Disclosed herein, amongst other things, is a control structure for a molding system (900). The control structure includes a controller (106, 934) and a valve actuator (104) for positioning a valve member (102) of a valve (101) for regulating flow of molding material in the molding system (900), wher
Disclosed herein, amongst other things, is a control structure for a molding system (900). The control structure includes a controller (106, 934) and a valve actuator (104) for positioning a valve member (102) of a valve (101) for regulating flow of molding material in the molding system (900), wherein the controller (106, 934) is configured to monitor an operating parameter of the valve actuator (104) for indirectly appreciating an indication of a molding parameter of the molding system (900).
대표청구항▼
1. A control structure for a molding system, comprising: a controller; anda valve actuator for positioning a valve member of a valve for regulating flow of molding material in the molding system;wherein the controller is configured to control the valve actuator to maintain at least one of the valve
1. A control structure for a molding system, comprising: a controller; anda valve actuator for positioning a valve member of a valve for regulating flow of molding material in the molding system;wherein the controller is configured to control the valve actuator to maintain at least one of the valve actuator and the valve member in a selected condition and, while maintaining the at least one of the valve actuator and the valve member in the selected condition, monitor an operating parameter of the valve actuator for indirectly appreciating an indication of a molding parameter of the molding system andwherein indirectly appreciating the indication of the molding parameter comprises correlating changes in the operating parameter of the valve actuator to changing forces acting on the valve memberwherein the operating parameter of the valve actuator to be monitored by the controller with which to indirectly appreciate the indication of the molding parameter includes a position of a driving member, andwherein the controller is further configured to execute steps wherein a change in temperature of the molding material is evaluated on the basis of correlating a change in position of the driving member to changing forces acting on the valve member that is connected to the driving member andwherein the controller is further configured to evaluate the indication of the molding parameter by performing steps of correlating a change in temperature of the valve actuator to heat generated as a result of an increase in actuation force/torque to undo the change in position and maintain position. 2. The control structure of claim 1, wherein: the controller is configured to control a controllable device that is associated with a molding material distributor of the molding system on the basis of the indication of the molding parameter. 3. The control structure of claim 1, wherein: the controller is further configured to adjust one or more of an open position of the valve member to choke melt flow and a timing of an open position of the valve member on the basis of the indication of the molding parameter. 4. The control structure of claim 1, wherein: the operating parameter of the valve actuator is provided by a sensor that is associated with the valve actuator. 5. The control structure of claim 1, wherein: the operating parameter of the valve actuator is provided by monitoring an intrinsic operating parameter of the valve actuator. 6. The control structure of claim 1, wherein: the valve actuator is one of an electric actuator, a hydraulic actuator or a pneumatic actuator. 7. The control structure of claim 1, wherein: the controller is further configured to evaluate the indication of the molding parameter by performing steps of calculating a derivative of one or more of a velocity, integrated position error of the valve member. 8. The control structure of claim 1, wherein: the valve actuator is an electric actuator and wherein the operating parameter of the valve actuator to be monitored by the controller with which to indirectly appreciate the indication of the molding parameter includes one or more of: an applied current;an applied voltage; anda position signal. 9. The control structure of claim 1, wherein: the controller is configured to indirectly appreciate the indication of the molding parameter on the basis of the operating parameter of the valve actuator as a function of time, and the controller is configured to indirectly appreciate the indication of the molding parameter on the basis of a derivative of the operating parameter of the valve actuator. 10. The control structure of claim 1, wherein: the valve is associated with a molding material distributor; the valve is positioned between the molding material distributor and a mold cavity that is defined in a mold for regulating flow of the molding material and;the controller is configured to detect an end of filling of the mold cavity by analyzing current flow through the valve actuator in closed loop motion control. 11. The control structure of claim 10, wherein: the valve member is a valve stem that is reciprocated, in use, by the valve actuator, wherein the valve stem cooperates with a gate to regulate the flow of the molding material. 12. The control structure of claim 10, wherein: the valve is positioned within a melt channel that is defined in the molding material distributor for controlling a mass balance of a distribution of the molding material between a plurality of outlets. 