This invention relates generally to a ballast for a gas-discharge lamp and, more particularly, to a gas-discharge lamp ballast that reduces the time it takes to install and wire the gas-discharge lamp ballast within a luminaire during the assembly process of the luminaire and also minimizes the time to install the luminaire at the job site.
BACKGROUND OF THE INVENTION
A lighting assembly is generally referred to as a luminaire. This structure generally includes a housing assembly with a lamp mounted in a socket contained therein. Additionally, if the light source of the luminaire is a gas-discharge lamp, somewhere in the area of the socket and housing assembly is a ballast, which is connected to the lamp sockets. The input connection to the ballast is generally a pair of wires that are left unconnected and connected at a latter time to the source of input power during the final installation of the luminaire.
Cables with connectors to interconnect luminaires as shown in Quin, U.S. Pat. No. 4,500,796 and Nilssen, U.S. Pat. No. 5,640,069 can be used to reduce the time and cost to install the luminaire, but this requires additional assembly time in the factory to complete the wiring between the ballast power input and the input power connector.
Leadless electronic ballasts that incorporated connectors, developed during the early 1990s by Motorola Lighting, Inc., are designed to accept individual stripped wire leads to make connection to the power source. This for some applications reduced installation time, but still required the luminaire to be opened and the ballast cover to be removed in order to make the connection. Then the ballast cover had to be replaced and the luminaire closed.
SUMMARY OF THE INVENTION
Among the many objectives of this invention is the provision of an improved luminaire incorporating a lightweight ballasting assembly.
It is another objective of the present invention to provide a luminaire having a ballast with simplified connections.
It is another objective of the present invention to provide a luminaire having a ballast that requires less time to install.
Still another objective of the present invention is to provide a luminaire having an ease of installation.
These and other objectives of the invention (which other objectives become clear by consideration of the specification, claims and drawings as a whole) are met by providing a luminaire having a ballasting circuit assembly for a gas discharge lamp, with a multi-conductor input power connector suitable for receiving and connecting with a mating multi-conductor power connector attached to a multi-conductor cable, a ballasting circuit suitable for powering a gas discharge lamp, output leads suitable for connecting to a gas-discharge lamp socket with the wiring therefor contained within the luminaire.
BRIEF DESCRIPTION OF THE DRAWINGS
These and other features, objects and advantages of the present invention will become apparent from the following description and drawings wherein like reference numerals represent like elements in several views and in which:
FIG. 1 depicts an exploded perspective view of the luminaire 10 with conventional ballast 28.
FIG. 2 depicts an exploded perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the outside of housing assembly 60 this invention.
FIG. 3 depicts a perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the inside of housing assembly 60 of this invention.
FIG. 4 depicts a perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the inside of housing assembly 60 this invention.
FIG. 5 depicts a perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the outside of housing assembly 60 of this invention.
FIG. 6 depicts a perspective view of a luminaire 10 with conventional ballast 28 mounted on the outside of a junction box 38.
FIG. 7 depicts an exploded perspective view of the luminaire 10 with high-frequency ballasting assembly 14 incorporating a mounting plate 54 of this invention.
FIG. 8 depicts a perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the outside of cap assembly 46 of this invention.
FIG. 9 depicts an exploded perspective view of the luminaire 10 with high-frequency ballasting assembly 14 on the outside of housing assembly 60 of this invention.
