The present application claims priority to U.S. patent application Ser. No. 29/495,760 entitled “Linear LED Lighting Housing” filed Jul. 3, 2014, and also claims priority to Indian Patent Application No. 2205/MUM/2014 entitled “Linear LED Lighting Housing” filed on Jul. 7, 2014, the contents of both of which are incorporated by reference herein in their entirety.
The present application generally relates to a lighting fixture. More particularly, the present application relates to a housing for an overhead lighting fixture having a hinge mechanism used to pivotally attach the housing to a reflector member positioned beneath the housing.
Overhead lighting is used in a wide variety of applications. For example, overhead lighting may be used for lighting commercial and industrial buildings, such as offices, warehouses, and manufacturing facilities. Overhead lighting may also be used in hazardous locations, where a high degree of corrosion resistance and protection against dirt, water and moisture is necessary. In such environments it may be desirable to seal the electrical components within the lighting fixture. Seals or gasket material of varying thicknesses may be used to provide the sealing, depending on the application and environment. However, unsealing the lighting fixture for purposes of maintaining or replacing electrical components while the lighting fixture is mounted overhead presented a number of challenges to technicians, including the removal of screws and reflector cover while perched upon a ladder or platform.
Furthermore, in the past, overhead lighting fixtures having tubular fluorescent bulbs were widely used. In particular, lighting fixtures having T8 or T12 tubular fluorescent bulbs were widely used. However, replacing the T8 or T12 bulb or the associated ballast presented certain challenges, such as safely removing the bulb without breaking or dropping it, and accessing and removing the ballast.
In recent years, LED lighting has become more and more popular. LED lighting may be advantageous because LED lighting typically has a longer life than fluorescent lighting and they are very energy efficient.
However, because the components used for LED lighting generate a lot heat, it is desirable to provide suitable heat dissipation features and designs for the LED light fixture and housing. In addition, overhead lighting in general provides a number of challenges in terms of servicing, maintaining, and replacing the lights or LED arrays and other internal components associated with the lighting fixture. Therefore, it would be desirable to provide a lighting fixture that provides for improved ease of servicing, maintaining, and replacing the lights and other internal components of the lighting fixture. In addition, there is a large installed base of overhead lighting fixtures that may include T8 or T12 fluorescent bulbs, and it would be desirable to provide an LED lighting fixture with a housing that may be used to retrofit and replace existing overhead lighting fixtures that use T8 or T12 fluorescent bulbs.
In one aspect, a lighting fixture is provided including alighting housing having a top side, a bottom side, a front side, a rear side, a first end and a second end, a reflector member having a top surface, said reflector member attached to the bottom of the lighting housing with a plurality of fasteners extending through the reflector member, lights positioned beneath the reflector, a first bracket positioned on the top surface of the reflector member, a second bracket positioned on the top surface of the reflector member, wherein the reflector member is hingedly mounted to the housing using a first fastener extending through a vertical slot of the first bracket on the reflector member, and using a second fastener extending through a vertical slot of the second bracket of the reflector member.
In a further aspect, an lighting fixture is provided including an housing having a top side, a bottom side, a front side, a rear side, a first end and a second end, a reflector member having a top surface, said reflector member attached to the bottom of the housing with a plurality of fasteners extending through the reflector member, LED lights positioned beneath the reflector, a first lighting fixture mounting bracket attached to the top side of the housing, and a second lighting fixture mounting bracket attached to the top side of the LED housing.
In a further aspect, a lighting fixture is provided including a lighting housing having a top side, a bottom side, a front side, a rear side, a first end and a second end, a reflector member having a top surface, said reflector member attached to the bottom of the lighting housing with a plurality of fasteners extending through the reflector member, lights positioned beneath the reflector, a hinge having a first flange secured to the rear side of the lighting housing and a second flange secured to the top surface of the reflector member, wherein one of the first and second flanges is secured by using one or more mounting screws extending through one or more vertical slots in the one of the first and second flanges.
In yet a further aspect, the lighting fixtures may further include a seal positioned between the lighting housing and the reflector member, wherein the vertical slots are adapted to adjust to seals of varying thicknesses.
Exemplary embodiments of the invention are described herein with reference to the drawings, wherein like parts are designated by like reference numerals, and wherein:
In
In the example embodiment shown in
Lens assembly 300 and LED/PCB arrays 400 and 400a are positioned in an underside of the reflector member 200. Lighting housing 100 is used to house din rail 135 and terminal block 118, terminal block assembly 165, driver 155, contact block assembly 145, and din rail 175 with terminal block 117. Lighting housing 100 includes mounting holes 190 and 193, and mounting holes 191 and 192, on a top side 110 of lighting housing 100 that may be used to mount various brackets or chains to the lighting housing that may be used for mounting purposes. Of course, other lighting sources in addition to LED lighting may also be used.
