The invention relates to a pouch reservoir for a pressurized dispenser casing, including a dome, a valve-carrying cup and a pouch, such that the dome includes a base for receiving and tightly fixing a neck of the pouch, and a bowl for receiving the valve-carrying cup, the base and the bowl communicating via a central hole for filling the pouch and for discharging the product. The invention is especially applicable to refillable dispenser casings.

A container for feeding a patient includes a deformable receptacle having a cavity for holding a flowable food product and a rigid cover attachable to the upper end of the deformable receptacle. The rigid cover may have a male feeding tube connector that is uniquely connectable to a female feeding tube connector of a feeding tube or may have a female feeding tube connector that is uniquely connectable to a male feeding tube connector of a syringe. With the male and female feeding tube connectors connected, the deformable receptacle and the feeding tube or syringe are in fluid tight fluid communication to allow the flowable food product to be forced out of the opening of the deformable receptacle and into the feeding tube or syringe when the deformable receptacle is squeezed.

A flexible container is provided. The flexible container includes four panels. The four panels form (i) a body portion; (ii) a neck portion, and a flare portion that extends from the neck portion; (iii) a tapered transition portion between the body portion and the neck portion; and (iv) the neck portion has a reduced width. The flare portion has an expanded end. The width of the flare portion gradually increases from the neck portion to the expanded end.

There is described an apparatus for forming opening devices on a sheet packaging material for packaging pourable food products; the apparatus comprises conveying means for advancing the packaging material along a given path, at least one molding unit arranged along the path and adapted to mold one opening device on a receiving portion of the packaging material, and at least one movable element carrying the molding unit and advanced parallel to at least a portion of the path to allow the molding unit to form the opening device while the packaging material is being advanced along the path.

The present disclosure provides a process. In an embodiment, a process for producing a flexible pouch is provided and includes placing a microcapillary strip between two opposing flexible films. The opposing flexible films define a common peripheral edge. The process includes positioning a first side of the microcapillary strip at a first side of the common peripheral edge and positioning a second side of the microcapillary strip at a second side of the common peripheral edge. The process includes first sealing, at a first seal condition, the microcapillary strip between the two flexible films; and second sealing, at a second seal condition, a peripheral seal along at least a portion of the common peripheral edge. The peripheral seal includes a sealed microcapillary segment.

In an embodiment of the present disclosure, a process for producing a flexible pouch is provided. The process includes placing a capillary precursor element (CPE) between two opposing flexible films. The flexible films define a common peripheral edge. The CPE comprises an array of pins sandwiched between two opposing polymeric strips. The process includes positioning a first side of the CPE at a first side of the common peripheral edge and positioning a second side of the CPE at a second side of the common peripheral edge. The process includes first sealing, at a first seal condition, (i) the opposing polymeric strips to each other to form a matrix, and (ii) sealing the matrix to the two opposing flexible films. The process includes removing the array of pins from the matrix to form an in situ microcapillary strip.

The invention relates to a forming device (42) for feeding along a forming path (B) a pack (3) which has at least one portion (6) to be folded into a finished package (2). The forming device (42) comprises a first surface (46a) and a second surface (46b) opposite to each other and adapted, in use, to cooperate respectively with a front wall (15) and a rear wall (10) opposite to each other of the pack (3) to be folded. The first surface (46a) comprises an at least partially concave forming section (8) adapted, in use, to cooperate with a top portion of the front wall (15) of the pack (3), such that an inward deformation of the top portion of the front wall (15) is prevented during forming of the pack (3). The invention also relates to a folding unit (1) for forming sealed packages (2) of pourable food products, to a method for forming a pack (3) which has at least one portion (6) to be folded into a finished package, and to a package (2).

A vertical bag-making/filling/packaging machine (1) comprises; a top folding portion (20) which forms a first fold (F1) by folding a side of a band-shaped film (F) into a Z-shape; a bottom folding portion (30) which forms a second fold (F5) by folding a center of the film (F) into an M-shape; a top seal portion (40) which forms a top gusset (G3) and a spout portion (G7) protruding from the top gusset (G3) by heat-welding the first fold (F1) and side edges (E1 and E2) of the film (F) so as to make the film (F) into a tube shape; and a bottom-seal portion (50) which forms a bottom gusset (G4) by heat-welding the second fold (F5).

A flexible standing pouch made from a single sheet of packaging material having a fitment with a flat flange for mounting cap or dispensing device sealed onto a folded edge forming the top of the package, seams on each side and a bottom formed by turning the opposing corners of the bottom of the flat package downward, compressing them and turning them inward to form a flat bottom.

The application relates to a discharge system (1) for discharging a plurality of flexible containers from a tubular storage assembly, comprising: a storage assembly support (12) configured to support the tubular storage assembly; a discharge device (14) configured to remove the containers from the tubular storage assembly and move the containers one by one from the second end of the tubular storage assembly towards a discharge region (15), wherein the discharge device comprises: a gripper unit (81); a drive (82, 84) configured to cause the storage assembly and the gripper unit to rotate relative to each other; wherein the gripper unit is configured to grip dispensing spouts of containers successively passing by the gripper unit, to transport the gripped dispensing spouts and associated containers in a substantially axial direction and to collect the dispensing spouts in the discharge region.