A shape memory alloy drive device has drive control portion for displacing a shape memory alloy up to a target displacement value by applying a voltage or an electric current to the shape memory alloy by servo control, and also has contact detection portion for detecting a predetermined change in a
A shape memory alloy drive device has drive control portion for displacing a shape memory alloy up to a target displacement value by applying a voltage or an electric current to the shape memory alloy by servo control, and also has contact detection portion for detecting a predetermined change in a drive control value, or, for example, a sharp increase in the drive control value, representing the amount of the voltage of the electric current applied by the drive control portion. When detecting a predetermined change, the contact detection portion determines that a movable portion having a lens etc. mounted thereon is in contact with a stationary mechanism. The shape memory alloy drive device further has drive limiting portion which, when the determination described above is made, causes the drive control portion to limit the target displacement value within a predetermined range. This limits an electric current flowing when the movable portion makes contact with the stationary mechanism, preventing overheating and excess stress.
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1. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable
1. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable portion that is connected to the shape memory alloy, the shape memory alloy drive device comprising: a contact detection portion that, based on a change in a drive control value which indicates a magnitude of the voltage or the current applied by the drive control portion, determines whether the movable portion is in contact with a stationary mechanism or not; anda drive limit portion that limits an upper limit of the target displacement value given to the drive control portion if contact is detected based on a determination result from the contact detection portion,wherein the contact detection portion sets a reference drive value between a first drive control value that is a drive control value at which the movable portion and the stationary portion are assumed to come into contact with each other and a second drive control value that is a maximum drive control value controllable by the drive control portion; and determines that the movable portion comes into contact with the stationary mechanism if the drive control value of the drive control portion exceeds the reference drive value. 2. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable portion that is connected to the shape memory alloy, the shape memory alloy drive device comprising: a contact detection portion that, based on a change in a drive control value which indicates a magnitude of the voltage or the current applied by the drive control portion, determines whether the movable portion is in contact with a stationary mechanism or not;a drive limit portion that limits an upper limit of the target displacement value given to the drive control portion if contact is detected based on a determination result from the contact detection portion; anda differential portion that time-differentiates the drive control value from the drive control portion and gives the calculated differential value to the contact detection portion,wherein the contact detection portion sets a value which is lower than a maximum differential value that is a differential value at which the drive control value is changed largest by the drive control portion, as a reference differential value; and determines that the movable portion comes into contact with the stationary mechanism if the differential value given from the differential portion exceeds the reference differential value. 3. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable portion that is connected to the shape memory alloy, the shape memory alloy drive device comprising: a contact detection portion that, based on a change in a drive control value which indicates a magnitude of the voltage or the current applied by the drive control portion, determines whether the movable portion is in contact with a stationary mechanism or not;a drive limit portion that limits an upper limit of the target displacement value given to the drive control portion if contact is detected based on a determination result from the contact detection portion; anda target displacement specification portion that changes the target displacement value of the shape memory alloy in a stepwise fashion and gives the changed target displacement value to the drive limit portion,wherein the contact detection portion sets a reference drive value between a first drive control value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second drive control value that is a maximum drive control value controllable by the drive control portion; compares the drive control value after an elapse of a setting time and the reference drive value when the drive control value from the drive control portion changes in response to a change in the target displacement value from the target displacement specification portion; and determines that the movable portion comes into contact with the stationary mechanism if the drive control value exceeds the reference drive value. 4. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable portion that is connected to the shape memory alloy, the shape memory alloy drive device comprising: a contact detection portion that, based on a change in a drive control value which indicates a magnitude of the voltage or the current applied by the drive control portion, determines whether the movable portion is in contact with a stationary mechanism or not;a drive limit portion that limits an upper limit of the target displacement value given to the drive control portion if contact is detected based on a determination result from the contact detection portion;a target displacement specification portion that changes the target displacement value of the shape memory alloy in a stepwise fashion and gives the changed target displacement value to the drive control portion; anda difference calculation portion that records the drive control value after an elapse of a setting time when the drive control value from the drive control portion changes in response to a change in the target displacement value from the target displacement specification portion; and calculates a difference value between the drive control value at a time of the recording and the drive control value at a previous recoding time,wherein the contact detection portion sets a value, which is lower than a maximum difference value that is a difference value at which the drive control value is changed largest by the drive control portion, as a reference difference value; and determines that the movable portion comes into contact with the stationary mechanism if the difference value given from the difference calculation portion exceeds the reference difference value. 