US2020022313A1PendingUtilityA1
Fixtureless Lamp
Est. expiryJul 19, 2038(~12 yrs left)· nominal 20-yr term from priority
Inventors:Roger Buelow
F21S 2/00F21V 15/015F21V 29/70F21S 4/28F21V 23/06F21V 21/116F21Y 2103/10A01G 31/06A01G 31/02F21V 31/005F21Y 2115/10A01G 7/045F21V 29/503F21V 19/008A01G 9/249Y02P60/21
61
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Claims
Abstract
The present disclosure provides advantageous lighting systems that can be installed on parallel rows of horizontal supports. The lighting systems can be configured to have a single electrical feedthrough on one end of the lamp that can also act as a mating feature between the lamp and supports. More particularly, the present disclosure provides improved lighting systems that are fixtureless, waterproof, customizable, and easy to install/remove.
Claims
exact text as granted — not AI-modified1 . An elongated LED lighting unit for substantially parallel rows of first and second support brackets connecting vertical upright supports and comprising:
an elongated transparent housing with a first endcap and a second endcap; the first endcap, second endcap, and elongated transparent housing enclose a plurality of solid state lighting devices fixed to an elongated heat sink, wherein the elongated heat sink (i) extends beyond a first end of the transparent housing, (ii) extends past an internal sealing surface in the first endcap, (iii) contacts an internal surface in the first endcap, (iv) extends beyond a second end of the transparent housing, (v) extends past a sealing surface in the second endcap, and (vi) contacts an internal surface in the second endcap; the first end cap comprises an external mating feature and an external cooperative surface being adapted to contact a corresponding mating feature of the first support bracket and a surface of the first support bracket, the first endcap has an internal surface that overlaps a portion of the first end of the transparent housing; and the second endcap comprises an electrical feedthrough and an external cooperative surface being adapted to contact a corresponding mating feature on the second support bracket and a surface of the second support bracket, the second endcap has an internal surface that overlaps a portion of the second end of the transparent housing.
2 . The elongated LED lighting unit of claim 1 where the electrical feedthrough on the second endcap is a mating feature.
3 . The elongated LED lighting unit of claim 1 where the second endcap further comprises a mating feature.
4 . The elongated LED lighting unit of claim 1 wherein the internal surface of the endcap has a flat portion that overlaps a portion of the external cooperative surface of the endcap.
5 . The elongated LED lighting unit of claim 1 wherein one or more of the first endcap or second endcap further comprises an internal slot that engages the elongated heat sink.
6 . The elongated LED lighting unit of claim 1 further comprising a waterproof seal between the sealing surface of the first endcap and the first end of the transparent housing and a waterproof seal between the sealing surface of the second endcap and the second end portion of the transparent housing, and wherein one or more of the first endcap or second endcap further comprises an internal slot that engages the elongated heat sink.
7 . A method of installing an elongated LED lighting unit onto substantially parallel and horizontal rows of first and second support brackets connecting vertical upright supports, said elongated LED lighting unit comprising an elongated transparent housing with a first endcap that is free of an electrical connector and a second endcap that comprises an electrical connector; the first endcap, second endcap, and elongated transparent housing enclose a plurality of solid state lighting devices fixed to an elongated heat sink, the elongated heat sink (i) extends beyond a first end of the transparent housing, (ii) extends past a sealing surface of the first endcap, and (iii) contacts an internal surface in the first endcap, (iv) extends beyond a second end of the transparent housing, (v) extends past a sealing surface in the second endcap, and (vi) contacts an internal surface in the second endcap;
positioning the first endcap of the elongated LED lighting unit that comprises an external cooperative surface and an external mating feature onto the first support bracket with a corresponding mating feature and surface; and positioning the second endcap of the elongated LED lighting unit that comprises an external cooperative surface and an electrical feedthrough onto a second support bracket with a corresponding mating feature and surface.
8 . The method of claim 7 wherein the elongated LED light unit is positioned by lowering the electrical connector into a support bracket mating feature.
9 . The method of claim 8 further comprising the act or step of connecting the electrical feedthrough of the elongated LED lighting unit to a source of power and a second elongated LED lighting unit on the same bracket, the second elongated LED lighting unit has a second endcap that has an electrical feedthrough.
10 . The method of claim 9 where the electrical feedthrough on the second endcap is a mating feature.
