An apparatus is configured to make containers from sheet material. The apparatus includes a supply station for supplying a film having at least one folded portion having three or more film flaps folded and superimposed with respect to each other; a welding station configured to receive the film. The welding station comprises a welding head configured for welding the folded portion of the film and forming a container defining a housing compartment; the welding head comprises a heater made of electrically conductive material whose electrical resistivity, at least in a predetermined temperature range, decreases upon the increase of the temperature of the same electrically conductive material.

A flexible container formed of flexible web material is provided. The container includes four panels forming: a body portion; a neck portion; a flare portion extending from the neck portion; and a tapered transition portion between the body and neck portions; wherein the neck portion has a reduced width and the flare portion has an expanded end. Also disclosed is a method of forming the aforementioned container comprising steps of: biasing the expanded end to define a circumference; moving, via a mandrel comprising a groove, the fitment within the circumference and through the expanded end to a first position in the neck; transversely cutting away the expanded end by advancing preferably v-shaped blades through the neck and into the groove preferably without rotation of the mandrel, container, or blades; moving the fitment to a second position in the neck; and sealing the neck to the fitment.

A machine and method for the application of pressure relief valves for hermetic containers. The machine comprising an applicator configured to apply the valves to containers, a vibrating feed container for housing the valves and making the valves directly available to the applicator, an aspirator configured so as to suck the valves contained within a reservoir and convey them to the vibrating feed container through a tube. The method comprises supplying pressure relief valves to the vibrating feed container of the machine by sucking the valves from the reservoir.

A flexible pouch for receiving flowable products that includes a fitment having a spout to allow the flowable products to be discharged from the pouch. The flexible pouch is formed from a top and a bottom web of material. A sealant strip is attached to a top edge of each of the top and bottom webs of material. A fitment having a canoe and spout is positioned such that the canoe is positioned between the first and second sealant strips. The height of the canoe and the width of the first and second sealing strips are the same to minimize the amount of sealant material. The first and second sealant strips are sealed to each other along the entire width of the flexible pouch to entrap the canoe of the fitment between the top and bottom webs.

The present invention relates to a pouch collection robot system (1) and method for the collection of non-filled spouted pouches (10) to be transported to a remote filling device. According to the invention, at least one pick and place robot unit (25) with a gripping device (28) is provided to pick up a non-filled spouted pouch (10) from a conveyor (5), and to place the non-filled spouted pouch (10) into alignment with one of a multiple of storage rails (21), allowing the non-filled spouted pouch to be placed into the storage rail.

An apparatus successively makes plastic bags each of which includes an end surface provided with a protrusion, without specially supplying a web of bottom gusset material. A first web of panel material is folded along a first folded line at a position adjacent to a side edge of the first web, while a second web of panel material is folded along a second folded line at a position adjacent to a corresponding side edge of the second web. A first folded portion is formed in the first web. There exists a distance between the side edge and the first folded line, which is larger than twice a distance between the corresponding side edge and the second folded line by a predetermined distance, after being folded. The end surface is formed by the first folded portion, the protrusion being formed by the predetermined distance.

Provided is a pouch container aligned structure, wherein: each pouch container has a folded body part that is the top end of one of a pair of body sheets folded into a substantial V shape, with one end of a top sheet also forming the folded body part by being joined to the top end of the body sheet and the other end of the top sheet forming the distal end portion of the container by being joined to the top end of the other of the pair of body sheets; and the pouch containers are aligned in a state in which the distal end portion of one pouch container is inserted into the folded body part of another pouch container.

The present disclosure provides a method for sealing a fitment to a flexible container. In an embodiment, the method includes placing a fitment into the neck of a four panel flexible container formed from flexible film. The process includes complementarily aligning a multiseal around a base of the fitment. The process includes providing a plurality of primary seals (and flaps), secondary seals, and tertiary seals onto the base with respective primary sealing jaws, secondary sealing jaws, and tertiary sealing jaws to form the multiseal, wherein the secondary seals overlap the primary seals, and the tertiary seals overlap the primary seals and the secondary seals.

A method of making a storage bag comprising the following steps performed in any order: (a) forming a composite tube having an inner surface comprising a higher melting polymer, an outer surface comprising a lower melting polymer, two ends, and a diameter; (b) flattening the tube in a direction perpendicular to the diameter; (c) forming a joint at one of the ends at a temperature between respective melting points of the higher melting polymer and the lower melting polymer; (d) providing a composite sheet having a first side comprising a higher melting polymer and a second side comprising a lower melting polymer; and (e) disposing the composite sheet over the joint such that the first side comprising a lower melting polymer engages the joint and forming a lap seam over the joint at a temperature between respective melting points of the higher melting polymer and the lower melting polymer, and a storage bag made by such method.

A flexible container formed of flexible web material is provided. The container includes four panels forming: a body portion; a neck portion; a flare portion extending from the neck portion; and a tapered transition portion between the body and neck portions; wherein the neck portion has a reduced width and the flare portion has an expanded end. Also disclosed is a method of forming the aforementioned container comprising steps of: biasing the expanded end to define a circumference; moving, via a mandrel comprising a groove, the fitment within the circumference and through the expanded end to a first position in the neck; transversely cutting away the expanded end by advancing preferably v-shaped blades through the neck and into the groove preferably without rotation of the mandrel, container, or blades; moving the fitment to a second position in the neck; and sealing the neck to the fitment.