A system for molding an object includes an articulated mold having an axis and a plurality of mold portions configured to collectively define a molding cavity for shaping the object when arranged in respective molding positions. The system includes a plurality of actuators, each operatively coupled to a respective mold portion and configured to move the respective mold portion along the axis from the respective molding position toward a respective ejecting position for releasing the object. The system includes a controller in communication with each of the plurality of actuators and configured to independently activate each of the plurality of actuators such that one of the plurality of mold portions moves along the axis from the respective molding position toward the respective ejecting position while at least one other of the plurality of mold portions remains stationary relative to the object in order to at least partially support the object.

An actuator system for use in a mold system includes a first actuator operatively coupled to a first mold portion and configured to move the first mold portion along an axis in a first direction from a first molding position toward a first ejecting position. The system also includes a second actuator operatively coupled to a second mold portion and configured to move the second mold portion along the axis in the first direction from a second molding position toward a second ejecting position. The system further includes a controller in communication with the first and second actuators and configured to independently activate the first and second actuators.

An actuator system for use in a mold system includes a first actuator operatively coupled to a first mold portion and configured to move the first mold portion along an axis in a first direction from a first molding position toward a first ejecting position. The system also includes a second actuator operatively coupled to a second mold portion and configured to move the second mold portion along the axis in the first direction from a second molding position toward a second ejecting position. The system further includes a controller in communication with the first and second actuators and configured to independently activate the first and second actuators.

In one example, a method includes positioning, within a mold, a device with a movable element that defines a portion of a volume, and the volume is contained within the mold, as part of a molding process, at least partly defining a molded watercraft by introducing plastic into the mold, disposing the plastic about the movable element, and with the movable element, excluding the plastic from the portion of the volume that is defined by the movable element so as to define a recess and an undercut that are integral with the watercraft and extend lengthwise with respect to a centerline of the watercraft, and the recess and undercut are integral, and communicate, with each other.

In one example, a method includes positioning, within a mold, a device with a movable element that defines a portion of a volume, and the volume is contained within the mold, as part of a molding process, at least partly defining a molded watercraft by introducing plastic into the mold, disposing the plastic about the movable element, and with the movable element, excluding the plastic from the portion of the volume that is defined by the movable element so as to define a recess and an undercut that are integral with the watercraft and extend lengthwise with respect to a centerline of the watercraft, and the recess and undercut are integral, and communicate, with each other.

A method of producing a container (2) from a blank (3) made of plastics material within a mould (4) which is provided with a wall (5) defining a cavity (6) bearing the impression of the container (2), and with a mould base (8) which can move relative to the wall (5) between a retracted position in which it extends in set-back manner relative to the cavity (6) and a deployed position in which it closes the cavity (6). The method includes a boxing stage in which the mould base (8) moves from its retracted position to its deployed position, the travel (C) of the mould base (8) between its retracted position and its deployed position being greater than 20 mm.

A stretch blow moulding method for manufacturing a plastic container, wherein a preform, configured in an essentially tubular manner with a neck part, is inserted into a mould cavity of a blow moulding tool of a stretch blow moulding machine. The preform is stretched with a stretching mandrel and is inflated in accordance with the mould cavity by overpressure with a fluid. A dome connects onto a container section which is provided with at least one structure which projects or recedes with respect to the container wall and is separated away. With the stretch blow moulding method, at least one section of the structure is axially compressed to a settable extent within the mould cavity before the plastic container is removed from the mould.

Apparatus (1) for forming plastic preforms (10) into plastic containers (20), having at least one blow mould (14) which has at least two blow mould side parts (14a, 14b) and a bottom mould (14c), wherein the blow mould side parts (14a, 14b) and the bottom mould (14c) forming a cavity which corresponds to a negative contour of the plastic container (20) to be formed, wherein between the blow mould side parts (14a, 14b) and the bottom mould (14c) at least a first parting plane (22) and a second parting plane (24) is present, wherein the first parting plane (22) extending between the two side parts (14a, 14b) and the second parting plane (24) extending between the side parts (14a, 14b) and the bottom mould (14c), wherein the blow mould side parts (14a, 14b) and the bottom mould (14c) can be separated from each other by the second parting plane (24) and the bottom mould (14c) can be removed from the blow mould side parts (14a, 14b) by a bottom lift. According to the invention, at least a part of the bottom contour (15b) of the bottom mould (14c) is arranged in the blow mould side parts (14a, 14b).

Apparatus (1) for forming plastic preforms (10) into plastic containers (20), having at least one blow mould (14) which has at least two blow mould side parts (14a, 14b) and a bottom mould (14c), wherein the blow mould side parts (14a, 14b) and the bottom mould (14c) forming a cavity which corresponds to a negative contour of the plastic container (20) to be formed, wherein between the blow mould side parts (14a, 14b) and the bottom mould (14c) at least a first parting plane (22) and a second parting plane (24) is present, wherein the first parting plane (22) extending between the two side parts (14a, 14b) and the second parting plane (24) extending between the side parts (14a, 14b) and the bottom mould (14c), wherein the blow mould side parts (14a, 14b) and the bottom mould (14c) can be separated from each other by the second parting plane (24) and the bottom mould (14c) can be removed from the blow mould side parts (14a, 14b) by a bottom lift. According to the invention, at least a part of the bottom contour (15b) of the bottom mould (14c) is arranged in the blow mould side parts (14a, 14b).

A container production method by liquid blow molding. The method includes a pushing step in which a liquid is collected from a preform at the timing at which the pressure inside of the preform starts rising by pushing of the expanded and deformed preform by a movable mold portion of a blow molding mold so that the rise in the pressure is suppressed or prevented.