Encapsulated transducer with an alignment plug and method of manufacture

US 5,712,562 A
Filed: 10/13/1995
Issued: 01/27/1998
Est. Priority Date: 10/13/1995
Status: Expired due to Fees

First Claim

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1. A transducer for monitoring the status of rotating equipment, comprising in combination:

a sensing element;

first and second leads extending from said sensing element;

a cable operatively coupled to said leads,an integrally formed one piece alignment plug capturing said sensing element and ensconcing an entirety of said first lead, at least a portion of said second lead and a leading portion of said cable for axially aligning said leading portion of said cable with said sensing element and rigidly spacing said sensing element from said leading portion of said cable for precisely setting the electromagnetic relationship between said sensing element and said cable; and

a monolith of cured moldable material ensconcing said sensing element, an entirety of said alignment plug, and a portion of said cable defining a seamless mass circumscribing said sensing element and a portion of said cable and including a protective wall having an uninterrupted uniform thickness immediately forward of said sensing element.

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Abstract

The encapsulated transducer (10) includes an injection molded encapsulation (20) having a front end (22) and a back end (24). The encapsulation (20) ensconces a sensing element (40) proximate the front end (22) and a portion of a cable (60) which extends from the back end (24). The sensing element or coil (40) is electrically and mechanically connected to the cable (60) by a pair of suitably sized front and rear ferrules (80), (90) secured to a center and coaxial conductor (66), (70) of the associated cable (60) thereby forming a coil and cable assembly (110). At least the rear ferrule (90) includes a shoulder (100) for firmly anchoring the coil and cable assembly (110) within the encapsulation (20). In addition an injection molding process provides the durable encapsulation (20) which bonds with a dielectric (68) of the cable (60) and symmetrically locks the coil and cable assembly (110) therein.

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34 Claims

1. A transducer for monitoring the status of rotating equipment, comprising in combination:
- a sensing element;
  
  first and second leads extending from said sensing element;
  
  a cable operatively coupled to said leads,an integrally formed one piece alignment plug capturing said sensing element and ensconcing an entirety of said first lead, at least a portion of said second lead and a leading portion of said cable for axially aligning said leading portion of said cable with said sensing element and rigidly spacing said sensing element from said leading portion of said cable for precisely setting the electromagnetic relationship between said sensing element and said cable; and
  
  a monolith of cured moldable material ensconcing said sensing element, an entirety of said alignment plug, and a portion of said cable defining a seamless mass circumscribing said sensing element and a portion of said cable and including a protective wall having an uninterrupted uniform thickness immediately forward of said sensing element.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 31, 32)
- - 2. The transducer of claim 1 wherein said sensing element is a coil having a front face, a back face and a body having an outer surface and a center void extending therethrough, said body extending between said front face and said back face.
  - 3. The transducer of claim 2 wherein said cable includes at least a center conductor and a coaxial conductor separated from one another by at least one dielectric, said dielectric being pre-etched.
  - 4. The transducer of claim 3 wherein at least one area proximate said leading end of said cable is stripped in a step-like fashion to expose a length of at least said center conductor, dielectric and coaxial conductor.
  - 5. The transducer of claim 4 further including a front ferrule and a rear ferrule, said front ferrule having a bore with a diameter substantially matching the diameter of said center conductor and said rear ferrule having a bore with a diameter substantially matching the diameter of said coaxial conductor.
  - 6. The transducer of claim 5 wherein at least a portion of said center conductor is electrically and mechanically connected within the bore of said front ferrule.
  - 7. The transducer of claim 6 wherein at least a portion of said coaxial conductor is electrically and mechanically connected within the bore of said rear ferrule.
  - 8. The transducer of claim 7 wherein said first lead of said coil is electrically connected to said front ferrule and said second lead of said coil is electrically connected to said rear ferrule.
  - 9. The transducer of claim 8 further comprising said integrally formed alignment plug symmetrically disposed within said monolith of cured moldable material and axially aligning the coil along a long axis of said sensor and rigidly spacing the coil a predetermined distance from the stripped end of the cable.
  - 10. The transducer of claim 9 wherein said alignment plug includes a front end having an annular recess defined by a center post integrally formed with a medial portion and an outer peripheral wall, said center post extending within the center void of said coil, said medial portion contacting and conforming to an entirety of said back face of said coil and said outer peripheral wall contacting and conforming to the outer surface of the body of said coil.
  - 11. The transducer of claim 10 wherein said alignment plug further comprises a back end circumscribing a length of said stripped end of said cable and said medial portion integrally formed with and interposed between said front end and said back end of said alignment plug.
  - 12. The transducer of claim 11 wherein said medial portion of said alignment plug ensconces said front ferrule and axially aligns said front ferrule along the long axis of said sensor.
  - 13. The transducer of claim 12 wherein said medial portion of said alignment plug ensconces a length of said dielectric proximate said front ferrule.
  - 14. The transducer of claim 13 wherein said cured moldable material forms a strong bond with said etched dielectric of said cable by forming an interface between said cured moldable material and said etched dielectric of said cable.
  - 15. The transducer of claim 14 wherein said rear ferrule includes a shoulder locking into said monolith of cured moldable material to oppose axial forces from destroying the connection between said first and second leads and said center and coaxial conductors.
  - 31. The transducer of claim 1 further including means integrally formed with said alignment plug for receiving at least one slideable support pin for supporting said alignment plug within an injection mold cavity and spacing a front face of said sensing element a precise length from a front wall of the injection mold cavity for controlling said thickness of said front wall of said cured injection molded monolith of material.
  - 32. The transducer of claim 31 further including a locating means for receiving at least one axially slideable locator pin for locating said sensing element and alignment plug within the injection mold cavity, said locating means defined by an area of an air core disposed in said sensing element.

