A system for filling a chambered package includes a carrying mechanism travelling in a machine direction and having chambered recesses defined about a surface thereof, a first dispensing nozzle configured to dispense a quantity of a medium onto the surface of the carrying mechanism for direction into the chambered recesses in a first group of the chambered recesses defined about the surface of the carrying mechanism, and a first wiper blade disposed along the carrying mechanism in the machine direction after the first dispensing nozzle, the first wiper blade defining a curvilinear surface having crests configured to direct the quantity of the medium into the chambered recesses in the first group of the chambered recesses and troughs configured to direct the quantity of the medium away from entering the chambered recesses in the second group of the chambered recesses.

A guide member including: an upper main body that is positioned so as to enclose the filling valve and so as to be movable in a vertical direction relative to the filling port; and a lower main body that is positioned so as to enclose the upper main body and is configured to be slidable on the surface of the upper main body. The lower main body is provided with an abutting portion that protrudes inward relative to the inner surface of the lower main body and that is configured to abut against at least an opening portion of the container mounted on the container supporting unit, and the guide member is configured to allow the container to be lifted while keeping the abutting portion abutted against the opening portion, thereby guiding the opening portion to an appropriate position relative to the filling port.

A method for producing filled containers (16) from preforms (13). Each of the preforms is transferred to a circulating molding and filling element (14) of a molding and filling station and is shaped into the respective container in a subsequent molding and filling process in a mold under the effect of pressure from a supplied filler, wherein the mold is designed in multiple parts, including a base mold (21) and mold sides (19, 20), and each container is clamped between the base mold at the bottom and the molding and filling element at the top at least at the end of the molding and filling process. The container is separated from the respective molding and filling element and the respective mold after the molding and filling process. The mold sides are removed from each container before the molding and filling element and the base mold are separated from the container.

A rotary filling machine for filling containers with bridgeable dry materials includes a turret supporting a plurality of circumferentially spaced drop buckets and a plurality of funnel assemblies located under the drop buckets. A stationary slide plate is located vertically between the funnel assemblies and the drop buckets. When viewed in a direction of turret rotation, the slide plate has an upstream end, a downstream end, and inner and outer edges. A portion of the slide plate is tapered progressively in diameter toward its downstream end such that flow paths from the bottoms of the drop buckets to the inlet openings of the funnel assemblies increase progressively in diameter with the taper of the slide plate. Also provided is a funnel assembly that dilates bridgeable materials before dispensing those materials into a container.

A rotary filling machine includes a hub member and a hub insert. The hub member includes an internal bore defining an inner surface portion with a plurality of material transfer openings. The hub insert includes a portion disposed within the bore, wherein the portion includes an outer surface portion that includes a plurality of material transfer openings. One of the hub member or the hub insert is rotatable and the other of the hub member or the hub insert is stationary.

A rotary filling machine for filling containers with bridgeable dry materials includes a turret supporting a plurality of circumferentially spaced drop buckets and a plurality of funnel assemblies located under the drop buckets. A stationary slide plate is located vertically between the funnel assemblies and the drop buckets. When viewed in a direction of turret rotation, the slide plate has an upstream end, a downstream end, and inner and outer edges. A portion of the slide plate is tapered progressively in diameter toward its downstream end such that flow paths from the bottoms of the drop buckets to the inlet openings of the funnel assemblies increase progressively in diameter with the taper of the slide plate. Also provided is a funnel assembly that dilates bridgeable materials before dispensing those materials into a container.

A conveyance mechanism is provided. A bag body processing unit is installed with a roller unit. While the process transfer unit transfers a bag body processing unit from a first guide station to a second guide station, the roller unit moves from a first guide surface to a second guide surface and is placed on the second guide surface in the second guide station. In the second guide station, the roller unit is placed on the second guide surface, and a second guide part is moved from a first variation position to a second variation position while the roller unit is placed on the second guide surface, so that the roller unit is moved from a first height position to a second height position.

A guide member including: an upper main body that is positioned so as to enclose the filling valve and so as to be movable in a vertical direction relative to the filling port; and a lower main body that is positioned so as to enclose the upper main body and is configured to be slidable on the surface of the upper main body. The lower main body is provided with an abutting portion that protrudes inward relative to the inner surface of the lower main body and that is configured to abut against at least an opening portion of the container mounted on the container supporting unit, and the guide member is configured to allow the container to be lifted while keeping the abutting portion abutted against the opening portion, thereby guiding the opening portion to an appropriate position relative to the filling port.

An apparatus for transferring pharmaceutical articles from a counting machine to containers advancing along a conveyor line comprises a first series of tubular elements and at least one second series of tubular elements able to receive the pharmaceutical articles internally thereof. The apparatus comprises a first looped movement organ for moving the first tubular elements and at least one independently activatable second looped movement organ for moving the second tubular elements both, a stepped fashion and continuously, and each defining a looped movement pathway for the tubular elements comprising a first straight path portion below the counting machine so that the tubular elements can be halted for receiving therefrom the counted articles, and a second straight path portion above the conveyor line, so that the tubular elements can be moved at the same velocity above the containers and release the articles therein.

The invention relates to an apparatus and a method for passing a medium into a container, for example a flexible pouch, with a rotatable carousel and one or more treatment stations with a movable lance that can be inserted into the container, and a receptacle for a container, characterized in that an indirect magnetic drive means for moving the lance is provided, wherein a first part (lance part) of the magnetic drive means is joined with the lance and a second part (drive part) of the magnetic drive means is indirectly magnetically coupled with the lance part.