Apparatus and process for optimizing work from a smart material actuator product

US 7,368,856 B2
Filed: 04/05/2004
Issued: 05/06/2008
Est. Priority Date: 04/04/2003
Status: Expired due to Fees

First Claim

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1. An apparatus comprising:

a support structure defining a rigid non-flexing portion and a movable portion;

a smart material actuator for driving the movable portion of the support structure between first and second positions; and

means for preloading the smart material actuator with a sufficient preload force to optimize work output of the support structure, where work output is defined as a function of displacement and force with infinite life of the support structure, wherein the preloading means is located between the rigid, non-flexing portion of the support structure and the smart material actuator, the preloading means including an adjustable wedge positioned between the rigid, non-flexing portion of the support structure and one end of the smart material actuator, wherein the adjustable wedge includes a first semi-circular wedge portion, a second complementary semi-circular wedge portion, a center wedge portion, and an adjustment screw, such that adjustment of the screw moves the center wedge portion with respect to the first and second semi-circular wedge portions toward and away from one another and adjusts an amount of preload applied to the smart material actuator.

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Abstract

An apparatus and process for pre-loading an electrically stimulated smart material actuator product to obtain maximum work from the actuator. When a smart material actuator is optimally pre-loaded certain desirable characteristics become apparent, such as work, operational frequency, hysteresis, repeatability, and overall accuracy. When used in conjunction with a mechanically leveraged actuator structure the smart material actuator can be used to its greatest potential. Since the mechanically leveraged actuator can be based on the maximum work provided by the smart material actuator, certain attributes such as the force, and displacement of total system can be adjusted without loss to system efficiency. Pre-loading methods and a determination of the optimal pre-load force are disclosed. Each smart material actuator type has a unique work curve. In the design of an actuator assembly, the process of optimizing uses the unique work curve to optimize the design for the requirements of the particular application. The unique work curve is used by finding the place where the smart material actuator is capable of providing the most work in order to set the optimum pre-load point accordingly. Different mechanical pre-load techniques are provided.

239 Citations

30 Claims

1. An apparatus comprising:
- a support structure defining a rigid non-flexing portion and a movable portion;
  
  a smart material actuator for driving the movable portion of the support structure between first and second positions; and
  
  means for preloading the smart material actuator with a sufficient preload force to optimize work output of the support structure, where work output is defined as a function of displacement and force with infinite life of the support structure, wherein the preloading means is located between the rigid, non-flexing portion of the support structure and the smart material actuator, the preloading means including an adjustable wedge positioned between the rigid, non-flexing portion of the support structure and one end of the smart material actuator, wherein the adjustable wedge includes a first semi-circular wedge portion, a second complementary semi-circular wedge portion, a center wedge portion, and an adjustment screw, such that adjustment of the screw moves the center wedge portion with respect to the first and second semi-circular wedge portions toward and away from one another and adjusts an amount of preload applied to the smart material actuator.
- View Dependent Claims (7, 8, 9, 10, 11, 12)
- - 7. The apparatus of claim 1, wherein the preloading means optimizes work output to an efficiency of between approximately 60% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 8. The apparatus of claim 1, wherein the preloading means optimizes work output to an efficiency of greater than 60%, inclusive of the work input from the smart material actuator.
  - 9. The apparatus of claim 1, wherein the preloading means optimizes work output to an efficiency of between approximately 75% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 10. The apparatus of claim 1, wherein the preloading means optimizes work output to an efficiency of greater than 75%, inclusive of the work input from the smart material actuator.
  - 11. The apparatus of claim 1, wherein the preloading means optimizes work output to an efficiency of greater than 90%, inclusive of the work input from the smart material actuator.
  - 12. The apparatus of claim 1, wherein the preloading means optimizes work output to within 20% of peak load as determined by the force displacement product versus force curve of the work input from the smart material actuator.

2. An apparatus comprising:
- a support structure defining a rigid non-flexing portion and a movable portion;
  
  a smart material actuator for driving the movable portion of the support structure between first and second positions; and
  
  means for preloading the smart material actuator with a sufficient preload force to optimize work output of the support structure, where work output is defined as a function of displacement and force with infinite life of the support structure, wherein the preloading means is located between the rigid, non-flexing portion of the support structure and the smart material actuator, the preloading means including an adjustable wedge positioned between the rigid, non-flexing portion of the support structure and one end of the smart material actuator, wherein the adjustable wedge includes a first longitudinal wedge portion engageable with the rigid, non-flexing portion of the support structure, and a second longitudinal wedge portion engageable with one end of the smart material actuator, the first wedge portion having a transversely extending, angled, serrated surface and the second wedge portion having a complementary transversely extending, angled, serrated surface for operable interlocking engagement with the first wedge portion, such that transverse movement of one wedge portion with respect to the other wedge portion adjusts an amount of preload applied to the smart material actuator.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. The apparatus of claim 2, wherein the preloading means optimizes work output to an efficiency of between approximately 60% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 14. The apparatus of claim 2, wherein the preloading means optimizes work output to an efficiency of greater than 60%, inclusive of the work input from the smart material actuator.
  - 15. The apparatus of claim 2, wherein the preloading means optimizes work output to an efficiency of between approximately 75% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 16. The apparatus of claim 2, wherein the preloading means optimizes work output to an efficiency of greater than 75%, inclusive of the work input from the smart material actuator.
  - 17. The apparatus of claim 2, wherein the preloading means optimizes work output to an efficiency of greater than 90%, inclusive of the work input from the smart material actuator.
  - 18. The apparatus of claim 2, wherein the preloading means optimizes work output to within 20% of peak load as determined by the force displacement product versus force curve of the work input from the smart material actuator.

