Wedge shaped heat sink for gimbal mounted solid state recessed lighting

The invention claimed is: 1. A heat sink for a directional lighting fixture, comprising: a rotatable inner heat sink being generally wedge-shaped with a narrow top portion and a broader bottom portion, the rotatable inner heat sink being configured to fit within a hollow interior of an outer heat sink that has a substantially vertical inside wall, the rotatable inner heat sink having an opening in the bottom portion for transmission of light from a light source housed within the rotatable inner heat sink, the bottom portion of the rotatable inner heat sink being configured to be exposed through an opening at a bottom of the outer heat sink to enable further transmission of the light transmitted from the opening in the rotatable inner heat sink; a gimbal shaft configured to pivotally mount the rotatable inner heat sink to the inside wall of the outer heat sink; the rotatable inner heat sink having a vertical surface formed on one side between the narrow top portion and the broader bottom portion, the vertical surface being close to the inside wall of the outer heat sink, when the rotatable inner heat sink is rotated in one direction on the gimbal shaft, to direct light in a first direction, wherein the vertical surface of the rotatable inner heat sink is a first cylindrical surface portion and the offset surface of the rotatable inner heat sink is a second, substantially cylindrical surface portion; and the rotatable inner heat sink having an offset surface that is offset by an acute angle from vertical and intersects the vertical surface, the offset surface being formed on an opposite side of the rotatable inner heat sink from the one side, between the narrow top portion and the broader bottom portion, the offset surface being close to the inside wall of the outer heat sink, when the rotatable inner heat sink is rotated in an opposite direction to the one direction on the gimbal shaft, to direct light in a second direction. 2. The heat sink for a directional lighting fixture of claim 1 , wherein the offset surface is offset by an angle from vertical of between 0 degrees and 35 degrees. 3. The heat sink for a directional lighting fixture of claim 1 , wherein the light source housed within the rotatable inner heat sink is an LED light source. 4. The heat sink for a directional lighting fixture of claim 1 , wherein the offset surface forms heat dissipating ribs. 5. The heat sink for a directional lighting fixture of claim 1 , wherein the opening in the bottom of the outer heat sink is characterized by a diameter, and the broader bottom portion of the rotatable inner heat sink has a diameter that is approximately the same as the diameter of the opening. 6. The heat sink for a directional lighting fixture of claim 1 , wherein the vertical surface is a smooth, continuously curved surface, and the offset surface comprises heat dissipating ribs that extend along the offset surface at the acute angle. 7. A heat sink for a directional lighting fixture, comprising: a rotatable inner heat sink being generally wedge-shaped with a narrow top portion and a broader bottom portion, the rotatable inner heat sink being configured to fit within a hollow interior of an outer heat sink that has a substantially vertical inside wall, the rotatable inner heat sink having an opening in the bottom portion for transmission of light from a light source housed within the rotatable inner heat sink, the bottom portion of the rotatable inner heat sink being configured to be exposed through an opening at a bottom of the outer heat sink to enable further transmission of the light transmitted from the opening in the rotatable inner heat sink; and a gimbal shaft configured to pivotally mount the rotatable inner heat sink to the inside wall of the outer heat sink, wherein: the rotatable inner heat sink has a vertical surface formed on one side between the narrow top portion and the broader bottom portion, the vertical surface being close to the inside wall of the outer heat sink, when the rotatable inner heat sink is rotated in one direction on the gimbal shaft, to direct light in a first direction, the rotatable inner heat sink has an offset surface that is offset by an acute angle from vertical and intersects the vertical surface, the offset surface being formed on an opposite side of the rotatable inner heat sink from the one side, between the narrow top portion and the broader bottom portion, the offset surface being close to the inside wall of the outer heat sink, when the rotatable inner heat sink is rotated in an opposite direction to the one direction on the gimbal shaft, to direct light in a second direction, and the vertical surface extends directly from the broader bottom portion of the rotatable inner heat sink on the one side, and a spherical surface portion is interposed between the broader bottom portion of the rotatable inner heat sink and the offset surface on the opposite side. 8. The heat sink for a directional lighting fixture of claim 7 , wherein the vertical surface of the rotatable inner heat sink is a first cylindrical surface portion and the offset surface of the rotatable inner heat sink is a second, substantially cylindrical surface portion. 9. The heat sink for a directional lighting fixture of claim 7 , wherein the vertical surface is a smooth, continuously curved surface, and the offset surface comprises heat dissipating ribs that extend along the offset surface at the acute angle. 10. The heat sink for a directional lighting fixture of claim 7 , wherein the offset surface is offset by an angle from vertical of between 0 degrees and 35 degrees. 11. The heat sink for a directional lighting fixture of claim 7 , wherein the light source housed within the rotatable inner heat sink is an LED light source. 12. The heat sink for a directional lighting fixture of claim 7 , wherein the opening in the bottom of the outer heat sink is characterized by a diameter, and the broader bottom portion of the rotatable inner heat sink has a diameter that is approximately the same as the diameter of the opening.