A displacement device for a handling device, including an articulation mechanism on which the handling device is accommodated, wherein the handling device is displaceable by the articulation mechanism between a first position and a second position. The articulation mechanism has a four-pivot arrangement with a first link and a second link, wherein the first link is connected to the second link via a coupler. The coupler has a receiving section for receiving the handling device, wherein the first link, the second link and the coupler are matched to one another so that a substantially rectilinear displacement of the handling device takes place from the first position into the second position. In a method for displacement of a handling device by such a displacement device, the handling device is displaced substantially rectilinearly by the articulation mechanism between the first position and the second position. A packaging machine includes the displacement device.

The disclosure refers to a packaging device for manufacturing a packaging for a foodstuff. In particular, the packaging may include a trough-shaped lower packaging part and a top film which can be sealed together along their edges by means of a sealing tool of the packaging device. In order to improve a packaging device completely without evacuation or by evacuation in a simple and inexpensive manner with only a slight negative pressure in such a way that sufficient vapor purging is possible and at the same time cooling of the foodstuff before sealing or excessive degassing of the foodstuff does not take place, vapor can be introduced under pressure between the lower packaging part and the top film at at least one vapor entry point before sealing and can be released into the surrounding atmosphere at an outlet point from the packaging.

A machine for forming bags with infusion or extraction products includes a station for forming and feeding single sheets; a U-shaped folding station for folding the sheet; a unit for sealing the two lateral edges the sheet to create a bag with a closed bottom and side and an open end opposite the bottom. A second carousel includes radial grippers each configured to receive a bag. A dosing station includes a first device for dosing a first product along a dosing trajectory towards the opening and a second dosing device for dosing a second product. A transporting element positioned between the dosing devices includes a container for receiving the second product. The transporting element moves the container from a second product dosing position to a position for unloading the second product coinciding with the dosing trajectory from where the container discharges the dose of the second product into the bag.

The present invention relates to the preservation and packaging of the agricultural products and discloses a gas remover and a method for packaging agricultural products. The gas remover provided herein is capable of effectively removing gas released in a vacuum sealer bag. The gas remover includes calcium hydroxide, which can effectively removes gas released by the plant-based agricultural products in the vacuum sealer bag, avoiding the expansion of the vacuum sealer bag.

The invention concerns a method and an apparatus for transferring an amount of a liquid drug (11) from a supply container (1) having stored the liquid drug (11) to a collapsible reservoir (2), the method including and the apparatus enabling the steps of: a) providing a fluid connection (3) between the supply container (1) and the collapsible reservoir (2); b) subjecting the liquid drug (11) stored in the supply container (1) to an environmental pressure; c) subjecting the collapsible reservoir (2) to a positive pressure relative to the environmental pressure, thereby collapsing the collapsible reservoir (2) and transferring gas comprised in the collapsible reservoir (2) from the collapsible reservoir (2) to the supply container (1); d) subjecting the collapsible reservoir (2) to a negative pressure relative to the environmental pressure, thereby expanding the collapsible reservoir (2) and transferring the amount of the liquid drug (11) from the supply container (1) to the collapsible reservoir (2).

The present invention provides a sterilization apparatus and a sterilization method. The sterilization method includes: an operation in which a sterilant injection block for containing a sterilant and providing a sterilant injection path for injecting the sterilant or a vacuum packaging pouch having the sterilant injection block is mounted inside a vacuum chamber; and an operation in which the vacuum chamber is operated in a chamber mode in which the vacuum chamber is used as a sterilization container when only the sterilant injection block is mounted and the vacuum packaging pouch is operated in a pouch mode in which the vacuum packaging pouch is used as a sterilization container when the vacuum packaging pouch is mounted.

An apparatus for vacuumizing and sealing a package includes a plurality of platens and vacuum chambers, each chamber adapted to mate with a dedicated one of the platens; a conveying system for conveying the platens and chambers along a generally angular path having a single axis of rotation; an automated loading assembly having a linear component and configured to load a package onto each of the platens; an automated unloading assembly having a linear portion and configured to unload a vacuumized, sealed package from each loaded platen onto an outfeed conveyor; and a vacuumizing/sealing system configured to cause relative movement of each chamber/platen pair, along a portion of the angular path, to form therebetween an air-tight enclosure accommodating the package and effect vacuumization and sealing of the package.

A displacement device for a handling device, having an articulation mechanism on which the handling device is accommodated, wherein the handling device is displaceable by the articulation mechanism between a first position and a second position. A pre-loading device is in operative connection with the articulation mechanism and/or the handling device to intercept the weight of the articulation mechanism and/or the handling device during displacement of the handling device between the first position and the second position. In a method for displacement of a handling device by such a displacement device, the pre-loading device unloads the weight of the handling device during displacement between the first position and the second position so that a continuous and reduced application of force moves the handling device. A packing machine for filling product like bulk materials into bags includes a filling module with a filling nozzle, a displacement device and a handling device.

A process of producing hydrogen water includes the steps of: providing a source of spring water; cooling the water to a temperature of from 33 to 38 degrees F.; providing a source of hydrogen gas; contacting the cooled water with the hydrogen gas in a venturi injector forming micro-sized hydrogen bubbles in the water and diffusing hydrogen gas into the cooled water; recirculating the water through the venturi injector until a predetermined hydrogen content in the water is realized forming hydrogen water having a hydrogen content of from 3 to 10 parts per million.

A multilayer, heat-shrinkable film has a first portion containing an outer heat seal layer and a second portion containing a PVDC barrier layer and a second outer layer comprising polyester. Both film portions comprise polymer networks which are strained by solid-state orientation, but only the first portion contains a crosslinked polymer network. The film has (i) a total free shrink at 85° C. of at least 90% and (ii) an instrumented impact energy-to-break of at least 0.0.65 J/mil and/or an instrumented impact peak load of at least 70 N/mil. The film is primarily made from ethylene-based polymers. Packaging articles can be made by sealing the film to itself. The film comprises no polyamide or polyamide in an amount up to 10 wt %, on a total film weight basis.