The present invention relates to luminaires for outdoor lighting, and more particularly, to a compact floodlight for multi-purpose uses.
Floodlighting is generally used outdoors to illuminate large open areas from a location on a perimeter of a site with the light directed inward to the site or from a location on the interior of the site and the light directed outward. These types of luminaires are sometimes called projectors since they project light across spaces usually several times the length of their mounting heights.
Typically floodlights consist of a cast aluminum housing, a cast aluminum door, control gear to operate a lamp, (usually a high intensity discharge lamp), an optical or reflector system to project the light in a desired distribution and direction, and a mounting means to attach it to a pole or the side of a structure.
Within the American National Standards Institute (ANSI) there is a committee, C136, which publishes standards defining some of the mechanical and electrical requirements for this type of lighting equipment. The relevant standards to this invention are: C136.2-2004 (American National Standard for Roadway and Area Lighting Equipment—Luminaire Voltage Classification), C136.10-2006 (American National Standard for Roadway and Area Lighting Equipment—Locking-type Photocontrol and Mating Devices—Physical and Electrical Interchangeability and Testing), and C136.32-2006 (American National Standard for Roadway and Area Lighting Equipment—Enclosed Setback Luminaires and Directional Floodlights for High-intensity Discharge Lamps).
The Illumination Engineering Society of North America (IESNA) also publishes a standard defining the classifications of light or beam patterns for a floodlight which are useful to lighting practitioners in properly applying this equipment. The relevant standard is RP-6-01, The Recommended Practice for Sports and Recreational Area Lighting.
In addition to meeting all of the above standards, luminaires having a compact size are often desirable in many lighting applications. Decreasing the overall size of the luminaire, however, leads to other problems relating to weight balancing, heat dissipation and internal accessibility. For example, when moving the internal components of the luminaire closer together in an attempt to decrease the overall size of the luminaire, consideration must be given as to the concentration of the weight of the components and the effects of certain heat generating components on other nearby components. It is also necessary to maintain an ease of accessibility to the internal components from the outside for periodic maintenance and repair. Accordingly, it would be desirable to provide a compact luminaire meeting all these requirements.
The present invention is a compact luminaire which includes a housing, a ballast, and a first and second electrical component. The housing has a back and a perimeter wall which extends generally perpendicularly from the back. The perimeter wall has a top wall portion, a bottom wall portion disposed in a downward direction with respect to the top wall portion and sidewall portions connecting the top wall portion and the bottom wall portion. The ballast is mounted to the back adjacent the bottom wall portion and is substantially equidistant to the side wall portions and the first and second electrical components are mounted to the housing on opposite sides of the ballast in a balanced fashion.
In a preferred embodiment, the ballast is also mounted to the bottom wall portion and is in thermal contact with the back and bottom wall portion of the housing for dissipating heat from the ballast to the housing. The back of the housing and the bottom wall portion both preferably include at least one raised landing integrally formed thereon, and the ballast is mounted to the landings. The ballast is preferably fastened to the landings with at least one mounting fastener, which is in thermal contact with the ballast and the landing which results in heat being conducted.
The luminaire also preferably has a door which is pivotably connected to the housing. The door includes a lampholder, capable of providing electrical power to a lamp, and a second reflector portion mounted to the door. The second reflector portion cooperates with a first reflector portion provided in the housing to form a complete, uniform reflective enclosure surrounding the lampholder when the door is in a closed position with respect to the housing. As a result, the lampholder is freely accessible from the outside when the door is pivoted in an open position for servicing and/or replacement.
The door further preferably includes a transparent or translucent lens through which light from the lamp is directed. The second reflector portion is preferably mounted to the door with brackets attached to the sides thereof to secure the reflector portion and the lens to the door, thereby serving a dual purpose. Also, the luminaire housing preferably includes at least one recess formed in a side wall portion of its perimeter wall for receiving the lampholder when the door is in a closed position. A gasket is preferably supported on the top of a perimeter sidewall of the housing for providing a seal between the door and the housing.
A preferred form of the compact luminaire, as well as other embodiments, objects, features and advantages of this invention, will be apparent from the following detailed description of illustrative embodiments thereof, which is to be read in conjunction with the accompanying drawings.
