A filling device for metered filling of a filling material from a storage container into a dose receiving container. The device includes a single-use isolator with the receiving container provided therein to protect against contamination. The device includes a weighing device for holding and weighing the storage container with its contents outside of the isolator. The device includes a dispensing device inside the isolator to provide a dose-by-dose dispensing of the material. The device includes a conduit arrangement for connecting the storage container and the dispensing device and conveying the material from the storage container to the dispensing device via a removal device for a dose-by-dose removal of the material outside the isolator. The device includes a control device for controlling the removal device based on information from the weighing device about a decrease in weight of a unit consisting of the storage container and its contents during the removal.

One embodiment of the present invention provides 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 of tunnel for continuously exiting the processed containers; and a conveyor system configured to transporting or convey the containers from the open entry port or tunnel, through and within the apparatus, to the open exit port or tunnel and away from the sanitized environment of the apparatus. The apparatus may be further configured to maintain a sanitized environment within the apparatus, perforator, and/or sealer.

A gas mixing system for providing mixed gas for intraocular injection. In some embodiments, a first fixed-volume chamber is automatically purged and filled with gas from a first gas supply input, to a first predetermined pressure. A second fixed-volume chamber is purged and filled with gas from a second gas supply input, to a second predetermined pressure. The first and second predetermined pressures are determined based on a desired concentration of gases in the final mix, and the respective volumes of the first and second fixed-volume chambers and of a third fixed-volume chamber. Gas from the first fixed-volume chamber is then allowed to mix with gas in the third fixed-volume chamber, which was previously purged. Next, gas from the second fixed-volume chamber is allowed to mix with gas in the third fixed-volume chamber. Finally, the mixture of gases in the third fixed-volume chamber is expressed into an intraocular syringe.

A method for preparing semi-finished products in a package with the possibility of their further automated heating and/or cooking, according to which the components of semi-finished products are preliminarily prepared, they are accelerated cooling and placed in a portioned container. Sealing a container with a semi-finished product, treating it with ultraviolet radiation and applying a barcode to the container with a program for warming up and/or cooking in a microwave oven, which contains an indication of the power level of the microwave source, which is sufficient for uniform and complete heating and/or cooking of all components that make up the semi-finished product, as well as time. Shock freezing of a semi-finished product is carried out and its storage and/or transportation is carried out. Before eating a semi finished product, it is heated and/or cooked in a microwave oven equipped with a barcode reader.

The disclosure herein teaches a method for preserving cosmetics, including hair dye, that are prone to oxidation. The method uses an apparatus for automatically sealing and resealing, so as to prevent oxidation immediately and thereafter the cosmetic products are dispensed, or breached, from their manufacturer packaging. In the proposed apparatus, this is done by producing negative pressure inside a chamber while the cosmetic product is inside an unsealed container within the chamber. The vacuum is produced by a pump connected to an on-off valve, which is directly or indirectly actuated under micro-controlled processes. The one-way flow of air from the chamber to the apparatus' exterior produces negative pressure inside the chamber. Packaging can be sealed by outside influence or sealed by the pressure difference between the outside environment and the inside of the packaging upon the rapid repressurizing of the chamber. These processes prevent oxidation or degradation of the cosmetic product therein. Data related to the properties of the sealed cosmetic product or products is captured and stored in the device in transient or permanent memory and aggregated, analyzed and retrieved at will by a user. Communication and interaction between user and machine can occur physically (using a switch and a luminous indicator), or wirelessly with a mobile device. The resulting product, created to unique specifications from the original manufacturer packaging, can now be stored for an extended period of time without significant degradation of the efficacy.

Packaging apparatus, such as a tray sealer, with a gas supply arrangement enabling a flushing gas to be conducted between a flushing gas outlet (26) and a flushing gas inlet (14) which are relatively moveable. The flushing gas inlet is positioned above the flushing gas outlet. The gas supply arrangement includes a barrel 15 connected to the inlet (14) and sliding in a sleeve connected to the outlet (26). In a first predetermined relative position of the flushing gas outlet and flushing gas inlet a fluid flow connection is established between the flushing gas outlet and flushing gas inlet. In a second predetermined relative position the flushing gas inlet and flushing gas outlet are disconnected and liquid may drain from the barrel 15.

A packaged assembly of a hermetically sealed container and cigarette, and method of forming the assembly. The container is hermetically sealed for airtight conditions for freshness, whereby an interior space is either filled with an inert gas or is evacuated down to a pressure close to 0 atm to remove substantially all air (oxygen) from within. The container may be clear glass to afford good visibility of the cigarette within an interior space thereof. However, a relatively large label may be affixed to the exterior of the container to occlude most of the light from reaching the cigarette.

Systems for preserving a cosmetic formulation and for preventing growth or survival of microorganisms on a cosmetic formulation include a cosmetic container and a cosmetic formulation disposed therein and having an argon gas reservoir which is formed within the cosmetic formulation such that rupturing the reservoir releases argon gas onto an adjacent cosmetic-air interface and displaces oxygenated air therefrom. Methods for manufacturing and preserving a cosmetic formulation include preparing a cosmetic formulation that is free of exogenous chemical preservatives but may contain natural preservatives, forming the argon gas reservoir, and sealing a container containing the cosmetic formulation in a nonvacuum, argon gas environment to form an argon gas blanket in the container headspace. The argon gas reservoir can be formed as microbubbles or a chimney of argon gas disposed vertically in the container or as other discrete pockets within the formulation and/or container.

An automated system for the preparation and distribution of food, comprises: at least one supply station of at least one container adapted to contain a plurality of food ingredients; at least one filling station of the at least one container with the food ingredients; at least one pressurization station intended to apply an vacuum to the at least one container; at least one microwave cooking station of the food ingredients inside the at least one container; and a distribution apparatus/system(s)/component(s)/structure(s) (or the like) of the at least one container to an end consumer.

The invention relates to a device for degassing and gassing containers (3), comprising at least one chamber in which an open container can be accommodated for a degassing and/or gassing process, wherein a cover element (26) for the accommodated open container (3) is provided in the chamber, wherein, for a degassing and/or gassing process, the cover element (26) can be sealingly placed on a container edge (31) of an accommodated open container (3) or into an interior of an accommodated open container (3) and wherein the cover element (26) has at least one opening (260) for a passage of gas. The invention also relates to a method for degassing and gassing.