Sealless pump rotor position and bearing monitor

US 5,955,880 A
Filed: 12/05/1996
Issued: 09/21/1999
Est. Priority Date: 12/05/1996
Status: Expired due to Fees

First Claim

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1. A bearing monitor for use with a canned motor pump having a wound stator and a rotor drivably coupled to an impeller, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment can and exposed to process fluid being pumped by the canned motor pump, the wound stator being mounted external to the containment can and isolated from the process fluid, comprising:

a first target embedded in an outer periphery of the rotor in axial proximity to a first end of the rotor;

a first and a second sensor mounted external to the containment can in axial proximity to said first target and radially displaced approximately equally around the periphery of the containment can;

a magnetic field generating means operatively coupled to said first and said second sensors for generating a first and a second local magnetic field, each local magnetic field being coupled through the containment can, process fluid, rotor, and said first target to each of said sensors, said first and said second sensors each generating an output signal in response thereto;

a monitor circuit coupled to said first and said second sensors, said monitor circuit comparing said output signal from said first sensor with said output signal from said second sensor, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in a first radial direction on the first end of the rotor;

a second target embedded in an outer periphery of the rotor in axial proximity to a second end of the rotor;

a third and a fourth sensor mounted external to the containment can in axial proximity to said second target, said third and said fourth sensors radially displaced approximately equally around the periphery of the containment can;

wherein said magnetic field generating means is also operably coupled to said third and said fourth sensors for generating a third and a fourth local magnetic field, said third and said fourth sensors each generating an output signal in response thereto;

wherein said monitor circuit is also coupled to said third and said fourth sensors, said monitor circuit comparing said output signal from said third sensor with said output signal from said fourth sensor, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in a second radial direction on the second end of the rotor; and

a fifth and a sixth sensor mounted external to the containment can in an axial plane with said first and said second sensors, said fifth and said sixth sensors radially displaced approximately equally around the periphery of the containment can, equally displaced from said first and said second sensors;

wherein said magnetic field generating means is also operably coupled to said fifth and said sixth sensors for generating a fifth and a sixth local magnetic field, said fifth and said sixth sensors each generating an output signal in response thereto;

wherein said monitor circuit is also coupled to said fifth and said sixth sensors, said monitor circuit comparing said output signal from said fifth sensor with said output signal from said sixth sensor, said monitor circuit generating a scaled output in response to a difference therebetween said difference being approximately linearly related to bearing wear in a third radial direction orthogonal to said first radial direction on the first end of the rotor; and

wherein said first and said second sensors are in a first axial plane, and said third and said fourth sensors are in a second axial plane axially displaced from said first axial plane.

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Abstract

A bearing monitor for use with a canned motor pump having a wound stator and a rotor drivably coupled to an impeller, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment can comprises a first and a second target embedded in an outer periphery of the rotor in axial proximity to a first and a second end of the rotor. The monitor includes a plurality of sensors mounted external to the containment can in axial proximity to each of the two targets and radially displaced approximately equally around the periphery of the containment can. A plurality of magnetic field generators create local magnetic fields coupled through the containment can, process fluid, rotor, and at least a portion of one target to one of the sensors. In response to each field, each sensor generates an output signal which varies as a result in a change in the magnetic circuit reluctance caused by bearing wear. A monitor circuit is coupled to the sensors and compares their output signals to generate a scaled output which is approximately linearly related to bearing wear. The output of sensors in the same axial plane are utilized to determine bearing wear in a radial direction, while the output of sensors in different axial planes are utilized to determine bearing wear in an axial direction. Electromagnetic shielding may be used depending on the environmental and operating conditions.

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30 Claims

1. A bearing monitor for use with a canned motor pump having a wound stator and a rotor drivably coupled to an impeller, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment can and exposed to process fluid being pumped by the canned motor pump, the wound stator being mounted external to the containment can and isolated from the process fluid, comprising:
- a first target embedded in an outer periphery of the rotor in axial proximity to a first end of the rotor;
  
  a first and a second sensor mounted external to the containment can in axial proximity to said first target and radially displaced approximately equally around the periphery of the containment can;
  
  a magnetic field generating means operatively coupled to said first and said second sensors for generating a first and a second local magnetic field, each local magnetic field being coupled through the containment can, process fluid, rotor, and said first target to each of said sensors, said first and said second sensors each generating an output signal in response thereto;
  
  a monitor circuit coupled to said first and said second sensors, said monitor circuit comparing said output signal from said first sensor with said output signal from said second sensor, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in a first radial direction on the first end of the rotor;
  
  a second target embedded in an outer periphery of the rotor in axial proximity to a second end of the rotor;
  
  a third and a fourth sensor mounted external to the containment can in axial proximity to said second target, said third and said fourth sensors radially displaced approximately equally around the periphery of the containment can;
  
