Movable pin ultrasonic transducer

US 7,959,438 B2
Filed: 03/10/2006
Issued: 06/14/2011
Est. Priority Date: 08/11/2005
Status: Expired due to Fees

First Claim

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1. A precision electromagnetic ultrasonic tool comprising:

a handpiece including a well and a plurality of coils capable of generating an electromagnetic field;

each coil of the plurality of coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the plurality of coils extending substantially from a proximal end to a distal end of the well;

a movable magnetic rod positioned adjacent the coils for three-dimensional displacement in response to variations in the electromagnetic field;

a tip rigidly attached to an end of the magnetic rod; and

an ultrasonic signal generator operatively connected to the plurality of coils and configured to selectively power each of the plurality of coils to generate and control the variations in the electromagnetic field.

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Abstract

An ultrasonic tool is disclosed with a handpiece (300, 500, 806) containing coils (304A-304D; 504A-504D; 804A-804B) that produce an electromagnetic field that vibrates a magnetic rod (102, 702A, 702B, 820) of a moveable pin transducer (MPT) 100 disposed within the handpiece. Ultrasonic vibrations are produced when the coils are selectively powered by an ultrasonic signal generator, which can include a stepper motor control apparatus (1300, 1400). A tip 106 can be removably attached to an MPT 100. A channel (708A, 708B) in the magnetic rod (700A, 700B) can allow fluidic communication with a handpiece fluid supply channel (310, 510). A method of vibrating a tool can include controllably energizing at least one electromagnetic coil contained within a handpiece to vibrate a magnetic rod and an attached tip. The method can include varying the energy to at least one of the electromagnetic coils with a stepper motor control apparatus.

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33 Claims

1. A precision electromagnetic ultrasonic tool comprising:
- a handpiece including a well and a plurality of coils capable of generating an electromagnetic field;
  
  each coil of the plurality of coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the plurality of coils extending substantially from a proximal end to a distal end of the well;
  
  a movable magnetic rod positioned adjacent the coils for three-dimensional displacement in response to variations in the electromagnetic field;
  
  a tip rigidly attached to an end of the magnetic rod; and
  
  an ultrasonic signal generator operatively connected to the plurality of coils and configured to selectively power each of the plurality of coils to generate and control the variations in the electromagnetic field.
- View Dependent Claims (2, 3, 4)
- - 2. The precision electromagnetic ultrasonic tool of claim 1, wherein the ultrasonic signal generator is configured to selectively power each of the plurality of coils to generate the variations in the electromagnetic field via a computer program.
  - 3. The precision electromagnetic ultrasonic tool of claim 1, wherein:
    - a first coil of the plurality of coils provides feedback based on a current produced in the first coil while the first coil is unpowered; and
      
      the ultrasonic signal generator is further configured to adjust the selective powering of the each of the plurality of coils based on the feedback.
  - 4. The precision electromagnetic ultrasonic tool of claim 1, wherein the ultrasonic signal generator is a first ultrasonic signal generator of a plurality of ultrasonic signal generators, wherein each ultrasonic signal generator of the plurality of ultrasonic signal generators is operatively connected to a respective coil of the plurality of coils.

5. An ultrasonic tool comprising:
- a handpiece providing a well and containing at least two coils conductively connected to an ultrasonic signal generator to create an anisotropic electromagnetic field in the well;
  
  each coil of the at least two coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the at least two coils extending substantially from a proximal end to a distal end of the well;
  
  a magnetic rod with a distal end comprising a tip and a proximal end moveably disposed at least partially within the anisotropic electromagnetic field to vibrate the tip in a three-dimensional pattern, wherein at least one of a geometric pattern or an amplitude of the three-dimensional pattern is controlled based on a software program and corresponding to variations in the anisotropic electromagnetic field; and
  
