A system for forming a pressware product comprises rollers, a scoring tool, a scoring station actuator, a forming tool, and a forming station actuator. The rollers pull the web along a path having an angle. The scoring tool receives the material from the rollers and includes a vertically shiftable scoring punch with an edge that extends about an outline of the pressware product and a striker plate. The scoring station actuator shifts the scoring tool to form a slot in the web. The forming tool receives the scored web and includes a vertically shiftable positive mold assembly and negative mold assembly. The forming station actuator shifts the positive mold assembly to press against the web and form the pressware product.

A device for automated packaging of articles, comprising a conveyor for feeding and transporting into the device a blank of corrugated cardboard, a pair of crease wheels for creating two longitudinal crease lines in the blank, a transversal blade or score applicator for successively creating four transversal crease lines in the blank as the blank is transported into the device, and opposite pressing members such as jaws of a press and/or pressing rollers, arranged symmetrically with respect to a center line of the device, whose lateral position is adjustable for their ends or tips to match the two longitudinal crease lines, and activated in a timely manner as the blank is transported into the device to crush the corrugated cardboard in the top, middle and bottom corners of the blank in order to make it easily foldable.

A system for scoring a web of a roll of material comprises a plate, a scoring punch, a scoring station actuator, and a controller. The plate has a slot extending about a shape representing an outline of a pressware product. The scoring punch has a protruding blade operable to enter the slot of the plate. The scoring station actuator is configured to shift the scoring punch or the plate to press the blade against the web to form a slot in the web. The controller is configured to direct the scoring station actuator to press the blade to a first predetermined scoring depth within the web.

A method for forming a heat-reflective blank includes laminating at least one thermal film sheet at a predetermined position on a first linerboard sheet such that a laminated sheet is formed, and feeding the laminated sheet into a corrugating machine. The method further includes coupling the laminated sheet to a corrugated medium sheet and a second linerboard sheet such that a corrugated sheet is formed. The corrugated medium sheet is between the first linerboard sheet and the second linerboard sheet and the thermal film sheet is positioned on an outer surface of the corrugated sheet.

The container for product has a bottom wall and a lateral wall of tubular extension up to an annular and surrounding an opening for access to the inner volume. The container is of the type without cover or part that can be lost, including two distinct protrusions, projecting from the lateral wall in order to get a closed configuration, wherein the two protrusions are simultaneously: projecting opposite the bottom wall, from the annular end; and sealed to each other so as to form a sealing zone in order to hermetically close the opening. The container has two gripping portions, offset and distributed on the two protrusions and arranged outside of the sealing zone, which makes it quick to open. The container is recyclable, formed for example based on laminated paper or cardboard.

A paper box package forming apparatus includes a continuous feeding device, a box folding mechanism and a cover sealing mechanism. The continuous feeding device includes a paperboard stacking frame, an adsorption mechanism and a roll extrusion conveying mechanism. A paperboard is absorbed from a back side of the paperboard stacking frame through the adsorption mechanism and conveyed to a box folding device through the roll extrusion conveying mechanism. The box folding device includes a downward-pressing inner punch, a box folding outer mold and a pushing mechanism. The pushing mechanism conveys a bottom box to the cover sealing mechanism. The downward-pressing and attaching mechanism includes downward-pressing driving mechanism, a top-pressing plate, side-pressing plates and overturning cylinders. The side-pressing plates are hinged to side edges of the top-pressing plate through the driving of the overturning cylinders.

Techniques for erecting folded-flat cases are described herein. In a first example, a grasping tool is moved along a supporting beam in two directions in a first dimension. The supporting beam is configured for movement along first and second beams two directions in a second dimension. The grasping tool is configured to grasp and open a folded-flat case. In a second example, the grasping tool is configured with a rotation arm. A rotation-control beam defines a track, within which a pin connected to the rotation arm is configured to slide. A motor drives the rotation-control beam in two directions in one dimension, to thereby rotate the grasping tool.

The method includes first folding a plurality of sidewall panels to form sidewalls for an assembled package, a tear-off section being defined by at least a portion a lower end of at least some of the sidewalls, second folding one or more platform panels to form a supportive platform near the lower end of the sidewalls, and third folding at least one foot panel under the supportive platform to at least partially support the supportive platform of the assembled package.

A box forming apparatus includes first holders configured to hold a first side surface of a cardboard sheet, second holders configured to hold a second side surface of the cardboard sheet, an arm, a first mover, and a second mover. The arm has a support that supports the first and the second holders. The first mover changes a position of the first holders relative to the second holders while the arm is being rotated to open the cardboard sheet. The second mover moves the arm in association with opening of the cardboard sheet so that, when the cardboard sheet has been opened, the second mover will have moved the support a predetermined distance in a second direction opposite a first direction, which is a direction heading from a rotational center of the arm to a distal end of the arm.

A box forming carousel apparatus including a frame, a rotating carton retainer, a first side carton folding assembly, a second side carton folding assembly and an axle. The frame has a bottom, and first and second sides. The rotating carton retainer is rotatably coupled to the frame and has a plurality of slot assemblies radially spaced apart, each slot assembly having a leading wall, a following wall and a base wall. Each slot assembly structurally configured to retain a box therein. The first side carton folding assembly is structurally configured to fold a plurality of flaps of the box on a first side thereof. The second side carton folding assembly is structurally configured to fold a plurality of flaps of the box on a second side thereof. The axle extends between the first side and the second side of the frame spaced apart from the bottom of the frame.