3. An apparatus comprising:
- a support structure defining a rigid non-flexing portion and a movable portion;
  
  a smart material actuator for driving the movable portion of the support structure between first and second positions; and
  
  means for preloading the smart material actuator with a sufficient preload force to optimize work output of the support structure, where work output is defined as a function of displacement and force with infinite life of the support structure, wherein the preloading means is located between the rigid, non-flexing portion of the support structure and the smart material actuator, the preloading means including an adjustable wedge positioned between the rigid, non-flexing portion of the support structure and one end of the smart material actuator, wherein the adjustable wedge includes a first cam surface portion, a second complementary cam surface portion, a cam screw located between the first and second cam surface portions, such that adjustment of the cam screw moves the cam surface portions with respect to the one another and adjusts an amount of preload applied to the smart material actuator.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The apparatus of claim 3, wherein the preloading means optimizes work output to an efficiency of between approximately 60% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 20. The apparatus of claim 3, wherein the preloading means optimizes work output to an efficiency of greater than 60%, inclusive of the work input from the smart material actuator.
  - 21. The apparatus of claim 3, wherein the preloading means optimizes work output to an efficiency of between approximately 75% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 22. The apparatus of claim 3, wherein the preloading means optimizes work output to an efficiency of greater than 75%, inclusive of the work input from the smart material actuator.
  - 23. The apparatus of claim 3, wherein, the preloading means optimizes work output to an efficiency of greater than 90%, inclusive of the work input from the smart material actuator.
  - 24. The apparatus of claim 3, wherein the preloading means optimizes work output to within 20% of peak load as determined by the force displacement product versus force curve of the work input from the smart material actuator.

4. An apparatus comprising:
- a support structure defining a rigid non-flexing portion and a movable portion;
  
  a smart material actuator for driving the movable portion of the support structure between first and second positions; and
  
  means for preloading the smart material actuator with a sufficient preload force to optimize work output of the support structure, where work output is defined as a function of displacement and force with infinite life of the support structure, wherein the preloading means is located between the rigid, non-flexing portion of the support structure and the moveable portion of the support structure, wherein the preloading means includes the rigid, non-flexing portion of the support structure having a separable, adjustable, rigid, non-flexing web operably engageable with at least one rigid, non-flexing arm of the support structure, such that the adjustment of the web with respect to the at least one arm allows locking engagement between the web and the at least one arm of the support structure at a predetermined preload on the smart material actuator.
- View Dependent Claims (5, 6, 25, 26, 27, 28, 29, 30)
- - 5. The apparatus of claim 4, wherein the preloading means further comprises:
    - the web having a first serrated portion engageable with a complementary second serrated portion formed on the at least one arm for operable interlocking engagement with one another, such that movement of web with respect to the at least one arm adjusts an amount of preload applied to the smart material actuator.
  - 6. The apparatus of claim 4, wherein the preloading means further comprises:
    - the web having at least one adjustable screw operably engageable within at least one corresponding threaded aperture formed in the at least one arm for operable interlocking engagement with one another, such that adjustment of the screw causes movement of web with respect to the at least one arm and applies preload to the smart material actuator.
  - 25. The apparatus of claim 4, wherein the preloading means optimizes work output to an efficiency of between approximately 60% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 26. The apparatus of claim 4, wherein the preloading means optimizes work output to an efficiency of greater than 60%, inclusive of the work input from the smart material actuator.
  - 27. The apparatus of claim 4, wherein the preloading means optimizes work output to an efficiency of between approximately 75% to approximately 90%, inclusive of the work input from the smart material actuator.
  - 28. The apparatus of claim 4, wherein the preloading means optimizes work output to an efficiency of greater than 75%, inclusive of the work input from the smart material actuator.
  - 29. The apparatus of claim 4, wherein the preloading means optimizes work output to an efficiency of greater than 90%, inclusive of the work input from the smart material actuator.
  - 30. The apparatus of claim 4, wherein the preloading means optimizes work output to within 20% of peak load as determined by the force displacement product versus force curve of the work input from the smart material actuator.

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Current Assignee
Parker Intangibles LLC (Parker-Hannifin Corporation)
Original Assignee
Parker-Hannifin Corporation
Inventors
Thornhill, Keith A., Moler, Jeff, Bugel, John, Oudshoorn, Mark P.
Primary Examiner(s)
Schuberg; Darren
Assistant Examiner(s)
ADDISON, KAREN B

Application Number

US10/818,004
Publication Number

US 20040263025A1
Time in Patent Office

1,492 Days
Field of Search

310/328, 310/11
US Class Current

310/328
CPC Class Codes

H02N 2/043 Mechanical transmission mea...

H10N 30/886 Mechanical prestressing mea...

Apparatus and process for optimizing work from a smart material actuator product

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

239 Citations

30 Claims

Specification

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Apparatus and process for optimizing work from a smart material actuator product

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

239 Citations

30 Claims

Specification

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Solutions

Use Cases

Quick Links