  wherein said magnetic field generating means is also operably coupled to said third and said fourth sensors for generating a third and a fourth local magnetic field, said third and said fourth sensors each generating an output signal in response thereto;
  
  wherein said monitor circuit is also coupled to said third and said fourth sensors, said monitor circuit comparing said output signal from said third sensor with said output signal from said fourth sensor, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in a second radial direction on the second end of the rotor; and
  
  a fifth and a sixth sensor mounted external to the containment can in an axial plane with said first and said second sensors, said fifth and said sixth sensors radially displaced approximately equally around the periphery of the containment can, equally displaced from said first and said second sensors;
  
  wherein said magnetic field generating means is also operably coupled to said fifth and said sixth sensors for generating a fifth and a sixth local magnetic field, said fifth and said sixth sensors each generating an output signal in response thereto;
  
  wherein said monitor circuit is also coupled to said fifth and said sixth sensors, said monitor circuit comparing said output signal from said fifth sensor with said output signal from said sixth sensor, said monitor circuit generating a scaled output in response to a difference therebetween said difference being approximately linearly related to bearing wear in a third radial direction orthogonal to said first radial direction on the first end of the rotor; and
  
  wherein said first and said second sensors are in a first axial plane, and said third and said fourth sensors are in a second axial plane axially displaced from said first axial plane.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
- - 2. The bearing monitor of claim 1, wherein said monitor circuit combines said output signals from said first and said second sensors to form a first axial signal, and from said fifth and said sixth sensors to form a second axial signal, said monitor circuit further comparing said first axial signal with said second axial signal, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in an axial direction.
  - 3. The bearing monitor of claim 2, further comprising an electromagnetic shield interposed between said sensors and said wound stator.
  - 4. The bearing monitor of claim 3, wherein said sensors are positioned in axial proximity with windings of the wound stator, and wherein said electromagnetic shield is conically positioned between said sensors and the windings.
  - 5. The bearing monitor of claim 3, wherein said sensors are positioned in separate axial planes than windings of the wound stator, and wherein said electromagnetic shield is positioned in an axial plane separating said sensors from the windings.
  - 6. The bearing monitor of claim 1, further comprising:
    - a seventh and an eighth sensor mounted external to the containment can in the second axial plane with said third and said fourth sensors, said seventh and said eighth sensors radially displaced approximately equally around the periphery of the containment can, equally displaced from said third and said fourth sensors;
      
      wherein said magnetic field generating means is also operably coupled to said seventh and said eighth sensors for generating a seventh and an eighth local magnetic field, said seventh and said eighth sensors each generating an output signal in response thereto; and
      
      wherein said monitor circuit is also coupled to said seventh and said eighth sensors, said monitor circuit comparing said output signal from said seventh sensor with said output signal from said eighth sensor, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in a fourth radial direction orthogonal to said second radial direction on the second end of the rotor.
  - 7. The bearing monitor of claim 6, wherein said monitor circuit combines said outputs from said first, said second, said fifth, and said sixth sensors to form a first axial output signal and combines said outputs from said third, said fourth, said seventh, and said eighth sensors to form a second axial output signal, said monitor circuit generating a scaled output in response to a difference therebetween, said difference being approximately linearly related to bearing wear in an axial direction.
  - 8. The bearing monitor of claim 7, further comprising an electromagnetic shield interposed between said sensors and said wound stator.
  - 9. The bearing monitor of claim 8, wherein said sensors are positioned in axial proximity with windings of the wound stator, and wherein said electromagnetic shield is conically positioned between said sensors and the windings.
  - 10. The bearing monitor of claim 8, wherein said sensors are positioned in a separate axial plane than windings of the wound stator, and wherein said electromagnetic shield is positioned in an axial plane separating said sensors from the windings.
  - 11. The bearing monitor of claim 6, further comprising:
    - a ninth and a tenth sensor mounted external to the containment can in an axial plane displaced from said first and said second sensors, said ninth and said tenth sensors radially displaced approximately equally around the periphery of the containment can, radially aligned with said first and said second sensors; and
      
      wherein said magnetic field generating means is also operably coupled to said ninth and said tenth sensors for generating a ninth and a tenth local magnetic field, said ninth and said tenth sensors each generating an output signal in response thereto; and
      
