A production machine in the plastics processing industry includes multiple cavities and multiple piezoelectric pressure transducers. At least one piezoelectric pressure transducer is arranged at each cavity and captures an internal tool pressure inside the cavity and returns an electrical charge signal for each internal tool pressure detected. A cabling interface conducts the electrical charge signal away from piezoelectric pressure transducer via an inner cable. Each of the inner cables can be connected electrically to the cabling interface via at least two different connection standards.

An injection-molding method is provided in which in a first injection-molding step at least one first material component (17) is injected into a mold cavity (4) of an injection mold (3). The first injection-molding step is terminated when a condition pertaining to a first material volume that has been injected in the first injection-molding step has been met. This condition can be, for example, a minimum filling level which is caused in the mold cavity (4) by a material volume from the at least one first material component (17) that in the first injection-molding step has been injected into the mold cavity (4). When the minimum filling level can be detected or confirmed, for example with the aid of a sensor (10), the first injection-molding step is terminated and a second injection-molding step can optionally be started.

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.

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.

A relay device and a pressure detection device are provided that are configured to eliminate the necessity of calibrating an output value from a pressure sensor in the pressure detection device even when a mold is replaced. A relay device for a pressure detection device provided with a pressure sensor (S1 to Sn) configured to detect an inner pressure in a cavity (CT) of a mold of an injection molding machine is provided. The relay device is integrally fixed to the mold. The relay device includes a storage configured to store specific information of the pressure sensor (S1 to Sn) provided to the mold to detect the inner pressure of the cavity (CT), the cavity (CT) being defined between a fixed-side mold and a movable-side mold of the mold.

An injection molding apparatus including a mold, an injection device and a specific volume sensing module is provided. The injection device is adapted to inject a material into the mold. At least parts of the specific volume sensing module are disposed at the mold, wherein the specific volume sensing module is adapted to sense an actual specific volume of the material in the mold. In addition, an injection molding method is also provided.

There is provided a mold stack (100). The mold stack (100) comprises a core insert assembly (102), the core insert assembly (102) for defining an inner portion of a molded article to be molded. The core insert assembly (102) includes a sensor assembly (120) configured to measure the in-mold pressure using entire active surface of the core insert assembly (102).

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 mold test apparatus includes a mold support plate having a top surface on which a mold is mounted, wherein the mold support plate includes a plurality of test suction pipes communicating with paths in the mold, vacuum pipes each having one end connected to one of the plurality of test suction pipes, a pump connected to the other end of the pipe, and at least one pressure sensor configured to measure a pressure of the vacuum pipe, wherein the paths communicate with adsorption holes provided in a top surface of the mold, and wherein the at least one pressure sensor includes a determining unit configured to determine whether the adsorption holes are clogged by using the measured pressure.

An injection molding system comprised of: an injection machine having a barrel and a screw for injecting an injection fluid, a distribution manifold, a valve associated with a corresponding one of one or more downstream gates, a sensor adapted to sense and generate a signal indicative of pressure of the injection fluid in the barrel or an inlet that delivers injection fluid from the barrel to the manifold, and a controller receiving the signal generated from the sensor and including instructions that use the signal as a control value to adjust, during the course of an injection cycle, positioning or velocity of one or more of the valve pins.