A molding tool for laminating three-dimensional molded parts made of a fiber-containing material, where at least one moldable laminate is applied to a surface of a molded part is described. A method for laminating three-dimensional molded parts made of a fiber-containing material are also described.

An apparatus for manufacturing a bottle comprising an inner pouch and an outer paperboard shell, the shell made from a sheet blank comprising a main body panel, a first neck panel and a second neck panel. An apparatus for use in manufacturing a bottle comprises a former having a cavity for receiving the pouch, the former comprising a main body section, a neck section and a shoulder section; at least two neck press elements, each neck press element being moveable into a clamping position to clamp a part of one of said neck panels between the neck press element and the neck section of the former; and at least two shoulder press elements, each shoulder press element being moveable into a clamping position to clamp a part of one of neck panels between the shoulder press element and the shoulder section of the former.

Method for dry-forming cellulose products from a cellulose blank structure in a product forming unit. The product forming unit includes a blank dry-forming module and a pressing module. The cellulose blank structure is air-formed in the blank dry-forming module onto a forming wire. The pressing module includes one or more forming molds for forming the cellulose products from the cellulose blank structure in a pressing operation. The method includes arranging the forming wire in a stationary mode during the pressing operation.

Method for dry-forming cellulose products from a cellulose blank structure in a product forming unit. The product forming unit includes a blank dry-forming module and a pressing module. The cellulose blank structure is air-formed in the blank dry-forming module onto a forming wire. The pressing module includes one or more forming molds for forming the cellulose products from the cellulose blank structure in a pressing operation. The method includes arranging the forming wire in a stationary mode during the pressing operation.

A stamping apparatus configured to stamp a material configured as a flat paper or cardboard web, the stamping apparatus including a machine frame; an upper part including at least one upper stamping tool configured as a male die; and a lower part including at least one lower stamping tool configured as a female die wherein the upper part is arranged movable in a linear manner relative to the machine frame, wherein the lower part is fixed at the machine frame, wherein an intermediary space is provided between the male die and the female die, wherein the material to be stamped is movable through the intermediary space in a direction perpendicular to a direction of a relative movement between the upper part and the lower part, wherein the material to be stamped is stampable by the relative movement between the upper part and the lower part.

A method is provided for producing discrete three-dimensional cellulose products from an air-formed cellulose blank structure in a rotary forming mould system. The method includes providing an air-formed cellulose blank structure, wherein the cellulose blank structure is air-formed from cellulose fibres; transporting the air-formed cellulose blank structure to a rotary forming mould system; feeding the air-formed cellulose blank structure to a position between a first mould part and a second mould part, and heating the air-formed cellulose blank structure; forming the three-dimensional cellulose products from the air-formed cellulose blank structure in the rotary forming mould system, by pressing the heated air-formed cellulose blank structure with a forming pressure.

A method is provided for producing discrete three-dimensional cellulose products from an air-formed cellulose blank structure in a rotary forming mould system. The method includes providing an air-formed cellulose blank structure, wherein the cellulose blank structure is air-formed from cellulose fibres; transporting the air-formed cellulose blank structure to a rotary forming mould system; feeding the air-formed cellulose blank structure to a position between a first mould part and a second mould part, and heating the air-formed cellulose blank structure; forming the three-dimensional cellulose products from the air-formed cellulose blank structure in the rotary forming mould system, by pressing the heated air-formed cellulose blank structure with a forming pressure.

Disclosed is a paper cutting and creasing equipment based on synchronous combination of convex and concave cams, including a rack and a paper pressing system, where a groove is formed in a center of the paper pressing system; and a first synchronous belt entering the groove, where the first synchronous belt is arranged below paper, the first synchronous belt is also provided with a through hole, a first linear advancing part is arranged above the paper pressing system, and a second linear advancing part is arranged below the paper pressing system. The first linear advancing part is equipped with a first creasing carriage, and the original single-sided creasing of packaging paper from above is changed to double-sided creasing of packaging paper through the cooperation of a convex cam and a concave cam, thereby preventing microcracks on the back side of the packaging paper and even surface peeling.

Disclosed is a paper cutting and creasing equipment based on synchronous combination of convex and concave cams, including a rack and a paper pressing system, where a groove is formed in a center of the paper pressing system; and a first synchronous belt entering the groove, where the first synchronous belt is arranged below paper, the first synchronous belt is also provided with a through hole, a first linear advancing part is arranged above the paper pressing system, and a second linear advancing part is arranged below the paper pressing system. The first linear advancing part is equipped with a first creasing carriage, and the original single-sided creasing of packaging paper from above is changed to double-sided creasing of packaging paper through the cooperation of a convex cam and a concave cam, thereby preventing microcracks on the back side of the packaging paper and even surface peeling.

A self-expandable insulating box liner includes a first insulating panel assembly, a second insulating panel assembly, and a plurality of layers of an oxygen barrier film. Each of the first and second insulating panel assemblies includes an insulating panel portion sealed between two layers of the oxygen barrier film. Each of the insulating panel portions has a first, pre-compressed thickness. The insulating panel portions are compressed to a second, compressed thickness smaller than the first, pre-compressed thickness prior to being sealed between the two layers of the oxygen barrier film. When compressed and sealed, the insulating panel portions retain the second, compressed thickness. The insulating panel portions are movable from the second, compressed thickness to the first, pre-compressed thickness when one of the two layers of oxygen barrier film is punctured.