The invention relates to a nozzle for a microdoser, the nozzle (1) comprising one orifice (4) or a plurality of orifices (4), the nozzle having a total orifice opening area of at least 10 mm.sup.2. Each orifice (4) is configured so that no circle larger than 1.6 mm in diameter can be inscribed within the opening of said orifice. The nozzle has an opening configuration that allows injection of a large quantity of additive at a low outlet speed, which limits splashing, and that allows the additive to be held by capillarity in the nozzle when the injection stops. The invention also relates to a system for introducing an additive into a container comprising a static microdoser having such nozzle (1) from which at least one jet of an additive issues upon passage of an opening of the container in proximity to the nozzle to introduce the additive into said container.

A side shutoff piston valve assembly for filling containers with liquids while reducing or eliminating splash-back and dripping of the liquids.

A supporting structure for supporting a plurality of sealed medical cartridges is disclosed, comprising a planar supporting plate having a plurality of receptacles for accommodating the sealed cartridges. Retaining protrusions are formed at the bottom ends of the receptacles protruding inward, which are mated with the shoulder portions of the sealed cartridges in such a manner that the shoulder portions of the sealed cartridges are supported on the retaining protrusions of the receptacles and that the upper ends of the sealed cartridges protrude from the upper ends of the receptacles at an upper side of the planar supporting plate, when the sealed cartridges are accommodated upside-down in the receptacles. The inventive nest will be suitable for any nested liquid filling machine without much changes in filling table and general settings.

The invention relates to a transport system for pourable and flowable media having a coupling device (56), consisting of at least one first connection part (14) and a plurality of further connection parts (54), which are connected to the first connection part (14) by means of flexible, tubular connecting parts (16), which can be blocked by means of at least one closing device (68), after the release of which the connecting part (16) that can be associated is open for media transport, wherein, after media transport has occurred along a specified transport path, said transport path is blocked by means of a separate blocking device or is closed again by the closing device (68).

An apparatus including: a plurality of forming molds, each mold including: a leading edge; a trailing edge; a mold face; a plurality of first recesses in the mold face positioned across the mold face, each first recess in fluid communication with a first vacuum duct; a leading face extending from the leading edge in a direction away from the mold face; a trailing face extending from the trailing edge in a direction away from the mold face; wherein at least a portion of the leading face is recessed relative to the mold face proximal the leading edge or at least a portion of the trailing face is recessed relative to the mold face proximal the trailing edge; wherein the plurality of forming molds is arranged leading edge to trailing edge as a first mold belt.

A method of filling containers that can be used to fill containers during successive filling cycles with the same or different fluid compositions at high rates of speed, with little to no machinery changeover, and/or with little to no fluid waste.

A container filling assembly that can be used with container filling systems to fill containers during successive filling cycles with the same or different fluid compositions at high rates of speed, with little to no machinery changeover, and/or with little to no fluid waste.

A method of filling containers that can be used to fill containers during successive filling cycles with the same or different fluid compositions at high rates of speed, with little to no machinery changeover, and/or with little to no fluid waste.

A method of making a personal care composition by providing a first layer and a second layer which each are fluid at elevated temperature; solid at ambient temperature; and visually distinctive from each other; providing the first and second layers in fluid state at an elevated temperature in isolated vessels; separately dispensing the first layer by a first nozzle and the second layer by a second nozzle, while maintaining the elevated temperature, into a same package having a circle plan view shape, wherein the positions of the nozzles, relative to the center of the package, are maintained during dispensing, and wherein the middle point of the nozzles do not coincide with the Z axis running vertically through the center of the package; and cooling the dispensed composition for solidifying in the package.

The present invention relates to a device and a method for decanting a beverage initially contained in one or more closed bottles into smaller containers. The device comprises an enclosure under an inert atmosphere, provided with an inlet port comprising receiving means, into which inlet port the neck of the bottles is fitted, and an outlet port through which the hermetically sealed containers are evacuated. The device contains an opening station for opening the bottles fitted into the receiving means, a collection vessel that collects the liquid flowing out of the bottles, a filling station for filling the containers from the collection vessel, and a sealing station for hermetically sealing the containers. In the method, the steps of opening and emptying the bottles, and of filling and hermetically sealing the containers, are all carried out under an inert atmosphere.