LED auditorium house light system

Abstract

A plurality of LED light fixtures are mounted in a ceiling of an auditorium and a power control system is positioned in an area separate from a seating area of the auditorium for supplying power to the LED light fixtures. Each LED light fixture comprises an extrusion carrying one or more ambience light LED modules for providing ambient light and one or more high intensity LED modules for providing full level lighting. The power control system is configured to collectively switch the ambience light LED modules on and off and to separately and collectively switch the high intensity LED modules on and off to thereby provide either low level ambient light or high intensity full level lighting to the auditorium.

Claims

1. A method of lighting an auditorium comprising: installing a lighting system in the auditorium, the lighting system comprising: a plurality of LED light fixtures, each said LED light fixture comprising a fixture body comprising a plurality of LED modules; and a power control system; wherein the plurality of LED modules of each respective LED light fixture comprise: one or more high intensity light LED modules each configured to provide light of a level selected for use during a cleaning period of the auditorium; and one or more ambience light LED modules each configured to provide light of a level selected for use during an intermission period in the auditorium; the method further comprising: collectively switching each of the one or more ambience light LED modules of each of the LED light fixtures on while said one or more high intensity light LED modules of each of the LED light fixtures is in an off state so as to illuminate said auditorium during an intermission period; and separately and collectively switching each of the one or more high intensity light LED modules of each of the plurality of LED light fixtures on while each of the one or more ambience light LED modules of each of the plurality of LED light fixtures is in an off state so as to illuminate said auditorium during a cleaning period.

2. LED auditorium lighting apparatus comprising: a plurality of LED modules comprising: one or more high intensity light LED modules each configured to provide light of a level selected for use during cleaning periods of the auditorium; and one or more ambience light LED modules each configured to provide light of a level selected for use during intermission periods in said auditorium; wherein each ambient light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity LED module and each ambience light LED module are arranged linearly in the same row with their respective LEDs positioned to direct light into said auditorium; a power control system configured to collectively switch each of the one or more ambience light LED modules on and off and to separately and collectively switch each of the one or more high intensity light LED modules on and off, whereby the apparatus is enabled to respectively provide either light of a level selected for use during intermission periods or light of a level selected for use during cleaning periods of the auditorium; and wherein said power control system comprises a plurality of LED drivers configured to drive each of the plurality of LED modules.

3. A motion picture theater lighting system comprising: a plurality of LED light fixtures positioned adjacent a ceiling of the theater to provide light to the theater, each of the plurality of LED light fixtures comprising a plurality of LED modules disposed in a linear row; one or more of the LED modules in the linear row of each of the plurality of LED light fixtures being a high intensity light LED module configured to provide light of a level selected for use during cleaning periods of the theater; one or more of the LED modules disposed in the linear row of each of the plurality of LED light fixtures being an ambience light LED module configured to provide light of a level selected for use during intermission periods in the theater; and a power control system located in a projection booth of the theater and comprising a plurality of LED drivers configured to drive each of the plurality of LED modules of each of said plurality of LED light fixtures, the power control system in the projection booth being configured to: (a) turn on all of the ambience light LED modules of each of the plurality of LED light fixtures while all of the high intensity light LED modules are off so as to provide a level of light selected for use during an intermission period in the theater; (b) turn on all of the high intensity light LED modules of each of the plurality of LED light fixtures while all of the ambience light LED modules of each of the plurality of LED light fixtures are off so as to provide a level of light selected for use during a cleaning period in the theater; and (c) provide an off state of each of the LED modules of each of the plurality of LED light fixtures so as to establish a dark state in the theater.

4. The motion picture theater lighting system of claim 3 wherein the number of LED light fixtures and number of LED light modules are configured to provide sufficient illumination of the theater in the three states: intermission ambient lighting, full level light cleaning and dark state.

5. The motion picture theater lighting system of claim 4 wherein the LED light modules of the LED light fixtures provide 6-9 foot candles of light in the cleaning state and 2-4 foot candles of light in the ambient light intermission state.

6. The method of lighting an auditorium of claim 1 further comprising employing a plurality of LED drivers of said power control system to collectively switch on and off each of the ambience light LED modules and each of the high intensity light LED modules.

7. The auditorium lighting system of claim 2, wherein at least one of said one or more ambience light LED modules is configured to be dimmable.

8. The auditorium lighting system of claim 2, wherein at least one of said one or more high intensity light LED modules is configured to be dimmable.

9. The auditorium lighting system of claim 7, wherein at least one of said one or more high intensity light LED modules is configured to be dimmable.

