Illumination apparatus, driving apparatus and driving method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F21V-021/30
F21V-033/00
F21S-006/00
F21S-008/06
F21S-009/04
F21S-008/04
F16B-001/00
F21V-021/16
F21V-014/02
F21Y-105/00
출원번호
US-0673446
(2012-11-09)
등록번호
US-9488363
(2016-11-08)
우선권정보
JP-2011-256434 (2011-11-24)
발명자
/ 주소
Yokosawa, Nobuyuki
출원인 / 주소
SONY CORPORATION
대리인 / 주소
Chip Law Group
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
An illumination apparatus disclosed herein includes a first light emitting section, a thermal actuator, and a displacement mechanism. The thermal actuator is configured to generate a driving force on the basis of heat dissipated by the first light emitting section. The displacement mechanism is conf
An illumination apparatus disclosed herein includes a first light emitting section, a thermal actuator, and a displacement mechanism. The thermal actuator is configured to generate a driving force on the basis of heat dissipated by the first light emitting section. The displacement mechanism is configured to displace a predetermined object by making use of the driving force generated by the thermal actuator.
대표청구항▼
1. An illumination apparatus comprising: a first light emitting section;a thermal actuator configured to generate a driving force based on heat dissipated by said first light emitting section; anda displacement mechanism configured to displace at least one second light emitting section from a plural
1. An illumination apparatus comprising: a first light emitting section;a thermal actuator configured to generate a driving force based on heat dissipated by said first light emitting section; anda displacement mechanism configured to displace at least one second light emitting section from a plurality of second light emitting sections by making use of said driving force generated based on said heat dissipated by said first light emitting section disposed opposite to said plurality of second light emitting sections,wherein said displacement mechanism includes a plurality of rotation-object holding sections each used for holding one of said plurality of second light emitting sections, wherein an uppermost rotation-object holding section of said plurality of rotation-object holding sections is positioned closest to the first light emitting section, and remaining of said plurality of rotation-object holding sections are positioned below said uppermost rotation-object holding section, and on one another. 2. The illumination apparatus according to claim 1, wherein a light source employed in said first light emitting section is a light emitting diode. 3. The illumination apparatus according to claim 1, wherein said thermal actuator has a shape-memory alloy and generates said driving force by making use of a change caused by said heat as a change of the shape of said shape-memory alloy. 4. The illumination apparatus according to claim 1, wherein a light source employed in each of said plurality of second light emitting sections is a light emitting diode. 5. The illumination apparatus according to claim 1, wherein said first light emitting section and said plurality of second light emitting sections are configured such that light emission directions of said first light emitting section and said plurality of second light emitting sections are opposite to each other. 6. The illumination apparatus according to claim 1, wherein said displacement mechanism comprises: a rotation shaft, andsaid plurality of rotation-object holding sections connected to said rotation shaft and used for holding said plurality of second light emitting sectionswherein said plurality of second light emitting sections are displaced by rotating said rotation shaft by making use of said driving force generated by said thermal actuator. 7. The illumination apparatus according to claim 6, wherein said first light emitting section is provided in an area around the center axis of said rotation shaft. 8. The illumination apparatus according to claim 6, further comprising a turn-on control section configured to carry out control to sequentially turn on said plurality of second light emitting sections in accordance with the quantity of a rotation made by said rotation shaft. 9. The illumination apparatus according to claim 8, wherein said turn-on control section is configured to turn on one light emitting section of said plurality of second light emitting sections, in an event the quantity of said rotation made by said rotation shaft is greater than a first threshold value. 10. The illumination apparatus according to claim 9, wherein said turn-on control section is configured to turn on another light emitting section of said plurality of second light emitting sections, in an event the quantity of said rotation made by said rotation shaft is greater than a second threshold value. 11. The illumination apparatus according to claim 1, wherein said thermal actuator is configured to increase said driving force corresponding to an increase in amount of heat dissipated by said first light emitting section. 12. The illumination apparatus according to claim 1, wherein said displacement mechanism is configured to drive a plurality of rod-shaped members in an opening or closing operation of forming the shape of an umbrella. 13. The illumination apparatus according to claim 1, wherein said displacement mechanism is configured to displace at least one second light emitting section from said plurality of second light emitting sections by horizontally moving one of said plurality of rotation-object holding sections. 14. The illumination apparatus according to claim 1, wherein said plurality of second light emitting sections are sequentially turned on in accordance with an order in which said plurality of rotation-object holding sections make transitions from an initial state. 15. A driving apparatus comprising: a first light emitting section;a thermal actuator configured to generate a driving force based on heat dissipated by said first light emitting section, wherein at least one second light emitting section from a plurality of second light emitting sections is displaced based on said driving force generated by said thermal actuator,wherein said displacement mechanism includes a plurality of rotation-object holding sections each used for holding one of said plurality of second light emitting sections, wherein an uppermost rotation-object holding section of said plurality of rotation-object holding sections is positioned closest to the first light emitting section, and remaining of said plurality of rotation-object holding sections are positioned below said uppermost rotation-object holding section, and on one another; anda rotation shaft configured to displace said at least one second light emitting section, wherein said at least one second light emitting section of said plurality of second light emitting sections is turned on based on an amount of rotation made by said rotation shaft exceeding a predetermined threshold value. 16. A driving method comprising: displacing, by a displacement mechanism, at least one light emitting section from a plurality of light emitting sections by making use of a driving force generated by a thermal actuator configured to generate said driving force based on heat dissipated by another light emitting section disposed opposite to said light emitting section,wherein said displacement mechanism includes a plurality of rotation-object holding sections each used for holding one of said plurality of light emitting sections, wherein an uppermost rotation-object holding section of said plurality of rotation-object holding sections is positioned closest to the other light emitting section, and remaining of said plurality of rotation-object holding sections are positioned below said uppermost rotation-object holding section, and on one another.
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