Actuator cooling apparatus and method

The invention claimed is: 1. A cooling apparatus configured to cool an actuator housing of an injection molding apparatus, wherein the actuator housing is in thermally conductive communication with a heated manifold and the heated manifold is disposed between a clamp plate and a mold, the cooling apparatus comprising: a heat conductive proximal base ( 504 aa ) configured to be mounted in thermally conductive engagement with the actuator housing, a heat conductive distal arm ( 502 ), having opposing first and second ends, and in slidable heat conductive engagement within a slot in the proximal base ( 504 aa ), and a spring loaded interconnection (SLI) disposed between the proximal base ( 504 aa ) and the distal arm ( 502 ) and biasing the first end of the distal arm ( 502 ) under spring loaded compression into thermally conductive contact with the clamp plate, wherein heat is transmitted from the heated manifold to the actuator housing, and the cooling apparatus transmits heat from the actuator housing, via the proximal base ( 504 aa ), the spring loaded interconnection (SLI) and the distal arm ( 502 ), to the clamp plate, the spring loaded interconnection (SLI) comprising a heat transmissive rod ( 507 ) in slidable heat conductive engagement within a slot in the proximal base ( 504 aa ), and the heat transmissive rod ( 507 ) having one end under spring loaded compression in thermally heat conductive contact with the second end of the distal arm ( 502 ). 2. The cooling apparatus of claim 1 wherein the proximal base ( 504 aa ) is laterally spaced from the heated manifold, with respect to the clamp plate and mold. 3. The cooling apparatus of claim 1 wherein the distal arm ( 502 ) has an outside surface ( 502 s ) that is in slidable heat conductive contact with an inside surface ( 504 is ) of the slot ( 504 sb ) in the proximal base ( 504 aa ). 4. The cooling apparatus of claim 1 comprising a pair of the cooling apparatus configured to be mounted in thermally conductive engagement on an exterior surface of the actuator housing. 5. The cooling apparatus of claim 1 wherein the rod ( 507 ) is a heat conductive, fluid containing tube. 6. The cooling member of claim 1 wherein the distal arm ( 502 ) is also in slidable heat conductive engagement with the actuator housing. 7. The cooling member of claim 1 wherein the cooling apparatus is configured to be mounted in a receiving aperture of the clamp plate, such that the cooling apparatus and actuator are inserted in the receiving aperture of the claim plate. 8. A method of cooling an actuator housing of an injection molding apparatus, wherein the actuator housing is in thermally conductive communication with a heated manifold and the heated manifold is disposed between a clamp plate and a mold, the method comprising: providing a cooling apparatus comprising: a heat conductive proximal base ( 504 aa ) configured to be mounted in thermally conductive engagement with the actuator housing, a heat conductive distal arm ( 502 ), having opposing first and second ends, and in slidable heat conductive engagement within a slot in the proximal base ( 504 aa ), and a spring loaded interconnection (SLI) disposed between the proximal base ( 504 aa ) and the distal arm ( 502 ) and biasing the first end of the distal arm ( 502 ) under spring loaded compression into thermally conductive contact with the clamp plate, wherein heat is transmitted from the heated manifold to the actuator housing, and the cooling apparatus transmits heat from the actuator housing, via the proximal base ( 504 aa ), the spring loaded interconnection (SLI) and the distal arm ( 502 ), to the clamp plate, the spring loaded interconnection (SLI) comprising a heat transmissive rod ( 507 ) in slidable heat conductive engagement within a slot in the proximal base ( 504 aa ), and the heat transmissive rod ( 507 ) having one end under spring loaded compression in thermally heat conductive contact with the second end of the distal arm ( 502 ), and wherein the method further comprises: mounting the proximal base ( 504 aa ) on the actuator housing; heating the manifold, wherein the actuator housing is heated by conductive heat transfer from the heated manifold to the actuator housing; and cooling the actuator housing via the cooling apparatus by transmitting heat from the actuator housing, via the proximal base ( 504 aa ), the spring loaded interconnection (SLI) and the distal arm ( 502 ), to the clamp plate. 9. The method of claim 8 wherein the proximal base ( 504 aa ) is laterally spaced from the heated manifold, with respect to the clamp plate and mold. 10. The method of claim 8 wherein the distal arm ( 502 ) has an outside surface ( 502 s ) that is in slidable heat conductive contact with an inside surface ( 504 is ) of the slot ( 504 sb ) in the proximal base ( 504 aa ). 11. The method of claim 8 comprising a pair of the cooling apparatus configured to be mounted in thermally conductive engagement on an exterior surface of the actuator housing. 12. The method of claim 8 wherein the rod ( 507 ) is a heat conductive, fluid containing tube. 13. The method of claim 8 wherein the distal arm ( 502 ) is also in slidable heat conductive engagement with the actuator housing. 14. The method of claim 8 wherein the cooling apparatus is configured to be mounted in a receiving aperture of the clamp plate, such that the cooling apparatus and actuator are inserted in the receiving aperture of the clamp plate.