Actuator cooling apparatus and method

The invention claimed is: 1. An injection molding apparatus comprising a clamp plate, a heated manifold, an actuator interconnected to a valve pin having an axis A, a mold and a cooling device that cools the actuator wherein, when assembled, the clamp plate mounted upstream of the mold, the manifold being disposed between the clamp plate and the mold, wherein the actuator comprises a housing body that is mounted in thermally conductive contact along the axis A to one or more actuator mounts that are mounted downstream in heat conductive communication with or contact with or on the manifold along the axis A, wherein the cooling device comprises: a heat transmitter comprising a proximal arm or member comprised of a heat conductive material and a distal arm or member comprised of a thermally conductive material, the distal arm or member or member being mounted by a spring loadable interconnection or engagement on or to the proximal base or member, the distal arm or member having a distal end surface for engaging the clamp plate, under a spring load and a proximal surface for transmitting heat from the proximal surface to the distal end surface, the housing body having a surface that is spaced laterally from the axis A, the proximal base or member being mounted in heat conductive contact with and to the lateral surface such that the proximal base or member is spaced laterally apart from contact with the one or more actuator mounts in an arrangement wherein the distal end surface of the distal arm or member is movable through the spring loadable interconnection toward and away from the actuator, 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 distal arm or member 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 further comprising one or more heat conductive tubes containing a heat conductive liquid embedded within one or the other or both of the proximal and distal members. 3. The apparatus according to claim 1 wherein the distal and proximal members are heat transmissively interconnected or engaged with each other by heat transmissive rods or tubes that are intimately engaged with the members. 4. The apparatus according to claim 1 further comprising one or more hollow heat conductive tubes having a cavity containing heat conductive fluid, the one or more tubes being embedded within the body of the housing of the actuator. 5. The apparatus according to claim 1 wherein the distal member has a proximal exterior surface that is adapted to be engaged and slidable against a complementary surface of the housing body of the actuator such that heat thermally conducts between the housing body and the distal arm or member, the distal end surface of the distal arm or member being movable toward and away from the actuator by sliding movement of the proximal exterior surface of the distal arm or member on the complementary surface of the actuator. 6. The apparatus according to claim 1 wherein the spring loadable interconnection is adapted to urge the distal end surface of the distal arm or member into a compression of at least 1 pound per square inch (psi) with the clamp plate. 7. The apparatus according to claim 1 wherein the lateral surface and the base member are laterally spaced apart from direct heat conductive communication with the heat manifold. 8. The apparatus according to claim 1 wherein the clamp plate is cooled. 9. The apparatus according to claim 1 wherein the cooling device includes a resilient spring disposed between a body surface of the proximal base or member and the distal arm or member, wherein the clamp plate, the mold, the manifold, the actuator and the cooling device are assembled together in an arrangement wherein the spring is resiliently compressed up to a maximum of about 3 mm urging the distal end surface of the distal arm or member into compressed engagement with the clamp plate. 10. The apparatus according to claim 1 wherein the apparatus includes two or more separate cooling devices each comprised of a distal arm or member mounted in spring loadable interconnection to a proximal base or member, each separate cooling device being separately mounted to the housing body of the actuator and separately assemblable together with the clamp plate, the mold, the actuator and the manifold such that the distal end surface of the distal arm or member of each separate cooling device is in compressed engagement with the clamp plate under the spring loadable interconnection between each separate distal end arm and proximal base or member. 11. The apparatus according to claim 1 further comprising a mount separating the actuator housing from direct contact with the manifold, the mount being cooled and having an upstream mounting surface in thermally conductive communication with a complementary mounting surface of the actuator and a downstream mounting surface in thermally conductive communication with the manifold. 12. The apparatus according to claim 1 wherein a mount for mounting the actuator with the manifold is comprised of a thermally conductive metal that is cooled to a temperature of less than about 150 degrees F. 13. The apparatus according to claim 1 wherein the actuator is interconnected to a valve pin that is mounted to the manifold and extends through a fluid material feed bore in the manifold. 14. The apparatus according to claim 1 wherein the proximal base or member is rigidly attached in thermally conductive contact to the laterally spaced surface of the housing body. 15. The apparatus according to claim 1 wherein the distal arm or member and proximal member comprise a unitary thermally conductive body with at least the distal arm or member being resiliently deformable to form the spring loadable interconnection on assembly of the clamp plate, the mold, the manifold, the actuator and the heat transmitter being assembled in an arrangement wherein the spring loadable interconnection is loaded when the manifold is heated to operating temperature urging the distal end surface of the distal arm or member into compressed engagement with the clamp plate. 16. The apparatus according to claim 1 wherein the distal arm or member and the proximal base or member comprise a unitary body rigidly attached in thermally conductive contact to the laterally spaced surface, a portion of the unitary body being resiliently deformable to form the spring loadable interconnection, the mold, the manifold, the actuator and the heat transmitter being assembled in an arrangement wherein the resiliently deformable portion of the unitary body compresses up to a maximum of about 0.5 mm when the manifold is heated to operating temperature urging the distal end surface of the distal arm or member into compressed engagement with the clamp plate. 17. The apparatus according to claim 1 wherein the distal arm or member is attached to the actuator such that the arm is disposed in slidable thermally conductive contact with the lateral surface of the housing body. 18. The apparatus according to claim 1 wherein the distal arm or member comprises a rod slidably disposed within a complementary bore disposed within the housing body of the actuator, the complementary bore and the rod being configured such that an exterior surface of the rod is slidably engaged in thermally conductive contact against an interior surface of the co