A method of detecting and compensating for a non-operational mold cavity in an injection molding apparatus having a plurality of mold cavities and an injection molding screw or ram includes injecting, via the injection molding screw or ram, a molten thermoplastic material into the plurality of mold cavities. The method includes measuring a first process parameter of the injection molding apparatus at a pre-determined time during or after the injecting. The method also includes determining, based on the first process parameter, whether one or more mold cavities of the plurality of mold cavities are non-operational. Then, when it is determined that one or more mold cavities are non-operational, the method includes automatically adjusting the first process parameter or a second process parameter of the injection molding apparatus.

A controller is for an injection molding machine including an injecting member configured to push a molding material in a forward direction, the molding material containing a bioplastic; and an injection drive source configured to cause the injecting member to travel forward or backward. The controller is configured to perform filling in which a forward travel speed of the injecting member is controlled so that an actual value of a pressure applied from the injecting member to the molding material does not exceed an upper limit of the pressure. In at least a part of the filling, a value of from 550 mm/s through 700 mm/s is settable as a set value of the forward travel speed of the injecting member, and a value of 200 MPa or higher is settable as the upper limit of the pressure.

In order to improve the consistency of molded products as viscosity shifts throughout a run, a controller of an injection molding machine executes a calibration cycle in accordance with a mold cycle. The controller analyzes a plurality of sensed melt pressure values during the calibration cycle to determine one or more calibration metrics. The controller then uses the calibration metrics when executing each mold cycle of the run. More particularly, during each mold cycle of the run, the controller detects a plurality of sensed melt pressures prior to and during a fill phase of the mold cycle and compares the plurality of sensed melt pressures to the one or more calibration metrics to predict cavity pressure for a pack and hold phase of the mold cycle. The controller then adjusts a set point pressure for the pack and hold phase based on the predicted cavity pressure.

An injection nozzle to be attached to a tip end of a heating cylinder of an injection device includes a temperature sensor measuring a temperature in a rear end portion of the injection nozzle to be attached to the heating cylinder. The injection nozzle has a groove formed in an outer peripheral surface from a vicinity of the rear end portion toward a tip end of the injection nozzle in a longitudinal direction, and a sensor hole formed in the vicinity of the rear end portion continuously from the groove. The rear end portion temperature sensor includes a sensor device at a distal end, which is inserted into the sensor hole, and a conductive wire portion housed along the groove near the distal end and extending outwardly in a vicinity of a central portion of the injection nozzle.

The present invention relates to a control method for a high-speed fluid injection system and a system configured for implementing the control method. Similarly, the invention has a monitoring system for the system configured for implementing the control method. In particular, the present invention allows automatically, precisely, and continuously controlling the amount of fluid injected or applied to a plurality of parts.

A runner system for a multi-cavity injection molding system, the runner system having runners of reduced size.

A remote controller can be provided on any apparatus that employs feedback control from a native controller to add functionality to the apparatus where the native controller is not capable of providing such functionality independently.

A remote controller can be provided on any apparatus that employs feedback control from a native controller to add functionality to the apparatus where the native controller is not capable of providing such functionality independently.

A method and a machine account for changes in material properties of molten plastic material during an injection run. A change in a control signal is calculated by a controller during the injection molding run. If the change in the control signal indicates a change in material flowability, the controller alters a target injection pressure to ensure that molten plastic material completely fills and packs a mold cavity to prevent part flaws such as short shots or flashing.

A runner system for a multi-cavity injection molding system, the runner system having runners of reduced size.