16. An encapsulated transducer for use in monitoring the status of rotating equipment in a harsh environment with an alignment plug having a leading end with an active element and a trailing end with an information transmitting medium emanating therefrom, formed by:
- integrally forming a locating means proximate said front face of said active element, said locating means defined by a portion of an air core of said active element unfilled by a center post integrally formed with said alignment plug and extending a distance within said air core;
  
  locating said active element in a mold cavity with a slideable locating pin coupling to said locating means, assuring proper registry in said mold cavity;
  
  protecting an outer surface of said active element with an outer peripheral wall integrally formed with said center post and contacting and contouring to an exterior surface of said active element wherein said outer peripheral wall, said center post and a portion of said alignment plug contacting and contouring to a back face of said active element define an annular recess integrally formed in said alignment plug;
  
  integrally forming a support receiving means with said alignment plug at a precise distance from said front face of said active element;
  
  supporting and locating said active element and said alignment plug in said mold cavity with a slideable support means coupling to said support receiving means and removing said locator means;
  
  injection molding a uniform uninterrupted front wall over a front face of said active element and a seamless body over said alignment plug and a portion of said information transmitting medium with a moldable material except for an area of support;
  
  removing said support means;
  
  injecting moldable material adjacent the support means for filling in said support receiving means heretofore occupied by said support means;
  
  wherein said active element is ensconced in a seamless mass of said moldable material having said uniform uninterrupted front wall abutting said front face of said active element and seamlessly transitioning into said body whereby said active element and said alignment plug are precisely located in said moldable material to accurately address the rotating equipment.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. The encapsulated transducer as formed in claim 16 wherein the forming steps further include locating said active element in said mold cavity with an axially slideable support being received within said air core of said active element.
  - 18. The encapsulated transducer as formed in claim 17 wherein the forming steps further include integrally forming grooves in said alignment plug at a precise length from a front face of said active element for forming said support receiving means.
  - 19. The encapsulated transducer as formed in claim 18 wherein the forming steps further include supporting said active element and said alignment plug with a plurality of radially slideable supports and spacing said front face of said active element a precise distance from a front wall of said mold cavity by said grooves receiving said radially slideable supports.
  - 20. The encapsulated transducer as formed in claim 19 wherein the forming steps further include providing a drive means to the axially slideable support and to the plurality of radially slideable supports for sliding each support into or out of the mold cavity.
  - 21. The encapsulated transducer as formed in claim 20 wherein the forming steps further include providing a control means for signaling the drive means for independently sliding each support into or out of the mold cavity.
  - 22. The encapsulated transducer as formed in claim 21 wherein the forming steps further include providing an alterable timing sequence for orchestrating the control means signaling of the drive means.

