Actuator cooling apparatus and method

The invention claimed is: 1. An injection molding apparatus comprising a clamp plate, a heated manifold, an actuator, a mold and a cooling device that cools the actuator, wherein when assembled the clamp plate and the mold are interconnected and spaced apart from each other, the manifold is disposed between the clamp plate and the mold and the actuator is mounted in thermally conductive communication with the manifold, wherein the cooling device comprises: a heat transmitter comprising a distal arm or member comprised of a rod or tube and a proximal base or member comprising a portion of a housing body that is laterally spaced from an axis A along which a valve pin is driven, the actuator comprising the housing body that is thermally conductive and mounted in thermal communication with the manifold, the rod or tube being slidably disposed within a complementary bore disposed within the laterally spaced portion of the housing body, the complementary bore and the rod or tube being configured such that the exterior surface of the rod or tube is slidable and engaged in thermally conductive contact against an interior surface of the complementary bore, the rod or tube being comprised of a thermally conductive material having a distal end surface for engaging the clamp plate under a spring load exerted by a spring loadable interconnection disposed between the rod or tube and the laterally spaced portion of the housing body such that the spring loadable interconnection can exert a spring load between the laterally spaced portion of the housing body and the rod or tube, the clamp plate, the mold, the manifold, the actuator and the heat transmitter being assemblable together in an arrangement wherein the spring loadable interconnection is loaded urging the distal end surface of the movable rod or tube into compressed engagement with the clamp plate at least when the manifold is heated to an elevated operating temperature. 2. The apparatus of claim 1 wherein the housing body is mounted in thermally conductive contact along the axis A to one or more actuator mounts that are mounted downstream along the axis A in heat conductive communication with the heated manifold, wherein the interior surface of the complementary bore is spaced laterally from the axis A, such that the interior surface of the complementary bore is disposed apart from contact with the one or more actuator mounts. 3. The apparatus according to claim 1 wherein the spring loadable interconnection comprises a spring that has an amount or degree of mass that renders the spring substantially non-heat conductive between the proximal member and the rod or tube. 4. The apparatus according to claim 1 wherein the spring or spring loadable interconnection has engagement surfaces that engage against complementary opposing engagement surfaces of the proximal member and rod or tube having a selected area of engagement that the renders spring substantially non-heat conductive between the laterally spaced portion of the housing and the rod or tube. 5. A method of cooling the actuator of the apparatus according to claim 1 comprising assembling the clamp plate, the mold, the manifold, the actuator and the cooling device of the apparatus such that the spring loadable interconnection is loaded urging the distal end surface of the rod into compressed engagement with the clamp plate. 6. A method of cooling an actuator in an injection molding apparatus comprising a clamp plate, a heated manifold, an actuator having a housing body, a mold and a cooling device that cools the actuator, wherein when assembled the clamp plate and the mold are interconnected and spaced apart from each other, the manifold is disposed between the clamp plate and the mold and the actuator is mounted in thermally conductive communication with the manifold, the method being characterized in that: the cooling device is comprised of a rod or tube and a proximal base or member comprised of a portion of the housing body that is laterally spaced from an axis A along which a valve pin is driven, the rod or tube is slidably disposed and mounted via a spring loadable interconnection within a complementary bore disposed within the laterally spaced portion of the housing body, the complementary bore and the rod or tube being configured such that the exterior surface of the rod or tube is slidable and engaged in thermally conductive contact against an interior surface of the complementary bore, the rod or tube being comprised of a thermally conductive material having a distal end surface for engaging the clamp plate under a spring load exerted by the spring loadable interconnection disposed between the rod or tube and the laterally spaced portion of the housing body such that the spring loadable interconnection can exert a spring load between the laterally spaced portion of the housing body and the rod or tube, the actuator is mounted in thermal communication with the manifold, the manifold, the actuator and the heat transmitter are assembled together in an arrangement wherein the spring loadable interconnection is loaded urging a distal end surface of the movable rod or tube into compressed engagement with the clamp plate at least when the manifold is heated to an elevated operating temperature.