The food inputting apparatus according to the present invention comprises: a supply unit provided so as to supply food downwardly; a chute unit comprising a chute body through which food discharged from the supply unit falls and passes due to gravity; a shutter unit provided so as to be opened or closed in accordance with whether the food discharged from the chute unit is to be discharged into packaging material, and comprising a shutter body which, when closed, is positioned between the upper part of an upwardly opened opening of the packaging material and a chute outlet provided at the bottom end of the chute unit; and a suction unit for suctioning liquid that collects inside the shutter body when closed.

The present invention relates to an apparatus and to a method for filling a solution bag for dialysis with a liquid, wherein the apparatus comprises a needle for introduction into a filling line or filling opening of the bag, wherein the needle is a double wall needle having a preferably thermally conductive outer wall and having an inner wall, with a thermal insulation being present between the outer wall and the inner wall; and with a heating element being provided that is configured to heat the outer side of the outer wall to a temperature above the temperature of the inner side of the inner wall.

The present invention relates to a urine collector system from urine bags of the patients in hospital. The system is portable and movable and provide an easy, quick, adequate and hygienic disposal of urine from the multiple patients.

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.

A multiple sample automatic dosing and cleaning system comprising a first receiving carousel for sequentially receiving multiple samples in sample cups for automatic sequential filling a dosing head. The receiving carousel is rotated around its axis and synchronized with the dosing device. Each destination cup is weighed empty on a balance scale in the destination carousel having openings for multiple cups. The destination carousel has means for rotation movement and vertical and horizontal movement. The destination carousels empty and tared cups placed on the balance scale receive the samples and flux for automatic dosing. A cleaning vacuum device is used to clean the dosing head every time each sample is dosed for integrity sample dosing. The carousels are serviced by gantry support which provides linear and vertical movement of the dosing device.

A fluid filling apparatus for filling containers with a fluid is provided. An ultrasonic frequency is used to vibrate a filling nozzle between successive container filling cycles. The vibrations break a liquid string filament formed at a discharge end of the filling nozzle at the end of each filling cycle. Methods and a fluid filling nozzle for filling containers with a fluid are also provided.

A method for filling packages with changing products in a filling machine is disclosed. Packages are successively transported through a filling machine, and the packages are each successively filled with a first product in a sterile environment via a filling outlet connected to a product tank. To empty the product tank, at least one outlet means is brought into an emptying position, and a residue of the first product is discharged at least partially from the sterile environment, via the outlet means located in the emptying position. The outlet means is removed from the emptying position following the emptying of the product tank. Packages are subsequently each successively filled with a second product in a sterile environment, via a filling outlet connected to a product tank.

A system for contained sterile/aseptic transfer of materials comprises a coupler assembly (6) including an active valve assembly (9) having an active valve and docking part and a passive valve assembly (7) which comprises a passive valve and a complimentary docking part, the two docking parts enabling the two valve assemblies to be secured together in a first position with a void formed between the two facing surfaces of the closed valves. A sterilisation device (20) including a UV emitter assembly is arranged to emit UV light into the void such that the exposed outer surfaces of at least the passive valve and active valve are exposed to UV light emitted by the emitter assembly after the two docking parts are secured together in the first position, and prior to moving of the passive/active valve to a second position where material may transfer through the opened valves.

A fill assembly sterilization method and system for a blow/fill/seal machine utilizes a closed loop circulation of sterilant containing gas. A typical sterilant is nitrogen dioxide in humidified air. The closed loop includes a shroud that defines a plenum and encloses the fill system. Optionally, at least one high efficiency particulate absorption (HEPA) filter is provided in the closed loop. Sterility assurance level of 10.sup.6 can be achieved by subjecting the fill system to the sterilizing gas for at least 20 minutes at a temperature in the range of about 18 C. to about 30 C. Preferred sterilant gas is humidified air containing about 10 to about 20 milligrams of nitrogen dioxide per liter.

A cleaner assembly for an apparatus for making pouch products includes a cleaner roller and a poker roller. The cleaner roller may counter rotate with a rotatable drum of the apparatus, in contact with an upper surface of a first elastic layer on the rotatable drum, and at a greater tangential speed than at least one surface of an outer circumferential surface of the rotatable drum or an upper surface of the first elastic layer. The poker roller includes projections that are each configured to extend into one or more divots of the rotatable drum. The poker roller may counter rotate with the rotatable drum and at a same tangential speed as the at least one surface such that the projections extend into and out of separate, respective divots of the rotatable drum based on the counter rotation of the poker roller and the rotatable drum.