033   using a permanent magnet, e...

H01F 7/0284   using a trimmable or adjust...

H01F 7/0289   Transducers, loudspeakers, ...

H01H 36/0013   characterised by the co-ope...

Adjustable Magnetic Target

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

3 Citations

20 Claims

Specification

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Adjustable Magnetic Target

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

3 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links