23. A transducer for monitoring the status of rotating equipment wherein a shaft of the rotating equipment is exposed to said transducer, comprising, in combination:
- means for mounting said transducer a distance from the shaft such that a tangent of the shaft is perpendicular to a long axis of said transducer,said transducer including an air core coil located proximate the shaft,a front portion of said transducer including an uninterrupted protective wall having uniform thickness along a forwardmost portion of said air core coil,said coil symmetrically disposed about the long axis, anda protective seamless encapsulation integrally formed with said uninterrupted protective front wall ensconcing said coil and a leading portion of a cable operatively coupled to said coil,an alignment plug embedded within said encapsulation and uniting said coil to said cable,said alignment plug including a front end molded flush with a front face of said coil, a back end molded over a length of said leading portion of said cable and, a medial portion contacting and contouring to a back face of said air core coil and integrally formed with and interposed between said front end and said back end of said alignment plug for capturing said air core coil and a portion of said cable;
  
  said medial portion of said alignment plug including an integrally formed outer peripheral wall contacting and contouring to an exterior surface of said air core coil and extending substantially parallel thereto;
  
  a center post integrally formed with said medial portion of said alignment plug and extending a distance into said air core of said coil;
  
  said outer peripheral wall, said medial portion and said center post defining an annular recess integrally formed in said alignment plug and contacting and contouring to said exterior surface, said back face and a portion of said air core of said coil,said cable extending away from said transducer to an electrical processing unit.

24. A transducer formed from injection molding, the forming steps including:
- attaching an air core coil to a conductor of a leading portion of a cableforming an alignment plug including a front end molded flush with a front face of said coil, a back end molded over a length of said leading portion of said cable and, a medial portion contacting and contouring to an entire back face of said coil and integrally formed with and interposed between said front end and said back end of said alignment plug for capturing said coil and said leading portion of said cable;
  
  said medial portion of said alignment plug including an integrally formed outer peripheral wall contacting and contouring to an exterior surface of said coil and extending substantially parallel thereto, anda center post integrally formed with said medial portion of said alignment plug and extending a distance into an air core of said coil;
  
  said outer peripheral wall, said medial portion and said center post defining an annular recess integrally formed in said alignment plug and contacting and contouring to said exterior surface, said back face and a portion of said air core of said coil,forming a locating means proximate said front face of said coil, said locating means defined by a portion of said air core of said coil unfilled by said center post integrally formed with said alignment plug;
  
  centering the coil within a mold cavity with a slideable coil support being received within said locating means,supporting the cable within the mold cavity with plural cable supports,orienting the cable to extend out from the mold cavity,retracting the coil support,injecting moldable material into the cavity of the mold to precisely ensconce said coil, said alignment plug and a length of the cable proximate the leading portion of the cable with a seamless mass of material including a uniform uninterrupted front wall abutting said front face of said active element and a body seamlessly transitioning therefrom whereby said active element and said alignment plug are precisely located in said seamless mass of moldable material,retracting the plural cable supports from the cable after the moldable material has been injected into the mold cavity,injecting moldable material adjacent the cable supports for filling in the areas heretofore occupied by said plural cable supports,allowing the moldable material to set,removing the thus-formed transducer from the mold as an integrated unit.
- View Dependent Claims (25, 26, 27, 28, 29, 30)
- - 25. The transducer as formed in claim 24 wherein the forming steps further include centering and supporting the coil with an axially slideable coil support being received within said locating means.
  - 26. The transducer as formed in claim 25 wherein the forming steps further include supporting the cable with plural radially retractable cable supports.
  - 27. The transducer as formed in claim 26 wherein the forming steps further include preheating the mold to a temperature of moldable material in a molten state prior to injecting the moldable material into the cavity.
  - 28. The transducer as formed in claim 27 wherein the forming steps further include maintaining the mold at the preheated temperature when injecting moldable material into the cavity.
  - 29. The transducer formed in claim 28 wherein the forming steps further include injecting the moldable material at low pressure and low velocity to maintain the integrity of the coil, provide a good migration pattern of the moldable material in the cavity and to form a dense, sealed transducer.
  - 30. The transducer formed in claim 29 wherein the forming steps further include providing a bonding agent to the moldable material for providing a strong bond between the cable and the moldable material once set.

