A mobile beverage packaging system comprising a trailer that is capable of preparing as well as packaging beverages is disclosed. The trailer is self-contained and capable of blending beverage components to prepare a beverage and in turn packaging the beverages and, in one embodiment, preparing and packaging beverages containing an infused composition.

One embodiment of the present invention provides a system for processing containers. The system may include an apparatus for processing sealed plastic containers having a first headspace pressure. The apparatus may include: an open entry port or tunnel for continuously receiving containers; a sanitizer configured to sanitize outside surfaces of the received containers; a perforator configured to perforate or open a cap or seal of the containers within the apparatus; a sealer configured to seal the perforation or opening formed in the cap or seal of the containers; an open exit port or tunnel for continuously exiting the processed containers; and a conveyor system configured to transport or convey the containers. The system may further include a production line including a filler for filling empty blow-moulded containers with a heated liquid to pasteurize inside surfaces of the containers and a capper for sealing the filled blow moulded containers.

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.

An apparatus for filling containers comprises a nozzle for establishing fluid communication with a container, a filling line extending between the nozzle and a source of a product fluid, a filling valve in the filling line, an auxiliary line extending from the nozzle to a drain, and a drain isolation valve in the auxiliary line; further comprising at least one additive line which extends from a junction with the auxiliary line between the nozzle and the drain valve to an additive fluid source; and a dosing valve in the auxiliary line between the nozzle and the at least one additive line, which permits a predetermined volume of additive fluid to flow through the auxiliary line to the nozzle.

The invention relates to a system for introducing an additive into a container (4) partially filled with a main liquid material. It comprises an automated conveyor for transporting the container (4) along a straight horizontal trajectory (T) at a substantially constant container speed (Vc). It further comprises a static microdoser (6) having a nozzle (9) from which at least one jet (8) of an additive issues upon passage of an opening (7) of the container (4). The system is configured to introduce a given mass of additive into the container. The nozzle of the microdoser (6) is inclined relative to a vertical direction that is perpendicular to the trajectory (T). The inclination of the nozzle, the number, the shape and the speed (Vj) of the at least one jet, the mass of additive, and the container speed (Vc) are configured such that the specific kinetic energy of the impact of the at least one jet on the free surface of the main liquid material is less than 3000 mJ/m.sup.2.

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 method of refilling an empty container with a fragrance, using a refilling platform comprising a transfer system and defining channels having an inlet and an outlet, the method comprising: Adding a preselected amount of fragrance concentrate to the inlet of the refilling platform wherein the preselected amount of fragrance concentrate is transferred with the transfer system through the outlet of the refilling platform into the empty container to partially fill the container; Adding an amount of distilled water to the inlet of the refilling platform wherein the distilled water is transferred through the outlet of the refilling platform with the transfer system to the partially filled container containing the fragrance concentrate; Adding an amount of ethanol to the inlet of the refilling platform wherein the refilling platform concurrently cleaned with transferring the ethanol through the outlet of the refilling platform to the at least partially filled container containing the preselected volume of fragrance concentrate and distilled water so that the container is at least partially filled with fragrance concentrate, distilled water and ethanol.

A system and method of micro dosing containers on a conveying system is disclosed. The system includes a mixing tank to maintain suspended solids in a mixture; a dosing assembly to inject micro-doses of the mixture into bottles; a recirculation assembly to circulate the mixture from the supply tank to the dosing assembly and back to the supply tank; a power and controls operation assembly to supply the system with power, to provide the system with electromechanical control and/or to provide a user interface; and a stand to hold at least the supply tank, the portable dosing assembly, the recirculation assembly and/or the power and/or controls operation assembly.

A content-filling system (10) includes a water sterilization line (50) that sterilizes water, an undiluted-solution sterilization line (70) that sterilizes a product undiluted solution, a water-filling device (21) that is connected to the water sterilization line (50) and is disposed in a first sterile chamber (70f), an undiluted-solution-filling device (22) that is connected to the undiluted-solution sterilization line (70) and is disposed in a second sterile chamber (70h), and a control unit (90) that controls the water-filling device (21) and the undiluted-solution-filling device (22). The control unit (90) causes the inside of the second sterile chamber (70h) to be cleaned with the inside of the first sterile chamber (70f) kept sterile. The control unit (90) causes the inside of the second sterile chamber (70h) to be sterilized with the inside of the first sterile chamber (70f) kept sterile.

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.