      wherein said monitor circuit is also coupled to said ninth and said tenth sensors, said monitor circuit combining said output signal from said ninth sensor with said output signal from said tenth sensor to form a first axial output signal, said monitor circuit further combining said output signal from said first sensor with said output signal from said second sensor to form a second axial output signal, said monitor circuit generating a scaled output in response to a difference between said first and said second axial output signals, said difference being approximately linearly related to bearing wear in an axial direction.
  - 12. The bearing monitor of claim 11, further comprising an electromagnetic shield interposed between said sensors and said wound stator.
  - 13. The bearing monitor of claim 12, wherein said sensors are positioned in axial proximity with windings of the wound stator, and wherein said electromagnetic shield is conically positioned between said sensors and the windings.
  - 14. The bearing monitor of claim 12, wherein said sensors are positioned in separate axial planes than windings of the wound stator, and wherein said electromagnetic shield is positioned in an axial plane separating said sensors from the windings.
  - 15. The bearing monitor of claim 9, further comprising:
    - a ninth and a tenth sensor mounted external to the containment can in an axial plane displaced from said first and said second sensors, said ninth and said tenth sensors radially displaced approximately equally around the periphery of the containment can, radially aligned with said first and said second sensors; and
      
      wherein said magnetic field generating means is also operably coupled to said ninth and said tenth sensors for generating a ninth and a tenth local magnetic field, said ninth and said tenth sensors each generating an output signal in response thereto; and
      
      wherein said monitor circuit is also coupled to said ninth and said tenth sensors, said monitor circuit differentially combining said output signal from said ninth sensor with said output signal from said tenth sensor to form a first axial output signal, said monitor circuit further differentially combining said output signal from said first sensor with said output signal from said second sensor to form a second axial output signal, said monitor circuit generating a scaled output in response to a difference between said first and said second axial output signals, said difference being approximately linearly related to bearing wear in an axial direction.
  - 16. The bearing monitor of claim 15, further comprising an electromagnetic shield interposed between said sensors and said wound stator.
  - 17. The bearing monitor of claim 16, wherein said sensors are positioned in axial proximity with windings of the wound stator, and wherein said electromagnetic shield is conically positioned between said sensors and the windings.
  - 18. The bearing monitor of claim 16, wherein said sensors are positioned in separate axial planes than windings of the wound stator, and wherein said electromagnetic shield is positioned in an axial plane separating said sensors from the windings.
  - 19. The bearing monitor of claim 15, wherein said first target comprises a ring having a first and a second square end.
  - 20. The bearing monitor of claim 19, wherein said first and said second sensors are located in an axial plane defining said first square end of said first target, and said ninth and said tenth sensors are located in an axial plane defining said second square end of said first target.
  - 21. The bearing monitor of claim 19, wherein said first and said second sensors are located in an axial plane defining said first square end of said first target, and said ninth and said tenth sensors are located in axial proximity to said first target displaced from said second square end of said first target.
  - 22. The bearing monitor of claim 15, wherein said first target comprises an elongated ring having a constant diameter section and a conical section, and wherein said first and said second sensors are positioned in axial proximity to said conical section, and wherein said ninth and said tenth sensors are positioned in axial proximity to said constant diameter section.

23. A bearing monitor for a motor having a wound stator and a rotor, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment housing, the wound stator being mounted external to the containment housing, comprising:
- first means positioned external to the containment housing for sensing a radial displacement of the rotor, said first means generating a first scaled output signal approximately linearly related to wear of the radial journal bearings;
  
  second means positioned external to the containment housing for sensing an axial displacement of the rotor, said second means generating a second scaled output signal approximately linearly related to wear of the axial thrust bearings; and
  
  third means responsive to said first scaled output signal and to said second scaled output signal for displaying an incremental amount of bearing wear in both an axial and a radial direction;
  
  wherein said first means comprises a plurality of radial sensor assemblies positioned radially equidistant about either end of the rotor by sensor mounting means, said radial sensor assemblies comprising a means for generating a local magnetic field and at least one radial sense coil, and wherein said local magnetic field induces a voltage in said at least one radial sense coil, said induced voltage varying with radial displacement of the rotor; and
  
  wherein said sensor mounting means comprises a spider pole piece having a first pair and a second pair of legs, said first pair of legs being mounted along an axial axis of said containment housing, said second pair forming a pole piece for said means for generating a local magnetic field and for said at least one radial sense coil.
- View Dependent Claims (24)
- - 24. The bearing monitor of claim 23, wherein said means for generating a local magnetic field comprises at least one excitation coil coupled to a source of excitation.

