The present invention relates to a method and a product dispenser comprising a tank for storing a flowable product and a conveyor for conveying storage containers along a longitudinal direction from an entry position to an exit position. The product dispenser further comprises a dosing mechanism extending in the longitudinal direction above the conveyor. The dosing mechanism comprises an inner cylindrical part and an outer cylindrical part enclosing and sealing against the inner cylindrical part. The inner cylindrical part defines a circumferential groove and a helically shaped groove extending between the entry position and the exit position. The outer cylindrical part defines an elongated opening extending in the longitudinal direction and an inlet opening for establishing a fluid path from the tank via the circumferential groove and the helically shaped groove to the elongated opening. The inner cylindrical part is rotatable for dispensing the flowable product into the storage containers.

The present disclosure recites a method for time controlled carrying out of a filling process including steps of beginning a first flow measurement before or during the start of a filling of a first container, starting the filling of the first container at a first point in time, and ending the filling of the first container at a second point in time, wherein the second point in time is predetermined by a set, first time interval. The starting and ending steps are repeated for filling a second container. The method also includes ending the first flow measurement and ascertaining a total flow of the preceding fillings, comparing an actual value ascertained from the total flow a predetermined, desired value, and-adapting the first time interval based on the comparing step. An apparatus according to the present disclosure includes a control setup for time controlled fill amount control and a flowmeter.

The present disclosure recites a method for time controlled carrying out of a filling process including steps of beginning a first flow measurement before or during the start of a filling of a first container, starting the filling of the first container at a first point in time, and ending the filling of the first container at a second point in time, wherein the second point in time is predetermined by a set, first time interval. The starting and ending steps are repeated for filling a second container. The method also includes ending the first flow measurement and ascertaining a total flow of the preceding fillings, comparing an actual value ascertained from the total flow a predetermined, desired value, and-adapting the first time interval based on the comparing step. An apparatus according to the present disclosure includes a control setup for time controlled fill amount control and a flowmeter.

A dosing assembly for a filler including a valve assembly, a product hopper, a containment system and an attachment bracket. The dosing assembly can be coupled to a filler (for example, after filling, and prior to closing, capping or covering a container) for dispensing a dose of a fill material into the container. The fill material may comprise any number of different granular materials, including, but not limited to magnesium particles.

A dosing assembly for a filler including a valve assembly, a product hopper, a containment system and an attachment bracket. The dosing assembly can be coupled to a filler (for example, after filling, and prior to closing, capping or covering a container) for dispensing a dose of a fill material into the container. The fill material may comprise any number of different granular materials, including, but not limited to magnesium particles.

A liquid dispensing system for dispensing two or more liquids of different composition, viscosity, solubility and/or miscibility at high filling speeds into a container through a unitary dispensing nozzle to improve homogeneous mixing of such liquids, while said nozzle is an integral piece free of any movable parts.

A method of dispensing fluid includes dispensing a first quantity of fluid so that fluid flows through a manifold port assembly and into a first container, the manifold port assembly includes a housing having an inlet port and a plurality of outlet ports formed thereon; and a carousel bounding a plurality of fluid paths that each extend between a first end and an opposing second end, the carousel being rotatably disposed within the housing so that when the first end of each one of the plurality of fluid paths is aligned with the inlet port on the housing, the second end of the corresponding one of the plurality of fluid paths is aligned with one of the plurality of outlet ports. A motor is activated to rotate the carousel of the manifold port assembly to a second position. A second quantity of fluid is dispensed so that fluid flows through the manifold port assembly and into a second container.

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.

Various aspects of the subject disclosure relate to a compounder system having a cartridge that includes controllable fluid pathways. The cartridge may include a syringe pump for moving fluid and/or gas, and one or more syringe valves or rotary valves for controlling which of the controllable fluid pathways is open for flow of the fluid and/or gas.

Methods and systems are provided for mixing and heat exchange of fluids. In one example, a fluid mixing and heat exchange device includes a hot water tank, a mixing chamber spaced away from the hot water tank and fluidly coupled to a first liquid reservoir, a first chilling module fluidly coupled to the mixing chamber, a coolant tank fluidly coupled to the first chilling module, a radiator fluidly coupled to the coolant tank, and a dispensing manifold fluidly coupled to the mixing chamber and adapted to dispense a mixed and chilled fluid mixture to a plurality of fluid vessels.