A first mounting bracket 210 is mounted to a top surface of an end of reflector member 200. First mounting bracket 210 is secured to reflector member 200 with a pair of screws 212, and includes an upwardly extending flange 216 that includes a vertical slot or cutout 218 adapted to receive screw 214. Screw 214 extends through vertical slot or cutout 218 and into a threaded hole tapped in boss 130 of lighting housing 100. Similarly, a second mounting bracket 210a is mounted to a top surface of the other end of reflector member 200. Second mounting bracket 210a is secured to reflector member 200 with a pair of screws 212a, and includes an upwardly extending flange 216a that includes a vertical slot or cutout 218a adapted to receive screw 214a. Screw 214a extends through vertical slot or cutout 218a and into a threaded hole 122 tapped in boss 120 of lighting housing 100.
When screws, including screws 330, 333, 320, and 386 are unscrewed, as illustrated in
The hinged mounting of the reflector member 200 advantageously allows a technician to access the inner components of the lighting housing from below, where the components may be more easily identified, viewed, and replaced. Referring back to
The lighting housing may be a die-cast housing, made of a heat conductive material such as aluminum. As shown in
In addition, and further shown in
As shown in
Lighting fixture 10 may be used to retrofit existing tubular fluorescent lighting fixtures having a length of two feet, by using mounting holes 190 and 192 positioned on the top surface 110 of lighting housing 100 in both the 2.5K and 5K lumen lighting device. Mounting holes 190 and 192 may be positioned 400 mm apart to allow for the retrofitting of lighting housing 100 into existing mounting structures used with tubular fluorescent lighting devices, which commonly have mounting holes spaced 400 mm apart. Thus, lighting fixture 10 having mounting holes 190 and 192 positioned on a top side 110 of lighting housing 100 spaced apart 400 mm provides a ready solution to retrofit and change existing tubular fluorescent lighting devices having a length of 2 feet over to an LED design, or other type of non-tubular fluorescent lighting design. Of course, it is also possible to use the lighting fixture 10 with tubular fluorescent bulbs as well.
Lighting fixture 10a may be used to retrofit existing tubular fluorescent lighting fixtures having a length of four feet, by using first and second lighting fixture mounting brackets 600 and 620. The first lighting fixture mounting bracket 600 includes a first flange 602 attached to the first end of the housing 100a using mounting hole 612a and 652. An extending member 606 has a first end attached to the first flange 602 and upwardly extends from the top side of the lighting housing 100a where a second end of the extending member 606 is attached to a second flange 604 that outwardly extends past the first end of the lighting housing 100a. Second flange 604 includes a mounting hole 610. First flange 602 includes mounting holes 612a and 652 adapted to align with mounting holes 190 and 193 on lighting housing 100.
Similarly, second lighting fixture mounting bracket 620 includes a first flange 622 attached to the second end of the lighting housing 100a, and extending member 626 having a first end attached to the first flange 622, and upwardly extends from the top side of the lighting housing 100a, where a second end is attached to a second flange 624 that outwardly extends past the second end of the lighting housing 100a. Second flange 624 includes a mounting hole 630.
In this embodiment, the first flange 602 and the second flange 604 of the first lighting fixture mounting bracket 600 are positioned in parallel planes, and the first flange 622 and the second flange 624 of the second lighting fixture mounting bracket 620 are positioned in parallel planes. In this manner, the upper surfaces of second flange 604 and second flange 624 may provide a flush mounting surface. In fact, the upper surfaces of second flange 604 and second flange 624 may be coplanar to provide for an even, horizontal mounting of the lighting housing 100a.
In addition, because an existing mounting pattern for tubular fluorescent lighting fixtures having a length of four feet has a distance between mounting holes greater than the length of the lighting housing 100a, the second flanges 604 and 624 advantageously extend beyond the respective first and second ends of the lighting housing 100a. Mounting holes 610 and 630 in the second flanges 604 and 624 may be positioned 700 mm (or 27.6 inches) apart to allow for the retrofitting of lighting fixture 10a into existing mounting structures used with tubular fluorescent lighting devices having a length of four feet. Thus, lighting fixture 10a having lighting fixture mounting brackets 600 and 620 attached to lighting housing 100a provides a ready solution to retrofit and change existing tubular fluorescent lighting devices over to an LED design, or other type of non-tubular fluorescent lighting design. Of course, it is also possible to use the lighting fixture 10a with tubular fluorescent bulbs as well.
