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LIGHTING SYSTEMS GENERATING PARTIALLY-COLLIMATED LIGHT EMISSIONS

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  • Publication Date:
    November 7, 2019
  • معلومة اضافية
    • Document Number:
      20190338918
    • Appl. No:
      16/401170
    • Application Filed:
      May 02, 2019
    • نبذة مختصرة :
      Lighting system. Bowl reflector has rim defining horizon and aperture, first light-reflective surface defining cavity, first parabolic surface. Funnel reflector has flared funnel-shaped body: central axis; second light-reflective surface aligned along axis; second parabolic surface; tip located within cavity along axis; profile including parabolic curves converging towards tip. Optically-transparent body aligned with second light-reflective surface along axis; with: bases spaced apart by side surface; first base facing light source. Second parabolic surface has ring of focal points at first position within cavity, equidistant from second parabolic surface; ring encircles first point on axis. Second parabolic surface has axes of symmetry intersecting with and radiating in directions all around axis from second point. Axes of symmetry intersect with focal points. Second point on axis between first point and horizon. Light source located for causing light emissions reflected by second parabolic surface to have partially-collimated distribution.
    • Claim:
      1. A lighting system, comprising: a bowl reflector having a rim defining a horizon and defining an emission aperture, the bowl reflector having a first visible-light-reflective surface defining a portion of a cavity, a portion of the first visible-light-reflective surface being a first light-reflective parabolic surface; a visible-light reflector having a central axis and having a second visible-light-reflective surface being aligned along the central axis; a visible-light source including a semiconductor light-emitting device, the visible-light source being configured for generating visible-light emissions from the semiconductor light-emitting device; and an optically-transparent body being aligned with the second visible-light-reflective surface along the central axis, the optically-transparent body having a first base being spaced apart along the central axis from a second base and having a side surface extending between the bases, the second base having a flared funnel-shaped surface including a funnel tip and being located along the central axis, the second base facing toward the second visible-light-reflective surface and the first base facing toward the visible-light source.
    • Claim:
      2-90. (canceled)
    • Claim:
      91. A lighting system, comprising: a bowl reflector having a rim defining a horizon and defining an emission aperture, the bowl reflector having a first visible-light-reflective surface defining a portion of a cavity, a portion of the first visible-light-reflective surface being a first light-reflective parabolic surface; a visible-light absorber having a central axis and having a visible-light-absorptive surface being aligned along the central axis; a visible-light source including a semiconductor light-emitting device, the visible-light source being configured for generating visible-light emissions from the semiconductor light-emitting device; and an optically-transparent body being aligned with the visible-light-absorptive surface along the central axis, the optically-transparent body having a first base being spaced apart along the central axis from a second base and having a side surface extending between the bases, the second base having a flared funnel-shaped surface including a funnel tip and being located along the central axis, the second base facing toward the visible-light-absorptive surface and the first base facing toward the visible-light source.
    • Claim:
      92. The lighting system of claim 1, wherein the visible-light reflector is formed of a heat-resistant material.
    • Claim:
      93. The lighting system of claim 1, wherein the second visible-light-reflective surface is a specular visible-light-reflective surface.
    • Claim:
      94. The lighting system of claim 1, wherein the visible-light reflector includes the second visible-light-reflective surface being integrally formed as a part of a body of a heat-resistant material.
    • Claim:
      95. The lighting system of claim 1, wherein the visible-light reflector includes the second visible-light-reflective surface being formed as a coating layer on a body of a heat-resistant material.
    • Claim:
      96. The lighting system of claim 1, wherein the visible-light reflector is disk-shaped.
    • Claim:
      97. The lighting system of claim 1, wherein the flared funnel-shaped surface of the second base and the second visible-light-reflective surface of the visible-light reflector collectively define another cavity.
    • Claim:
      98. The lighting system of claim 97, wherein a refractive index of a material forming the optically-transparent body is greater than another refractive index of an ambient atmosphere in the another cavity.
    • Claim:
      99. The lighting system of claim 97, wherein the optically-transparent body and the visible-light source are configured for causing some of the visible-light emissions from the semiconductor light-emitting device to enter into the optically-transparent body through the first base and to then be refracted within the optically-transparent body toward an alignment along the central axis.
    • Claim:
      100. The lighting system of claim 99, wherein the optically-transparent body and the another cavity are configured for causing some of the visible-light emissions that are refracted within the optically-transparent body to then be refracted by total internal reflection at the second base away from the alignment along the central axis.
    • Claim:
      101. The lighting system of claim 100, wherein the visible-light reflector is configured for causing some of the visible-light emissions that are refracted within the optically-transparent body to be reflected by the second visible-light-reflective surface of the visible-light reflector after passing through the cavity.
    • Claim:
      102. The lighting system of claim 101, wherein the visible-light reflector is configured for causing some of the visible-light emissions to be refracted by the visible-light reflector away from the alignment along the central axis after passing through the cavity and then passing through the second visible-light-reflective surface.
    • Claim:
      103. The lighting system of claim 1, wherein the second visible-light-reflective surface is a flat surface.
    • Claim:
      104. The lighting system of claim 103, wherein the flared funnel-shaped surface of the second base and the flat second visible-light-reflective surface of the visible-light reflector collectively define another cavity, the another cavity having a flared funnel shape.
