Fast acting reduced velocity pin control

What is claimed is: 1. Apparatus for performing an injection cycle comprising: a manifold that receives an injection fluid material, the manifold having or communicating with a delivery channel that delivers the injection fluid mold material under an injection pressure to a gate of a mold cavity, a pneumatic actuator driven by a source of pressurized gas having a selected maximum pressure capable of driving the actuator and an interconnected valve pin at one or more maximum velocities, the pneumatic actuator comprising a pair of opposing first and second gas drive chambers, the actuator driving the valve pin upstream and downstream during a single injection cycle along a path of travel having a selected stroke length that extends between a first position where the valve pin prevents the injection fluid material from flowing into the cavity and one or more selected maximum flow positions at which the injection fluid material flows at a maximum rate through the gate into the cavity, the valve pin and the fluid delivery channel being adapted to vary rate of flow of the injection fluid material to less than the maximum rate when the valve pin is disposed at one or more selectable intermediate positions between the first position and the maximum flow position, the pneumatic actuator being controllably drivable to drive the pin upstream or downstream at one or more selectable reduced velocities that are less than the one or more maximum velocities, a pneumatic valve assembly that controls the rate of delivery of the pressurized gas from the source to and from the gas drive chambers of the pneumatic actuator to controllably drive the actuator and valve pin upstream and downstream, the pneumatic valve assembly comprising a cylinder housing having fluid delivery ports for delivering pressurized gas to and from the gas drive chambers of the actuator and a spool controllably and translationally drivable within the cylinder housing to selectively open and close the fluid delivery ports a selected degree to control flow of pressurized gas to and from the drive chambers, the pneumatic valve assembly including a drive device mounted to the spool, the drive device being controllably energizable to cause the spool to controllably slide along a back and forth path of lateral travel, the drive device being translationally movable along the back and forth path of lateral travel together with the spool and being supported during movement solely by mounting to the spool, the apparatus including a controller that receives position or pressure signal feedback and contains instructions that instruct the pneumatic valve assembly to cause the actuator to drive the valve pin through the one or more selectable intermediate positions over a selectable time or distance based on receipt of the real-time signal feedback. 2. The apparatus of claim 1 further comprising one or more sensors that sense the position of the valve pin or the actuator or the pressure of the injection fluid material continuously in real-time throughout the course of the injection cycle, the controller receiving continuous real-time pin position, actuator position or material pressure signal feedback from the one or more sensors and containing instructions that instruct the pneumatic valve assembly to drive the valve pin either upstream or downstream through a predetermined profile of positions or velocities during the course of the injection cycle based on the real-time position or pressure signal feedback. 3. The apparatus of claim 1 further comprising a sensor that senses the position of the valve pin or the actuator and sends a signal indicative of the sensed position to the controller, the controller including instructions that instruct the valve assembly to drive the actuator and valve pin upstream or downstream first at the one or more selectable reduced velocities and subsequently at the one or more maximum velocities upon receipt of a signal from the position sensor that indicates the valve pin or actuator are disposed at one or more predetermined positions along the stroke length. 4. The apparatus of claim 1 further comprising a sensor that senses the position of the valve pin or the actuator and sends a signal indicative of the sensed position to the controller, the controller including instructions that instruct the valve assembly to drive the valve pin to stop at a selected gate closed position, the controller including a program that establishes the sensed gate closed position as the first position of the injection cycle, the controller including instructions that instruct the valve assembly to begin an injection cycle by driving the valve pin to the established first position and stopping the valve pin on sensing of the valve pin at the established first position. 5. The apparatus of claim 1 wherein pneumatic valve assembly has an interior bore defined by an interior wall, the spool has one or more heads and recesses disposed between the heads, the heads have an outside surface integral with the heads that slidably engages with the interior wall of the cylinder housing to form a seal against flow of the pressurized gas between the engaged surfaces. 6. The apparatus of claim 1 wherein the drive device comprises an electrically conductive coil mounted to the spool, the coil being controllably energizable to cause the spool to controllably slide along a back and forth path of lateral travel, the electrically conductive coil being translationally movable along the back and forth path of lateral travel together with the spool and being supported during movement solely by mounting to the spool. 7. The apparatus of claim 1 wherein the cylinder of the valve assembly includes at least two gas exhaust ports that exhaust pressurized gas exiting from corresponding ones of the gas drive chambers to a source of ambient gas on selective slidable movement of the spool within the interior bore of the cylinder. 8. A method of performing an injection cycle comprising injecting injection fluid material into the manifold and through the gate of the apparatus of claim 1 . 9. Apparatus for performing an injection molding cycle comprising: a manifold that receives an injection fluid material, the manifold having or communicating with a delivery channel that delivers the injection fluid mold material under an injection pressure to a gate of a mold cavity, a pneumatic actuator driven by a source of pressurized gas having a selected maximum pressure capable of driving the actuator and an interconnected valve pin at one or more maximum velocities, the pneumatic actuator comprising a pair of opposing first and second gas drive chambers, the actuator driving the valve pin upstream and downstream along a path of travel having a selected stroke length that extends between a first position where the valve pin prevents the injection fluid material from flowing into the cavity and one or more selected maximum flow positions at which the injection fluid material flows at a maximum rate through the gate into the cavity, the valve pin and the fluid delivery channel being adapted to vary rate of flow of the injection fluid material to less than the maximum rate when the valve pin is disposed at one or more selectable intermediate positions between the first position and the maximum flow position, a pneumatic valve assembly that controls the rate of delivery of the pressurized gas from the source to and from the gas drive chambers of the pneumatic actuator to controllably drive the actuator and valve pin upstream and downstream, the pneumatic actuator being controllably drivable to drive the pin upstream or downstream at one or more selectable reduced velocities that are less than the one or more maximum velocities, the