Abstract: A forward facing motion-detecting lighting apparatus includes an enclosure, a light emission window that is positioned within a first cavity of the enclosure, a first surface of the enclosure that surrounds the first cavity along a first plane of the enclosure, a plurality of light emitting diodes that are positioned within the enclosure, and at least one motion sensor that protrudes through a second cavity of the enclosure. The forward facing motion-detecting lighting apparatus has a second surface of the enclosure that surrounds the second cavity along a second plane of the enclosure, the second plane being perpendicular to the first plane.
Abstract: A germicidal motion-detecting lighting system includes a plurality of lighting units configured to electrically connect to one another. Each modular lighting unit has an enclosure, having an enclosure, a light emission window positioned within a first cavity of the enclosure, and a plurality of light emitting diodes positioned within the first enclosure, at least one motion sensor that protrudes through a second cavity of the enclosure, and a processor positioned within the enclosure that detects motion of a user based on data received from the at least one motion sensor and generates an activation command to emit visible light based on the motion of the user. The plurality of light emitting diodes receives the command and emits visible light based on the command. One of the modular lighting units further includes an additional enclosure with a third cavity in which an additional light emission window is positioned to emit ultraviolet light via an additional plurality of light emitting diodes.
Type:
Grant
Filed:
May 26, 2020
Date of Patent:
November 24, 2020
Assignee:
Great Home Tek, Inc.
Inventors:
Jose M. Espina, Alan Ghahramani, David Cook
Abstract: A motion-detecting lighting system includes a plurality of modular lighting units configured to electrically connect to one another, each modular lighting unit having an enclosure, a light emission window positioned within a first cavity of the enclosure, and a plurality of light emitting diodes positioned within the enclosure. One of the modular lighting units further includes at least one motion sensor protruding through a second cavity of the enclosure to detect motion of a user, and a processor that receives data from the motion sensor and generates a command to turn the light emitting diodes ON/OFF based on the motion of the user.