33. A transducer for monitoring the status of rotating equipment, comprising in combination:
- a coil having a front face, a back face, a body extending from said front face to said rear back and a central air core extending completely through said body;
  
  first and second leads extending away from said coil;
  
  a cable including at least one center conductor, a coaxial conductor and a dielectric separating at least one said center conductor from said coaxial conductor;
  
  said cable having at least one end stripped in a step-like fashion to expose a length of a least said center conductor, dielectric and coaxial conductor;
  
  a front ferrule operatively coupled to at least a portion of the exposed length of said center conductor at said one stripped end, and a rear ferrule operatively coupled to at least a portion of said coaxial conductor at said one stripped end;
  
  an integrally formed one piece alignment plug including an outer protective peripheral wall contacting and conforming to an exterior surface of said body of said sensing element, a medial portion integrally formed with said outer peripheral wall and contacting and conforming to an entirety of said back face of said coil, and a center post integrally formed with said medial portion of said alignment plug and partially extending into said air core of said coil;
  
  said peripheral wall, said medial portion and said center post defining an integrally formed annular recess capturing said coil wherein said medial portion ensconces an entirety of said first lead, an entirety of said front ferrule, at least a portion of said second lead and a length of said one stripped end of said cable;
  
  said medial portion axially aligning said coil with said front ferrule and rigidly spacing said coil from said one stripped end of said cable wherein said spacing maintains an electromagnetic relationship between said coil and said cable;
  
  a cured injection molded monolith of material ensconcing said coil, an entirety of said alignment plug, said rear ferrule and a portion of said cable proximate said rear ferrule, said material defining a seamless mass including an uninterrupted front wall contacting and conforming to an entirety of said front face of said coil and uniformly extending therefrom to provide said uninterrupted front wall with a uniform thickness which directly abuts and extends from said front face of said coil and which maximizes a linear range of said transducer for providing accurate and reliable measurements when in operation.

34. A transducer for monitoring the status of rotating equipment, comprising in combination:
- an air core coil having a front face, a rear face, a body extending from said front face to said rear face and a central air core extending completely through said body;
  
  first and second leads extending away from said coil;
  
  a cable operatively coupled to said leads;
  
  an integrally formed one piece alignment plug including an outer protective peripheral wall contacting and conforming to an exterior surface of said body of said coil, a medial portion integrally formed with said outer peripheral wall and contacting and conforming to an entirety of said rear face of said coil, and a center post integrally formed with said medial portion of said alignment plug and partially extending into said air core of said coil;
  
  said peripheral wall, said medial portion and said center post defining an integrally formed annular recess capturing said coil wherein said medial portion ensconces an entirety of said first lead, at least a portion of said second lead and a leading portion of said cable;
  
  said medial portion axially aligning said coil with the leading portion of said cable and rigidly spacing said coil from said cable wherein said spacing maintains an electromagnetic relationship between said coil and said cable;
  
  a cured injection molded monolith of material ensconcing said coil, an entirety of said alignment plug and a portion of said cable proximate a rear of said alignment plug, said material defining a seamless mass including an uninterrupted front wall contacting and conforming to an entirety of said front face of said coil and uniformly extending therefrom to provide said uninterrupted front wall with a uniform thickness which immediately extends from said front face of said coil and which maximizes a linear range of said transducer for providing accurate and reliable measurements when in operation.

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Current Assignee
BN Corporation LLC
Original Assignee
Bently Nevada Incorporated (General Electric Company)
Inventors
Berg, Dave Van Den
Primary Examiner(s)
Strecker, Gerard R.

Application Number

US08/542,532
Time in Patent Office

837 Days
Field of Search

324/173, 324/174, 324/207.15, 324/207.16, 324/207.25, 324/207.26, 324/236, 324/237, 73/660, 73/661, 29/595, 29/602.1, 29/605, 29/606, 264/272.13, 264/272.15, 264/272.16, 264/272.19, 336/92, 336/96, 336/205, 174/52.1-52.3
US Class Current

324/207.16
CPC Class Codes

G01B 7/001   Constructional details of g...

G01D 11/245   Housings for sensors

G01H 1/003   of rotating machines G01H1/...

G01H 11/02   by magnetic means, e.g. rel...

G01K 7/02   using thermoelectric elemen...

H01F 2027/2833   using coaxial cable as wire

Y10T 29/49007   Indicating transducer

Y10T 29/4902   Electromagnet, transformer ...

Encapsulated transducer with an alignment plug and method of manufacture

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

112 Citations

34 Claims

Specification

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Encapsulated transducer with an alignment plug and method of manufacture

First Claim

4 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

112 Citations

34 Claims

Specification

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Solutions

Use Cases

Quick Links