25. A bearing monitor for a motor having a wound stator and a rotor, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment housing, the wound stator being mounted external to the containment housing, comprising:
- first means positioned external to the containment housing for sensing a radial displacement of the rotor, said first means generating a first scaled output signal approximately linearly related to wear of the radial journal bearings;
  
  second means positioned external to the containment housing for sensing an axial displacement of the rotor, said second means generating a second scaled output signal approximately linearly related to wear of the axial thrust bearings; and
  
  third means responsive to said first scaled output signal and to said second scaled output signal for displaying an incremental amount of bearing wear in both an axial and a radial direction;
  
  wherein said first means comprises a plurality of radial sensor assemblies positioned radially equidistant about either end of the rotor by sensor mounting means, said radial sensor assemblies comprising a means for generating a local magnetic field and at least one radial sense coil, and wherein said local magnetic field induces a voltage in said at least one radial sense coil, said induced voltage varying with radial displacement of the rotor; and
  
  wherein said sensor mounting means comprises a spider pole piece having a first pair and a second pair of legs, said first pair of legs being mounted along an axial axis of said containment housing, said second pair forming a pole piece, and wherein said radial sensor assembly comprises two radial sense coils electrically additively coupled and mounted on said second pair of legs, and wherein said means for generating a local magnetic field comprises two excitation coils electrically additively coupled and mounted on said second pair of legs.

26. A bearing monitor for a motor having a wound stator and a rotor, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment housing, the wound stator being mounted external to the containment housing, comprising:
- first means positioned external to the containment housing for sensing a radial displacement of the rotor, said first means generating a first scaled output signal approximately linearly related to wear of the radial journal bearings;
  
  second means positioned external to the containment housing for sensing an axial displacement of the rotor, said second means generating a second scaled output signal approximately linearly related to wear of the axial thrust bearings; and
  
  third means responsive to said first scaled output signal and to said second scaled output signal for displaying an incremental amount of bearing wear in both an axial and a radial direction;
  
  wherein said first means comprises a plurality of radial sensor assemblies positioned radially equidistant about either end of the rotor by sensor mounting means, said radial sensor assemblies comprising a means for generating a local magnetic field and at least one radial sense coil, and wherein said local magnetic field induces a voltage in said at least one radial sense coil, said induced voltage varying with radial displacement of the rotor; and
  
  wherein said second means comprises a plurality of axial sensor assemblies positioned radially equidistant in a first and a second axial plane about a first end of the rotor by sensor mounting means, said axial sensor assemblies comprising a means for generating a local magnetic field and at least one axial sense coil, and wherein said local magnetic field induces a voltage in said at least one axial sense coil, said induced voltage varying with axial displacement of the rotor.
- View Dependent Claims (27, 28, 29)
- - 27. The bearing monitor of claim 26, wherein said axial sensor assemblies in said first axial plane are radially aligned with said axial sensor assemblies in said second axial plane.
  - 28. The bearing monitor of claim 27, wherein said axial sensor assemblies in said first axial plane are electrically combined with said axial sensor assemblies in said second axial plane to produce an axial output voltage displacement signal which varies with axial displacement of the rotor.
  - 29. The bearing monitor of claim 27, wherein a first and a second axial sensor assemblies are positioned in said first axial plane, said first and said second axial sensor assemblies being differentially combined to produce a first output, and wherein a third and a fourth axial sensor assemblies are positioned in said second axial plane, said third and said fourth axial sensor assemblies being differentially combined to produce a second output, said first and said second outputs being differentially combined to produce said second scaled output.

30. A bearing monitor for a motor having a wound stator and a rotor, the rotor being mounted on radial journal bearings and axial thrust bearings within a containment housing, the wound stator being mounted external to the containment housing, comprising:
- first means positioned external to the containment housing for sensing a radial displacement of the rotor, said first means generating a first scaled output signal approximately linearly related to wear of the radial journal bearings;
  
  second means positioned external to the containment housing for sensing an axial displacement of the rotor, said second means generating a second scaled output signal approximately linearly related to wear of the axial thrust bearings; and
  
  third means responsive to said first scaled output signal and to said second scaled output signal for displaying an incremental amount of bearing wear in both an axial and a radial direction;
  
  a target embedded in an outer periphery of the rotor in axial proximity to a first end of the rotor, and wherein said first and said second means are mounted in axial proximity to said target;
  
  wherein said target comprises an elongate ring having a first end having a conical section and a second square end having a constant diameter section.

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Current Assignee
Sundyne, LLC
Original Assignee
Sundyne Corporation
Inventors
Eilers, George J., Beam, Palmer H., Belanger, David J., Imlach, Joseph
Primary Examiner(s)
BROCK, MICHAEL J

Application Number

US08/760,003
Time in Patent Office

1,020 Days
Field of Search

324/207.11, 324/207.15, 324/207.16, 324/207.17, 324/207.18, 324/207.19, 324/207.22, 324/207.23, 324/207.24, 324/207.25, 340/682
US Class Current

324/207.17
CPC Class Codes

F16C 17/246 related to wear, e.g. senso...

G01M 13/04 Bearings

Sealless pump rotor position and bearing monitor

First Claim

7 Assignments

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Abstract

87 Citations

30 Claims

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Sealless pump rotor position and bearing monitor

First Claim

7 Assignments

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0 Petitions

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Accused Products

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Abstract

87 Citations

30 Claims

Specification

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Solutions

Use Cases

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