Actuator system for rotating valve pin

What is claimed is: 1. An injection molding apparatus comprising an injection molding machine, a manifold that receives injection fluid from the machine and routes the injection fluid through a flow channel communicating with a gate to a cavity of a mold, characterized in that the apparatus includes: a first actuator and a second actuator, a closure valve pin having a pin axis, the closure valve pin being adapted to be controllably driven upstream and downstream along an axial path of travel through the flow channel such that a distal tip end of the closure valve pin is driven into and out of a position that closes flow through the gate, the first actuator having a linear or axial driver drivable along a reciprocal path of travel coincident or parallel to the axial path of travel, the closure valve pin being interconnected to the first actuator such that the valve pin is driven along the axial path of travel and reciprocally upstream and downstream into and out of the position that closes flow through the gate, the second actuator comprising a rotor having a rotation axis, the rotor being interconnected to a second valve pin such that the second valve pin is rotatably driven in unison with the rotor around the rotation axis, the second pin that is interconnected to the rotor being disposed and rotatable within the flow of injection fluid, wherein the second valve pin comprises an elongated shaft having an outer circumferential surface having discontinuous protrusions, grooves, projections, fins or apertures that are rotatably disposed within the injection fluid flowing through the flow channel, the protrusions, grooves, projections, fins or apertures generating a selected turbulence in the injection fluid flowing through the flow channel when the second valve pin is rotated around its pin axis. 2. The apparatus of claim 1 wherein the second actuator is mounted such that the axis of the rotor is generally coincident with an axis of an inlet that communicates flow of injection fluid from the machine to the manifold. 3. The apparatus of claim 1 wherein the closure valve pin comprises an elongated shaft having an outer circumferential surface having discontinuous protrusions, grooves, projections, fins or apertures that are rotatably disposed within the injection fluid flowing through the flow channel, the protrusions, grooves, projections, fins or apertures generating a selected turbulence in the injection fluid flowing through the flow channel when the valve pin is rotated around its pin axis. 4. The apparatus of claim 1 wherein the closure valve pin is interconnected to the first actuator and adapted such that the closure valve pin is controllably rotatable around an axis of the closure valve pin. 5. The apparatus of claim 1 wherein one or the other or both of the first and second actuators are interconnected to a controller that controllably instructs the actuators to drive the one or the other or both of the closure valve pin and the second valve pin along a predetermined profile of axial travel or rotation respectively. 6. A method of driving a valve pin in an injection molding apparatus comprised of an injection molding machine, a manifold that receives injection fluid from the machine and routes the injection fluid through a flow channel communicating with a gate to a cavity of a mold, a first actuator and a second actuator, a closure valve pin having a pin axis, the closure valve pin being adapted to be controllably driven upstream and downstream along an axial path of travel through the flow channel such that a distal tip end of the valve pin is driven into and out of a position that closes flow through the gate, the method comprising: interconnecting a closure valve pin to a first actuator having an axial driver drivable along a reciprocal path of travel coincident with or parallel to the axial path of travel such that the valve pin is driven reciprocally upstream and downstream into and out of the position that closes flow through the gate, interconnecting a second valve pin to a second actuator comprising a rotor having a rotation axis such that second valve pin ( 160 ) is rotatably driven (R) in unison with the rotor around an axis coincident with or parallel to the pin axis of the second valve pin, forming the second valve pin to comprise an elongated shaft having an outer circumferential surface having discontinuous protrusions, grooves, projections, fins or apertures that generate a selected turbulence in the injection fluid flowing through the flow channel when the second valve pin is rotated around its pin axis, adapting the second pin that is interconnected to the rotor to be disposed within the flow of injection fluid that is routed from the injection molding machine to the gate, driving the first actuator to drive its interconnected pin into and out of the position that closes flow through the gate, driving the second actuator such that the second pin is rotatably driven and such that a selectable portion of the second pin is rotated within the flow of injection fluid that is routed to the gate. 7. The method of claim 6 further comprising mounting the second actuator such that the axis of the rotor is generally coincident with an axis of an inlet from the injection molding machine that communicates flow of injection fluid from the machine to the manifold. 8. The method of claim 6 wherein the head of the closure valve pin interconnected to the first actuator and adapted to rotate the closure valve pin around an axis of the closure valve pin. 9. The method of claim 6 further comprising instructing the actuators to drive one or the other or both of the closure valve pin and the second valve pin according to a predetermined profile of axial travel or rotation respectively over the course of an injection cycle. 10. An injection molding apparatus comprising an injection molding machine, a manifold that receives injection fluid from the machine and routes the injection fluid through a fluid flow channel communicating with a gate to a cavity of a mold, a first actuator and a second actuator, a closure valve pin having a pin axis interconnected to at least the first actuator, the actuators and the closure valve pin being arranged for controllably driving the closure valve pin axially upstream and downstream through the flow channel such that a distal tip end of the valve pin is driven into and out of a position that closes flow through the gate, the first actuator having an axial driver drivable along a reciprocal path of axial travel, the second actuator being mounted to the axial driver such that the second actuator is driven along the path of axial travel, the closure valve pin being mounted to the second actuator such that the valve pin is drivable along the path of axial travel, the second actuator comprising a rotor that is rotatably drivable around an axis coincident or parallel to the path of axial travel of the closure valve pin, the rotor of the second actuator being interconnected to the closure valve pin such that a selected portion of the valve pin is disposed within the fluid flow channel leading to the gate and the selected portion of the valve pin is rotatably drivable to rotate the selected portion of the pin within the fluid flow channel to agitate injection fluid flowing through the channel, a second valve pin interconnected to another actuator comprising a rotor having a rotation axis, such that the second valve pin is rotatably driven in unison with the rotor around the rotation axis, the second pin being disposed and rotatable within the flow of injection fluid, wherein the second valve pin comprises an elongated shaft having an outer circumferential surface having discon