Injection molding apparatus and method for automatic cycle to cycle cavity injection

What is claimed is: 1. A method comprising: receiving at a controller a first signal, indicative of a start of injection or a position of a screw barrel that feeds fluid material to an injection molding system on a first injection cycle, and transmitting to a downstream actuator a gate open signal at a predetermined open gate target time (X) based on the first signal; receiving at a downstream actuator the gate open signal and initiating withdrawal movement of a downstream valve pin from a downstream gate; detecting via a position sensor actual withdrawal movement of the downstream valve pin from the downstream gate and transmitting a signal indicative of the actual gate open time (A) to the controller; receiving at the controller the signal from the position sensor and automatically generating an automatic adjusted instruction time (X′) based on the difference (delay time Y) between the actual gate open time (A) and the predetermined open gate target time (X), for use in a subsequent cycle, forming a first one or more parts or objects within a one or more mold cavities during the first injection cycle, inspecting or measuring the first one or more parts or objects, manually adjusting (Q) the predetermined open gate target time (X) on the subsequent injection cycle for one or more of the valve pins based on the inspecting or measuring, instructing via the controller the valve pins on the subsequent injection cycle to open at an overall adjusted instruction time (X″) that includes or accounts for the automatic adjusted instruction time (X′) and the manual adjustment (Q). 2. The method of claim 1 , wherein the steps are performed continuously over a plurality of subsequent injection molding cycles, and wherein the subsequent automatic adjusted instruction time (X′) is determined by increasing or decreasing the adjusted instruction time of a prior cycle by an adjustment time equal to the difference in time between the actual open gate time of the prior cycle and the actual open gate time of the present cycle. 3. Method according to claim 1 further comprising: performing the method steps of claim 1 during the first and subsequent injection molding cycles, and determining the subsequent automatic adjusted instruction time by increasing or decreasing the automatic adjusted instruction time (X′) of a prior cycle by an adjustment time equal to the difference in time between the actual open gate time of the prior cycle and the actual open gate time of the present cycle. 4. Method according to claim 3 wherein an upstream actuator associated with an upstream gate receives a start of cycle signal (S SC ) from the controller or an injection molding machine and in response thereto the upstream actuator initiates opening movement of a valve pin interconnected to the upstream actuator. 5. Method according to claim 1 further comprising detecting, by a cavity sensor, the arrival of a flow front of the fluid material in the cavity at a selected cavity sensor location (CSL) and transmitting the detection signal (S DA ) to the controller. 6. Method according to claim 5 wherein the cavity sensor comprises a temperature sensor. 7. Method according to claim 1 wherein the position sensor comprises a hall effect sensor. 8. Method according to claim 1 wherein the position sensor senses movement of an actuator piston that drives the valve pin. 9. Method according to claim 1 wherein the actuator includes a solenoid valve that is activated by the gate open signal (S GO ) to drive the valve pin from the gate closed position (GCP) toward the gate open position (GOP). 10. Method according to claim 1 wherein the actuator comprises an electronic actuator and the position sensor comprises an encoder. 11. A method comprising: sending to a controller a first signal generated by an injection molding machine that is indicative of a start of injection or a position of a screw barrel during a first injection cycle in an injection molding system, transmitting from the controller to a downstream actuator a gate open signal at a predetermined open gate target time (X) based on the first signal; initiating withdrawal movement of an interconnected downstream valve pin from a downstream gate via the downstream actuator; detecting actual withdrawal movement of the downstream valve pin from the downstream gate at an actual gate open time (A) via a position sensor transmitting a signal indicative of the actual gate open time (A) to the controller; automatically generating an automatic adjusted instruction time (X′) via the controller based on the difference between the actual gate open time (A) and the predetermined open gate target time (X), for use in a subsequent cycle, forming a first one or more parts or objects within a one or more mold cavities during the first injection cycle, instructing via the controller the valve pins on the subsequent injection cycle to open at an overall adjusted instruction time (X″) that includes or accounts for the automatic adjusted instruction time (X′). 12. Method according to claim 11 further comprising inspecting or measuring the first one or more parts or objects, manually adjusting (Q) the predetermined open gate target time (X) on the subsequent injection cycle for one or more of the valve pins based on the inspecting or measuring and the manual adjustment. 13. The method of claim 11 wherein the steps are performed continuously over a plurality of subsequent injection molding cycles, and wherein the subsequent automatic adjusted instruction time (X′) is determined by increasing or decreasing the adjusted instruction time of a prior cycle by an adjustment time equal to the difference in time between the actual open gate time of the prior cycle and the actual open gate time of the present cycle. 14. Method according to claim 11 further comprising: performing the method steps of claim 11 during the first and subsequent injection molding cycles, and determining the subsequent automatic adjusted instruction time by increasing or decreasing the automatic adjusted instruction time (X′) of a prior cycle by an adjustment time equal to the difference in time between the actual open gate time of the prior cycle and the actual open gate time of the present cycle. 15. Method according to claim 11 wherein an upstream actuator associated with an upstream gate receives a start of cycle signal (S SC ) from the controller or an injection molding machine and in response thereto the upstream actuator initiates opening movement of a valve pin interconnected to the upstream actuator. 16. Method according to claim 11 further comprising detecting, via a cavity sensor, the arrival of a flow front of the fluid material in the cavity at a selected cavity sensor location (CSL) and transmitting the detection signal (S DA ) to the controller. 17. Method according to claim 16 wherein the cavity sensor comprises a temperature sensor. 18. Method according to claim 11 wherein the position sensor comprises a hall effect sensor. 19. Method according to claim 11 wherein the position sensor senses movement of an actuator piston that drives the valve pin. 20. Method according to claim 11 wherein the actuator includes a solenoid valve that is activated by the gate open signal (S GO ) to drive the valve pin from the gate closed position (GCP) toward the gate open position (GOP). 21. Method according to claim 11 wherein the actuator comprises an electronic actuator and the position sensor comprises an en