To make a sterilization step appropriate in an aseptic filling apparatus. Provided is an aseptic filling apparatus including a step of sterilizing a preform and a step of sterilizing a container obtained by molding the preform, wherein assuming sterilization effects in the respective sterilization steps as X [LRV] and Y [LRV], a relationship of 5≤X+Y≤10 (where Y≥0) is established.

A stabilizing upper tray for stabilizing cartridges during automated filling operations includes fill ports matching cartridge support locations in a lower support tray. Each fill port includes a bore, a circular recess to engage the upper rim of a cartridge, and an inwardly tapered needle-engaging surface adapted to be engaged by a fluid injection needle; a counterbore extends between the bore and the circular recess. As the upper tray is lowered over the cartridges, the enlarged recess of each fill port engages a corresponding cartridge and guides it into a vertical orientation within the counterbore. During filling operations, a mis-aligned fluid injection needle engages the inwardly tapered needle-engaging surface of the stabilizing upper tray and is guided through the fill port toward the cartridge. A method is also disclosed to form such a stabilizing upper tray through conversion of a conventional lower support tray.

A conveyor and carriage assembly are synchronized to increase the speed of operation and eliminate any dwell periods to improve the rate at which a linear container filler is able to fill containers with a material. The fill rate approaches or exceeds that of prior art linear and rotary filling machines.

A filling machine comprises a rotor driven by a drive around a machine axis surrounded by a pitch circle on the rotor, filling elements provided at even pitch intervals around the pitch circle, a closure-element supporting-ring surrounding and concentric with the machine axis, closure elements, a filling-material discharge opening, and a locking device. Each closure element closes a corresponding filling element on an underside thereof during cleaning or disinfection of said filling machine. Relative movement between the ring and the rotor, which is generated by the drive, moves the closure elements between a non-engaged state, in which the closure elements are between filling elements on the pitch circle, and an engaged state, in which the closure elements are on an underside of a corresponding filling element. The locking device causes this state transition by blocking co-rotation of the ring and the rotor.

A filling system for filling bottles with liquid filling-material includes filling point pairs, each having filling points. Each filling point has a filling element and a container holder. Each filling element comprises a filling element housing, a liquid channel, a delivery opening that delivers liquid filling material to a bottle, a liquid valve that controls delivery through said delivery opening, a gas path control valve, and a lifter device for lifting and lowering said container holder. The lifter device includes a pneumatically operated actuating element. In operation, the actuating element connects to a bottle's interior

In order to perform a cleaning-in-place or CIP cleaning of a filling element of a filling machine for the filling of containers with a liquid filling content, at least one closure element can be used, together with the filling element, to form a flushing chamber, in which a filling valve and a filling-level probe are at least partially disposed for the cleaning-in-place cleaning of the filling element. A control unit controls the flow of cleaning medium into the flushing chamber and the performance of at least one electrical measurement with the filling-level probe during the cleaning-in-place cleaning of the filling element.

A filling unit (1) for filling containers (90) of a first type, such as bottles, and for filling containers (95) of a second type, such as cans, with a liquid substance (99). The filling unit (1) comprises a dispenser (3), which in use faces towards a mouth of the container to be filled so as to dispense the liquid substance (99) through a dispensing opening (30) towards an internal volume of the container, and a valve (4) which is controllable for allowing and preventing the liquid substance (99) to be dispensed from the dispenser (3). The filling unit (1) further comprises a level sensor (51) for detecting a filled level of the liquid substance (99) in the container, a volume meter (52) for measuring a volume of the liquid substance (99) fed to the dispenser (3), and a control system for controlling the valve (4). The control system is configured to control the valve (4) based on the filled level detected by the level sensor (51), when the filling unit (1) is used for filling a container (90) of the first type, and is configured to control the valve (4) based on the fed volume that is measured by the volume meter, when the filling unit (1) is used for filling a container (95) of the second type.

A system to automate the filling of electronic vape cartridges with viscous liquid. The system includes an enclosure sealed with removable panels for maintenance access, compartments to interface cartridges and liquids with the internal mechanisms, and an external human machine interface. The internal mechanisms utilize thermally insulative annular nozzles and a thermal control system to diminish the internal friction of the liquid to facilitate consistent transfer of liquid between a reservoir, heated by a heated bed, syringe assembly, comprising a heating element along a raceway, and empty cartridges inserted into the system. This system is capable of filling approximately 100 cartridges per minute, and may interface with cartridges of various configurations and formulations of varying composition and characteristics.

A filling station for filling containers includes a number of container holders defining respective container positions; a number of filling assemblies, each filling assembly being associated with a container holder, where each filling assembly includes a reciprocating nozzle assembly which makes a first reciprocating movement from a retracted nozzle position in which a nozzle is retracted from the container to an inserted nozzle position in which the nozzle is inserted into the container, where the nozzle moves through an opening in a lid member of a reciprocating lid assembly to be inserted into the container for filling the container with liquid; where the reciprocating lid assembly makes a second reciprocating movement towards a filling opening of the container in the container holder and back in a direction away from the filling opening, where the reciprocating lid assembly is under pretension in the direction of the container holder.

Container holder and filling device for filling containers with a filling product, for the open jet filling of containers with a beverage in a beverage filling plant. The container holder comprises: a holding portion which is set up for the receiving and holding of a container; a main carrier which is attachable to the filling device; and a compensation carrier which is adjustable in a compensation direction relative to the main carrier and to which the holding portion is attached.