Apparatus for coupling light into lightguides
First Claim
1. A lighting system comprising:
- a plurality of lightguides, each lightguide comprising an edge for receiving output light, and a first major surface and a second major surface for emitting illumination light,wherein for each lightguide, the first major surface is disposed opposite to the second major surface such that a first portion of the illumination light exits the lightguide through the first major surface towards a first direction and a second portion of the illumination light exits the lightguide through the second major surface towards a second direction, the second direction being opposite to the first direction,wherein the plurality of lightguides are arranged such that at least a portion of the first major surfaces of two lightguides of the plurality of lightguides adjoin and define a joint;
light emitting diodes that are arranged in a row; and
an optic that is disposed between the row of the light emitting diodes and the edges of the two lightguides,wherein the optic comprises an entrance face that faces the light emitting diodes and is configured to receive emitted light, an exit face that faces the edges of the two lightguides and is configured to emit the output light, and a side face that extends between a perimeter of the entrance face and a perimeter of the exit face,wherein the side faces are polished for total internal reflection of the emitted light propagating between the entrance face and the exit face, andwherein the exit face comprises at least one of a patterned surface and particles concentrated thereon and is operative to manipulate and apportion the emitted light substantially equally as the output light between the two lightguides;
when the row of light emitting diodes are positioned such that a plane defined by the joint between the at least a portion of the first major surfaces of the two lightguides passes through each light emitting diode of the row of the light emitting diodes, andwhen the row of the light emitting diodes are positioned such that the plane is laterally offset from and does not pass through each light emitting diode of the row of the light emitting diodes, andwherein a thickness of the optic is substantially equal to a combined thickness of the plurality of lightguides.
3 Assignments
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Accused Products
Abstract
A system of light emitting diodes and lightguides can produce and distribute light in a luminaire. Two or more lightguides can be mounted adjacent one another so that their edges extend alongside one another. An optic can couple light between the light emitting diodes and the edges of the adjacent lightguides. The optic, which can be another lightguide in some examples, can mix, blend, or homogenize light received from the light emitting diodes and distribute the light among the adjacent lightguides. The optic can mix light emitted from multiple light emitting diodes so that light enters the adjacent lightguides uniformly along the edges of the lightguide, thereby eliminating or reducing any bright spots or visual inconsistencies. The optic can further allocate light uniformly among the adjacent lightguides.
18 Citations
14 Claims
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1. A lighting system comprising:
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a plurality of lightguides, each lightguide comprising an edge for receiving output light, and a first major surface and a second major surface for emitting illumination light, wherein for each lightguide, the first major surface is disposed opposite to the second major surface such that a first portion of the illumination light exits the lightguide through the first major surface towards a first direction and a second portion of the illumination light exits the lightguide through the second major surface towards a second direction, the second direction being opposite to the first direction, wherein the plurality of lightguides are arranged such that at least a portion of the first major surfaces of two lightguides of the plurality of lightguides adjoin and define a joint; light emitting diodes that are arranged in a row; and an optic that is disposed between the row of the light emitting diodes and the edges of the two lightguides, wherein the optic comprises an entrance face that faces the light emitting diodes and is configured to receive emitted light, an exit face that faces the edges of the two lightguides and is configured to emit the output light, and a side face that extends between a perimeter of the entrance face and a perimeter of the exit face, wherein the side faces are polished for total internal reflection of the emitted light propagating between the entrance face and the exit face, and wherein the exit face comprises at least one of a patterned surface and particles concentrated thereon and is operative to manipulate and apportion the emitted light substantially equally as the output light between the two lightguides; when the row of light emitting diodes are positioned such that a plane defined by the joint between the at least a portion of the first major surfaces of the two lightguides passes through each light emitting diode of the row of the light emitting diodes, and when the row of the light emitting diodes are positioned such that the plane is laterally offset from and does not pass through each light emitting diode of the row of the light emitting diodes, and wherein a thickness of the optic is substantially equal to a combined thickness of the plurality of lightguides. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A lighting system comprising:
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a frame that comprises; a recess configured to house a driver, a first elongate member, and a second elongate member, wherein the first elongate member and the second elongate member are coupled to each other along a first portion and define a horizontal platform and a lightguide receiving gap along a second portion; a circuit board that is mounted to the horizontal platform of the frame; a row of light emitting diodes that are mounted to the circuit board, the row of light emitting diodes extending in a direction; a first lightguide that is mounted to the frame adjacent the circuit board and within the lightguide receiving gap, the first lightguide extending lengthwise in the direction and positioned to receive emitted light from the row of light emitting diodes; and two second lightguides that are mounted to the frame and within the lightguide receiving gap, wherein the two second lightguides extend lengthwise in the direction, wherein the two second lightguides are disposed adjacent the lightguide and are oriented to receive output light from the first lightguide at a first edge of the two second lightguides, wherein each second lightguide comprises a first major surface, a second major surface disposed opposite to the first major surface, the first edge, and a second edge that is opposite to the first edge, wherein the first major surface and the second major surface of each second lightguide are arranged such that;
a first portion of the output light that enters the first edge of the second lightguide exits the second lightguide via the first major surface towards a first direction to provide a downlight, and a second portion of the output light exits the second lightguide via the second major surface towards a second direction to provide an uplight, andwherein the second edge of each second lightguide is curved towards the second direction such that a third portion of the output light that enters the second lightguide via the first edge thereof exits the second lightguide via the second edge towards the second direction, wherein the first lightguide is disposed between the row of light emitting diodes and the two second lightguides and configured to apportion the emitted light received from the row of light emitting diodes substantially equally among the two second lightguides as the output light provided to the two second lightguides, and wherein a thickness of the first lightguide is substantially equal to a combined thickness of the two second lightguides among which the emitted light is apportioned. - View Dependent Claims (9)
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10. A lighting system comprising:
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a number of rows of light emitting diodes, wherein at least one light emitting diode of the number of rows of light emitting diodes produces emitted light through a first surface region; an optic comprising; a first major surface that defines a first plane and a second major surface disposed opposite to the first major surface, the second major surface defining a second plane that is substantially parallel to the first plane, a first edge disposed between a first end of the first major surface and a first end of the second major surface and oriented to receive the emitted light that the at least one light emitting diode emits through the first surface region; and a second edge opposite the first edge and disposed between a second opposite end of the first major surface and a second opposite end of the second major surface, the second edge comprising a second surface region that emits output light; and a number of lightguide panels, each lightguide panel comprising an edge oriented to receive the output light emitted through the second surface region of the optic, wherein the number of lightguide panels are adjoined at adjacent major surfaces of the lightguide panels, wherein the number of the rows of light emitted diodes comprises at least one row of light emitting diodes and the number of the rows of light emitting diodes is less than the number of lightguide panels, wherein the rows of light emitting diodes are positioned between the first plane and the second plane of the optic, wherein a thickness of the optic measured from the first major surface to the second major surface is substantially equal to a thickness of the number of lightguide panels, and wherein the first major surface and the second major surface of the optic are polished for total internal reflection of emitted light propagating between the first edge and the second edge, and wherein the second edge of the optic comprises at least one of a patterned surface and particles concentrated thereon and is operative to apportion the emitted light substantially equally among the lightguide panels as the output light that is provided to the lightguide panels. - View Dependent Claims (11, 12, 13, 14)
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Specification