Valve system in an injection molding system

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 during the course of an injection cycle from an upstream end toward a downstream end of a fluid flow channel disposed in the manifold or a nozzle communicating with the manifold, the fluid flow channel having a flow axis and a channel length, the fluid flow channel communicating at the downstream end with a gate to a cavity of a mold, the apparatus including: a valve pin driven by an actuator, the valve pin extending axially through at least a portion of the channel length of the fluid flow channel, the valve pin having an upstream end interconnected to the actuator and a downstream end, the valve pin being drivable by the actuator axially upstream and downstream through the fluid flow channel, the fluid flow channel including a throat having an inner circumferential surface having a selected throat configuration and throat diameter, the valve pin having bulbous portion having an outer circumferential surface and a bulb diameter adapted to interface with the inner circumferential surface of the throat to enable a restricted degree of volume or velocity of flow of injection fluid relative to a maximum degree of volume or velocity of flow when the bulbous portion of the valve pin is axially aligned with the throat, the valve pin being drivable to a maximum downstream position where a distal tip end of the valve pin closes the gate and stops flow of the injection fluid through the gate wherein the fluid flow channel and the valve pin are configured or adapted such that the valve pin is movable axially upstream and downstream between an upstream position where the downstream flow of the injection fluid is restricted by the bulbous portion of the pin being axially aligned with the throat of the channel, an intermediate position where downstream flow of injection fluid is unrestricted and a fully downstream position where downstream flow of injection fluid is stopped at both the gate and at the throat. 2. An injection molding apparatus comprising an injection molding machine, a manifold that receives injection fluid from the machine and routes the injection fluid during the course of an injection cycle from an upstream end toward a downstream end of a fluid flow channel disposed in the manifold or a nozzle communicating with the manifold, the fluid flow channel having a flow axis and a channel length, the fluid flow channel communicating at the downstream end with a gate to a cavity of a mold, the apparatus including: a valve pin driven by an actuator, the valve pin extending axially through at least a portion of the channel length of the fluid flow channel, the valve pin having an upstream end interconnected to the actuator and a downstream end, the valve pin being drivable by the actuator axially upstream and downstream through the fluid flow channel, the fluid flow channel including a throat having an inner circumferential surface having a selected throat configuration and throat diameter, the fluid flow channel and the valve pin being configured or adapted such that the valve pin is movable axially upstream and downstream between an upstream position where the downstream flow of the injection fluid is restricted by a bulb portion of the pin being axially aligned with the throat of the channel, an intermediate position where downstream flow of injection fluid is unrestricted and a fully downstream position where downstream flow of injection fluid is stopped at both the gate and at the throat, wherein the bulbous protrusion and the throat are adapted to enable a restricted flow of the injection fluid from an upstream side of the bulbous protrusion to a downstream side of the bulbous protrusion that reduces tensile forces on the pin when the bulbous protrusion is axially aligned with the throat. 3. The apparatus of claim 2 wherein: the actuator is driven by a valve assembly comprised of a housing and a spool slidably mounted and controllably movable back and forth along an axis within the housing between two or more drive fluid flow positions, the spool being mechanically driven by first and second actuators or solenoids that each separately engage the spool at opposing axial ends to effect movement of the spool back and forth between the drive fluid flow positions. 4. The apparatus of claim 3 wherein the actuators or solenoids are drivable in only one linear direction and adapted such that the first solenoid or actuator drives the spool in a first linear direction and the second solenoid or actuator drives the spool in a second linear direction opposite the first linear direction the first and second solenoids or actuators being drivable at different times such that the spool is driven by only one or the other of the first and second solenoids or actuators at any one selected point in time. 5. The apparatus of any of the claim 3 wherein the actuators or solenoids are controllably energizable to drive the spool a distance or length of travel or at a velocity of travel that is proportional to the degree or amount of voltage, current or power that is applied to the actuators or solenoids. 6. An injection molding apparatus comprising an injection molding machine, a manifold that receives injection fluid from the machine and routes the injection fluid during the course of an injection cycle from an upstream end toward a downstream end of a fluid flow channel disposed in the manifold or a nozzle communicating with the manifold, the fluid flow channel having a flow axis and a channel length, the fluid flow channel communicating at the downstream end with a gate to a cavity of a mold, the apparatus including: a valve pin driven by an actuator, the valve pin extending axially through at least a portion of the channel length of the fluid flow channel, the valve pin being drivable between a downstream gate closed position, an upstream gate open position where injection fluid flows freely through the gate, the actuator being interconnected to and driven by a valve assembly comprised of a housing and a spool slidably mounted and controllably movable back and forth along an axis within the housing between two or more drive fluid flow positions, the spool being mechanically driven by first and second actuators or solenoids that each separately engage the spool at opposing axial ends to effect movement of the spool back and forth between the drive fluid flow positions, the first and second actuators or solenoids being drivable in only one linear direction and adapted such that the first solenoid or actuator drives the spool in a first linear direction and the second solenoid or actuator drives the spool in a second linear direction opposite the first linear direction, the first and second solenoids or actuators being drivable at different times such that the spool is driven by only one or the other of the first and second solenoids or actuators at any one selected point in time, wherein the fluid flow channel and the valve pin are configured or adapted such that the valve pin is movable axially upstream and downstream between an upstream position where the downstream flow of the injection fluid is restricted by the bulbous portion of the pin being axially aligned with a throat of the channel, an intermediate position where downstream flow of injection fluid is unrestricted and a fully downstream position where downstream flow of injection fluid is stopped at both the gate and at the throat.