Patent Grant
7813111
This invention relates in general to electronics enclosures and more specifically to techniques and apparatus for such enclosures associated with luminaires.
Luminaires, such as are used for illumination of specific or general areas, e.g., street lighting, parking lot lighting, or the like, are known. Such luminaires are typically installed in outdoor environments where conditions can vary widely depending on current local weather conditions (Alaska winters vs Phoenix summers).
Luminaires in addition to being installed in adverse environments are typically relatively high powered lighting fixtures that operate off of AC power sources and utilize high voltage lamps, e.g., high pressure sodium lamps or the like. Luminaires, thus, while operating tend to dissipate a significant amount of energy in the form of heat and thus can have a high internal ambient temperature. Furthermore, many luminaires utilize electrical or electronic ballasts to supply the requisite voltages and currents to sustain an electric arc that supplies the light required for purposes of lighting. As is known the combination of relatively high voltages or currents which vary widely over time and the like tends to result in significant electromagnetic energy fields, i.e. significant Electro-Magnetic Interference (EMI).
Luminaires are available from numerous suppliers and these suppliers typically arrange the luminaire components in different manners. Regardless of the supplier, most luminaires have been designed with a package size that is suitable for the normal components found in such luminaires, e.g., lamps, reflectors, ballasts, etc. Generally these luminaries do not include sufficient space for substantial additional components or such space may vary widely among different luminaries from different suppliers.
More recently in the interest of energy savings, etc., luminaires that include additional electronic control and communications functionality and circuitry have been proposed. Unfortunately, the limited and varying luminaire package space, adverse or hostile temperatures, and EMI profiles, can make it difficult to include the additional electronics for control and communication in any one luminaire much less across varying luminaires from varying suppliers.
The accompanying figures where like reference numerals refer to identical or functionally similar elements throughout the separate views and which together with the detailed description below are incorporated in and form part of the specification, serve to further illustrate various embodiments and to explain various principles and advantages all in accordance with the present invention.
In overview, the present disclosure concerns enclosures for electronics and associated mounting apparatus and methods, e.g., enclosures for electronics associated with a luminaire, and more specifically techniques and apparatus for mounting the enclosures or housing for the electronics to a luminaire such that the electronics will have sufficient space and an appropriate environment within which to operate and yet remain highly serviceable both from an initial installation or subsequent servicing perspective.
The instant disclosure is provided to further explain in an enabling fashion the best modes, at the time of the application, of making and using various embodiments in accordance with the present invention. The disclosure is further offered to enhance an understanding and appreciation for the inventive principles and advantages thereof, rather than to limit in any manner the invention. The invention is defined solely by the appended claims including any amendments made during the pendency of this application and all equivalents of those claims as issued.
It is further understood that the use of relational terms, if any, such as first and second, top and bottom, and the like are used solely to distinguish one from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.
Much of the inventive functionality and many of the inventive principles embodied in the particular components discussed below are best implemented with or in conventional manufacturing technologies for such components, e.g., metal or aluminum casting or plastic molding processes. It is expected that one of ordinary skill, notwithstanding possibly significant effort and many design choices motivated by, for example, available time, current technology, and economic considerations, when guided by the concepts and principles disclosed herein will be readily capable of generating such components using known manufacturing technologies or technologies that may be developed with minimal experimentation. Therefore, in the interest of brevity and minimization of any risk of obscuring the principles and concepts according to the present invention, further discussion of manufacturing processes for such components, if any, will be limited to the essentials with respect to the principles and concepts of the various embodiments.
Referring to
Additionally shown is an electronics housing 113 that is mechanically coupled to the luminaire or more specifically can be coupled to a mounting apparatus or member 115. Note that wiring or cabling is routed from the enclosure or electronics therein to the balance of the luminaire, e.g., ballast, lamp, AC power, various sensors (not specifically shown), etc. Such electronics may allow an operator to communicate with the luminaire to obtain operating data or control various parameters associated with the lighting level or duration of light generation or the like. The mounting member 115 can be secured to the luminaire or a lower or bottom surface of the luminaire when the luminaire is installed in a normal operating position. This arrangement provides some protection from the elements for the enclosure and electronics contained therein, and some protection against incursion of the elements into the luminaire via the opening in the bottom portion.
The electronics enclosure 113 thus includes or represents a housing for one or more electrical/electronic circuits, e.g., controllers and communication modems, where the controllers are configured to control or monitor the operation or functionality of some other apparatus, e.g., a luminaire assembly for lighting purposes or other apparatus.
In one embodiment the enclosure houses both a process controller and one or more modems that are configured for communication with some other entity. These modems may be one or more of a radio frequency modem or wired modem, e.g. PSTN, coaxial cable, other broad band wired interface, a power line modem, or possible combinations thereof. If a wireless or radio frequency modem is utilized an antenna 118 can be provided and integrally mounted to the enclosure. Note that some wireless applications may allow the antenna to be fully contained within the enclosure. For wired applications the antenna will not be necessitated and thus not provided.
