The invention relates to a system for automatic closure of sample vessels (PG), in particular of sample vessels (PG) with medical laboratory samples, with iii. a plurality of identically shaped, stackable closure caps (10) which have a convex outer face and a concave inner face and which are stacked in at least one closure cap stack in such a way that an upper closure cap (10) in the closure cap stack bears with its convex outer face on the concave inner face of a lower closure cap (10) lying immediately below in the closure cap stack, iv. a closure gripper (20) for gripping an uppermost closure cap (10) from the at least one closure cap stack, for transferring the gripped closure cap (10) to the sample vessel (PG) to be closed, and for introducing the gripped closure cap (10) into an opening of the sample vessel in order to tightly close the opening, wherein the closure gripper (20) has a centering piece which can be inserted into a closure cap (10) in such a way that it bears on the concave inner face of the closure cap (10). With such a system, automated closure of sample vessels is possible in a space-saving and efficient way. Furthermore, a method for automatic closure of sample vessels is also disclosed.

An automatic cosmetic bottle capping having a first conveyor belt, a second conveyor belt, and a third conveyor belt. A sliding convex is provided at a surface of the first conveyor belt, a capper is movably sleeved on the first conveyor belt, a suction tip is provided in the capper, rolling balls are provided inside the capper, a through-hole is provided in an external surface of the capper, a capping claw is provided on a lower end of the capper, a positioning plate is provided on an upper end of the capper, springs are provided at a lower end of the positioning plate, a hole plug is movably connected outside the through-hole, and a cap is provided on a front end of the second conveyor belt.

An automatic cosmetic bottle capping having a first conveyor belt, a second conveyor belt, and a third conveyor belt. A sliding convex is provided at a surface of the first conveyor belt, a capper is movably sleeved on the first conveyor belt, a suction tip is provided in the capper, rolling balls are provided inside the capper, a through-hole is provided in an external surface of the capper, a capping claw is provided on a lower end of the capper, a positioning plate is provided on an upper end of the capper, springs are provided at a lower end of the positioning plate, a hole plug is movably connected outside the through-hole, and a cap is provided on a front end of the second conveyor belt.

A packaging system for aseptically packaging, filling, and sealing medical containers includes a container tray (100) having a container cell (120) for receiving and stabilizing the medicine container. The system also includes a stopper holder (300) with a stopper cell (320) forming a closed body with a distal opening, an interior space, a proximal wall opposite the distal opening, and a proximal outer surface (330). The stopper cell (320) is configured for releasably securing the stopper and releasing the stopper into a fill opening of the medicine container when a compressive force is exerted on the proximal outer surface of the stopper cell (320).

A packaging system for sealing a medicine container having a filling opening with a stopper includes a container tray having a container cell for receiving and stabilizing the medicine container. A shuttle has an exterior surface and an interior surface. The interior surface is configured for releasably securing the stopper. The shuttle is configured to release the stopper into the fill opening upon application of a releasing force to the exterior surface of the shuttle. A shuttle tray has a shuttle cell. The shuttle cell forms a body with a proximal opening, an interior space, a bottom inner surface opposite the proximal opening, and a side inner surface. The shuttle cell releasably secures the shuttle.

A packaging system for sealing a medicine container having a filling opening with a stopper includes a container tray having a container cell for receiving and stabilizing the medicine container. A shuttle has an exterior surface and an interior surface. The interior surface is configured for releasably securing the stopper. The shuttle is configured to release the stopper into the fill opening upon application of a releasing force to the exterior surface of the shuttle. A shuttle tray has a shuttle cell. The shuttle cell forms a body with a proximal opening, an interior space, a bottom inner surface opposite the proximal opening, and a side inner surface. The shuttle cell releasably secures the shuttle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the top of the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A system and method for easily operated self-releasing stopper/cork for bottles of compressed liquids. The corks have a gas bladder that is designed to be inserted in a bottle and inflated, the bladder having a ribbed or smooth exterior to complete the sealing of the bottle whereby a gas release mechanism can be activated by depressing a button on a cap or via an on-board micro controller and/or electro-mechanical release solution in the cap. Once the gas is released from the top of the bladder the pressure inside the vessel will collapse the bladder's bottom and eject the cork assembly from the bottle.

A closure constructed for being inserted and securely retained in a portal-forming neck of a container, the closure having a substantially cylindrical shape and comprising substantially flat terminating surfaces forming the opposed ends of the closure, wherein the closure further comprises: (a) a closure precursor having a substantially cylindrical shape and comprising a lateral surface and substantially flat terminating surfaces forming the opposed ends of the closure precursor, wherein the lateral surface and the flat terminating surfaces of the closure precursor have a substantially uniform color; and (b) a decorative layer that at least partially covers at least the lateral surface of the closure precursor.

A closure constructed for being inserted and securely retained in a portal-forming neck of a container, the closure having a substantially cylindrical shape and comprising substantially flat terminating surfaces forming the opposed ends of the closure, wherein the closure further comprises: (a) a closure precursor having a substantially cylindrical shape and comprising a lateral surface and substantially flat terminating surfaces forming the opposed ends of the closure precursor, wherein the lateral surface and the flat terminating surfaces of the closure precursor have a substantially uniform color; and (b) a decorative layer that at least partially covers at least the lateral surface of the closure precursor.