10. The auditorium lighting system of claim 2, wherein a pair of said high intensity light LED modules are angled so as to direct light in opposite directions.

11. The auditorium lighting system of claim 10, wherein the first of said high intensity light LED modules directs light downwardly at an angle of 20 degrees to the horizontal; while the second of said high intensity light LED modules directs light downwardly at an angle of 20 degrees to the horizontal in a direction opposite to that at which said first high intensity light LED module directs light.

12. The auditorium lighting system of claim 2, wherein one or more of said high intensity light LED modules is configured to produce a light beam having a full width half maximum angle in the range of 12 to 35 degrees.

13. The auditorium lighting system of claim 2, wherein said ambience light LED modules provide 2 to 4 foot candles of light and said high intensity light LED modules provide 6 to 9 foot candles of light.

14. The auditorium lighting system of claim 12, wherein said ambience light LED modules provide 2 to 4 foot candles of light and said high intensity light LED modules provide 6 to 9 foot candles of light.

15. The auditorium lighting system of claim 2, wherein said power control system is positioned in an area separate from the plurality of LED light fixtures.

16. The auditorium lighting system of claim 13, wherein said power control system is positioned in an area separate from the plurality of LED light fixtures.

17. The auditorium lighting system of claim 2 wherein each ambient light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity light LED module and each ambient light LED module are arranged linearly in the same row with the LEDs positioned to direct light into said auditorium.

18. The auditorium lighting system of claim 14 wherein each ambient light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity light LED module comprises a circuit board mounting a plurality of LEDs and wherein each high intensity light LED module and each ambient light LED module are arranged linearly in the same row with the LEDs positioned to direct light into said auditorium.

19. The auditorium house lighting system of claim 2 wherein said power control system is located in a projection booth of said auditorium.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a side schematic view illustrating an auditorium lighting system according to an illustrative embodiment;

(2) FIG. 2 is a perspective view of the lighting system of FIG. 1;

(3) FIG. 3 is a perspective view of a lighting fixture employable in the system of FIG. 2;

(4) FIG. 4 is a first cross-sectional view of the fixture taken at IV-IV of FIG. 3;

(5) FIG. 5 is a second cross-sectional view of the fixture taken at V-V of FIG. 3;

(6) FIG. 6 is a detail view illustrating cooperation of the fixture of FIG. 3 with adjacent sealing tile; and

(7) FIG. 7 is a perspective end view showing an illustrative installation of the fixture of FIG. 3.

DETAILED DESCRIPTION

(8) An auditorium lighting system 11 according to an illustrative embodiment is shown in FIGS. 1 and 2. It should be understood that as used here, the term auditorium encompasses theaters such as conventional movie theaters.

(9) The lighting system 11 employs a plurality of light fixtures 13 installed in or attached to a ceiling 15 above a floor 21. These light fixtures 13 can be installed at regular or irregular spacing intervals so as to achieve uniform illumination of the floor 21, which typically slopes downwardly in a multi-level, stadium style arrangement and on which a number of seats are positioned, typically separated by one or more aisles. In other applications, the floor 21 may be flat.

(10) A junction box 16 containing a plurality of LED drivers, for example, three drivers, is shown attached to the front interior wall 17 of a projection booth 18. The junction box 16 may be positioned elsewhere in the projection booth 18 in various embodiments or in another easy-to-access location, such as, for example, above a T-bar grid at the cross aisles. The junction box 16 may include controls, dimmers, surge protection, emergency back-up equipment and supplies electrical power to the light fixtures 13, as well as dimming capability.

(11) FIG. 2 schematically illustrates the power feeds 23 to the fixtures 13 from the junction box 16 as three dashed lines. Remote positioning of the power system as illustrated in FIGS. 1 and 2 makes wiring, dimming, and maintenance easier to manage.

(12) An illustrative light fixture 13 is shown in FIG. 3. The fixture 13 includes an elongated extrusion 29, which provides a mounting surface or surfaces 30 for a plurality of LED modules 31, 33, 35, 37, 39, 41. The extrusion 29 further has respective junction boxes 43, 45 and horizontal flanges 47, 49; 51, 53 at each end. The junction or splice boxes 43, 45 provide faster and easier wiring, while the flanges 47, 49; 51, 53 assist in mounting the fixtures 13 to cooperate with adjacent ceiling tile. FIG. 6 illustrates the manner in which the flanges 47, 49; 51, 53 accommodate ceiling tile 81 in one illustrative embodiment.