10 luminaire
12 top aperture
14 high-frequency ballasting assembly
16 high-frequency ballast output lead
18 multi-conductor power connector
20 ballast backing plate
22 side aperture
24 ballast output connector
26 housing assembly input connector
28 conventional ballast (magnetic or electronic)
30 armored cable
32 input lead
34 ground lead
36 output lead
38 junction box
40 wire nut
42 junction box cover plate
44 lamp socket
46 cap assembly
48 lamp
50 retaining ring
52 lip
54 mounting plate
56 mating multi-conductor power connector
58 multi-conductor cable
60 housing assembly
PRIOR ART
FIG. 1 is representative of the way the majority of troffer type luminaires are constructed and installed. A conventional ballast (electronic or magnetic) 28 is connected to lampholders through output leads 36. The input power to the conventional ballast is supplied through input leads 32, which are connected to the leads of an armored cable 30 using wire nuts 40. If the luminaire has any dead metal parts they must be grounded using a ground lead 34. These connections are made within the luminaire and the luminaire must be partially disassembled by an electrician to make the connection. The opposite end of the armored cable is connected through a junction box 38 where the leads of the armored cable are connected to the utility power source again using wire nuts 40 and again requiring an electrician to make the connection. The connections are then enclosed within the junction box with a junction box cover 42. This construction is representative of the prior art of troffer type luminaires.
FIG. 6 is representative of the way a downlight luminaire using a gas-discharge lamp is constructed. An armored cable 30 is run from a junction box as described above. The armored cable 30 goes to a second junction box 38 on which a conventional ballast 28 is mounted. The output leads 36 of the ballast are run through a second armored cable 30 and connect to lamp socket 44. The lamp socket is mounted in a cap assembly 46. The cap assembly is mounted on one end of housing assembly 60. This is representative of the prior art of downlight type luminaires.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The instant invention overcomes the problems of the prior art by incorporating a multi-conductor input power connector into the ballasting assembly that is capable of accepting a mating multi-conductor connector on a cable to provide input power to the ballast and thus the luminaire. By locating the ballast external to the luminaire or within the luminaire such that the input power connector is accessible through an access hole in the luminaire, the need to open the luminaire to connect input power or the need to add wiring between a connector and the ballast is eliminated. Such a structure can be a great advancement in the art.
A luminaire has a high-frequency ballasting circuit assembly for a gas discharge lamp that is connectable to a power source that is suitable for interconnecting the power source and the luminaire with flexible, non-armored cables, such as, but not limited to the system described in Nilssen's U.S. Pat. No. 5,640,069. On the ballasting circuit assembly is a multi-conductor power connector suitable for receiving and connecting with a multi-conductor cable having a mating multi-conductor connector. The ballasting circuit within the assembly provides an appropriate voltage and current to ignite and power at least one gas discharge lamp when connected to an appropriate power source. Output leads suitable for connecting the ballast output to a gas-discharge lamp socket has the wiring circuit therefor contained within the luminaire.
In a first embodiment (FIG. 2), a luminaire has lamp sockets that are wired to a multi-terminal connector mounted onto the housing assembly of the luminaire. The terminals of the connector are accessible from the outside of the housing assembly through a top aperture. A high-frequency ballasting circuit assembly has an enclosure enclosing the high-frequency ballasting circuit assembly. At least a first multi-conductor power connector is adapted to receive and connect with a mating multi-conductor power connector provided on multi-conductor cable to provide input power to the ballasting circuitry. The ballasting circuitry includes a first wiring circuit connecting a first multi-conductor power connector to the ballasting circuit input. A second wiring circuit connects the output of the ballasting circuitry to a ballast output connector. The ballasting circuitry is adapted to power a gas-discharge lamp. The ballast output connector is adapted to engage and provide connection with the multi-terminal connector mounted onto the housing assembly. When so engaged and provided with an appropriate source of power the ballasting circuitry assembly powers at least one gas-discharge lamp inserted within a gas-discharge lamp socket. The gas-discharge lamp socket being mounted within the luminaire.
For a second embodiment (FIG. 3), a luminaire has a top aperture. A high-frequency ballasting circuit assembly has an enclosure enclosing the high-frequency ballasting circuit assembly. At least a first multi-conductor power connector is adapted to receive and connect with a mating multi-conductor power connector provided on a multi-conductor cable to provide input power to the ballasting circuitry. The ballasting circuitry includes a first wiring circuit connecting a first multi-conductor power connector to the ballasting circuit input. A second wiring circuit connects the output of the ballasting circuitry to high-frequency ballast output leads. The high-frequency ballasting circuit assembly is mounted within the luminaire under the top aperture of the luminaire, such that, the at least first multi-conductor power connector is accessible through the aperture. The high-frequency ballast output leads are wired to at least one lamp socket mounted within the luminaire.