5. A shape memory alloy drive device that has a drive control portion which is given a target displacement value, displaces the shape memory alloy to the target displacement value as a target by applying a voltage or a current to the shape memory alloy, thereby performing drive control of a movable portion that is connected to the shape memory alloy, the shape memory alloy drive device comprising: a contact detection portion that, based on a change in a drive control value which indicates a magnitude of the voltage or the current applied by the drive control portion, determines whether the movable portion is in contact with a stationary mechanism or not;a drive limit portion that limits an upper limit of the target displacement value given to the drive control portion if contact is detected based on a determination result from the contact detection portion; anda difference record portion that records a difference between a first target displacement value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second target displacement value for moving the movable portion to a predetermined standby position,wherein a displacement at which contact between the movable portion and the stationary mechanism is detected by the contact detection portion is used as a reference displacement, and a target displacement value of the standby position is decided on based on the reference displacement and the difference recorded in the difference record portion. 6. The shape memory alloy drive device according to claim 1, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 7. The shape memory alloy drive device according to claim 1, further comprising a difference record portion that records a difference between a first target displacement value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second target displacement value for moving the movable portion to a predetermined standby position,wherein a displacement at which contact between the movable portion and the stationary mechanism is detected by the contact detection portion is used as a reference displacement, and a target displacement value of the standby position is decided on based on the reference displacement and the difference recorded in the difference record portion. 8. The shape memory alloy drive device according to claim 2, further comprising a difference record portion that records a difference between a first target displacement value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second target displacement value for moving the movable portion to a predetermined standby position,wherein a displacement at which contact between the movable portion and the stationary mechanism is detected by the contact detection portion is used as a reference displacement, and a target displacement value of the standby position is decided on based on the reference displacement and the difference recorded in the difference record portion. 9. The shape memory alloy drive device according to claim 3, further comprising a difference record portion that records a difference between a first target displacement value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second target displacement value for moving the movable portion to a predetermined standby position,wherein a displacement at which contact between the movable portion and the stationary mechanism is detected by the contact detection portion is used as a reference displacement, and a target displacement value of the standby position is decided on based on the reference displacement and the difference recorded in the difference record portion. 10. The shape memory alloy drive device according to claim 4, further comprising a difference record portion that records a difference between a first target displacement value at which the movable portion and the stationary mechanism are assumed to come into contact with each other and a second target displacement value for moving the movable portion to a predetermined standby position,wherein a displacement at which contact between the movable portion and the stationary mechanism is detected by the contact detection portion is used as a reference displacement, and a target displacement value of the standby position is decided on based on the reference displacement and the difference recorded in the difference record portion. 11. The shape memory alloy drive device according to claim 2, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 12. The shape memory alloy drive device according to claim 3, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 13. The shape memory alloy drive device according to claim 4, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 14. The shape memory alloy drive device according to claim 5, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 15. The shape memory alloy drive device according to claim 7, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 16. The shape memory alloy drive device according to claim 8, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 17. The shape memory alloy drive device according to claim 9, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value. 18. The shape memory alloy drive device according to claim 10, further comprising a displacement detection portion that detects a displacement that occurs in the shape memory alloy, wherein the drive control portion performs control to change the drive control value in such a way that the displacement obtained by the displacement detection portion becomes equal to the target displacement value.
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이 특허에 인용된 특허 (12)
Kosaka, Akira; Tanii, Junichi; Wada, Shigeru; Hara, Yoshihiro, Actuator control method and control device.
Yoshihiro Hara JP; Junichi Tanii JP; Shigeru Wada JP; Akira Kosaka JP, Control mechanism with actuator employing shape memory alloy and method for adjusting servo control of the control mechanism.
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