IMAGE BLUR CORRECTION UNIT, IMAGE BLUR CORRECTION DEVICE, AND OPTICAL APPARATUS
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Abstract
An image blur compensation unit and image blur compensation device that can be made smaller in size. Wedge prisms, which refract light that is guided to an imaging element after passing through a lens group, are disposed on the same plane perpendicular to a central axis, and are supported by rotatable prism support portions. In order for the wedge prisms to be spaced by a predetermined distance and face each other along the central axis in a space that is formed when being placed adjacent to each other, the prism support portion supports the wedge prism on one end side along the central axis, and the prism support portion supports the wedge prism on one end side along the central axis. In this manner, the prism support portions supporting the wedge prisms, which need to be disposed along the central axis so as to be spaced by a predetermined distance and face each other, are disposed on the same plane. Therefore, the central axis-direction thickness can be made thinner, and the device can be made smaller in size.
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Citations
17 Claims
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1-11. -11. (canceled)
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12. An image blur compensation unit, comprising:
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a first and a second refractive element that are disposed along an optical axis of light that is guided to an imaging element after passing through an optical lens, and which rotate with respect to a central axis that goes along the optical axis to refract the light to correct a blur of an image that is guided to the imaging element; a first support portion that is provided in one region of 180 degrees or less out of two divided regions with respect to the central axis on a plane perpendicular to the central axis, and which supports the first refractive element on an outer periphery side; a second support portion that is provided in the other region of 180 degrees or less out of the two divided regions, and which supports the second refractive element on an outer periphery side; a base section that supports the first and second support portions at three or more points on a plane perpendicular to the central axis in such a way that the first and second support portions can rotate around the central axis; and a first and a second drive mechanism that are respectively placed in regions where the first and second support portions are provided, and which drive the first and second support portions in such a way that the first and second support portions rotate around the central axis only within the regions to rotate the first and second refractive elements, wherein the first and second drive mechanisms include a first and a second magnet that are placed on one of the base section or first and second support portions, a first and a second coil that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use an electromagnetic force that is generated between the first and second magnets and the first and second coils as current is applied to rotate the first and second support portions, and a first and a second yoke that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use a magnetic force that is generated between the first and second magnets and the first and second yokes to push the first and second support portions against the base section, the center of the first magnet is located inside a polygon connecting points where the first support portion is supported, and the center of the second magnet is located inside a polygon connecting points where the second support portion is supported. - View Dependent Claims (13, 14, 15)
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16. An image blur compensation device that detects and compensates for camera shake, comprising:
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a shake detection unit that detects shake of the camera; a first and a second refractive element that are disposed along an optical axis of light that is guided to an imaging element after passing through an optical lens provided in the camera, and which rotate with respect to a central axis that goes along the optical axis to refract the light to correct a blur of an image that is guided to the imaging element; a first support portion that is provided in one region of 180 degrees or less out of two divided regions with respect to the central axis on a plane perpendicular to the central axis, and which supports the first refractive element on an outer periphery side; a second support portion that is provided in the other region of 180 degrees or less out of the two divided regions, and which supports the second refractive element on an outer periphery side; a base section that supports the first and second support portions at three or more points on a plane perpendicular to the central axis in such a way that the first and second support portions can rotate around the central axis; and a first and a second drive mechanism that are respectively placed in regions where the first and second support portions are provided, and which drive the first and second support portions in such a way that the first and second support portions rotate around the central axis only within the regions to rotate the first and second refractive elements, wherein the first and second drive mechanisms include a first and a second magnet that are placed on one of the base section or first and second support portions, a first and a second coil that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use an electromagnetic force that is generated between the first and second magnets and the first and second coils as current is applied to rotate the first and second support portions, and a first and a second yoke that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use a magnetic force that is generated between the first and second magnets and the first and second yokes to push the first and second support portions against the base section, the center of the first magnet is located inside a polygon connecting points where the first support portion is supported, and the center of the second magnet is located inside a polygon connecting points where the second support portion is supported.
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17. An optical device, comprising:
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a first and a second refractive element that are disposed along an optical axis of light, and which rotate with respect to a central axis that goes along the optical axis to refract the light; a first support portion that is provided in one region of 180 degrees or less out of two divided regions with respect to the central axis on a plane perpendicular to the central axis, and which supports the first refractive element on an outer periphery side; a second support portion that is provided in the other region of 180 degrees or less out of the two divided regions, and which supports the second refractive element on an outer periphery side; a base section that supports the first and second support portions at three or more points on a plane perpendicular to the central axis in such a way that the first and second support portions can rotate around the central axis; and a first and a second drive mechanism that are respectively placed in regions where the first and second support portions are provided, and which drive the first and second support portions in such a way that the first and second support portions rotate around the central axis only within the regions to rotate the first and second refractive elements, wherein the first and second drive mechanisms include a first and a second magnet that are placed on one of the base section or first and second support portions, a first and a second coil that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use an electromagnetic force that is generated between the first and second magnets and the first and second coils as current is applied to rotate the first and second support portions, and a first and a second yoke that are placed on the other one of the base section or first and second support portions so as to face the first and second magnets, and use a magnetic force that is generated between the first and second magnets and the first and second yokes to push the first and second support portions against the base section, the center of the first magnet is located inside a polygon connecting points where the first support portion is supported, and the center of the second magnet is located inside a polygon connecting points where the second support portion is supported.
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Specification
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Current AssigneeAlpha Labo Solution, Ltd.
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Original AssigneeAlpha Labo Solution, Ltd.
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InventorsShinohara, Mitsuru, Haraguchi, Yoshimasa
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current348/208.11
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CPC Class CodesG03B 5/00 Adjustment of optical syste...G03B 5/06 Swinging lens about normal ...H04N 23/685 performed by mechanical com...H04N 23/686 with a variable apex prismH04N 23/687 by shifting the lens or sen...