In this regard, as shown in
In addition, to impart greater strength into the lighting fixture mounting flanges 600 and 620, a pair of notches may be positioned in a transition from the first flange to the extending member and a pair of notches may be positioned in a transition from the extending member to the second flange. In particular, as shown in
In addition, as shown in
The lighting housings described herein may advantageously be used in hazardous locations, and in locations where it is desirable to have a high degree of corrosion resistance and protection against dirt, water and moisture. As shown in
As shown in
Thus, the hinge mechanism provides a user with the freedom to use different types of gaskets having a varying thickness and/or hardness. This freedom is achieved by using vertical slot or cutout 218a in bracket 210a. The lighting housing 100′ is placed between the two symmetrically mounted brackets 210 and 210a on lighting housing 100′. As shown in detail in
A calculated clearance or gap 217 may be provided between the outer facing edge of boss 120, bracket 210a, and head of mounting screw 214a′ to provide a clearance for easy hinging action between the lighting housing 100′ and reflector member 200 without interference from mounting screw 214a. The vertical slot or cutout 218a in upper flange 216a of mounting bracket 210a advantageously provides a feature that helps in self adjustment/alignment between the mating lighting housing 100′ and reflector member 200. As shown in
The “hinge mechanism” is designed to provide an easy access to the internal components which are mounted inside the lighting housing 100′ without requiring the complete fixture to be dismantled from the mounted locations. The hinged design can also accommodate any small misalignments between the lighting housing 100′ and reflector member 200. It also provides an advantage of setting the compression value for different type of gaskets that may be used for gasket member 105.
Typical LED lighting fixtures in the market do not provide a hinge mechanism to allow easy access to the components of the fixture, as the LED housing and reflector are mating assemblies that are typically clamped or fixed with nuts and bolts. Such a design restricts the access to internal parts when the fixture is mounted to the ceiling or in a mounted condition.
As noted above, in the present embodiments the mounting brackets 210 and 210a are mounted to the top of reflector member 200 which is a mating part with the bottom of lighting housing 100′. A gasket member 105 (shown in
Mounting screws 214 and 214a may be a captive bolt/screw which passes through the vertical slot or cutout (218 or 218a) of the mounting brackets 210 and 210a to complete the hinge mechanism. As shown in
In order to access the internal components of the lighting housing in the field for installation, maintenance, or service, a technician simply needs to loosen the captive bolts/screws such as screws 320, 333, 320, and 386 securing the reflector member 200 to the bottom of lighting housing 100′. When the bolts/screws are loosened the complete reflector member 200 will gradually move in a downward direction due its own weight. As the reflector moves downward, the vertical slots or cutouts 218 and 218a on mounting brackets 210 and 210a serve as guides during this movement. As the bolts/screws are completely disengaged from the bottom of lighting housing 100′, the reflector member 200 remains hanging from the mounting screws 214 and 214a that are used to secure mounting brackets 210 and 210a to bosses 120 and 130 of lighting housing 100′ The captive bolt/screws 214 and 214a provide a rotational axis/hinging point for the reflector member 200 and thereby provide easy access to the internal components within lighting housing 100′.
Once the installation, maintenance, or service is complete, the reflector member 200 is swung back up into engagement with the bottom of lighting housing 100′, where mounting screws, including screws 330, 333, 320, and 386 are tightened to secure the reflector member 200 to lighting housing 100′, and to begin compressing the gasket member 105 (shown in
An alternate hinging mechanism illustrated in
A number of advantages are provided by the present embodiments. In particular, the hinging mechanism provides easy access to the interior of the lighting housing 100′ to facilitate the installation, maintenance, and service of the lighting fixture, without requiring the dismantling of the complete fixture from its mounted location. In addition, the compression of the gasket member 105 can be controlled by the geometry of the vertical slots or cutouts on the hinge brackets, such as brackets 210, 210a, and 700, and the compression value for different types of gaskets can be controlled. The slotted hinge mechanism also provides the freedom to use different types of gasket members having varying thicknesses, hardnesses, and material.
Furthermore, the slotted hinge mechanism may also be used with metallic and non-metallic junction boxes, a variety of enclosures, distribution equipment, lighting fixtures, plug and receptacles, and wherever there is a need to provide easy access to internal components without dismantling the cover from the body. This slotted hinged mechanism may also be used with products which require self-adjusting or an aligning hinge for assembly of mating parts or halves, for example in hazardous locations where a seal between mating parts is desired.
Example embodiments have been described above. Those skilled in the art will understand that changes and modifications may be made to the described embodiments without departing from the true scope and spirit of the present invention, which is defined by the claims.
Number | Date | Country | Kind |
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2205/MUM/2014 | Jul 2014 | IN | national |
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Entry |
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Dialight, SafeSite LED Linear Fixture—UL 844 for Indoor and Outdoor Hazardous Locations, pre-Jul. 2014 representative catalogue, 8 pages. |
Number | Date | Country | |
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20160003455 A1 | Jan 2016 | US |
Number | Date | Country | |
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Parent | 29495760 | Jul 2014 | US |
Child | 14566936 | US |