A method and a device for producing blow-molded containers, which are sterile at least in some areas, in a blow-molding machine. A preform made of a thermoplastic material is first heated, then stretched by a stretching rod in a blowing station, and then supplied with a pressurized fluid via a blow nozzle, wherein a sterilization device is arranged in the blowing station. The sterilization device has at least one radiation source which emits a sterilizing radiation onto the stretching rod and/or onto the blow nozzle.

A process station (1) for a parison or a container (2) made of thermoplastic material, comprising: a concave shell (3) configured to be applied onto the mouth (2b) of the individual parison or container (2) in such a manner as to enwrap at least partially the neck (2a) of the parison or container (2) so as to delimit a volume for treatment (4) of the neck (2a) subjected to plasma balls immersed in a carrier gas stream.

An injection molding mold including: a flow path through which a molten resin passes; a main body portion including an introduction portion configured to introduce the molten resin into the flow path and a supply portion configured to supply the molten resin from the flow path to a cavity mold; and a plug unit formed with a plug flow path which is a part of the flow path, the plug unit being attachable to the main body portion, in which a prevention portion configured to prevent a pressure loss from occurring when the molten resin passes through the flow path is formed at a portion of the plug flow path where a moving direction of the molten resin changes.

In one embodiment, a system for conditioning a preform for molding includes a heating cavity for receiving the preform, a heater configured to heat a gas, and a blower configured to force the gas heated by the heater into the heating cavity. In another embodiment, a method of conditioning a preform for molding includes positioning the preform in a heating cavity and forcing a heated gas into the heating cavity onto an exterior surface of the preform.

In one embodiment, a system for conditioning a preform for molding includes a heating cavity for receiving the preform, a heater configured to heat a gas, and a blower configured to force the gas heated by the heater into the heating cavity. In another embodiment, a method of conditioning a preform for molding includes positioning the preform in a heating cavity and forcing a heated gas into the heating cavity onto an exterior surface of the preform.

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.

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.

A molding unit for producing a container, that includes: a mold having the footprint of the container, including a pair of shells each having an inner wall; a pair of shell holders onto each of which a shell is removably attached; a device for controlling the temperature of the mold, that includes: at least one radiator integrated into a shell holder, at least one temperature probe integrated into a shell, for measuring the temperature in the vicinity of the inner wall, a variator connected to the temperature probe and to the radiator, the variator being arranged to modulate the temperature of the radiator depending on the temperature measured by the probe.

A manufacturing process includes (1) disposing a platform in a first tank filled with a first liquid; (2) curing the first liquid to form a portion of a mold on the platform; (3) disposing the platform from the first tank to a second tank filled with a cleaning agent; (4) cleaning; (5) disposing the platform from the second tank to a third tank filled with a second liquid; (6) curing the second liquid to form inner and outer supports of the mold; (7) disposing the platform from the third tank to the second tank; (8) cleaning; (9) disposing the platform from the second tank to the first tank; (10) curing the first liquid to form another portion on the mold; (11) repeating steps (3) to (10) until a complete mold is created; (12) heating the mold to cause the molten material to exit, and (13) creating a hollow product.

An apparatus for taking out molded product in a molding system has an insert portion, abutting portion, recess, and suction port. The insert portion is inserted in a hollow molded product via an opening portion serving as a blow pin extraction port of the hollow molded product. The abutting portion is arranged at the circumference of the insert portion and abuts on an outer circumferential surface of the hollow molded product spaced a predetermined distance from the opening portion serving as the blow pin extraction port. The recess is provided between the insert portion and the abutting portion, accommodates the opening portion in the state where the outer circumferential surface of the hollow molded product abuts on the abutting portion, and forms a stretch of closed space to the inside of the hollow molded product. The suction port is provided in the insert portion and sucks an ambient atmosphere.