The present invention relates to halogen burners used on vehicles. More particularly, the invention relates to a halogen burner and receptacle assembly that prevents flexing of burner leads and thus avoids work hardened lead fractures.
Operation of ATVs and other rough terrain traveling vehicles causes mechanical shock and vibrations which cause parts such as halogen burner assemblies to oscillate. In a normal horizontal burner filament orientation, up and down axis- and side-to-side axis oscillations flex the burner leads and cause them to work harden. In what is considered to be too short a time, the work hardened leads develop lead fractures, which, of course, severs the electrical circuit. When this happens at night, for example in the woods, the operator is subjected to unacceptable operating conditions.
The halogen burner glass wall has an inherent high in-use temperature which requires it to be positioned with adequate clearance from the thermoplastic receptacle. A temperature resistant one-piece metal retainer and the burner's metal lead wires are used to join the two components and maintain lower receptacle in-use temperature compared to the burner wall temperature.
It has been found that the halogen burner elements will oscillate in all three axes, up-and-down, side-to side, and front-to-back. Until now, there has not been an effective halogen burner and receptacle assembly that can eliminate all of these oscillations.
It would be of advantage in the art if a device could be provided that would substantially reduce or eliminate lead oscillation and thus extend the life of halogen burners used in headlights.
Yet another advantage would be if a receptacle could eliminate oscillation in up-and-down, side-to side, and front-to-back axes.
It would be another advance in the art if a halogen burner receptacle could be developed that is simple, easy to install and low in cost, while still being capable of reducing halogen bulb oscillation and prolonging the life of the bulb.
Other advantages will appear hereinafter.
It has now been discovered that the above and other advantages of the present invention may be obtained in the following manner. Specifically, the present invention provides a one-piece metal retainer that is attached to the flattened burner glass press area and to the receptacle. This retainer thus adds rigidity to the assembly and resists excessive burner oscillating excursion. The burn leads remain intact and electrical continuity is maintained to the burner filaments. Accordingly, the burner filaments are held in their desired location and orientation to produce the desired light output within a lamp system.
The burner retention device of this invention is formed as a one-piece bulb retainer. The retainer of this invention is formed as a circular drawn cup with slots along the side to orient the retainer radially to the receptacle. The device also includes a plurality of fingers, preferably four, that are sheared and formed from the top. flat drawn surface.
The plurality of fingers grip the burner press area with a friction fit. Their shape and dimension are such that they grip the thinnest burner press dimension with adequate force but they also yield to allow the thickest burner press dimension to be assembled.
For a more complete understanding of the invention, reference is hereby made to the drawings, wherein like numbers refer to like elements, and in which:
The present invention provides for substantial improvements in mounting halogen burner bulbs and the like. The retainer 11 in
The shape and dimension of fingers 17 is such that they grip bulb 21 at the burner press area with a friction fit, exerting adequate force on the thinnest burner press dimension and yielding to allow the thickest burner press dimension to be assembled and also provide containment.
The present invention uses the integral burner leads for positioning and retention functions as well as providing electrical current to the filaments. However, the leads alone are not of sufficient strength to function as the sole burner retention device, and an additional retention device is employed. The grip of fingers 17 on bulb 21 stabilizes the bulb 21, and prevents movement of leads 31 shown in
As seen in
While particular embodiments of the present invention have been illustrated and described, it is not intended to limit the invention, except as defined by the following claims.