A surface decontamination device (1) for decontaminating outer packagings (2) which contain pre-sterilised consumer goods and have a circumferential collar (3) prior to transfer into an insulator includes a conveyor for conveying the outer packagings (2) in a conveying direction (F) along a conveying path from an inlet side to an outlet side of the device (1). The conveying path passes through a decontamination chamber (5) between the inlet side and outlet side. An irradiation source (6) is associated with the chamber (5) for irradiating the outer packagings (2) conveyed through the chamber (5). The conveying path passes through at least one lock chamber (8) arranged between the inlet side and outlet side, adjacent to the chamber (5) and having an inlet and an outlet, the inlet and outlet being able to be opened and closed by a closer. The conveyor includes a suspended transport unit (7) in the chamber (5) for suspended transport of the outer packagings (2) on the circumferential collar (3) thereof, wherein a lifting unit (11, 15) for automatic, vertical adjustment of the outer packagings (2) relative to the suspended transport unit (7) is arranged in the lock chamber (8, 14).

A surface decontamination device (1) for decontaminating outer packagings (2) which contain pre-sterilised consumer goods and have a circumferential collar (3) prior to transfer into an insulator includes a conveyor for conveying the outer packagings (2) in a conveying direction (F) along a conveying path from an inlet side to an outlet side of the device (1). The conveying path passes through a decontamination chamber (5) between the inlet side and outlet side. An irradiation source (6) is associated with the chamber (5) for irradiating the outer packagings (2) conveyed through the chamber (5). The conveying path passes through at least one lock chamber (8) arranged between the inlet side and outlet side, adjacent to the chamber (5) and having an inlet and an outlet, the inlet and outlet being able to be opened and closed by a closer. The conveyor includes a suspended transport unit (7) in the chamber (5) for suspended transport of the outer packagings (2) on the circumferential collar (3) thereof, wherein a lifting unit (11, 15) for automatic, vertical adjustment of the outer packagings (2) relative to the suspended transport unit (7) is arranged in the lock chamber (8, 14).

A robotic automated filling and capping system is made up of a cartridge infeed conveyor, a cap infeed conveyor, an outfeed conveyor, a six-axis robot, and a selective compliance articulated robot arm, all of which are configured to work together to automatically, and sanitarily, fill and cap vape oil cartridges.

In combination a spouted pouch to be filled with a flowable product by a filling machine, a plug, and a cap. The interference fit plug is releasably mounted over the top end of the neck of the spout body and hermetically seals the product passage of the spout body. The plug is adapted to be removed by the filling machine and to be replaced by pressing the plug onto the neck after filling of the pouch. The plug removal, filling, and replacing of the plug are preferably performed in an aseptic environment. The cap is after the filling of the pouch and the replacing of the plug onto the neck. The capping is preferably performed by a capping machine in a non-aseptic environment.

In combination a spouted pouch to be filled with a flowable product by a filling machine, a plug, and a cap. The interference fit plug is releasably mounted over the top end of the neck of the spout body and hermetically seals the product passage of the spout body. The plug is adapted to be removed by the filling machine and to be replaced by pressing the plug onto the neck after filling of the pouch. The plug removal, filling, and replacing of the plug are preferably performed in an aseptic environment. The cap is after the filling of the pouch and the replacing of the plug onto the neck. The capping is preferably performed by a capping machine in a non-aseptic environment.

There is described a packaging apparatus for forming a plurality of sealed packages-comprising conveyor for advancing a web of packaging material along an advancement path, an isolation chamber, a tube forming device adapted to form a tube from the, in use, advancing web of packaging material, a sealing device adapted to longitudinally seal the tube, a support structure carrying at least the tube forming device, a filling device for continuously filling the tube formed by the tube forming device, a package forming unit adapted to form and seal the packages from the, in use, advancing tube formed by the tube forming device and filled by the filling device. The support structure comprises at least one support column at least indirectly carrying the tube forming device and extending parallel to the longitudinal axis of the tube forming device.

There is described a packaging apparatus for forming a plurality of sealed packages-comprising conveyor for advancing a web of packaging material along an advancement path, an isolation chamber, a tube forming device adapted to form a tube from the, in use, advancing web of packaging material, a sealing device adapted to longitudinally seal the tube, a support structure carrying at least the tube forming device, a filling device for continuously filling the tube formed by the tube forming device, a package forming unit adapted to form and seal the packages from the, in use, advancing tube formed by the tube forming device and filled by the filling device. The support structure comprises at least one support column at least indirectly carrying the tube forming device and extending parallel to the longitudinal axis of the tube forming device.

There is described a packaging apparatus for forming a plurality of sealed packages comprising a conveyor for advancing a web of packaging material along an advancement path, an isolation chamber, a tube forming device adapted to form a tube from the, in use, advancing web of packaging material, a sealing device adapted to longitudinally seal the tube, a filling device for continuously filling the tube formed by the tube forming device, a package forming unit adapted to form and seal the packages from the, in use, advancing tube formed by the tube forming device and filled by the filling device and a support platform supporting the isolation chamber from a first side of the support platform and carrying the package forming unit from a second side of the support platform opposite to the first side.

There is described a packaging apparatus for forming a plurality of sealed packages comprising a conveyor for advancing a web of packaging material along an advancement path, an isolation chamber, a tube forming device adapted to form a tube from the, in use, advancing web of packaging material, a sealing device adapted to longitudinally seal the tube, a filling device for continuously filling the tube formed by the tube forming device, a package forming unit adapted to form and seal the packages from the, in use, advancing tube formed by the tube forming device and filled by the filling device and a support platform supporting the isolation chamber from a first side of the support platform and carrying the package forming unit from a second side of the support platform opposite to the first side.

The present invention relates to methods for making wear and oxidation resistant polymeric materials by high temperature melting. The invention also provides methods of making medical implants containing cross-linked antioxidant-containing tough and ductile polymers and materials used therewith also are provided.