11 . An elongated LED lighting unit comprising:
an elongated transparent housing including a longitudinal axis with a first end and a second end oppositely positioned thereon; a first endcap and a second endcap mounted with respect to the first end and the second end, wherein the second endcap includes an electrical feedthrough; an elongated heat sink including a longitudinal axis; and a plurality of solid state lighting devices mounted with respect to the elongated heat sink, wherein the elongated transparent housing encloses the elongated heat sink, and the elongated heat sink are is mounted with respect to the first endcap and the second endcap; wherein the elongated heat sink (i) extends beyond a first end of the transparent housing, (ii) extends past a sealing surface of the first endcap, (iii) contacts an internal surface in the first endcap, (iv) extends beyond a second end of the transparent housing, (v) extends past a sealing surface in the second endcap, and (vi) contacts an internal surface in the second endcap; and wherein the first endcap and the second endcap are mounted with respect to a surface of a first support bracket and a second support bracket, connecting at least two vertical upright supports.
12 . The elongated LED lighting unit of claim 11 , wherein the first endcap and the second endcap further comprise an internal cavity that extends longitudinally beyond the elongated transparent housing, wherein the elongated heat sink is mounted with respect to the internal cavity.
13 . The elongated LED lighting unit of claim 11 , wherein the first endcap and the second endcap further comprise a mating feature and the first support bracket and the second support bracket further comprise a corresponding mating feature.
14 . The elongated LED lighting unit of claim 11 , wherein the first endcap and the second endcap further comprise an external flat surface for interfacing with the first support bracket and the second support bracket.
15 . The elongated LED lighting unit of claim 11 , wherein the first endcap and the second end cap further comprise a mating feature for interfacing with the elongated transparent housing.
16 . The elongated LED lighting unit of claim 15 , wherein the mating feature captures an outer surface of the elongated transparent housing.
17 . The elongated LED lighting unit of claim 11 , wherein the electrical feedthrough is a mating feature.
18 . The elongated LED lighting unit of claim 14 , wherein the external flat surface of the first endcap or the external flat surface of the second endcap has a dimension that is substantially the width of the first and second support brackets.
19 . The elongated LED lighting unit of claim 16 , wherein the mating feature includes an internal surface and a sealing surface, wherein the sealing surface is substantially perpendicular to the internal surface and the internal surface and the sealing surface define a cavity.
20 . The elongated LED lighting unit of claim 19 , wherein the sealing surface further comprises a waterproof seal for interfacing with the elongated transparent housing.
21 . The elongated LED lighting unit of claim 11 , wherein the electrical feedthrough includes a waterproof seal.
22 . The elongated LED lighting unit of claim 11 , wherein the first and second support brackets, interconnecting the vertical upright supports, are substantially parallel and horizontal and define an aeroponic growth module.
23 . A method of installing the elongated LED lighting unit of claim 1 onto substantially parallel and horizontal rows of the first and second support brackets, connecting vertical upright supports, comprising:
positioning the first endcap of the elongated LED lighting unit onto the first support bracket, wherein the first endcap and the first support bracket comprise corresponding mating features; and
positioning the second endcap of the elongated LED lighting unit and the electrical feedthrough onto the second support bracket, wherein the second endcap and the second support bracket comprise corresponding mating features.
24 . The method of claim 23 , further comprising securing the elongated LED light unit to one or more support brackets of the first and second support brackets with a fastener.
25 . The method of claim 23 , wherein the elongated LED light unit is positioned by lowering the electrical connector into the corresponding support bracket mating feature.
26 . The method of claim 23 , further comprising attaching a subsequent elongated LED lighting unit onto the first and second support brackets, wherein the subsequent elongated LED lighting unit further includes an electrical feedthrough mounted with respect to an endcap, wherein the electrical feedthrough of the first elongated LED lighting unit is electrically daisy chained to the electrical feedthrough of the subsequent elongated LED lighting unit.
27 . The method of claim 26 , wherein the electrical feedthrough on the subsequent elongated LED lighting unit is a mating feature.
28 . The method of claim 23 , wherein the mating feature of the first and second endcaps further include an external flat surface with dimensions that are substantially the width of the first and second support brackets.
29 . The method of claim 23 , wherein the first and second support brackets, interconnecting the vertical upright supports, are substantially parallel and horizontal and define an aeroponic growth module.
30 . The method of claim 23 , wherein removal of the elongated LED lighting unit consists of lifting the second endcap away from the second support bracket and lifting the elongated LED lighting unit to disengage the first endcap from the first support bracket.Cited by (0)
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