A dispensing system for a flexible bag including a spout having a body, a plug and a first and second flexible coupling. The body includes a central bore extending therethrough, with a lower ring wall at a lower end. The plug has a cavity and plug ring wall attachable to the lower ring wall in sealed engagement. The first flexible coupling and the second flexible coupling each being formed from a base web and extending from the lower end of the body. A first arm is coupled to the base web at a first hinge. A second arm is coupled to the first arm opposite the base web at a central hinge. The plug is coupled to the second arm opposite the first arm at a plug hinge. A probe is likewise disclosed that is insertable into a flexible bag, as is a flexible bag assembly and method.

A film for use in the formation of a flexible package that has a first layer and a second layer that are laminated together to form a two layer laminate. The first layer is a base comprising polyethylene terephthalate, with at least one of the outer surface and the inner surface having a barrier layer disposed thereon. The second layer is a coextrusion having a core layer comprising an ethylene vinyl alcohol with an outer upper layer of a linear low density polyethylene and an outer lower layer of linear low density polyethylene.

A high-barrier biodegradable Doypack and a preparation method therefor. The Doypack consists of two parts, a high-barrier biodegradable self-sealing strip and a five-layered composite high-barrier biodegradable Doypack body. The main base materials of the high-barrier biodegradable self-sealing strip are PLGA and PPC that have excellent barrier performance; and the five-layered composite high-barrier biodegradable Doypack body consists of single side glossy white Kraft paper, a bonding layer, a first barrier layer, a second barrier layer, and a heat-sealing layer, which are integrally formed by using a process combining four-layer co-extrusion and lamination. Compared to conventional non-degradable Doypacks, the high-barrier biodegradable Doypack is substantially equivalent in terms of the physical and mechanical performance and heat-sealing performance, but has a superior barrier performance, and is biodegradable.

Front and back panels have side seams that fix the panel side edges of the front panel to the panel side edges of the back panel and each extend a full vertical length of the respective panel side edges. A label formed from a separate piece of film covers one of the face panels between the side edges thereof, is disconnected from the one face panel between the panel side seams, has label side edges generally at the respective side panel edges, and secures the label to the one face panel. Respective secondary side seams are provided between the side edges of the label and the side edges of the one panel, and respective tear lines are formed in the label closely adjacent and generally parallel to each of the label side edges. There is printing on the label only between the tear lines.

A self-standing packaging container capable of achieving both strength and disposability even if the container has a wide mouth is provided. A container according to the present invention includes: a container body that has an opening part at an upper end of a tubular member; an annular member that is bonded to the upper end of the tubular member; and a lid member that seals the opening part to be openable and closable. The container body has a bottom surface member that is bonded to the tubular member at a bottom surface part of the tubular member. The tubular member is constituted by a flexible laminated body of three or more layers including a barrier layer and a resin layer. The lid member is coupled to the annular member by any of a hinge, fitting, and a screw to be openable and closable.

A method for handling containers (I) of collapsible type in a filling machine (20) comprising consecutively arranged stations (S1, S2, S3, S4, S5, S6) comprising a filling station (S3) and a gas filling station (S5), the method comprising intermittently moving the containers (I) to the consecutively arranged stations (S1, S2, S3, S4, S5, S6), supplying, at the filling station (S3), liquid product into the product compartment (5) and supplying, at the gas filling station (S5), gas into the handle compartment (7). The filling station (S3) and the gas filling station (S5) are operated such that liquid product is supplied to the product compartment (5) of one of the containers (I) while gas is supplied to the handle compartment (7) of another of the containers (I). The step of supplying gas at the gas filling station (S5) comprises providing a first gas flow (Qi) at a first pressure (Pi) and delivering said first gas flow (Qi) from the nozzle (30) to the handle compartment (7) via said inlet (11), and subsequently providing a second gas flow (Q.sub.2) at a second pressure (P.sub.2), lower than said first pressure (P.sub.1), and delivering said second gas flow (Q.sub.2) from the nozzle (30) to the handle compartment (7) via said inlet (11) for establishing a target pressure (P.sub.T) inside said handle compartment (7) corresponding to said second pressure (P.sub.2).

A tray and its use for conveying pouches for flexible containers such as Doypacks includes a number of partitions that protrude from the base of the tray so as to form between them spaces for the transverse containment of packs of pouches for flexible containers. The containment spaces are used to contain the packs of pouches in a direction that is transverse to the partitions.

The present invention relates to a stand-up packaging (1) for food products comprising at least one pouch (2) for carrying a food product, an outer packaging (3) having two cover elements (31,32) at least partially sandwiching the pouch (2), and at least one further element (33,2′) being at least partially sandwiched between the pouch (2) and one of the cover elements (31). The further element (33,2′) is penetrated by a through hole (22,36). The one cover element (31) is glued (G) to the pouch (2) via the through hole (22,36).

The present disclosure provides a flexible container. In an embodiment, the flexible container includes (A) a front panel, a rear panel, a first gusseted side panel, and a second gusseted side panel. The gusseted side panels adjoin the front panel and the rear panel along peripheral seals to form a chamber. Each peripheral seal has (i) a body seal inner edge (BSIE) with opposing ends, (ii) a top tapered seal inner edge (t-TSIE) extending from a top end of each BSIE, (iii) a neck seal inner edge (NSIE) extending from a top end of each t-TSIE, (iv) a neck arc extending between each NSIE and t-TSIE, and (v) a plane (N) extending through each neck arc. Each NSIE forms a neck angle with the plane (N), and the neck angle is from 45° to less than 90°.

A plurality of pouch containers are continuously manufactured from materials including: a plurality of separate-type tubular film members each including a portion to be formed as a barrel portion; and a single first belt-shaped film member and a single second belt-shaped film member each including a plurality of portions each to be formed as a gusset portion. The step of closing an opening end of each of the separate-type tubular film members includes: supplying the belt-shaped film member to the opening end by conveying the belt-shaped film member in parallel with the separate-type tubular film members at the same speed as a conveyance speed of the separate-type tubular film members, to cause the belt-shaped film member to overlap with an opened joining margin of each of the separate-type tubular film members; and joining the joining margin to a portion of the belt-shaped film member that overlaps with the joining margin.