A method for forming sealed packages filled with a pourable product comprises at least the steps of forming a tube from a web of packaging material, filling the pourable product into the tube for forming a product column within the tube and directing, during the step of forming and the step of filling, a sterile gas into the product column for forming and/or maintaining a gas cushion within the product column.

A vertical packaging machine for packaging products in a modified atmosphere. According to one embodiment, the vertical packaging machine includes a hopper through which the products to be packaged are introduced, a hollow forming element arranged downstream of the hopper, at least the hopper and the forming element forming a supply conduit through which the product to be packaged falls. The vertical packaging machine also includes an injection device configured for injecting a gaseous fluid into the supply conduit. A gas supply source is communicated with the inside of the supply conduit, the gas supplied to the supply conduit being suitable for packaging products in a modified atmosphere. A supply unit communicates the gas source with the inside of the supply conduit.

There is described a packaging apparatus (1) for forming a plurality of sealed packages (2) from a tube (3) of a web of packaging material (4) which is continuously filled with a pourable product. The packaging apparatus comprises an isolation chamber (10) separating an inner environment (11) containing a sterile gas from an outer environment (12). The packaging apparatus further comprises a delimiting element (48) arranged, in use, within the tube (3) and being designed to divide the tube (3), in use, into a first space (49) and a second space (50). The packaging apparatus (1) also comprises a pressurizing device (47) for pressurizing the second space (50) by means of a pressurized sterile gas. The delimiting element (48) is arranged within the isolation chamber (10).

A packaging machine for producing sealed packages of a pourable product from a packaging material web advancing along a web advancement path comprises an isolation chamber separating inner and outer environments, and a sterilization apparatus for sterilizing the packaging material web and in fluid connection with the isolation chamber. The sterilization apparatus comprises a main shielding chamber housing an irradiation device and comprising an advancement channel having inlet and outlet openings, and through which, in use, the packaging material web advances, and first and second auxiliary shielding chambers having respectively first and second inner spaces fluidically connected to the advancement channel. A pressure control controls a first pressure in the first auxiliary shielding chamber, a second pressure in the second auxiliary shielding chamber and a third pressure in the isolation chamber, the third pressure being higher than the second pressure and the second pressure being higher than the first pressure.

The disclosed apparatus, systems and methods relate to preparation, modified atmosphere and high pressure pasteurization steps for treatment of retail fresh protein preparations. Protein is prepared and subsequently packaged in a modified atmosphere lacking significant amounts of oxygen and then exposed to high-pressure pasteurization. During preparation the protein may be exposed to aqueous ozone further reducing the microbial load, extending shelf-life, and increasing product safety.

A bagmaking and packaging device includes a transverse sealing unit, a first tube member, and a gas flow path member. The first tube member is disposed above the transverse sealing unit and extends in an up and down direction. The first tube member allows a packaging material to become wrapped around it to thereby form the packaging material into a tubular shape. At least part of the gas flow path member is disposed inside the first tube member. The gas flow path member delivers nitrogen into the packaging material formed into the tubular shape. The first tube member includes a cutout portion that extends in the up and down direction. The cutout portion is formed so that the nitrogen can move between a space between the packaging material formed into the tubular shape and the first tube member and the inside space of the first tube member.

A system and a method for packaging compacted powders are provided, wherein the system comprises a first tube (TC), wherein a screw conveyor (C) is positioned inside the first tube (TC) which is configured so as to rotate around an axis (ac) inside the first tube (TC) in order to convey the powders towards an outlet (UT) of the first tube (TC); the system (100) comprises a rotatable terminal (TI, TIC) in the proximity of the output (UT); the rotatable terminal (TI, TIC) comprises in its inside cutting means (F) which are configured so as to cut the compacted powders leaving the first tube (TC) when the rotatable terminal (TI) rotates, wherein the rotatable terminal (TI, TIC) is positioned so as to contact the end of the first tube (TC) which defines the output (UT).

A syringe propellable by propellant that boils at a predetermined temperature, the syringe including a barrel having an outlet at a front end, and a stopper axially moveable in the barrel. The stopper separates a first chamber and a second chamber, the first chamber being axially forwards of the stopper and being configured for containing a medicament, and the second chamber being axially rearwards of the stopper and being configured to receive propellant for acting on the stopper to move the stopper axially forwardly in the barrel to expel medicament through the outlet upon actuation of the syringe. The syringe further includes a third chamber for containing propellant. Upon actuation of the syringe, liquid propellant is released from the third chamber and boils outside of the third chamber at or above the predetermined temperature to provide an increasing vapor pressure in the second chamber that causes the stopper to move axially forwardly and begin to expel medicament through the outlet. At least one trigger for triggering an action is provided, the trigger activated in response to the pressure in the second chamber satisfying a predetermined condition.

There is described a packaging machine for producing sealed packages of a pourable product from a web of packaging material, which may include conveying means for advancing the web of packaging material along a web advancement path at least to a tube forming station at which the web of packaging material is formed into a tube and for advancing the tube along a tube advancement path, an isolation housing having a main chamber and an auxiliary chamber arranged downstream of the main chamber along the tube advancement path, a tube forming and sealing device at least partially arranged within the main chamber and being configured to form and longitudinally seal the tube within the main chamber, a filling device for filling the tube with the pourable product and a pressure control device configured to control a first pressure within the main chamber and a second pressure within the auxiliary chamber such that the first pressure is higher than the second pressure and the first pressure and the second pressure are both higher than the ambient pressure.

There is described a packaging machine for producing sealed packages of a pourable product from a web of packaging material, which may include conveying means for advancing the web of packaging material along a web advancement path at least to a tube forming station at which the web of packaging material is formed into a tube and for advancing the tube along a tube advancement path, an isolation housing having a main chamber and an auxiliary chamber arranged downstream of the main chamber along the tube advancement path, a tube forming and sealing device at least partially arranged within the main chamber and being configured to form and longitudinally seal the tube within the main chamber, a filling device for filling the tube with the pourable product and a pressure control device configured to control a first pressure within the main chamber and a second pressure within the auxiliary chamber such that the first pressure is higher than the second pressure and the first pressure and the second pressure are both higher than the ambient pressure.