当前申请(专利权)人地址:
2 Cormont Road, London, SE5 9RA , United Kingdom
摘要:
A lighting device comprises a light emitter (100) with a spherical translucent body (101) containing at least one reflector (102) and defining large, combined incident (109) and emission (105) lenses. The light emitter reflects and focuses light from a waveguide (40) to project a beam onto a target surface. The light emitter is preferably slidably mounted for rotation on a support element (20) which may comprise a circular aperture (22) in a plate, and may be configured as a desk or stage lamp, a wall light, or a downlighter suspended beneath a ceiling. The waveguide or light emitter may provide ambient or uplighting in addition to the beam.
权利要求:
CLAIMS
1. A lighting device including: at least one light emitter, at least one light source, and at least one light conductor arranged to conduct light from the light source to the light emitter;
the light emitter including a translucent body and a first reflector, the first reflector being connected to or integral with the translucent body;
the translucent body including a first emitter portion, a first incident portion, and a spherically curved surface, the spherically curved surface defining a first emitter lens of the first emitter portion and a first incident lens of the first incident portion;
the first incident portion being arranged to conduct light emitted from an emission surface of the light conductor, via the first incident lens, to the first reflector;
the first reflector being arranged to reflect the light emitted from the emission surface of the light conductor to exit the light emitter as a beam of light via the first emitter lens;
wherein the light emitter is rotatable with at least two degrees of freedom relative to the light conductor to direct the beam; and
wherein the light emitter is spaced apart from the light conductor to define a separation distance between the emission surface and the first incident lens, the separation distance being selected relative to a distance between the light emitter and a target surface so that the first incident lens and first emitter lens form a conjugate imaging system with a target plane at the target surface and an object plane at the emission surface of the light conductor; and wherein either
(i) an object is arranged between the light conductor and the light emitter, and the lighting device is arranged to project an image of the object onto the target surface, or
(ii) the light conductor has a cross section which defines a cross sectional shape of the beam, and the lighting device is arranged to project a correspondingly shaped, sharply defined pool of light onto the target surface; and
wherein either
(i) an adjustment means is provided for varying the separation distance, or
(ii) a variable focus optical element is arranged between the first incident lens and the object plane at the emission surface.
2. A lighting device according to claim 1, wherein said object is arranged between the light conductor and the light emitter, and the lighting device is arranged to project said image of the object onto the target surface.
3. A lighting device according to claim 1, wherein the light conductor has said cross section which defines said cross sectional shape of the beam, and the lighting device is arranged to project said correspondingly shaped, sharply defined pool of light onto the target surface.
4, A lighting device according to claim 1, wherein
(i) said object is arranged between the light conductor and the light emitter, and the lighting device is arranged to project said image of the object onto the target surface, and
(ii) the light conductor has said cross section which defines said cross sectional shape of the beam, and the lighting device is arranged to project said correspondingly shaped, sharply defined pool of light onto the target surface.
5. A lighting device according to claim 1, wherein the first emitter lens defines a first emitter axis, and the first emitter lens extends over at least most of a total section area of the light emitter normal to the first emitter axis when viewed along the first emitter axis.
6. A lighting device according to claim 1, wherein the first incident lens defines a first incident axis, and the first incident lens extends over at least most of a total section area of the light emitter normal to the first incident axis when viewed along the first incident axis.
7 A lighting device according to claim 1, wherein the lighting device includes at least one support element,
and the spherically curved surface of the translucent body is slidably mounted on the support element to support the light emitter in rotation with said at least two degrees of freedom relative to the support element.
8. A lighting device according to claim 7, wherein the support element defines a circular aperture,
and the translucent body is mounted for rotation in the circular aperture.
9. A lighting device according to claim 8, wherein the spherically curved surface slidably engages the support element at a periphery of the aperture.
10. A lighting device according to claim 1, wherein the first reflector is located within the translucent body
1% A lighting device according to claim 1, wherein the translucent body is spherical.
12. A lighting device according to claim 1, wherein the light conductor is a body of solid translucent material.
13. A lighting device according to claim 1, wherein an outer tubular waveguide shell is arranged around the light conductor to conduct a portion of the light from the light source.
14. A lighting device according to claim 1, wherein the lighting device includes a base and the light source is arranged at the base, and in a normal use position the light conductor extends vertically upwardly from the base and the light emitter is supported above an upper end of the light conductor.
15. A lighting device according to claim 1, claim 3 or claim 4, wherein the cross section is a non-circular cross section.