Actuator cooling apparatus and method

1 . An injection molding apparatus ( 5 ) comprising a clamp plate ( 80 ), a heated manifold ( 20 ), an actuator ( 10 ) interconnected to a valve pin ( 17 ) drivable along an axis (A), a mold ( 300 ) and a cooling device ( 500 , 800 ) that cools the actuator, wherein when assembled the clamp plate ( 80 ) and the mold ( 300 ) are interconnected and spaced apart from each other, the manifold ( 20 ) is disposed between the clamp plate ( 80 ) and the actuator ( 10 ) is mounted in thermally conductive communication with the manifold ( 20 ), the actuator ( 10 ) comprising a thermally conductive housing body ( 12 ) having a drive axis (A) that is mounted in direct heat or thermally conductive contact with one or more mounts ( 60 , 50 , 803 ) that are in turn mounted in direct heat conductive contact or communication with the manifold ( 20 ), the cooling device ( 500 , 800 ) comprising a heat transmitter comprised of an arm, member ( 502 ) or leg ( 800 l ) comprised of a thermally conductive material having a surface ( 502 a, 800 a ) for making thermally conductive contact with the clamp plate ( 80 ), the arm, member or leg ( 502 , 800 l ) being mounted to the housing body ( 12 ) of the actuator in an arrangement wherein the surface ( 502 a, 800 a ) of the arm, member or leg ( 502 , 800 ) is movable toward and away from the actuator ( 10 ), the arm, member or leg ( 502 , 800 l ) being either: disposed in direct or integral thermal contact with a complementary surface ( 12 ls ) of the actuator ( 10 ) for transmitting heat from the housing body ( 12 ) to the arm, member or leg ( 502 , 800 l ) or, configured to have compressible spring joints ( 800 s ) disposed along a length (UL) of the arm, member or leg ( 800 l ) for urging the surface ( 502 a, 800 a ) of the arm or leg ( 502 , 800 l ) into contact with the clamp plate ( 80 ), the clamp plate ( 80 ), the mold ( 300 ), the manifold ( 20 ), the actuator ( 10 ) and the heat transmitter ( 500 ) being assemblable together in an arrangement wherein the surface ( 502 a, 800 a ) of the arm or leg ( 502 , 800 l ) is in thermally conductive engagement with the clamp plate ( 80 ) under a load at least when the manifold ( 20 ) is heated to an elevated operating temperature. 2 . The apparatus of claim 1 wherein the complementary surface of the actuator ( 12 ls ) is spaced laterally from the axis A, the arm, member or leg ( 502 , 800 l ) being mounted in heat or thermal conductive contact with the complementary surface ( 12 ls ) such that the arm, member or leg ( 502 , 800 l ) is spaced laterally apart from contact with the one or more actuator mounts ( 60 , 50 , 803 ). 3 . The apparatus of claim 1 wherein the one or more actuator mounts ( 60 , 50 , 803 ) are insulators that prevent or retard the communication or conduction of heat from the heated manifold 20 . 4 . The apparatus of claim 1 wherein the arm, member or leg ( 502 , 800 l ) has a surface that is adapted to be engaged and slidable against the complementary surface ( 12 ls ) of the housing body of the actuator ( 10 ) such that heat thermally conducts between the housing body and the arm, member or leg ( 502 , 800 l ). 5 . The apparatus of claim 4 wherein the surface of the arm, member or leg ( 502 , 800 l ) is movable toward and away from the actuator in an axial or radial direction. 6 . The apparatus of claim 5 wherein the surface of the arm, member or leg ( 502 , 800 l ) is movable toward and away from the actuator by sliding movement of the surface of the arm, member or leg ( 502 , 800 l ) on the complementary surface of the actuator. 7 . The apparatus of claim 1 wherein the clamp plate includes an actuator receiving aperture, the actuator being mounted within the receiving aperture in an arrangement wherein the surface ( 502 a, 800 a ) of the arm or leg ( 502 , 800 l ) is in thermally conductive engagement with the clamp plate ( 80 ) under a load at least when the manifold ( 20 ) is heated to an elevated operating temperature. 8 . A method of cooling the actuator of the apparatus of claim 1 comprising assembling the clamp plate, the mold, the manifold, the actuator and the cooling device of the apparatus of claim 1 such that the surface of the arm, member or leg is disposed in compressed engagement with the clamp plate at least when the manifold ( 20 ) is heated to an elevated operating temperature. 9 . An injection molding apparatus ( 5 ) comprising a plate ( 80 ), a heated manifold ( 20 ), an actuator ( 10 ), a mold ( 300 ) and a cooling device ( 800 ) that cools the actuator ( 10 ), wherein when assembled the plate ( 80 ) and the mold ( 300 ) are interconnected and spaced apart from each other, the manifold ( 20 ) is disposed between the plate and the mold and the actuator ( 10 ) is mounted in thermally conductive communication with the manifold ( 20 ), wherein the cooling device ( 800 ) comprises: one or more highly heat conductive legs ( 800 l ) extending a selected longitudinal length (UL) from a base ( 803 ) and forming a reception aperture or recess ( 800 ra ) within which the actuator ( 10 ) is mountable, the one or more legs ( 800 l ) being formed to include one or more spring joints ( 800 s ) along the longitudinal length (UL) that are resiliently deformable under compression, the actuator ( 10 ) comprising a housing body ( 12 , 12 a ) that is thermally conductive and mounted in thermal communication with the manifold ( 20 ), the clamp plate, the mold ( 300 ), the manifold ( 20 ), the actuator ( 10 ) and the cooling device ( 800 ) being assemblable together in an arrangement wherein the one or more spring joints ( 800 s ) are deformed by engagement between a surface of the legs ( 800 l ) and a surface of the clamp plate ( 80 ), the one or more deformed spring joints ( 800 s ) urging the surface of the cooling device ( 800 ) into compressed engagement with the clamp plate ( 80 ) at least when the manifold ( 20 ) is heated to an elevated operating temperature. 10 . The apparatus of claim 9 wherein the housing body is mounted on one or more actuator mounts that are mounted in heat conductive communication or contact with or on the manifold. 11 . The apparatus of claim 10 wherein the one or more actuator mounts are insulators that prevent or retard communication or conduction of heat from the heated manifold 20 . 12 . The apparatus of claim 9 wherein the actuator is mountable in close proximity to the one or more highly heat conductive legs ( 800 l ). 13 . The apparatus of claim 9 wherein the clamp plate includes an actuator receiving aperture, the actuator being mounted within the receiving aperture in an arrangement wherein the surface of the cooling device is in thermally conductive engagement with the clamp plate ( 80 ) under a load at least when the manifold ( 20 ) is heated to an elevated operating temperature. 14 . A method of cooling an actuator in an injection molding apparatus ( 5 ) comprising a plate ( 80 ), a heated manifold ( 20 ), an actuator ( 10 ) having a housing body ( 12 ), a mold ( 300 ) and a cooling device ( 800 ) that cools the actuator 10 , wherein when assembled the plate ( 80 ) and the mold ( 300 ) are interconnected and spaced apart from each other, the manifold ( 20 ) is disposed between the clamp plate and the mold and the actuator ( 10 ) is mounted in thermally conductive communication with the manifold ( 20 ), the method comprising: forming the cooling device ( 800 ) into one or more highly heat conductive legs ( 800 l ) extending a selected longitudinal length (UL) from