A system for filling multiple sterile containers includes a filter with an inlet port and multiple outlet ports, the outlet ports being pre-attached to sterile containers by respective filling lines of each container. Each container has an interior and each of the respective filling lines are connected to a respective container interior. The respective filling lines are sealed to the outlet ports and the containers such that the container interiors are isolated from an external environment except the inlet port, via the filter, forming a combined interior volume which is sterile. A container that is connectable to an outlet port the system has a bladder, a first tube and a second tube connected to the bladder, and a sterilizing filter. The container, the first tube and the second tube, and the sterilizing filter are sterile before water is flowed through the sterilizing filter into the bladder.

A system for filling multiple sterile containers includes a filter with an inlet port and multiple outlet ports, the outlet ports being pre-attached to sterile containers by respective filling lines of each container. Each container has an interior and each of the respective filling lines are connected to a respective container interior. The respective filling lines are sealed to the outlet ports and the containers such that the container interiors are isolated from an external environment except the inlet port, via the filter, forming a combined interior volume which is sterile. A container that is connectable to an outlet port the system has a bladder, a first tube and a second tube connected to the bladder, and a sterilizing filter. The container, the first tube and the second tube, and the sterilizing filter are sterile before water is flowed through the sterilizing filter into the bladder.

Various aspects of the subject disclosure relate to a compounder system having a cartridge that includes controllable fluid pathways. One or more rotary piston pump/valves may be used to move fluid and/or gasses through the various fluid pathways of the cartridge. For example, the cartridge may include a dedicated rotary piston pump/valve for each process that moves fluid and/or gas through the cartridge. When turning, the rotary piston pump/valve acts as a pump to move the fluid or gas, and when the rotary piston pump/valve stops turning, it effectively acts as a shutoff valve, preventing any fluid flow. Magnetic couplers for the cartridge may be provided on a pump head of the compounder system.

Modular mobile mixing and packaging plant for powdery or granular products, comprising a carrying structure having dimensions suitable for being introduced in a standard shipping container and internally housing a receiving and manual weighing module, a material loading module, a mixing module, and a packaging module, wherein the mixing module comprises means for cooling and/or drying the mixture contained in said module.

There is provided a lifting apparatus (16) comprising a lifting frame (16a) configured to be mechanically coupled to a packaging machine (12), and configured to couple with a feed device (14), wherein the lifting frame (16a) is configured to translate, raise and lower the feed device (14) relative to the packaging machine (12), and a packaging system comprising a packaging machine (12) with said lifting apparatus (16) wherein said packaging machine (12) is configured to detachably couple to a feed device (14), wherein the mass of the packaging machine (12) acts to counterbalance at least a portion of the mass of the feed device (14) whilst the feed device (14) is being translated, raised or lowered relative to the packaging machine (12). There is further provided methods of operating said packaging system for installing to and removing from the packaging machine (12) the feed device (14).

There is provided a lifting apparatus (16) comprising a lifting frame (16a) configured to be mechanically coupled to a packaging machine (12), and configured to couple with a feed device (14), wherein the lifting frame (16a) is configured to translate, raise and lower the feed device (14) relative to the packaging machine (12), and a packaging system comprising a packaging machine (12) with said lifting apparatus (16) wherein said packaging machine (12) is configured to detachably couple to a feed device (14), wherein the mass of the packaging machine (12) acts to counterbalance at least a portion of the mass of the feed device (14) whilst the feed device (14) is being translated, raised or lowered relative to the packaging machine (12). There is further provided methods of operating said packaging system for installing to and removing from the packaging machine (12) the feed device (14).

Weighing and filling apparatus for controlling filling device based on a container weight. A linear actuator for driving a drive shaft coupled to container support unit is included, a weight measuring unit determines the container weight from a detected height of the drive shaft detected by a height detecting unit and a drive signal of the linear actuator at the detected height. A first acceleration signal is calculated from a specified height of the container support unit set in advance and the height detected by the height detecting unit, a second acceleration signal is calculated from the container weight and an expected weight expected to be applied to the container support unit. The container support unit is kept at the specified height by a drive signal calculated from the first and second acceleration signals.

Weighing and filling apparatus for controlling filling device based on a container weight. A linear actuator for driving a drive shaft coupled to container support unit is included, a weight measuring unit determines the container weight from a detected height of the drive shaft detected by a height detecting unit and a drive signal of the linear actuator at the detected height. A first acceleration signal is calculated from a specified height of the container support unit set in advance and the height detected by the height detecting unit, a second acceleration signal is calculated from the container weight and an expected weight expected to be applied to the container support unit. The container support unit is kept at the specified height by a drive signal calculated from the first and second acceleration signals.

Various aspects of the subject disclosure relate to a compounder system having a cartridge that includes controllable fluid pathways. One or more rotary piston pump/valves may be used to move fluid and/or gasses through the various fluid pathways of the cartridge. For example, the cartridge may include a dedicated rotary piston pump/valve for each process that moves fluid and/or gas through the cartridge. When turning, the rotary piston pump/valve acts as a pump to move the fluid or gas, and when the rotary piston pump/valve stops turning, it effectively acts as a shutoff valve, preventing any fluid flow. Magnetic couplers for the cartridge may be provided on a pump head of the compounder system.

One aspect of the present disclosure is an apparatus for manufacturing cosmetic containing: a main body providing a space for manufacturing cosmetic; a mixing vessel that can store cosmetic materials and a parts supply unit providing components including a plurality of cosmetic containers; a cosmetic material supply unit that can store cosmetic materials and then discharge cosmetic materials to the mixing vessel; a transfer unit that can transfer the mixing vessel and the components including the cosmetic container; and a control unit that can control the movement of the transfer unit in order to simultaneously assemble a plurality of cosmetic containers from the mixing vessel and the components.