Piezoelectric actuator having strain gage
First Claim
1. A piezoelectric actuator having a laminated structure including an active portion formed by alternatingly laminating a plurality of ceramics layers having piezoelectric characteristics and a plurality of internal electrode layers, for generating strain in a direction perpendicular to said ceramics layers and said internal electrode layers according to a drive voltage externally applied thereto and a plurality of other portions, at least one of strain in said direction caused by said drive voltage applied to said laminated-structure, elastic strain in said direction and strain caused by thermal expansion in said direction of adjacent ones of said active portion and the plurality of said other portions being different from each other, said piezoelectric actuator comprising means fixedly associated with said active portion and the plurality of said other portions, respectively, for detecting strains generated in said direction in said active portion and the plurality of said other portions.
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Accused Products
Abstract
Strain gages (81, 82, 83) are adhered to protective layers (31, 32) and an active portion (2) of a laminated-structure (10) of the piezoelectric actuator, respectively. Since it is possible to measure a total amount of displacement of the protective layers (31, 32) and the active portion (2), the measured amount of displacement of the laminated structure (10) is accurate even if there are difference in strain due to temperature and stress between them. The same effect can be obtained for such actuator whose laminated structure (10) further includes any member such as temperature compensating member (19) of metal whose elastic modulus is different from that of the laminated structure.
61 Citations
7 Claims
- 1. A piezoelectric actuator having a laminated structure including an active portion formed by alternatingly laminating a plurality of ceramics layers having piezoelectric characteristics and a plurality of internal electrode layers, for generating strain in a direction perpendicular to said ceramics layers and said internal electrode layers according to a drive voltage externally applied thereto and a plurality of other portions, at least one of strain in said direction caused by said drive voltage applied to said laminated-structure, elastic strain in said direction and strain caused by thermal expansion in said direction of adjacent ones of said active portion and the plurality of said other portions being different from each other, said piezoelectric actuator comprising means fixedly associated with said active portion and the plurality of said other portions, respectively, for detecting strains generated in said direction in said active portion and the plurality of said other portions.
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6. A piezoelectric actuator comprising:
- an electrostrictive effect element portion having a laminated structure formed by alternatingly laminating a plurality of internal electrode layers and a plurality of piezoelectric ceramics layers, protective members fixedly secured to an upper portion and a lower portion of said electrostrictive effect element portion, respectively, and strain gages fixedly secured to side surfaces of said electrostrictive effect element portion and said protective members, respectively.
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7. A piezoelectric actuator comprising:
- an electrostrictive effect element portion having a laminated structure formed by alternatingly laminating a plurality of internal electrode layers and a plurality of piezoelectric ceramics layers, protective members fixedly secured to an upper surface and a lower surface of said electrostrictive effect element portion perpendicular to a laminating direction thereof, respectively, a first strain gage fixedly secured to a side surface of said electrostrictive effect element portion, a second strain gage fixedly secured to a side surface of at least one of said protective member and means for electrically connecting said first and second strain gages in series, wherein a ratio of a product of resistance value and gage rate of said first strain gage to a product of resistance value and gage rate of said second strain gage is substantially equal to a ratio of length of said side surface of said electrostrictive effect element portion to thickness of said protective member to which said second strain gage is fixedly secured.
Specification