This invention relates to an apparatus for manufacturing a container, the container being made of paperboard and being formed from at least two elements adhered together. An apparatus for use in manufacturing a container comprises a first inlet connected to a supply of dry steam; a second inlet connected to a supply of hot air; a mixing chamber, the first inlet and the second inlet being fluidly connected to the mixing chamber such that a flow of dry steam from the first inlet mixes with a flow of hot air from the second inlet; and a delivery nozzle fluidly connected to the mixing at least one of said elements.

This invention relates to an apparatus for manufacturing a bottle, the bottle comprising an inner pouch and an outer paperboard shell, the shell being 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 said pouch, the former comprising a main body section, a neck section and a shoulder section extending between the main body section and the neck section; at least two neck press elements, each neck press element including a press surface facing and aligned with at least a part of the neck section of the former, and 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 including a press surface facing and aligned with the shoulder section of the former, and each shoulder press element being moveable into a

A machine for forming a joined blank assembly from first and second blanks of sheet material includes a deck coupled to a frame, and a first transfer assembly associated with the frame. The first transfer assembly is configured to position the first blank on the deck. The machine also includes a second transfer assembly associated with the frame. The second transfer assembly is configured to position the second blank in at least a partially overlying relationship to the first blank on the deck. The machine further includes at least one compression member configured to compress the second blank and the first blank together against the deck to form the joined blank assembly.

A machine for forming a joined blank assembly from first and second blanks of sheet material includes a deck coupled to a frame, and a first transfer assembly associated with the frame. The first transfer assembly is configured to position the first blank on the deck. The machine also includes a second transfer assembly associated with the frame. The second transfer assembly is configured to position the second blank in at least a partially overlying relationship to the first blank on the deck. The machine further includes at least one compression member configured to compress the second blank and the first blank together against the deck to form the joined blank assembly.

A trap for certain insect pests may be configured to be particularly suitable for bedbugs and take the form of a foldable pitfall bedbug trap. The pitfall trap walls extend vertically upwardly at an angle and are sufficiently rough to permit bedbugs to climb to an upper edge of the trap, whereas the inner surfaces of the pitfall trap walls have been treated with a smooth material, such as being laminated, causing bedbugs at the upper edge to fall upon initiating contact with the inner pitfall walls and their smooth characteristics. The resultant foldable pitfall bedbug trap is relatively inexpensive to produce and easily user-deployable.

Systems for providing efficient manufacturing of sheet or box structures, corrugate sheets, or other products of varying size and structure often with pre-applied print (“pre-print”) are provided herein. The systems include various features and modules that enable automated control of the corrugator, including the knives, slitters, scorers and cut-to-mark detection system(s), are contemplated. Colored markings may be used to indicate an order change section between two order sections of a roll plan for the manufacturing process. The colored markings are detected as the corrugator runs and, once detected, a controller determines a next set of order instructions—e.g., to match the upcoming order. Thus, an order change may occur, thereby enabling automated control of the corrugator based on the new order instructions. Computer readable markings may enable checking of the actual position in the roll plan to an intended position, enabling stopping or changing of the corrugator operation if needed.

Systems for providing efficient manufacturing of sheet or box structures, corrugate sheets, or other products of varying size and structure often with pre-applied print (“pre-print”) are provided herein. The systems include various features and modules that enable automated control of the corrugator, including the knives, slitters, scorers and cut-to-mark detection system(s), are contemplated. Colored markings may be used to indicate an order change section between two order sections of a roll plan for the manufacturing process. The colored markings are detected as the corrugator runs and, once detected, a controller determines a next set of order instructions—e.g., to match the upcoming order. Thus, an order change may occur, thereby enabling automated control of the corrugator based on the new order instructions. Computer readable markings may enable checking of the actual position in the roll plan to an intended position, enabling stopping or changing of the corrugator operation if needed.

In a method for manufacturing a packaging container, a web of material including a fiber-containing material is conveyed through a preforming station and through a forming station. In the preforming station, a forming region of the web of material is preformed by cooperation of a preforming die upper part with a preforming die lower part, the forming region being deformed between the preforming die upper part and the preforming die lower part during the preforming. In the forming station, a packaging depression is formed in the preformed forming region by cooperation of a forming die upper part with a forming die lower part, wherein the preformed forming region is deformed between the forming die upper part and the forming die lower part during forming.

A method of producing a gable-top paper or paper-board based packaging container is disclosed, the packaging container having a plurality of top-closure sub-panels, including a top-closure sub-panel (132) configured to form a pouring spout of the packaging container when the packaging container is in an open position, the top-closure sub-panel being configured to form a pouring spout comprising top-fin panel sections (182a, 182b) being at least partially hot-sealed to each other prior to a first opening of the packaging container, the top-fin panel sections abutting one another in a contact region when the packaging container is in a closed position. The method comprises the steps of: producing a blank (100) from a laminate packaging material having an outside heat sealable layer; and treating the outside heat sealable layer in a sub-region (192a, 192b) of at least one of said top-fin panel sections (182a, 182b) reducing or eliminating the heat-sealing capacity of the outside heat sealable layer in the sub-region. A related blank and a packaging container produced from such a blank is also disclosed.

A process for forming a container from a blank, the process comprising the steps of: thermally inducing one or more fold lines on at least one surface of a container blank fabricated from a thermal insulation sheet material, wherein the blank comprises: a first panel portion; a second panel portion located adjacent the first panel portion and sharing a first common edge therewith; and a third panel portion located adjacent the second panel portion and sharing a second common edge therewith, the second common edge being substantially parallel to the first common edge, wherein the first panel portion and the third panel portion are each associated with a pair of flap members adapted for folding movement relative to the respective first and third panel portions such that, when assembled, each of the flap members overlies an edge of the second panel portion substantially perpendicular to the first common edge and the second common edge, folding the first panel portion of the container blank along a first fold line, wherein when folded, the first panel portion is substantially perpendicular to the second panel portion of the container blank; folding the third panel portion of the container blank along a second fold line, wherein when folded, the third panel portion is substantially perpendicular to the second panel portion and substantially parallel to the first panel portion; sealing a portion of each of the pair of flap members of the first panel portion to a portion of each of the pair of flap members of the third panel portion to form a side seam joint; and sealing a portion of the first panel portion adjacent the side seam joint and a portion of the third panel portion adjacent the side seam joint to an edge of the second panel portion to form a bottom seam joint.