A high-speed cornet bending machine with high production capacity and mechanically independent motion control system is provided. At least one feeding device is provided for transferring the sheets in order to the conveying device. Feeding device motors are provided for driving the feeding device. Conveying devices include a transfer line for transferring the sheets from the transport apparatus to the end bending unit as standard and end bending units for standard bending the product ends into a high production capacity and mechanically independent movement control system.

A method of producing flexible polypropylene fabric bags with heat fused seams comprising providing fabric pieces, wherein each fabric piece has a coated side and an uncoated side; positioning fabric pieces so that a coated side of one fabric piece faces a coated side of another fabric piece; selecting an area of fabric to be joined for forming a seam or joint; applying heat to the area to be joined that is less than the melting point of the fabrics, for forming one or more seams or joints and wherein the heat fused seams or joints of a resulting polypropylene bag retains at least 85% of the fabric strength without using sewing machines.

A method of producing flexible polypropylene fabric bags with heat fused seams comprising providing fabric pieces, wherein each fabric piece has a coated side and an uncoated side; positioning fabric pieces so that a coated side of one fabric piece faces a coated side of another fabric piece; selecting an area of fabric to be joined for forming a seam or joint; applying heat to the area to be joined that is less than the melting point of the fabrics, for forming one or more seams or joints and wherein the heat fused seams or joints of a resulting polypropylene bag retains at least 85% of the fabric strength without using sewing machines.

The present invention provides a disposable bioprocess bag, a manufacturing method therefor and a hot-melt annular welding machine, relating to the technical field of biopharmaceutics. The manufacturing method comprises: preparing a first cropping template to a fourth cropping template according to a top, an upper portion, a lower portion and a bottom of a bioreactor; cropping a raw material film according to the first cropping template to the fourth cropping template to obtain a first membrane material to a fourth membrane material, wherein the fourth membrane material directly serves as a rounded bottom; welding at least two pockets on the first membrane material to obtain a rounded top; welding the second membrane material to obtain a cylindrical upper portion; welding the third membrane material to obtain a lower portion in the shape of an inverted rounded truncated cone; and welding, using a hot-melt annular welding machine, the rounded top, the cylindrical upper part, the lower portion in the shape of an inverted rounded truncated cone and the rounded bottom, to obtain a disposable bioprocess bag. According to the present invention, the physical properties of the welded edge of the disposable bioprocess bag are improved, and the fit of the disposable bioprocess bag to the bioreactor are also enhanced.

A triangle sandwich packaging machine includes paired grips for holding vicinities of both sides of a bag mouth of a triangle sandwich packaging bag, a mover intermittently moving the paired grips in every one of packaging stations, and a spatula inserting mechanism for forming a crest on the triangle sandwich packaging bag held by the paired grips to shape an opening. Also provided is a triangle sandwich packaging method including a moving step of intermittently moving the paired grips holding the triangle sandwich packaging bag in every one of the packaging stations, an opening step of opening the triangle sandwich packaging bag into a sectorial shape and a spatula inserting step of forming a crest on the triangle sandwich packaging bag held by the paired grips to shape an opening and inserting a spatula for shaping the opening.

Provided are pouches with rigid handles and/or internal supports and methods of making such pouches. In one aspect, a pouch with internal support includes a flexible pouch including a fitment coupled to a flexible pouch body and at least one inner support piece coupled to the fitment and extending into the inside of the pouch through the interior of the fitment. The fitment includes a fitment inner engagement feature and the at least one inner support piece includes an inner support engagement feature and at least one inner support extending from the inner support engagement feature. The fitment inner engagement feature and inner support engagement feature are interlocked to keep the at least one inner support piece from falling into or out of the flexible pouch body.

The invention discloses a packaging bag and an apparatus and a method for manufacturing film material of the packaging bag, and a method of manufacturing the packaging bag. The processing of the portable portion is conducted by the apparatus for manufacturing film material, and the prepared film material is made into a packaging bag finally. In the technical solution of the invention, by adding a handle structure on the side portion of the big-sized packaging bag, the bag structure of the invention is easy to carry or move the packaging bag and the product within the packaging bag that is large in weight, structure, and size. The packaging bag of the present invention has a simple structure, which is convenient to use and process, improving the practicality and usability of the bag.

A method of forming a flexible container can include folding a web or sheet to define one or more gussets in one or more regions of the flexible container. The gusset can be a continuous gusset or can be an interrupted gusset, having a seal disposed in the gusset.

A method of producing flexible polypropylene fabric bags with heat fused seams comprising providing fabric pieces, wherein each fabric piece has a coated side and an uncoated side; positioning fabric pieces so that a coated side of one fabric piece faces a coated side of another fabric piece; selecting an area of fabric to be joined for forming a seam or joint; applying heat to the area to be joined that is less than the melting point of the fabrics, for forming one or more seams or joints and wherein the heat fused seams or joints of a resulting polypropylene bag retains at least 85% of the fabric strength without using sewing machines.

A process for producing a flexible container is provided. The process includes: A. providing a rear panel web, a front panel web, a first folded gusset panel web, and a second folded gusset panel web, each panel web having peripheral edges and a bottom face, each bottom face having two opposing tapered edges meeting at a bottom end; B. placing the folded gusset panel webs between the rear panel web and the front panel web, the gusset panel webs opposing each other, the panel webs configured to form a common periphery and the bottom seal area including the bottom end of each panel; C. first sealing the peripheral edges, the tapered edges, and the bottom seal area under a set of heat seal conditions; D. second sealing a portion of the bottom seal area under a second heat seal condition; and E. forming a flexible container.