A third embodiment (FIG. 4), is similar to the second embodiment except a first multi-conductor power connector of the high-frequency ballasting circuit assembly is relocated from the top side of the assembly to the side. The top aperture of the luminaire is replaced with a side aperture.
Now turning to the fourth structure (FIG. 5), this embodiment is also similar to the second embodiment except that the high-frequency ballasting circuit assembly is mounted on the outside surface of the luminaire instead of the inside surface the first multi-conductor power connector of the high-frequency ballasting circuit assembly is thus still accessible from outside of the luminaire. The high-frequency output leads of the high-frequency ballasting circuit assembly protrude through a top aperture of the luminaire and connect with at least one lamp socket for a gas-discharge lamp.
Now turning to the fifth structure (FIG. 7), a luminaire has a housing assembly with a top aperture. A high-frequency ballasting circuit assembly has an enclosure enclosing the high-frequency ballasting circuit assembly. The housing includes a mounting plate to permit the high-frequency ballasting circuit assembly to be mounted over the top aperture of the luminaire. At least a first multi-conductor power connector is adapted to receive and connect with a mating multi-conductor power connector provided on multi-conductor cable to provide input power to the ballasting circuitry. The ballasting circuitry includes a first wiring circuit connecting a first multi-conductor power connector to the ballasting circuit input. A second wiring circuit connects the output of the ballasting circuitry to high-frequency ballast output leads. The high-frequency ballast output leads are wired to at least one lamp socket mounted one the opposite side of the mounting plate.
Now turning to the sixth structure (FIG. 8), is similar to the fifth structure except that the housing assembly is fitted with a cap assembly. The high-frequency ballast assembly is mounted externally to the cap assembly. A lamp socket is mounted within the cap assembly. The lamp socket is connected to the high-frequency ballast assembly via high-frequency output leads.
Now turning to the seventh structure (FIG. 9), a luminaire has a housing assembly with a side aperture. A high-frequency ballasting circuit assembly has a housing enclosing the high-frequency ballasting circuit assembly. The housing includes a mounting plate to permit the high-frequency ballasting circuit assembly to be mounted over the side aperture of the luminaire. At least a first multi-conductor power connector is adapted to receive and connect with a mating multi-conductor power connector provided on a multi-conductor cable to provide input power to the ballasting circuitry. The ballasting circuitry includes a first wiring circuit connecting a first multi-conductor power connector to the ballasting circuit input. A second wiring circuit connects the output of the ballasting circuitry to high-frequency ballast output leads. The high-frequency ballast output leads are wired to at least one lamp socket mounted one the opposite side of the mounting plate.
Referring now to FIG. 2, extending below high-frequency ballasting assembly 14 and integrally connected therewith is ballast output connector 24. Luminaire 10 includes the housing assembly 60 having a top aperture 12. Mounted within aperture 12 is housing assembly input connector 26. The housing assembly input connector 26 is wired to at least one lamp socket mounted within the housing assembly 60. Through top aperture 12, the ballast output connector of the high-frequency ballasting assembly 14 may be connected to mate with housing assembly input connector 26. Any suitable mating multi-conductor power connector 56 may be connected to the multi-conductor power connector 18 of ballasting assembly 14.
Adding FIG. 3 to consideration, ballast backing plate 20 permits installation of the high-frequency ballasting assembly 14 within housing assembly 60 and directly below the top aperture 12 of housing assembly 60. From ballasting assembly 14 extend high-frequency ballast output leads 16. Multi-conductor power connector 18 is shown accessible from the top of the high-frequency ballasting assembly 14.