  a control apparatus included in the ultrasonic signal generator to move the tip in the three-dimensional pattern, the control apparatus including a programmable driver coupled to each of the at least two coils, and the software program executable by the programmable driver to selectively energize each of the at least two coils to produce the variations in the anisotropic electromagnetic field.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 6. The ultrasonic tool of claim 5 wherein the magnetic rod is tapered from a larger distal end to a smaller proximal end.
  - 7. The ultrasonic tool of claim 5 wherein a transverse cross-section of the magnetic rod is ovate.
  - 8. The ultrasonic tool of claim 5 wherein a transverse cross-section of the well is ovate.
  - 9. The ultrasonic tool of claim 5 wherein each of the coils is separately connected to the ultrasonic signal generator.
  - 10. The ultrasonic tool of claim 5 wherein each of the coils is connected to a separate ultrasonic signal generator.
  - 11. The ultrasonic tool of claim 5 wherein the at least two coils are disposed within a wall of the handpiece between the well and an outer surface of the handpiece.
  - 12. The ultrasonic tool of claim 5 wherein the proximal end of the magnetic rod is disposed entirely within the well.
  - 13. The ultrasonic tool of claim 5 wherein the magnetic rod is vibratably retained within the handpiece by a friction fit between an outer surface of the magnetic rod and an inner surface of the well to form a fulcrum between the proximal and distal ends of the magnetic rod.
  - 14. The ultrasonic tool of claim 13 further comprising a positioning tab and a corresponding positioning notch formed between the outer surface of the magnetic rod and an inner surface of the well to restrict relative rotation therebetween.
  - 15. The ultrasonic tool of claim 13 further comprising a sealing member between the outer surface of the magnetic rod and the inner surface of the well to form a fluid-tight seal there between.
  - 16. The ultrasonic tool of claim 5 further comprising a source of motive fluid in communication with an aperture in the tip.
  - 17. The ultrasonic tool of claim 5 further comprising a channel in the magnetic rod in communication with an aperture in the tip and in communication with a fluid supply channel in the handpiece.
  - 18. The ultrasonic tool of claim 5 further comprising a gripping element disposed between the magnetic rod and the tip to form a fulcrum between the proximal and distal ends of the magnetic rod.
  - 19. The ultrasonic tool of claim 5 wherein the tip is removably attached to the distal end of the magnetic rod.
  - 20. The ultrasonic tool of claim 5 further comprising a metallic element disposed within the at least two coils along a longitudinal axis.
  - 21. The ultrasonic tool of claim 5 wherein the magnetic rod comprises a ferromagnetic material.
  - 22. The ultrasonic tool of claim 5 wherein the tip comprises a dental or surgical tip.
  - 23. The ultrasonic tool of claim 5, wherein:
    - a first coil of the at least two coils provides feedback based on a current produced in the first coil while the first coil is unpowered; and
      
      the ultrasonic signal generator is further configured to adjust a selective powering of each of the at least two coils based on the feedback.
  - 24. The precision electromagnetic ultrasonic tool of claim 5, wherein the ultrasonic signal generator is a first ultrasonic signal generator of a plurality of ultrasonic signal generators, wherein each ultrasonic signal generator of the plurality of ultrasonic signal generators is operatively connected to a respective coil of the at least two coils.

25. A method of vibrating a tip of an ultrasonic tool comprising:
- affixing the tip to a magnetic rod;
  
  positioning the magnetic rod on a fulcrum disposed between the tip and a plurality of electromagnetic coils contained within a well of a handpiece;
  
  each coil of the plurality of electromagnetic coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well of the handpiece, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the plurality of electromagnetic coils extending substantially from a proximal end to a distal end of the well;
  
  controllably and selectively energizing at least one of the plurality of electromagnetic coils to generate an anisotropic electromagnetic field; and
  
  controlling a frequency, an amplitude and a geometry of each dimension of a three-dimensional displacement of the magnetic rod and the tip to vary based on variations in the anisotropic electromagnetic field.
- View Dependent Claims (26)
- - 26. The method of claim 25, further comprising:
    - providing, by a first coil of the plurality of electromagnetic coils, feedback based on a current produced in the first coil while the first coil is unpowered; and
      
      adjusting a selective powering of each of the plurality of electromagnetic coils based on the feedback.