    • Claim:
      105. The lighting system of claim 103, wherein the visible-light reflector has a disk-shaped body and includes a visible-light reflective coating as forming the second visible-light-reflective surface.
    • Claim:
      106. The lighting system of claim 103, wherein the visible-light reflector has a disk-shaped body being integrally formed with the second visible-light-reflective surface.
    • Claim:
      107. The lighting system of claim 1, wherein the second base of the optically-transparent body has a perimeter, and wherein the visible-light reflector has another perimeter, and wherein the perimeter and the another perimeter collectively form an area of mutual contact.
    • Claim:
      108. The lighting system of claim 107, further including a cap configured for capturing visible-light emissions, wherein the visible-light reflector is located between the optically-transparent body and the cap.
    • Claim:
      109. The lighting system of claim 108, wherein a further perimeter of the cap extends beyond the another perimeter of the visible-light reflector.
    • Claim:
      110. The lighting system of claim 107, wherein the perimeter of the second base and the another perimeter of the visible-light reflector are mutually spaced-apart along the central axis except at the area of mutual contact.
    • Claim:
      111. The lighting system of claim 107, wherein the optically-transparent body and the visible-light reflector are collectively configured for causing the another cavity to function as a thermal insulator.
    • Claim:
      112. The lighting system of claim 1, including another optically-transparent body, wherein the another optically-transparent body is located between the visible-light source and the optically-transparent body.
    • Claim:
      113. The lighting system of claim 112, wherein the optically-transparent body has a refractive index being greater than another refractive index of the another optically-transparent body.
    • Claim:
      114. The lighting system of claim 91, wherein the visible-light absorber is formed of a heat-resistant material.
    • Claim:
      115. The lighting system of claim 91, wherein the visible-light-absorptive surface is a visible-light-absorptive black surface.
    • Claim:
      116. The lighting system of claim 91, wherein the visible-light absorber includes the visible-light-absorptive surface being integrally formed as a part of a body of a heat-resistant material.
    • Claim:
      117. The lighting system of claim 91, wherein the visible-light absorber includes the visible-light-absorptive surface being formed as a coating layer on a body of a heat-resistant material.
    • Claim:
      118. The lighting system of claim 91, wherein the visible-light absorber is disk-shaped.
    • Claim:
      119. The lighting system of claim 91, wherein the flared funnel-shaped surface of the second base and the visible-light-absorptive surface of the visible-light absorber collectively define another cavity.
    • Claim:
      120. The lighting system of claim 119, wherein a refractive index of a material forming the optically-transparent body is greater than another refractive index of an ambient atmosphere in the another cavity.
    • Claim:
      121. The lighting system of claim 119, wherein the optically-transparent body and the visible-light source are configured for causing some of the visible-light emissions from the semiconductor light-emitting device to enter into the optically-transparent body through the first base and to then be refracted within the optically-transparent body toward an alignment along the central axis.
    • Claim:
      122. The lighting system of claim 121, wherein the optically-transparent body and the another cavity are configured for causing some of the visible-light emissions that are refracted within the optically-transparent body to then be refracted by total internal reflection at the second base away from the alignment along the central axis.
    • Claim:
      123. The lighting system of claim 122, wherein the visible-light absorber is configured for causing some of the visible-light emissions that are refracted within the optically-transparent body to be absorbed by the visible-light-absorptive surface of the visible-light absorber after passing through the cavity.
    • Claim:
      124. The lighting system of claim 91, wherein the visible-light-absorptive surface is a flat surface.
    • Claim:
      125. The lighting system of claim 124, wherein the flared funnel-shaped surface of the second base and the flat visible-light-absorptive surface of the visible-light absorber collectively define another cavity, the another cavity having a flared funnel shape.
    • Claim:
      126. The lighting system of claim 124, wherein the visible-light absorber has a disk-shaped body and includes a visible-light absorptive coating as forming the visible-light-absorptive surface.
    • Claim:
      127. The lighting system of claim 124, wherein the visible-light absorber has a disk-shaped body being integrally formed with the visible-light-absorptive surface.
    • Claim:
      128. The lighting system of claim 91, wherein the second base of the optically-transparent body has a perimeter, and wherein the visible-light absorber has another perimeter, and wherein the perimeter and the another perimeter collectively form an area of mutual contact.
    • Claim:
      129. The lighting system of claim 128, further including a cap configured for capturing visible-light emissions, wherein the visible-light absorber is located between the optically-transparent body and the cap.
    • Claim:
      130. The lighting system of claim 129, wherein a further perimeter of the cap extends beyond the another perimeter of the visible-light absorber.
    • Claim:
      131. The lighting system of claim 128, wherein the perimeter of the second base and the another perimeter of the visible-light absorber are mutually spaced-apart along the central axis except at the area of mutual contact.
    • Claim:
      132. The lighting system of claim 128, wherein the optically-transparent body and the visible-light absorber are collectively configured for causing the another cavity to function as a thermal insulator.
    • Claim:
      133. The lighting system of claim 91, including another optically-transparent body, wherein the another optically-transparent body is located between the visible-light source and the optically-transparent body.
    • Claim:
      134. The lighting system of claim 133, wherein the optically-transparent body has a refractive index being greater than another refractive index of the another optically-transparent body.
    • Current International Class:
      21; 21
    • الرقم المعرف:
      edspap.20190338918