The present invention relates to a method and a system (400) for filling a closed container (200) with a fixative solution. The system comprises a container (200) comprising a container body (230) for receiving a biological specimen, a lid (220) for selectively closing the container body (230) and a port (100) forming a unidirectional barrier in a direction from the inside (IC) to the outside (OC) of the closed container (200). The system further comprises a dispensing apparatus (500) having a filling nozzle (300) for dispensing the fixative solution. The filling nozzle (300) is relatively moveable with respect to the container (200) between a retracted position and a filling position to fill the container (200) with the fixative solution.

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 (20) 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 (20).

According to one embodiment a thermosealing machine is provided that includes a movable lower mold with a box formed by a box base, a box structure, and a box frame attached to the box structure. The box frame includes a frame cavity, and the lower mold includes a pad coupled to the box frame with freedom of vertical movement. The thermosealing machine includes a lower stop and an upper stop, the upper stop being operatively coupled to the pad and vertically movable with the pad. The upper stop is configured to move between an inoperative position and an operative position. In the operative position the upper stop is arranged in the path of travel of the lower stop. In the inoperative position the upper stop is arranged outside of the path of travel of the lower stop.

A packaging apparatus includes a frame, a lower tool engaged with the frame and configured to receive one or more supports, and an upper tool configured to engage a film portion with at least one support. The lower tool is movable relative to the frame at least between: a packaging position, in which the lower tool is aligned with the upper tool, and a loading position spaced from the packaging position in which the lower tool is configured to receive said support. The packaging apparatus comprises a barrier configured to intercept the package during the movement of the lower tool from the packaging position to the loading position.

A container has a product in a product-receiving area and has a sealing area surrounding the product-receiving area. A length of film is arranged over the container. A space above the film is evacuated using an evacuating portion of an upper sealing module arranged over the film, so as to cause a portion of the film to conform to the upper sealing module. An area of the film is cut out by moving a cutting tool relative to the upper sealing module from a recessed position to a cutting position. The cut-out area of film includes the portion of the film conformed to the upper sealing module, is brought into contact with the sealing area of the container by moving the upper sealing module relative to the container, and is sealed to the sealing area of the container using a heat sealing portion of the upper sealing module.

The disclosure relates to a device for shredding strip-shaped material comprising a housing with at least one feed opening for the strip-shaped material and a discharge opening for the shredded material, a blade holder which is mounted to be rotatable about an axis within the housing, at least one blade which is attached to the blade holder, at least one counter blade which is attached to the housing, and a drive configured to rotate the blade holder in a first direction of rotation and a second direction of rotation, opposite to the first direction of rotation, about the axis. The disclosure further relates to a method for operating a device for shredding strip-shaped material. Under the method, at least one blade holder mounted to be rotatable in a first direction of rotation, as well as in a second direction of rotation, is employed by the device.

An apparatus (100) for manufacturing capsules (10) under vacuum for preparing beverages is described, comprising: a plurality of support elements (105) and a driving system (120) adapted to move said support elements (105) and stop them in a plurality of operative stations, wherein each support element (105) comprises a row of housing seats (115), wherein the operative stations comprise at least: a loading station (145) for inserting into the housing seats (115) a glass-shaped body (15), a filling station (150) for filling glass-shaped bodies (15) with a food substance adapted to produce a beverage, a covering station (155) for applying and fixing on the glass/shaped bodies (15) a closing film (45), and a sealing station (160) for placing under vacuum the inner volume of the glass-shaped bodies (15) and for sealing the closing film (45) and wherein said sealing station (160) comprises: a plurality of bell-shaped members (280), each of which is adapted to overlay to one respective housing seat (115) and has mouthpiece directed downward, a movement apparatus (300) for moving each bell-shaped member (280) in vertical direction between a raised position to a lowered position, a vacuum generating apparatus (340) to reduce the inner volume of bell-shaped members (280), and a plurality of welding elements (390), each of which is contained inside a respective bell-shaped member (280) for airtightly welding the closing film (45) on the glass-shaped body (15) contained in the housing seat (115).

A system is provided for making a beverage capsule for use in a beverage preparing machine. The system includes a filter station for sealing a filter to an interior space of a body for the beverage capsule to define an ingredients chamber; an ingredients station for depositing a desired volume of desired ingredients into the ingredients chamber; and a cover sealing station for sealing a cover to the body. The cover being sealed to the body to define a hinge zone and a peel zone, wherein the hinge zone has a stronger seal than the peel zone.

A tray sealing machine is provided with a frame on which a sealing tool is arranged. The sealing tool comprises a lower tool in which a tray to be sealed can be received and an upper tool including a hood, a sealing component arranged in the interior of the hood, and a sealing component carrier on which the sealing component is arranged. The hood is movable relative to the sealing component and has a gas connection configured for connection to a corresponding gas connection of the tray sealing machine. The lower tool and the hood are configured to form a sealing chamber in a closed state of the sealing tool. The sealing tool further comprises a line connecting the gas connection to the sealing chamber in the closed state. The hood is movable relative to the frame and the sealing component carrier is unmovable relative to the frame.

A product can be packaged by arranging the product on a support, providing a plastic film above the support with the product arranged between the support and the film sheet, and air tightly fixing the film to the support. The process can be implemented using an apparatus that includes a film supply assembly and a base equipment having an upper side defining one or more receiving areas, each being configured for receiving a respective product loaded support; an upper tool is configured for holding a film portion above the product loaded support and then heat sealing the film portion to the product loaded support. Each receiving area has a flat portion and elongated features protruding above the plane of flat portion.