A PTP packaging machine includes: a filler that fills a predetermined content into pocket portions formed in a strip-shaped container film; a sealer that is provided on a downstream side of the filler and mounts a strip-shaped cover film to the container film to close the pocket portions and obtain a strip-shaped PTP film including the cover film mounted to the container film; and a puncher that is provided on a downstream side of the sealer and punches out an expected sheet portion of the PTP film that is a region of eventually forming a predetermined PTP sheet and thereby obtain the PTP sheet.

The present invention relates to a packaging device and sorting system (82) for directional packaging of products (P), such as vegetables and fruit, and a method therefore. The packaging device according to the invention comprises: a sensor system (54) configured to detect a collection of suitable pick-up points; at least one directing unit (16) configured to direct a product and provided with at least one degree of freedom for rotation of the product around a substantially horizontal rotation axis; and a manipulator (28) comprising: a pick-up element (44); and a moving device (30) comprising at least four degrees of freedom for translation of the product and rotation around a substantially horizontal axis, wherein a rotation of the product around a substantially vertical rotation axis is possibly by means of providing the moving device and/or directing unit with an additional degree of freedom.

A system, and associated method, for launching and delivering separated food product in organized groups to a robotized packaging station for the product. The system initiates the delivery via a metered hopper of food product delivering the product to a launch V-belt that aligns the product end to end. A successive singulator belt, positioned adjacent to and receiving product from the launch belt, further organizes the product into a single file alignment. An optional separator belt may follow the singulator belt to create gaps between successive product units. The product is then delivered to a pick belt for product to be provided to the packaging robot. The system product information is from a single (per product delivery line) sensor, enabling intergrated end-to-end control from hopper to robot, and a nearly continuous motion of said pick belt.

A system, and associated method, for launching and delivering separated food product in organized groups to a robotized packaging station for the product. The system initiates the delivery via a metered hopper of food product delivering the product to a launch V-belt that aligns the product end to end. A successive singulator belt, positioned adjacent to and receiving product from the launch belt, further organizes the product into a single file alignment. An optional separator belt may follow the singulator belt to create gaps between successive product units. The product is then delivered to a pick belt for product to be provided to the packaging robot. The system product information is from a single (per product delivery line) sensor, enabling intergrated end-to-end control from hopper to robot, and a nearly continuous motion of said pick belt.

A storage container for a storage and delivery station for drugs is provided. The storage container includes a retainer for preventing a multiple drug portions from being delivered simultaneously. The storage container includes a housing that surrounds a receiving chamber and has a circular cylindrical section and a base surface, and a separating device disposed rotatably in the circular cylindrical section and having multiple projections and channels. Each projection has a surface, the uppermost points of the surface defining an upper receiver boundary plane. The storage container also includes a retainer with a fastening section and a retaining section, the retaining section preventing entry of the drug portions into a channel aligned with a delivery opening, and at least one cam for removing drug portions from the retaining section, the cam being movable above the upper receiver boundary plane over the retaining section.

A storage container for a storage and delivery station for drugs is provided. The storage container includes a retainer for preventing a multiple drug portions from being delivered simultaneously. The storage container includes a housing that surrounds a receiving chamber and has a circular cylindrical section and a base surface, and a separating device disposed rotatably in the circular cylindrical section and having multiple projections and channels. Each projection has a surface, the uppermost points of the surface defining an upper receiver boundary plane. The storage container also includes a retainer with a fastening section and a retaining section, the retaining section preventing entry of the drug portions into a channel aligned with a delivery opening, and at least one cam for removing drug portions from the retaining section, the cam being movable above the upper receiver boundary plane over the retaining section.

A component conveyance disk of a taping apparatus has a plurality of component transport units at an equiangular interval. Each component transport unit is formed of three component transport grooves in a peripheral portion of the component conveyance disk. Width direction centerlines of the respective component transport grooves are parallel to each other, with a portion thereof in a direction along the width direction centerlines opening toward a component storage chamber. Dimensions along the width direction centerlines of the opened portion of the respective component transport grooves are shorter than a length of the component. In addition, the respective component transport grooves have component guides that guide the components into the respective component transport grooves.

A storage container for a storage and delivery station for drugs is provided. The storage container includes a retainer for preventing a multiple drug portions from being delivered simultaneously. The storage container includes a housing that surrounds a receiving chamber and has a circular cylindrical section and a base surface, and a separating device disposed rotatably in the circular cylindrical section and having multiple projections and channels. Each projection has a surface, the uppermost points of the surface defining an upper receiver boundary plane. The storage container also includes a retainer with a fastening section and a retaining section, the retaining section preventing entry of the drug portions into a channel aligned with a delivery opening, and at least one cam for removing drug portions from the retaining section, the cam being movable above the upper receiver boundary plane over the retaining section.

A storage container for a storage and delivery station for drugs is provided. The storage container includes a retainer for preventing a multiple drug portions from being delivered simultaneously. The storage container includes a housing that surrounds a receiving chamber and has a circular cylindrical section and a base surface, and a separating device disposed rotatably in the circular cylindrical section and having multiple projections and channels. Each projection has a surface, the uppermost points of the surface defining an upper receiver boundary plane. The storage container also includes a retainer with a fastening section and a retaining section, the retaining section preventing entry of the drug portions into a channel aligned with a delivery opening, and at least one cam for removing drug portions from the retaining section, the cam being movable above the upper receiver boundary plane over the retaining section.

Described herein are methods and systems for automated dispensing of individual medicament portions. The systems can include a housing that encloses a receiving space having a bottom surface. A separation device may be provided and arranged on the bottom surface with at least one channel to receive at least one medicament portion. At least one channel may have an opening facing the receiving space and an opening facing the bottom surface. The opening facing the bottom surface may be associated with a contact area on the bottom surface, over which contact area the medicament portions may be guided upon a movement of separation device. At least one recess may be arranged in the bottom surface outside of the contact area to receive contamination particles present in the container.