Referring to the drawings, a floodlight luminaire 10 of the present invention generally includes a luminaire housing 12, a door 14 hinged to the housing and a mounting means 16 for mounting the luminaire to a structure. As shown in
The luminaire 10 shown in
Contained within the housing interior is a first reflector portion 20, a ballast 22, and various other electrical components, such as a terminal block 23, a starter 24 and a capacitor 26, all mounted to the back 28 of the housing within the perimeter side wall 30 of the housing. The housing 12 further preferably includes a gasket 32 supported on top of the perimeter sidewall 30 for providing a seal between the door 14 and the housing. The housing 12 further preferably includes one or more hinge members 34 and a latch member 36 to respectively hingedly couple and latch the door 14 to the housing 12.
The ballast 22 is the heaviest component of the system. Therefore, mounting the ballast in the center of the housing back 28, equidistant between the side walls 31, with the other electrical components surrounding the ballast in a balanced fashion serves to balance the luminaire weight. Mounting the ballast 22 against the bottom-most wall 38 of the housing perimeter wall 30 also lowers the center of gravity and reduces bending moment stresses on the mounting means 16.
To further decrease the size of the luminaire, the housing 12 includes recesses 33 formed in opposite sidewall portions 31 of the perimeter wall 30. The recesses 33 are sized and positioned to receive at least a portion of the lampholder 40 when the door 14 is pivoted into its closed position. In this manner, the sidewall portions 31 of the perimeter wall 30 can be brought closer together, thereby reducing the overall width of the housing 12.
Also, the second reflector portion 42 complements the first reflector portion 20 provided in the housing 12 to form a complete, uniform reflective structure when the door 14 is secured to the housing 12 in a closed position. The second reflector portion 42 is provided with brackets 44 that are attached to the sides thereof to secure the reflector portion and the lens 43 to the door, thereby serving a dual purpose.
The lamp and the ballast 22 are the two primary heat generating components of the luminaire 10. While the reflector system directs most of the lamp heat out of the luminaire 10, the ballast heat must be conveyed via convection through the air inside the luminaire and conducted through the housing 12.
As a result of the present invention, a floodlight luminaire for general area site lighting is provided, which incorporates a high intensity discharge lamp system in a very small housing and meets industry requirements. The luminaire utilizes a unique ballast mounting method so as to extract heat from two directions simultaneously and to operate the ballast in a smaller space below maximum allowable temperatures. In this regard, the ballast is further preferably mounted in the bottom center of the housing so as to balance the unit and lower the center of gravity. The floodlight luminaire of the present invention further includes a lamp and a lampholder attached to the door of the luminaire so as to facilitate re-lamping.
The present invention is a luminaire assembly of the smallest possible size to house all of the necessary components in the proper configuration to meet industry requirements. In particular, the largest being a 400 watt metal halide lamp with an ED-37 or BT-37 envelope as defined in ANSI C78.43-2004 (American National Standard for Electric Lamps—Single-ended Metal Halide Lamps) along with its necessary ballast, capacitor, lampholder, reflector, terminal block, wiring and mounting means. The invention has the shortest height, width and depth of any similar product on the market. It utilizes a unique means of mounting the ballast to operate it at lower temperatures than in other versions of this product currently on the market. The ballast is mounted at the bottom center of the luminaire to give it greater balance and a lower center of gravity with respect to its mounting means.
Further, the lamp is mounted to the door such that it swings outward during servicing for easier re-lamping. The reflector is divided into two portions, one mounting in the housing and one mounting to the door and has superior photometric performance to similar products currently on the market. The portion of the reflector mounting to the door also serves as a means to hold the lens in place.
Although illustrative embodiments of the present invention have been described herein with reference to the accompanying drawings, it is to be understood that the invention is not limited to those precise embodiments, and that various other changes and modifications may be effected by one skilled in the art without departing from the scope or spirit of the invention.
This application claims priority from provisional application Ser. No. 60/994,907 filed on Sep. 21, 2007, which is incorporated herein by reference in its entirety, for all purposes.
Number | Date | Country | |
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60994907 | Sep 2007 | US |