13. The control structure of claim 1, further comprising: a plurality of valve actuators for positioning a plurality of valve members of a plurality of valves that are associated with a molding material distributor of the molding system to control molding material flow to a plurality of mold cavities that are defined in a mold of the molding system;wherein, the controller is configured to monitor one or more operating parameters of the plurality of valve actuators with which to indirectly appreciate a plurality of indications of molding parameters within the plurality of mold cavities. 14. The control structure of claim 1 wherein the controller is configured to maintain the valve member in a selected position within an acceptable tolerance. 15. The control structure of claim 14 wherein the monitored operating parameter is a movement of the valve member and wherein the indication of the molding parameter is an indication of pressure acting on the valve member. 16. The control structure of claim 1 wherein the controller is configured to maintain the valve actuator in a condition of applying a selected force, within an acceptable tolerance, to the valve member. 17. The control structure of claim 16 wherein the monitored operating parameter is an output of an encoder assembly and the indication of the molding parameter is an indication of a pressure of a molding material. 18. The control structure of claim 1 wherein the indication of the molding parameter indirectly appreciated by the controller includes a viscosity of the molding material. 19. A method executable in a controller of a molding system for controlling the operation of the molding system, the method comprising: executing a control sequence to control a valve actuator that selectively positions a valve member of a valve for regulating flow of molding material in the molding system to maintain at least one of the valve actuator and the valve member in a selected condition;while maintaining the at least one of the valve actuator and the valve member in the selected condition, monitoring an operating parameter of the valve actuator;indirectly appreciating an indication of a molding parameter of the molding system on the basis of the operating parameter of the valve actuator, wherein indirectly appreciating the indication of the molding parameter comprises correlating changes in the operating parameter of the valve actuator to changing forces acting on the valve member; andcontrolling a controllable device of the molding system on the basis of the indication of the molding parameterwherein correlating a change in temperature of the valve actuator to heat generated as a result of an increase in actuation force/torque to undo a change in position and maintain position to evaluate the indication of the molding parameter. 20. The method of claim 19, wherein: the controller is configured to control a controllable device that is associated with a molding material distributor of the molding system on the basis of the indication of the molding parameter;the indication of the molding parameter relates to an indication of a temperature of the molding material; andthe controllable device is a thermal device that is associated with the molding material distributor, and wherein the controller is configured to control the thermal device for controlling the temperature of the molding material. 21. The method of claim 19, wherein: the operating parameter of the valve actuator to be monitored by the controller with which to indirectly appreciate the indication of the molding parameter includes a position of a driving member of the valve actuator, and wherein the method further comprises: correlating a change in position of the driving member to changing forces acting on a valve member that is connected to the driving member and further evaluating a change in one or more of pressure and temperature of the molding material based on the correlation; andcalculating a derivative of one or more of a velocity, integrated position error of the valve member to evaluate the indication of the molding parameter. 22. The method of claim 19, further comprising: monitoring one or more operating parameters of a plurality of valve actuators with which to indirectly appreciate a plurality of indications of molding parameters within a plurality of mold cavities. 23. The method of claim 19 wherein the control sequence is configured to maintain the valve member in a selected position within an acceptable tolerance. 24. The method of claim 23 wherein the monitored operating parameter is a movement of the valve member and wherein the indication of the molding parameter is an indication of pressure acting on the valve member. 25. The method of claim 19 wherein the control sequence is configured to maintain the valve actuator in a condition of applying a selected force, within an acceptable tolerance, to the valve member. 26. The method of claim 25 wherein the monitored operating parameter is an output of an encoder assembly and the indication of the molding parameter is an indication of a pressure of a molding material. 27. The method of claim 19 wherein the indication of the molding parameter indirectly appreciated includes a viscosity of the molding material.
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이 특허에 인용된 특허 (8)
Doughty, Michael A.; Firisin, Wesley Drew; Hume, William J.; Moss, Mark D.; Kazmer, David, Controlled injection using manifold having multiple feed channels.
Jones Trefor T. ; Kalemba Jacek,CAX ; Schad Robert D,CAX ; Von Buren Stefan, Method and apparatus for injection molding including valve stem positioning.
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