Power generating element
First Claim
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1. A power generating element which converts vibration energy into electric energy to generate electric power,when a first axis and a second axis which intersect on a predetermined reference plane are defined, the power generating element, comprising:
- a first portion which extends from a base end to a leading end along the first axis;
a second portion which is connected to the leading end of the first portion and extends along the second axis;
a weight body which is directly or indirectly connected to the second portion;
a device housing which houses the first portion, the second portion and the weight body;
a fixing-portion which fixes the base end of the first portion to the device housing;
a lower layer electrode which is layered on at least a surface of the first portion;
a piezoelectric element which is layered on a surface of the lower layer electrode; and
a group of upper layer electrodes composed of a plurality of upper layer electrodes which are formed locally on a surface of the piezoelectric element, whereinat least the first portion is flexible, and the weight body is connected to the fixing-portion through the first portion and the second portion,the weight body is constituted so as to vibrate inside the device housing due to deflection of at least the first portion, when there is applied an external force which causes the device housing to vibrate,the piezoelectric element is apt to polarize in a thickness direction due to application of stress which expands or contracts in a layer direction,the group of upper layer electrodes is provided with a leading end-side right side electrode and a leading end-side left side electrode which are arranged in a vicinity of the leading end of the first portion, and a base end-side right side electrode and a base end-side left side electrode which are arranged in a vicinity of the base end of the first portion, and each of the upper layer electrodes is arranged so as to extend along the first axis, and opposed to a predetermined domain of the lower layer electrode, facing each other with the piezoelectric element therebetween,when a center line along the first axis, and a right side and a left side with respect to the center line are defined at the first portion, the leading end-side right side electrode is arranged on the right side of the center line, the leading end-side left side electrode is arranged on the left side of the center line, the base end-side right side electrode is arranged on the right side of the center line, and the base end-side left side electrode is arranged on the left side of the center line,when a first plane which is positioned at the base end of the first portion and orthogonal to the first axis, and a second plane which is positioned at the leading end of the first portion and orthogonal to the first axis are defined, center of gravity of the weight body is arranged at a position sandwiched between the first plane and the second plane.
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Abstract
The power generation efficiency is to be enhanced by converting vibration energy including various direction components into electric energy without waste. A cantilever structure is adopted, in which a first plate-like bridge portion (120) and a second plate-like bridge portion (130) extend in a shape of a letter U from a fixing-portion (110) fixed to the device housing (200) and a weight body (150) is connected to the end. On the upper surface of the cantilever structure, a common lower layer electrode (E00), a layered piezoelectric element (300) and discrete upper layer electrodes (Ex1 to Ez4) are formed. The upper layer electrodes (Ez1 to Ez4) disposed on a center line (Lx, Ly) of each plate-like bridge portion take out charge generated in the piezoelectric element (300) due to deflection caused by the Z-axis direction vibration of the weight body (150). The upper layer electrodes (Ex1 to Ex4, Ey1 to Ey4) disposed on both sides of the center line (Lx, Ly) of the plate-like bridge portion take out charge generated in the piezoelectric element (300) due to deflection caused by the X-axis or Y-axis direction vibration of the weight body (150).
80 Citations
10 Claims
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1. A power generating element which converts vibration energy into electric energy to generate electric power,
when a first axis and a second axis which intersect on a predetermined reference plane are defined, the power generating element, comprising: -
a first portion which extends from a base end to a leading end along the first axis; a second portion which is connected to the leading end of the first portion and extends along the second axis; a weight body which is directly or indirectly connected to the second portion; a device housing which houses the first portion, the second portion and the weight body; a fixing-portion which fixes the base end of the first portion to the device housing; a lower layer electrode which is layered on at least a surface of the first portion; a piezoelectric element which is layered on a surface of the lower layer electrode; and a group of upper layer electrodes composed of a plurality of upper layer electrodes which are formed locally on a surface of the piezoelectric element, wherein at least the first portion is flexible, and the weight body is connected to the fixing-portion through the first portion and the second portion, the weight body is constituted so as to vibrate inside the device housing due to deflection of at least the first portion, when there is applied an external force which causes the device housing to vibrate, the piezoelectric element is apt to polarize in a thickness direction due to application of stress which expands or contracts in a layer direction, the group of upper layer electrodes is provided with a leading end-side right side electrode and a leading end-side left side electrode which are arranged in a vicinity of the leading end of the first portion, and a base end-side right side electrode and a base end-side left side electrode which are arranged in a vicinity of the base end of the first portion, and each of the upper layer electrodes is arranged so as to extend along the first axis, and opposed to a predetermined domain of the lower layer electrode, facing each other with the piezoelectric element therebetween, when a center line along the first axis, and a right side and a left side with respect to the center line are defined at the first portion, the leading end-side right side electrode is arranged on the right side of the center line, the leading end-side left side electrode is arranged on the left side of the center line, the base end-side right side electrode is arranged on the right side of the center line, and the base end-side left side electrode is arranged on the left side of the center line, when a first plane which is positioned at the base end of the first portion and orthogonal to the first axis, and a second plane which is positioned at the leading end of the first portion and orthogonal to the first axis are defined, center of gravity of the weight body is arranged at a position sandwiched between the first plane and the second plane. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification
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Current AssigneeTri-Force Management Corporation
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Original AssigneeTri-Force Management Corporation
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InventorsOkada, Kazuhiro, Era, Satoshi, Okada, Miho
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Primary Examiner(s)Rosenau, Derek
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Application NumberUS14/914,854Publication NumberTime in Patent Office1,699 DaysField of Search310329, 310339US Class CurrentCPC Class CodesH02N 2/186 Vibration harvestersH02N 2/188 adapted for resonant operationH10N 30/306 CantileversH10N 30/88 Mounts; Supports; Enclosure...