27. A method of vibrating a tip of an electromagnetic ultrasonic tool comprising:
- vibratably retaining a magnetic rod within a well of a handpiece of the electromagnetic ultrasonic tool, wherein the tip is adjacent an entry to the well and is attached to an end of the magnetic rod;
  
  connecting an ultrasonic signal generator to an energy source and to a plurality of electromagnetic coils disposed within the handpiece to provide an electromagnetic field;
  
  each coil of the plurality of electromagnetic coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well of the handpiece, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the plurality of electromagnetic coils extending substantially from a proximal end to a distal end of the well; and
  
  controlling at least one of a vibration of the tip at a desired amplitude or the vibration of the tip in a desired geometric pattern solely by varying the energy to at least one of the electromagnetic coils with a control apparatus included in the ultrasonic signal generator, the control apparatus including a programmable driver coupled to each of the at least one of the electromagnetic coils and a software program executable by the programmable driver to selectively power each of the at least one of the electromagnetic coils to change the electromagnetic field with the ultrasonic signal generator to displace the magnetic rod.
- View Dependent Claims (28, 29, 30, 31)
- - 28. The method of claim 27 further comprising applying the tip to impact or penetrate a substrate.
  - 29. The method of claim 27 further comprising applying the tip to clean, cut, polish, abrade or massage a dental surface.
  - 30. The method of claim 27, wherein:
    - providing, by a first coil of the plurality of electromagnetic coils, feedback based on a current produced in the first coil while the first coil is unpowered; and
      
      adjusting a selective powering of each of the plurality of electromagnetic coils based on the feedback.
  - 31. The method of claim 27, wherein the ultrasonic signal generator is a first ultrasonic signal generator of a plurality of ultrasonic signal generators, wherein each ultrasonic signal generator of the plurality of ultrasonic signal generators is operatively connected to a respective coil of the plurality of electromagnetic coils.

32. A precision electromagnetic ultrasonic tool comprising:
- a handpiece including a well;
  
  an insert retained in the handpiece comprising a proximal movable pin transducer rigidly carrying a distal working tip;
  
  ultrasonic drive means comprising;
  
  a plurality of coils in the handpiece to generate an electromagnetic field of chronologically varying anisotropy adjacent a magnetic pin of the moveable pin transducer for repetitively moving the pin in response to the chronologically varying anisotropy of the electromagnetic field;
  
  each coil of the plurality of coils having a longitudinal axis disposed in parallel with a longitudinal, center axis of the well, the longitudinal axis of the each coil being radially offset from the longitudinal, center axis of the well, andeach coil of the plurality of coils extending substantially from a proximal end to a distal end of the well,a first ultrasonic drive signal to selectively energize each of the plurality of coils to generate a first electromagnetic field of a first chronologically varying anisotropy, thereby vibrating the working tip in a first pattern of motion defined by the first ultrasonic drive signal, anda second ultrasonic drive signal to selectively energize each of the plurality of coils to generate a second electromagnetic field of a second chronologically varying anisotropy;
  
  thereby vibrating the working tip in a second pattern of motion defined by the second ultrasonic drive signal.
- View Dependent Claims (33)
- - 33. The precision electromagnetic ultrasonic tool of claim 32, wherein:
    - a first coil of the plurality of coils provides feedback based on a current produced in the first coil while the first coil is unpowered; and
      
      the ultrasonic drive means is further configured to adjust the selective energizing of the each of the plurality of coils based on the feedback.

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Current Assignee
James Feine
Original Assignee
James Feine
Inventors
Feine, James
Primary Examiner(s)
Manahan; Todd E
Assistant Examiner(s)
BALLINGER, MICHAEL ROBERT

Application Number

US11/308,190
Publication Number

US 20080015551A1
Time in Patent Office

1,922 Days
Field of Search

433/86, 433/119, 433/143, 601/80, 606/169, 606/171, 606/177, 606/178, 606/167, 606/170, 310/21, 310/30, 310/36, 310/47, 310/312, 310/12.01, 310/12.21, 310/12.22, 310/14, 310/24, 310/50, 310/15, 310/17, 310/23, 310/26, 310/118
US Class Current

433/119
CPC Class Codes

A61B 17/320068 using mechanical vibrations...

A61C 17/20 using ultrasonics

Movable pin ultrasonic transducer

First Claim

3 Assignments

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Abstract

24 Citations

33 Claims

Specification

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Movable pin ultrasonic transducer

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

24 Citations

33 Claims

Specification

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Use Cases

Quick Links

Others