FIG. 4 is similar to FIG. 3, except that top aperture 12 is replaced with side aperture 22 on the side of housing assembly 60. The multi-conductor power connector 18 of ballasting assembly 14 is located on the side of high-frequency ballasting assembly 14.
FIG. 5 is similar to FIG. 3, except that high-frequency ballasting assembly 14 is positioned on the top side of housing assembly 60. Ballast backing plate 20 permits the attachment of high-frequency ballasting assembly 14 to housing assembly 60.
Referring now to FIG. 7, luminaire 10 for a downlight is cylindrical in nature. Housing assembly 60 has a lip 52 and retaining ring 50. High-frequency ballasting assembly 14 is positioned on the top of housing assembly 60. Mounting plate 54 permits the attachment of high-frequency ballasting assembly 14 to housing assembly 60. The mounting plate 54 may be either removeably attached to, permanently attached to, or be built into housing assembly 60. The high-frequency ballasting assembly 14 includes at least one multi-conductor power connector 18 capable of receiving and connecting with a suitable mating multi-conductor power connector attached to a multi-conductor cable 58. Lamp 48 is inserted into lamp socket 44. Lamp socket 44 is connected to the output of the high-frequency ballasting circuitry by way of high-frequency output leads 16.
FIG. 8 is similar to FIG. 7 except the housing assembly is not cylindrical, but has inward slanting sides. The aperture at the upper part of the housing assembly is substantially smaller than the aperture at the bottom. A cap assembly 46 is affixed to the smaller aperture. Mounted within the cap assembly 46 is a lamp socket 44 holding lamp 48. The lamp socket 44 is connected to a high-frequency ballasting assembly 14 mounted externally to the cap assembly 46 by way of at least two high-frequency output leads 16.
FIG. 9 is also similar to FIG. 7 except the housing assembly 60 is of a larger diameter and the lamp 48 is installed substantially horizontal instead of substantially vertical. The high-frequency ballasting assembly 14 includes a mounting plate 54 that attaches to the side of the housing assembly 60. It should be noted that although the housing assembly 60 is shown in the figure as a cylinder having a circular cross-section, a housing constructed in the form of a box having a rectangular cross-section as well as all the variations between can also be used. The high-frequency ballasting assembly attaches to at least one lamp socket 44 via at least two high-frequency ballast output leads 16.
There are a number of variations that can be applied to any one of the above embodiments, for instance the figure and description discuss the multi-conductor power connectors being flush with the enclosure of the high-frequency ballasting assembly and that the mating multi-conductor connector extends through the aperture of the housing assembly. An alternative embodiment includes having the multi-conductor power connectors protrude from the enclosure of the high-frequency ballasting assembly so that it will extend through the aperture of the housing assembly and the mating multi-conductor connector can make connection without extending through the aperture. Another alternative embodiment includes having the multi-conductor power connectors being furnished at the ends of cables that extend through the aperture of the housing assembly thus the mating multi-conductor connector will not pass through the aperture. Still another embodiment includes having the high-frequency ballasting assembly incorporate a cable with a multi-conductor cable at one end to connect directly to a mating multi-conductor connector at the source of power.
Also for the downlight type luminaires, the high-frequency ballasting assembly may be mounted within the luminaire with the multi-conductor power connector being accessible through an aperture, but the higher ambient operating temperature for the ballasting circuitry makes this arrangement useful, but less desirable.
This application; taken as a whole with the abstract, specification, claims, and drawings being combined; provides sufficient information for a person having ordinary skill in the art to practice the invention as disclosed and claimed herein. Any measures necessary to practice this invention are well within the skill of a person having ordinary skill in this art after that person has made a careful study of this disclosure.
Because of this disclosure and solely because of this disclosure, modification of this method and device can become clear to a person having ordinary skill in this particular art. Such modifications are clearly covered by this disclosure.
Patent Application
20060055333
