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1. Field of the Invention
The present invention relates generally to a metal living hinge mechanism. More particularly, the invention relates to a metal living hinge formed of sheet metal and which may be used through a preselected angular range for some minimum number of cycles without failure due to bending stress.
2. Description of the Related Art
Various devices utilize sheet metal components. Many of these components require repeatable access by opening, and therefore utilize a hinge. However, multi-piece hinge mechanisms are costly, and more difficult to incorporate in the manufacturing process. In the lighting industry, there is a multitude of fixture types, including for instance, troffer lighting, recessed lighting, outdoor landscaping, and in-cove lighting. In the various lighting fixtures, it is desirable to utilize a junction box or ballast housing which has a pivoting door assembly. These structures generally require limited access to internal components during installation and for occasional maintenance issues.
With respect to in-cove luminaires, these fixtures have a certain unique problem as related to height and serviceability of the devices. Architects generally utilize the smallest cove allowable to conceal the fixture, which imposes limitations on the height and depth of the fixture. This generally limits the ability to install reflectors and larger ballasts.
Maintenance issues are also a design factor which must be accommodated. Lamp replacement in-cove lighting may be at heights of twenty or more feet above ground level. Ballasts must also be accessible, as they typically need replacement after several years of continuous use. During the typical life of a fixture, ballasts may need to be replaced five to seven times. Since many of these fixtures are formed of stamped metal, doors must be removably formed. A hinge detail would be preferable to provide access to the ballast area of the fixture without necessitating removal of a door. For example, a living hinge assembly would be desirable, however such living hinge must be able to withstand a certain minimum number of cycles in order to allow for lamp changes and/or ballast replacements. Heretofore, such living hinge has not been available.
Given the foregoing, it will be appreciated that a metal living hinge assembly is needed which may be formed of sheet metal and allows repeated use through a preselected angular range of motion and number of cycles before failure. The living hinge of the instant disclosure may be utilized with various types of devices, including but not limited to luminaires.
A one-piece hinge mechanism comprising a first member having a plurality of fingers, the fingers extending toward a second member, the second member having a plurality of fingers extending toward the first member, the fingers of the first member and the fingers of the second member engaging opposite sides of a web extending between the first member and the second member, the web being torsionally loaded when one of the first member is pivoted relative to the second member.
A living hinge mechanism for use with a light fixture, comprising a first fixture member having a first axis, a second fixture member having a second axis generally aligned with the first axis, a living hinge defined by a plurality of fingers extending from the first fixture member and a second plurality of fingers extending from the second fixture member, an arm extending between the first fixture member and the second fixture member, the first plurality of fingers and the second plurality of fingers extending to the arm. The living hinge is formed of metal. The metal being between 10 gauge and 26 gauge cold rolled steel. The living hinge more preferably being between about 20 and 24 gauge cold rolled steel. The living hinge arm having an axis which is parallel to the first axis and the second axis. The first fingers being offset from the second fingers in a direction perpendicular to the first and second axes. The living hinge having a limited life cycle. The life cycle being at least about 80 cycles through an arc of about 120 degrees. The life cycle being about 200 cycles through an arc of about 90 degrees. The first and second plurality of fingers being aligned on opposite sides of the arm. The living hinge wherein the living hinge is utilized with an in-cove light.
A hinge assembly for a luminaire comprising an arm extending in a direction substantially parallel to a first assembly portion edge and a second assembly portion edge, at least one first finger extending from the first assembly portion edge to the arm, at least one second finger extending from the second assembly portion edge to the arm, wherein the at least one first finger and the at least one second finger are offset in a direction which is transverse to the arm. The hinge assembly wherein one of the at least one first finger and the at least one second finger are disposed at an end of the arm. The hinge assembly wherein two fingers of the at least one first finger and the at least one second finger are located at opposed ends of the arm. The hinge assembly defining a portion of a luminaire fixture. The hinge assembly defining a portion of a ballast housing. The hinge assembly comprising apertures disposed between the fingers. The fingers having curved sidewalls and the apertures being oblong in shape. Alternatively, the fingers having straight sidewalls and the apertures being rectangular in shape.
The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein:
It is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless limited otherwise, the terms “connected,” “coupled,” and “mounted,” and variations thereof herein are used broadly and encompass direct and indirect connections, couplings, and mountings. In addition, the terms “connected” and “coupled” and variations thereof are not restricted to physical or mechanical connections or couplings.
Referring now in detail to the drawings, wherein like numerals indicate like elements throughout the several views, there are shown in
Referring now to
The fixture 10 and specifically the hinge 30 may be formed of 18-26 gauge cold rolled steel, although other materials may be utilized. More preferably, the hinge 30 may be formed of 20-24 gauge cold rolled commercial grade steel. The fixture 10 may be painted, anodized or otherwise have a white finish, however alternative colors may be utilized and therefore should not considered limiting. The fixture 10 may come in various lengths. For example, the distance measured along the direction that the hinge 30 extends may be two feet, three feet or four feet, however alternative lengths may be utilized. Likewise, alternative devices, other than luminaires, may be utilized with the metal living hinge of the present invention.
The ballast housing 12 comprises four sides including a first fixture member 16, a second fixture member 24, a fixture frame or fixture arm 14 and a socket mounting member 18. The first fixture member 16 is generally rectangular in shape having a pair of parallel long edges 20 and a pair of parallel short edges 21, which are substantially perpendicular to the long edges 20. The fixture members 16, 24 are shown defining a portion of a ballast housing, however, the fixture members may define alternative luminaire structures, including, for example, a junction box housing, a fixture frame, and may also be used on various types of luminaires, therefore not specifically limited to in-cove lighting.
