The invention discloses a manifold arrangement for bulk handling of fluid material having an inner bag for holding fluid material, which includes a manifold member adapted to be located within the inner bag, the inner bag having a product inlet through which fluid material can be introduced into the inner bag and a product outlet through which the fluid material can flow from the inner bag, and being adapted to assist in forcing fluid material out of the inner bag through the product outlet and thereby reducing residue in the inner bag.

Techniques and/or systems are disclosed for a bag-in-box container including a plurality of panels, a plurality of lower flaps configured to enclose a bottom of the bag-in-box container, and a plurality of upper flaps configured to enclose a top of the bag-in-box container. The plurality of panels including a support panel, a side panel adjacent the support panel, a back panel adjacent the side panel, another side panel adjacent the back panel, and a front panel adjacent the side panel, wherein adjacent panels are connected with one another. The plurality of upper flaps comprises a side panel flap hingedly connected to the side panel and having an opening configured to receive a dosing cup. A plurality of legs are configured to be erectable from the plurality of lower flaps. A first line of weakness formed in the front panel, wherein the first line of weakness defines a severable portion that is configured to be removable; and a second line of weakness formed in the support panel, wherein the second line of weakness defines a pivotable portion that is configured to be hingedly connected to the bag-in-box container.

The present application provides a carton for enclosing one or more products. The carton includes a pair of side walls, a top wall or a bottom wall, an end wall, and a tear away section extending across the pair of sidewalls, the top wall or the bottom wall, and the end wall in a number of perforations and a number of slits. The tear away section defines a notch on the end wall at the intersection of one of the pair of sidewalls.

A method of manufacturing a delaminatable container is provided that is capable of uniformly delaminating the inner bag from the outer shell. According to the first aspect, a container body is formed having an outer shell and an inner bag. The inner bag preliminary delaminated from the outer shell in an entire circumference of a storage portion of the container body by rotating the container body while pressing the storage portion with a pressing mechanism from outside for compression or by moving the pressing mechanism along an outer circumference of the container body.

A flexible package having dispensing bag and a hose spout integrally coupled therewith. The dispensing bag is positioned within an outer vessel or urn having a valve dispensing member. The hose spout is extended through the valve dispensing member. The filled container can be emptied through the hose spout, which dispensing fluid flow can be controlled by the valve dispensing member. The hose spout comprises a molded member that includes a base flange that extends through a transition region to an elongated spout, with a dispensing opening at a distal end of the elongated spout.

This invention relates to a container comprising and outer shell and an inner lining, to a method of construction of such a container and to components used in the construction of such a container. A container comprises an outer shell made from a first material comprising paperboard, and an inner lining made from a second material comprising a polymeric or metallic material, the lining defining an internal volume for holding a liquid, and the lining being adhered to the shell, wherein, the outer shell includes a line of weakness extending around at least part of the periphery of the shell and defining a first portion of the shell on one side of said line and a second portion of the shell on the other side of said line, the line of weakness permitting the first portion of the shell to be separated from the second portion of the shell, and wherein, the lining is adhered to the shell in said first portion and the lining extends into to said second portion of the shell.

A retail bag-in-box transparent package having a flovvable product contained in a bag which is contained in a polymeric box where the box has (i) a flat bottom panel, an opposing top panel, and a self-supporting, upstanding, at least partially transparent wall connecting the bottom and top panels, and (ii) an access port through the box adapted for providing communication means for removing product from the bag, which is a flexible thermoplastic bag (capacity ≦1 liter (1000 ml)) attached to an interior surface of the box proximate the access port, where at least a portion of the bag has a transparent wall overlapping the transparent box portion to provide visual access to the product.

This invention discloses a fluid discharge system and the squeezer thereof. The squeezer includes a pair of rolling shafts, a driving device, and a mounting bracket, wherein the pair of rolling shafts is rotatably mounted on the mounting bracket. Each rolling shaft has a mounting part at each of both ends and a squeezing segment located between the mounting parts. A pair of rolling shafts can operatively clamp an object to be clamped between the squeezing segments and can rotate oppositely through a driving device to apply a squeezing force to the object clamped. The squeezing segment includes a supporting shaft and an elastic body provided around the supporting shaft. The squeezer also has a protective device for protecting the elastic body at the end of the squeezing segment. The discharge system provided by this invention is a zero-residue discharge system needing not to hanging the liner bag, and has a simple structure, a good manufacturing process, simple operation, and cost savings.

There is provided a 3D printing build material container (1). The container comprises a collapsible reservoir, (3) a relatively rigid reinforcement structure (4), a build material outlet structure (13) and a gas inlet structure (14). The reservoir is to hold build material (11). The reinforcement structure is to resist collapsing of at least one reinforced portion of the reservoir. The outlet structure is to allow build material to exit the reservoir. The inlet structure is to allow a gas to enter the reservoir.

A pressurized container usable for a pressurizable contain, such as an aerosol dispenser, an aerosol dispenser made therewith and preform therefor. The preform/container/dispenser has a neck at the top. The neck has upper and lower portions. The lower portion transitions into a shoulder, which flares outwardly. The shoulder, in turn, transitions into a sidewall. The lower neck portion/shoulder and/or upper part of the sidewall are cystallized. The invention also comprises a preform for making such a pressurizable container and an aerosol dispenser made therewith.