Various embodiments of the enclosure are suitable for installation in an outdoors or other wise hostile environment, e.g., an outdoor luminaire, and arranged to provide a weather resistant or weather proof housing for any enclosed electrical/electronic circuits.
Generally the enclosure is configured to provide a housing or enclosure for electrical/electronic circuits or components which is largely separate or separated from any apparatus (and any corresponding housing or enclosure) that is monitored or controlled. This advantageously allows for different environments for the electrical/electronic circuits or components and the controlled or monitored apparatus.
For example, in one embodiment, controllers and communication modems are housed in the enclosure and these are utilized to monitor and control the electrical circuitry in a luminaire that is used for street lights or other outdoor or indoor lighting applications. A luminaire typically includes a ballast, capacitor, one or more high intensity discharge light bulbs, and the like. As suggested earlier, the ballast, capacitor, high intensity discharge bulb, etc. are prone to significant thermal dissipation and thus heat generation as well as generation of high levels of Electro-Magnetic Interference (EMI).
By providing essentially a separate enclosure or housing, the electrical/electrical components or circuits can effectively be protected or isolated from excessively high temperatures as well as EMI, and the like. Furthermore, in applications such as a luminaire with little or no extra space, the separate enclosure provides sufficient volume to provide a housing for the control and monitoring electronics and electrical circuits without worrying about adversely effecting the physics of the luminaire and its light generation or targeting parameters.
In applications, such as a luminaire for street or parking lot lighting, the enclosure and associated electronics, as depicted in
Referring to
One of the housing members in some embodiments can also include a mounting interface 209 that can further comprise a neck portion 405 that is at least partially threaded, i.e., includes a threaded end 407. In some embodiments and referring additionally to the exploded views of
In some embodiments the neck portion can include recessed portions or cavities 413, e.g., in one or more of the flat surfaces where these recesses 413 are disposed between the threaded portion and the corresponding housing member. The mounting member can include resilient tabs 411 with projecting members such that when the neck portion of the housing member is disposed through the opening in the mounting member the projecting members will engage the recesses 413 or cavities in the neck portion. This advantageously allows the enclosure to be at least temporarily secured or provisionally coupled to the mounting member while other installation or service procedures are performed, without using or before finally securing the enclosure to the luminaire or other mounting surface using the threaded nut. Service personnel can thus thread cables through an opening into the enclosure through the neck portion, the mounting member, locking nut, and mounting surface and make appropriate connections of these cables or other adjustments without undue concern about loosing or dropping the enclosure and associated electronics during these activities. Typically this activity is taking place on some sort of personnel lift that may be 50 or so feet above the surface to be lighted and thus can be a significant concern.
With these features an easy connection mechanism and corresponding method is provided between an electronics enclosure and for example a luminaire. The connection approaches use either a threaded fitting or alternatively a snap-fit arrangement for at least a temporary installation followed by a threaded nut if desired. It is expected that the snap fit scheme and corresponding methodology can be used in many applications.
Thus,
In embodiments of the enclosure 113 where communications is over a wireless link, an appropriate antenna 207 can be provided wherein the antenna is secured to, e.g., a bottom surface of the second member or in some applications the antenna may be internal to the enclosure. The enclosure 113 and specifically the first member 203 with the mounting interface 209 can be arranged and configured to be secured to a lower mounting surface, e.g., mounting surface 201 of the luminaire 103 when the luminaire is installed in an operating configuration as generally depicted in
For example in some embodiments the neck portion includes a neck opening 507 that is generally circular in cross section as viewed from above the neck portion. The neck opening is configured to allow wiring to be routed from the electronics in the enclosure to the luminaire or various components thereof. The neck portion extends perpendicular to a plane of the first member, i.e. a plane defined by the outer edge 521 of the first member, such that when the first member is coupled to the luminaire, a threaded end 407 of the neck portion extends through an opening 509 in a surface of the luminaire. Thereafter in some embodiments, a locking nut 211 is configured and can be used to secure the first member to a surface of the luminaire by engaging the threaded end. The locking nut will be exposed to the internal thermal environment of a luminaire and can be manufactured via a plastic molding process using a relatively thermally stable resin such as a Polyamid (Nylon) compound that is an injection molding homopolymer which is available in various forms from BASF and other suppliers.
