An improved paperboard pouch comprising a multilayer substrate and a method of making the same is provided. The multilayer paperboard pouch comprises an outer surface and an inner surface, wherein one of the surfaces is defined as a food contact surface. In the depicted embodiment, the properties of the polymer layer are chosen to provide adequate mechanical and barrier protection to the paper-based pouch formed on the conventional pouch-forming equipment. A method of manufacturing a multilayer paperboard pouch using conventional bag-making equipment (“CBME”) running at normal production speed for making standard plastic pouches is also provided. First, a paper is extrusion-coated and then the CBME is configured with a feeder for feeding an extrusion-coated paper intermittently for a length along a feeding path; a cutter disposed at a position predetermined for cutting one of the layers of the coated paper and forming a first side gusset, a second side gusset and a bottom gusset portions and for folding each of a first side gusset, a second side gusset and a bottom gusset portions into halves along a center line extending longitudinally thereof; and a sealer for sealing the layers of the polymer with the layers of the bottom gusset portion and the layers of the first and second gusset portions, respectively to form the finished multilayer paperboard pouch ready for sale and distribution to various retailers. It is to be noted that in the depicted embodiment various closure constructions and mechanism can be used for heat sealing the finished pouches.

Disclosed herein is a fluid transfer assembly for dispensing flowable material from a container, the fluid transfer assembly having a spout, a screw cap body, and an aseptic plug, wherein the aseptic plug is configured to form an aseptic seal with the screw cap body.

An injection molded pourer for a pouch pack. The injection molded pourer includes an inner pouring channel having a pouring spout arranged at an upper end of the inner pouring channel and a boat-shaped weld-in portion which surrounds a lower end of the inner pouring channel, and an injection molding gate arranged on an outside. The pouring spout can be closed with a cap. The boat-shaped weld-in portion has boat-shaped ribs which are arranged parallel to one another and which have a gap there-between. A plastic melt can be pressed into the injection molding gate. The plastic melt includes a main plastic material, and a second plastic material which forms an oxygen barrier.

A method of preparing a pharmaceutical product in a single multiple chamber flexible bag. A pharmaceutical product is introduced in a liquid state into a first chamber of the flexible bag through a first port. The pharmaceutical product is lyophilized within the first chamber of the flexible bag to provide a lyophilized pharmaceutical product. The flexible bag has a second chamber and the first chamber and the second chamber are separated by a breakable seal. The second chamber further includes a reconstituting solution for reconstituting the lyophilized pharmaceutical product in the first chamber. A user may apply pressure to the flexible bag to break the seal and mix the lyophilized pharmaceutical product and the reconstituting solution to order to administer the pharmaceutical product to a patient.

To provide a container bag 34 that can be manufactured easily by folding a sheet material 1 precisely along a folding line 11B. The sheet material 1 is prepared by bonding two films 2 and 3 together in a predetermined pattern, and the sheet material 1 comprises a plurality of cells 16 formed between the two films 2 and 3 while being joined to one another to be filled with fluid. A trunk portion 17 to be filled with a content is formed by bonding overlapping layers of a peripheral edge 9A of the folded sheet material 1. A bottom portion 13 of the container bag 34 is folded inwardly toward the trunk portion 17 along the folding line 11B. A non-bonded section 14 in which the two films 2 and 3 are not bonded together is maintained linearly within the folding line 11B.

A spout (1, 401, 601) having a plastic spout body which comprises an attachment portion (10, 410, 610) having a vertical first plane of symmetry (M1) with a vertical first sealing wall (11, 411, 611) and an opposed vertical second sealing wall (12, 412, 612), and with a transverse wall (20), which is integrally connected to an upper edge of the first sealing wall and to an upper edge of the second sealing wall, wherein the first sealing wall and the second sealing wall each depend from said transverse wall and each have a bottom edge (114, 115, 541, 515, 714, 715) remote from the upper edge. Each sealing wall is, seen in a bottom view of the attachment portion, composed of a first rectilinear portion (111, 121, 511, 521, 711, 721), a central curved portion (113, 123, 513, 523, 713, 723), and a second rectilinear portion (112, 122, 512, 522, 712, 722). The spout body has a tubular neck (30) having a bore (31) that adjoins an opening (21) in the transverse wall. The attachment portion further comprises curved stabilizing ribs (15, 16, 151, 161, 152, 162) extending between associated connection points to the opposed rectilinear portions of the sealing walls.

The disclosure relates to a device (100) and method for handling a sealing device (1) in order to position the discharge pipe (10) of a valve (4) of the sealing device into a storage position. The handling device comprises a cap support (150) to be arranged at the downstream side of the protective cap (61) and configured to support the protective cap, and a pushing device (120) arranged at the upstream side of the base and configured to apply a first pushing force on the base (3) and/or valve housing (25) so to urge the base, valve and protective cap against the cap support and to apply a second pushing force on the discharge pipe of the valve to urge the discharge pipe to its storage position.

A pouch container packaging body and a pouch container package with which a container body can be more reliably opened. The packaging body includes a container body including a top sheet covering the container body at a top side and a spout fixed to an outer surface of the top sheet and including a dispensing space extending axially. The spout includes a fixed portion on the top sheet, a rotating portion to rotate the fixed portion, and a cutting portion to cut the top sheet. The top sheet includes a flat portion where the fixed portion is fixed. The cutting portion is positioned away from the flat portion in an initial state and moves while rotating in a direction from an external surface to an internal surface of the flat portion in response to rotation of the rotating portion, and cuts the flat portion.

A closure for a container. The closure include an outer shell having a proximal end, a distal end, an inner surface, and an outer surface. The closure also including an inner cap having a proximal end, a distal end, an inner surface, and an outer surface. A plurality of ribs extend from the inner cap to the outer shell. A tamper-evident band encircles the distal end of the inner cap. The tamper-evident band includes a plurality of tamper-evident segments. Each tamper-evident segment has a tab coupled with one of the plurality of ribs and a break segment. A first end of the break segment is coupled with the tab and a second end of the break segment is coupled with an adjacent one of the plurality of ribs.

A tamper-evident closure for a container includes a straw having an outer edge with an outwardly extending projection. The closure includes a cap with a rib. A tamper-evident tab extends from the rib. The tab has an inwardly extending lug configured to engage with the outwardly extending projection of the straw as the cap rotates relative to the straw. The tab has a hinge coupled with the rib. The hinge is configured to rotate the tab outwardly relative to the rib. The tab also has a foldable portion configured to fold to provide a visual indication when the cap is an unsealed configuration.