Dual beam headlamp

What is claimed is: 1 . A headlamp assembly operable to project light in a forward direction along an optical axis, the headlamp assembly comprising: a housing; a low beam light emitting device arranged in the housing and having a first planar surface from which light is emitted, the normal to the first planar surface of the low beam light emitting device being oriented away from the optical axis at substantially forty-five degrees in relation to the optical axis; a high beam light emitting device arranged in the housing and having a second planar surface from which light is emitted, the normal to the second planar surface of the high beam light emitting device being oriented away from the optical axis at substantially forty-five degrees in relation to the optical axis and being oriented away from the normal to the first planar surface at substantially ninety degrees; a low beam lens arranged in the housing to receive a portion of the light emitted from the low beam light emitting device and operable to direct the light in the forward direction along the optical axis; a high beam lens arranged in the housing to receive a portion of the light emitted from the high beam light emitting device and operable to direct the light in the forward direction along the optical axis; and a reflector arranged in the housing to receive a remaining portion of the light emitted from the low beam light emitting device and a remaining portion of the high beam light emitting device and reflect the remaining portions of the light in the forward direction along the optical axis. 2 . The headlamp assembly of claim 1 wherein the reflector includes a low beam portion and a high beam portion, wherein the low beam portion is positioned above the low beam lens and the low beam light emitting device in relation to the optical axis and has a reflecting surface with a shape obtained by revolving a parabola ninety degrees around its axis, and wherein the high beam portion is positioned below the high beam lens and the high beam light emitting device in relation to the optical axis and has a reflecting surface with a shape obtained by revolving a parabola ninety degrees around its axis. 3 . The headlamp assembly of claim 1 wherein the reflector includes a low beam portion having a plurality of reflecting surfaces and a high beam portion having a plurality of reflecting surface, each reflecting surface having a parabolic shape. 4 . The headlamp assembly of claim 1 wherein the low beam light emitting device and the high beam light emitting device are further defined as a light emitting diodes. 5 . The headlamp assembly of claim 1 , wherein the low beam lens includes a first planar lens surface and the high beam lens includes a second planar lens surface, and wherein the first planar lens surface is oriented from the first planar surface of the low beam light source at substantially forty-five degrees, and the second planar lens surface is oriented from the second planar surface of the high beam light source at substantially forty-five degrees. 6 . The headlamp assembly of claim 1 , further comprising a leg, wherein the low beam lens is mounted to a first side of the leg and the high beam lens is mounted to a second side of the leg, opposite the first side, and wherein the low beam lens includes a first segment, a second segment, and a third segment, and wherein the first segment, the second segment, and the third segment substantially define a portion of a sphere having a first truncated end and a second truncated end opposite the first truncated end. 7 . The headlamp assembly of claim 6 , wherein the high beam lens includes a first segment having a first arcuate surface, a second segment having a second arcuate surface, and a third segment disposed between the first segment and the second segment, and wherein the third segment is substantially semi-cylindrical in shape and includes a third arcuate surface that is offset from the first arcuate surface and the second arcuate surface. 8 . The headlamp assembly of claim 1 , further comprising a bracket, the bracket including a first mount surface and a second mount surface, wherein an angle between the first mount surface and the second mount surface is substantially equal to ninety degrees, and wherein the low beam light emitting device is disposed on the first mount surface and the low beam light emitting device is disposed on the second mount surface. 9 . The headlamp assembly of claim 1 , wherein the reflector includes a low beam portion and a high beam portion, and wherein the low beam portion and the high beam portion substantially form the shape of a confocal parabolic cylinder. 10 . The headlamp assembly of claim 9 , wherein the low beam portion and the high beam portion of the reflector define an aperture therebetween. 11 . The headlamp assembly of claim 10 , wherein the low beam light emitting device and the high beam light emitting device are disposed substantially within the aperture. 12 . A headlamp assembly operable to project light in a forward direction along an optical axis, the headlamp assembly comprising: a housing defining an aperture therein; a low beam light emitting device arranged in the housing and having a planar surface from which light is emitted; a low beam lens arranged in the housing to receive a portion of the light emitted from the low beam light emitting device and operable to direct the light in the forward direction along the optical axis; a high beam light emitting device arranged in the housing and having a planar surface from which light is emitted; a high beam lens arranged in the housing to receive a portion of the light emitted from the high beam light emitting device and operable to direct the light in the forward direction along the optical axis; a reflector arranged in the housing to receive a remaining portion of the light emitted from the low beam light emitting device and a remaining portion of the light from the high beam light emitting device and reflect the remaining portions of the light in the forward direction along the optical axis, where the normal to the planar surface of the low beam light emitting device is orientated in relation to the normal of the planar surface of the high beam light emitting device in a manner that creates a space within the housing in which light from the low beam light emitting device and from the high beam light emitting device does not pass through; and a bracket disposed in the space, wherein the low beam lens and the high beam lens are attached to the bracket. 13 . The headlamp assembly of claim 12 wherein the reflector is configured such that light is only reflected once off a surface thereof. 14 . The headlamp assembly of claim 12 wherein the reflector includes a low beam portion and a high beam portion, wherein the low beam portion is positioned above the low beam lens and the low beam light emitting device in relation to the optical axis and has a reflecting surface with a shape obtained by revolving a parabola ninety degrees around its axis, and wherein the high beam portion is positioned below the high beam lens and the high beam light emitting device in relation to the optical axis and has a reflecting surface with a shape obtained by revolving a parabola ninety degrees around its axis. 15 . The headlamp assembly of claim 12 wherein the low beam portion of the reflector has a plurality of reflecting surfaces, such that each reflecting surface has a different focal point on the planar surface of the low beam light emitting device and the high beam portion of the reflector has a pl