In other embodiments as depicted in the various figures, the enclosure further comprises a mounting member 115 with a mounting opening 511. The mounting member is arranged and configured to be secured to the surface or mounting surface 201 of the luminaire or other apparatus by, e.g., screws 515. In these embodiments, the neck portion 405 extends through the mounting opening when the first member is coupled to the luminaire (see, e.g.,
In some embodiments, the neck portion 405 includes a keying surface 513 with two shown in
From a further aspect, the figures show and teach an enclosure mounting apparatus for provisionally coupling and securing an enclosure 113 for electronics to a luminaire 103. The enclosure mounting apparatus comprises the mounting member 115 with the mounting opening 511, where the mounting member is configured to be secured to a surface, e.g., lower mounting surface 201, of a luminaire at a luminaire opening 509 in the surface and a neck portion 405 extending from the enclosure and configured to pass through the mounting opening. The neck portion includes a neck opening 507 that is configured to allow wiring 117 to be routed from the electronics to the luminaire. The neck portion and the mounting member include respective complementary surfaces, e.g., the resilient tabs 411 and recesses 413, to provide a mounting interface for provisionally or temporarily coupling the enclosure to the luminaire. As noted above the mounting member 115 is further arranged and configured to be secured to a lower surface of the luminaire when the luminaire is installed in an operating configuration.
In some embodiments, the enclosure mounting apparatus further comprises a locking nut 211 and the neck portion further comprises a threaded end 407. The threaded end is sufficiently long to extend through the mounting opening and the locking nut is configured to secure the neck portion and thus enclosure to the surface of the luminaire by engaging the threaded end. The neck opening is generally circular in cross section when viewed at a plane perpendicular to the paper and to an axis 303 of or that passes through the neck opening and otherwise configured to allow wiring or cabling to be routed from the electronics in the enclosure to and from the luminaire or components thereof.
The mounting member 115 in some embodiments includes a surface 517 with raised ridges 519 at one or more locations and the locking nut further comprises a surface 615 with ridges and recesses or peaks and valleys that controllably interferes with the raised ridges 519 when the neck portion is secured to the luminaire by the locking nut. In some embodiments, the neck portion 405 includes one or more keying surfaces 513 and the mounting member includes corresponding complementary keying surfaces 613 that align with the keying surfaces when the enclosure is coupled to the luminaire thus establishing a predetermined angular position of the neck portion with respect to the mounting member. In some embodiments, the mounting member is arranged to be provisionally coupled to the neck portion by resilient tabs engaging complementary recesses. The mounting member can include the resilient tabs and the resilient tabs can include projecting members while the neck portion can include the complementary recesses or vice a versa. In any event, the projecting members are configured for engaging the complementary recesses when the mounting member is provisionally coupled to the neck portion. The resilient tabs or specifically the projecting members and the complementary recesses include one or more angled surfaces (see
In summary, the above discussions and corresponding figures have illustrated and taught various aspects of an enclosure arranged and constructed for housing electronics and being secured to a luminaire as well as an enclosure mounting apparatus. The enclosure in some embodiments includes a first member including a neck portion extending generally perpendicular from a plane of the first member and configured to pass through a mounting opening in a mounting member and facilitate coupling the first member to the mounting member. The mounting member is configured to be secured to a surface of the luminaire at an opening in the surface. The enclosure further includes a second member mechanically coupled to the first member, where the first member and the second member provide or define a space that is the enclosure for the electronics.
The mounting member may further comprise one or more resilient tabs and the neck portion may further comprise one or more recesses, such that the neck portion is configured to be provisionally coupled to the mounting member when the resilient tabs engage the complementary recesses. The neck portion can include a keying surface and the mounting member can include a complementary keying surface that aligns with the keying surface when the enclosure is coupled to the luminaire thus establishing a predetermined angular position of the neck portion with respect to the mounting member such that the resilient tabs are aligned with the complementary recesses.
The neck portion can further comprise a neck opening for routing wiring from the electronics to the luminaire and a threaded end such that a locking nut that includes an opening for the wiring can engage the threaded end and when so engaged secure the first member to the mounting member.
The processes, apparatus, and systems, discussed above, and the inventive principles thereof are intended to and can alleviate problems associated with limited space or adverse temperature and EMI environments or installation issues caused by prior art techniques.
This disclosure is intended to explain how to fashion and use various embodiments in accordance with the invention rather than to limit the true, intended, and fair scope and spirit thereof. The foregoing description is not intended to be exhaustive or to limit the invention to the precise form disclosed. Modifications or variations are possible in light of the above teachings. The embodiment(s) was chosen and described to provide the best illustration of the principles of the invention and its practical application, and to enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated. All such modifications and variations are within the scope of the invention as determined by the appended claims, as may be amended during the pendency of this application for patent, and all equivalents thereof, when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled.
The present application is related to and claims priority from U.S. Provisional Application, Ser. No. 60/789,634 filed on Apr. 6, 2006 which is hereby incorporated herein in its entirety by reference.
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| Number | Date | Country | |
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