(13) In an illustrative embodiment, the pairs of LED modules 31, 33; 39, 41 at opposite ends of the extrusion 13 are high intensity modules, which provide light for periods of cleaning or other maintenance. As illustrated in FIGS. 4 and 5, in one embodiment, the lighting system 11 employs high intensity modules, e.g., 31, 33 which are angled to the horizontal at an acute angle of, for example, 20 (degrees) and are aimed in opposing directions in order to increase the spread of light, thereby necessitating fewer fixtures in some embodiments. In addition, lenses or optics, e.g., 91, are employed in each high intensity module 31, 33 to produce a relatively intense light beam having, for example, a full width half maximum angle of 12 degrees.

(14) Additionally, in the illustrative embodiment, the center LED modules 35, 37 are ambient lighting modules configured to provide ambient light to illuminate the theater or auditorium, for example, during intermission periods. Other componentry shown in FIGS. 4 and 5 includes the fixture housing extrusion 61, a bottom cover 78, a printed circuit board assembly (PCBA) carrier 79, a PCBA carrier retention screw 75, a plastic dome lens 77, splice box 69 and splice box retention tab 67, electrical connector body 65, and ceiling tile flange 63. In one embodiment, the extrusion 61 may be an aluminum extrusion and the bottom cover 78 may be die cast aluminum. In one embodiment, the extrusion 61 and bottom cover 78 may be constructed as illustrated in U.S. Patent Publication 2013/0279180 A1 published Oct. 24, 2013, the contents of which are incorporated in their entirety herein.

(15) In one embodiment, each LED module 31, 33, 35, 37, 39, 41, may comprise a circuit board with one or more LED emitters mounted thereon. In one embodiment, the high intensity modules 31, 33; 39, 41 employ three emitters e.g. 40, while the ambience modules 35, 37 employ eleven emitters, e.g. 44. In one embodiment, each emitter 44 of the ambience modules 35, 37 may have an output of 40 lumens at a full width half maximum angle of 120.

(16) In one embodiment, the LED modules 31, 33, 35, 37, 39, 41 are configured in pairs and each may be six inches in length positioned in an extrusion 29 which is 42 inches in length, together with two splice boxes 69, resulting in a total fixture length of 47. Another embodiment may employ an eighteen inch long extrusion having three LED modules, together with two splice boxes 69, resulting in a total fixture length of 23. For example, such an embodiment may employ one central ambience LED module, flanked on either side by a high intensity LED module where the high intensity LED modules are angled at 20 degrees to the horizontal and oppositely directed. In one embodiment, the relatively dim ambient intermission lighting may provide 2-4 foot candles of total light, while the full level, high intensity cleaning light modules may provide 6-9 foot candles of total light. In various embodiments, the light delivered by the modules may be adjusted based upon the ceiling height at the location where a particular fixture 13 is positioned.

(17) In one embodiment, the ambience modules 35, 37 may be collectively switched on or off at the same time, and the high intensity modules 31, 33; 39, 41 may also be collectively switched on or off at the same time. When the high intensity modules are collectively switched on, each module 31, 33, 39, 41 is powered on and provides high intensity illumination. Similarly, when the ambience modules 35, 37 are collectively switched on, each ambience modules 35, 37 is powered on and provides ambient illumination. In one embodiment, the ambience module 35, 37 are collectively switched or turned on, while the high intensity modules 31, 33; 39, 41 are held or switched off and vice versa. In a dark state of the auditorium, all of the modules 31, 33, 35, 37, 39, 41 are in the off state.

(18) FIG. 7 illustrates an attachment eyelet 51 on splice box 43 for attaching a fixture 13 by fasteners, e.g. 52, to a cooperating ceiling grid structure 84. Fixtures 13 may also be suspended by wires which terminate at structural elements of the building above the ceiling grid or by other mechanisms. FIG. 7 further illustrates electrical power cable 85 and cable sheath 87 held in place by a clamp 87. In one embodiment, two-circuit wiring is provided to enable individual on-off and dimming control of the high intensity modules 31, 33; 39, 41 and the ambient lighting modules 35, 37. In one embodiment, the junction boxes 43, 45 permit lead wires from the power supply to be connected by simply poking them in, and one fixture can be readily electrically interconnected to the next (daisy chained). After electrical connections are made, splice box lids, e.g. 82, are put in place and secured to the splice box, e.g. 43, by fasteners, e.g. 83. Low voltage or line voltage embodiments can be constructed in accordance with the above teachings.

(19) Thus, those skilled in the art will appreciate that various adaptations and modifications of the just described preferred embodiment can be configured without departing from the scope and spirit of the invention. Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described herein.