Energy harvesting apparatus and method
First Claim
1. An energy harvesting apparatus, comprising:
- a flexible beam for generating electrical signals in response to at least one of stress and strain experienced by said flexible beam as said beam flexes;
said flexible beam having a first end fixedly supported against movement, and a second end able to move to enable flexing of said flexible beam; and
a moment generating subsystem in communication with said second end for generating a twisting moment on said second end of said flexible beam in response to vibration energy, said twisting moment causing a generally uniform application of at least one of stress and strain over substantially a full length of said flexible beam; and
said moment generating subsystem including;
a mass component supported for movement along a path that is offset from a longitudinal axis of said flexible beam, and generally parallel to a longitudinal axis of said flexible beam; and
a link for transmitting motion of said mass component to said flexible beam.
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Accused Products
Abstract
An energy harvesting apparatus and method. In one form the apparatus makes use of a pair of flexible beams that are supported at first ends thereof from a base. Second ends of each of the beams are operatively coupled to rigid links. The rigid links are in turn operatively coupled to a mass component that is free to move linearly in a path generally parallel to the longitudinal axes of the flexible beams. Movement of the mass component in response to vibration forces causes a twisting moment to be applied at the second end of each flexible beam. This causes a uniform flexing of each of the flexible beams. A piezoceramic material layer on each beam generates electrical signals in response to the flexing motion of the beam.
14 Citations
12 Claims
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1. An energy harvesting apparatus, comprising:
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a flexible beam for generating electrical signals in response to at least one of stress and strain experienced by said flexible beam as said beam flexes; said flexible beam having a first end fixedly supported against movement, and a second end able to move to enable flexing of said flexible beam; and a moment generating subsystem in communication with said second end for generating a twisting moment on said second end of said flexible beam in response to vibration energy, said twisting moment causing a generally uniform application of at least one of stress and strain over substantially a full length of said flexible beam; and said moment generating subsystem including; a mass component supported for movement along a path that is offset from a longitudinal axis of said flexible beam, and generally parallel to a longitudinal axis of said flexible beam; and a link for transmitting motion of said mass component to said flexible beam. - View Dependent Claims (2)
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3. An energy harvesting apparatus, comprising:
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a flexible beam for generating electrical signals in response to at least one of stress and strain experienced by said flexible beam as said beam flexes; said flexible beam having a first end fixedly supported against movement, and a second end able to move to enable flexing of said flexible beam; a mass component in communication with said second end of said flexible beam and supported for movement along a path that is offset from a longitudinal axis of said flexible beam, and generally parallel to a direction of vibration energy to be harvested, and generally parallel to said flexible beam; a link for coupling said mass component to said second end of said flexible beam; and said mass component being responsive to said vibration energy experienced by an external structure on which said apparatus is supported, to cause flexing of said flexible beam in response to said vibration energy, and generation of said electrical signals by said flexure beam. - View Dependent Claims (4, 5, 6, 7, 8, 9)
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10. A method for harvesting vibration energy, comprising:
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supporting a flexible beam fixedly at a first end from a support structure, the flexible beam being operable to generate electrical signals in response to flexing thereof; disposing a mass component for movement along a path at least substantially parallel to a longitudinal axis of said flexible beam, and at least substantially parallel to a path along which vibration energy is being directed; using a generally linear motion of said mass component generated in response to said vibration energy to transmit said vibration energy to said flexible beam at a second end of flexible beam, to thus cause flexing of said flexible beam; and using flexing of said flexible beam to generate electrical signals. - View Dependent Claims (11, 12)
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Specification