The first fixture member 16 is integrally connected with a socket mounting member 18. The socket mounting member 18 has a substantially rectangular shape like the first fixture member 16 and is connected along one of the long edges 20. Additionally, the first fixture member 16 is disposed at an angle of about 90 degrees to the socket mounting member 18, which depends from the first fixture member 16 toward the frame member 14.
Extending along one of the edges 20 of the first fixture member 16, opposite the socket mounting member 18, is a living hinge 30. The living hinge 30 connects the first fixture member 16 and a second fixture member 24 and provides opening and closing access to the ballast housing 12 through the first fixture member 16. Although the term fixture is used, the term should not be considered limiting since the term fixture is only used because the exemplary device having the living hinge is a light fixture or luminaire. As previously indicated, the hinge element may be utilized with various types of devices and should not be construed as being limited to luminaires. The members 16,24 could be any type of members based on the type of device the hinge is utilized with. The living hinge 30 is designed to have a limited life cycle of at least 80 cycles through an arcuate distance of 120 degrees. Additionally, the living hinge 30 may move through a path of about 90 degrees for 200 cycles without failure. However, the living hinge 30 has a limited life cycle because of its eventual failure due to the hinge 30 being formed of sheet steel, which is desirable for costs but has a lower ductility than other materials.
Along a long edge of the second fixture member 24, opposite the first fixture member 16, is the fixture frame 14, which connects to the second fixture member 24 and is disposed at an angle of about 90 degrees to the second fixture member 24. The frame member 14 defines a lower surface of the ballast housing 12 and the fixture 10 and is generally parallel to the first fixture member 16. The fixture frame 14 extends outwardly beyond the ballast housing 12 and bends upwardly for optically desirable characteristics. At an end of the fixture arm or member 14, opposite the ballast housing 12, a linear reflector 54 is positioned along the edge of the device 14 and bends upwardly, also for optically desirable characteristics. The frame member 14 comprises a plurality of fastening apertures 50 for mounting of the fixture 10 within a cove. The apertures 50 allow the fixture 10 to be fastened along the surface of the frame member 14 aligned with the lower surface of the ballast housing 12 or at an angled surface of the frame member 14. The reflector 54 is located at an end of the frame member 14 and is angled upwardly in the orientation depicted in
The socket mounting member 18 includes opposed lamp sockets 19 which receive a lamp 17. The sockets 19 are merely exemplary as various types of lamps may be utilized and therefore should not be considered limiting. For example, the sockets 19 may be sized to receive T5 or T8 lamps, although other sizes may also be used.
Above the frame member 14, a reflector 80 is disposed which has a plurality of reflector surfaces. The reflector 80 includes a first surface 82 above the lamp, a second surface 84 behind the lamp and adjacent the socket mounting member 18. At least one additional reflective surface 86 extends from the second surface 84 to the fixture. The reflector 80 of the exemplary device is a specular material having a mirrored finish. However, alternative finishes may be utilized, such as a diffuse finish or other.
Extending from the socket mounting member 18 is a flange 60 which is substantially rectangular in shape. The flange 60 extends from the socket mounting member 18 at an angle of about 90 degrees, and is positioned against the upper surface of the frame member 14. The flange 60 includes bosses 62, which receive complementary bosses 64 disposed on the frame member 14, so as to properly align the flange 60 on the frame member 14 as well as properly position the first fixture member 16 and socket member mounting 18 on the fixture 10.
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With the members 16, 24 in a folded position moving from about 180 degrees apart toward about 90 degrees apart, the fingers 34, 38 are rigid enough to cause torsional flexing of the arm 32 about an axis parallel to the longitudinal axis of the arm 32. The flexing of the arm 32 in opposed directions is dictated by the opposed offset fingers 34,36. As shown in the Figure, the arm 32 has wave like bends toward each finger 34,36. The angular bends of the arm 32 are less than the range of motion of the first and second fixture members 16,24. For example, the arm 32 may rotate by an angle of about 45 degrees in one direction and by an angle of about 45 degrees in an opposite direction when one member 16 moves through a total distance of 90 degrees relative to the other member 24. Prior art hinges would require bending of a section of metal hinge between the members of 90 degrees, resulting in premature failure of the hinge 30. The present design provides for increased use and life of the hinge 30, as opposed to a hinge element which extends from the first fixture member 16 to the second fixture member 24 and must bend through a large angular distance, such as the 90 degrees mentioned above. The hinge 30 has reduced stress due to the decreased amount of bending of the metal in the arm 32. Other factors which may affect the number of life cycles include the width of the arm 32 and the metal thickness previously described. Further, the plurality of lengths of the arm 32 from one finger 34 to a second finger 36 will also affect the torsional stress. Longer lengths generally decrease the torsional stress. The thickness of the metal in the arm will also dictate an increase or decrease in torsional loading
Referring now to
The foregoing description of several methods and an embodiment of the invention has been presented for purposes of illustration. It is not intended to be exhaustive or to limit the invention to the precise steps and/or forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. It is intended that the scope of the invention be defined by the claims appended hereto.
This application is a continuation patent application of and claims priority to and benefit from currently pending U.S. patent application Ser. No. 12/056,906, filed Mar. 27, 2008, which is incorporated herein, in its entirety, by reference.
Number | Date | Country | |
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Parent | 12056906 | Mar 2008 | US |
Child | 13113283 | US |