A box former may include a carton blank dispensing device that holds a carton blank and carton moving devices that move the carton blank from the carton blank dispensing device and positions it between a plunger and a forming well. The forming well may include a floor, one or more walls, and an opening. The plunger may be configured to move between a retracted position and one or more extended positions, the plunger contacting a top surface of the carton blank and pushing the carton blank into the forming well through the opening of the forming well. In some implementations, the box former may include forming guides that contact points on a bottom surface of the carton blank when it is pushed by the plunger to cause the carton blank to fold into a formed carton.

A blank of sheet material for forming a container includes a plurality of side panels and a glue panel coupled together in series along a plurality of generally parallel fold lines. At least one of the generally parallel fold lines has an increased stiffness. The blank also includes a plurality of bottom panels. At least one of the bottom panels includes at least one bottom corner portion that extends adjacent to and beneath a free bottom edge of a corresponding one of the corner panels and the glue panel. The blank further includes a plurality of top panels. At least one of the top panels includes at least one top corner portion that extends adjacent to and above a free top edge of a corresponding one of the corner panels and the glue panel.

A package assembly suitable for use in storing and shipping a plurality of product containers includes a shipping configuration and a display configuration. In the shipping configuration the package assembly is constructed from a single blank of packaging material and formed into a case into which a plurality of product containers are inserted. In the display configuration a top portion of the case is removed from a bottom portion of the case along one or more tear lines on the blank.

A system comprises a corrugator single facer configured to receive a first web and a second web, to corrugate the first web and adhere the first web in a corrugated state to the second web in an uncorrugated state to form a single face corrugated web as output. The system also includes a folder gluer operatively connected to receive the single face corrugated web from the corrugated single facer. The folder gluer is configured to fold and adhere the single-face corrugated web into a tube.

A system comprises a corrugator single facer configured to receive a first web and a second web, to corrugate the first web and adhere the first web in a corrugated state to the second web in an uncorrugated state to form a single face corrugated web as output. The system also includes a folder gluer operatively connected to receive the single face corrugated web from the corrugated single facer. The folder gluer is configured to fold and adhere the single-face corrugated web into a tube.

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.

A cutting waste removing device, installed in a box making machine for manufacturing corrugated cardboard boxes from a corrugated cardboard sheet, to remove cutting waste generated in a cutting process performed by a paper discharging unit of the box making machine, is provided with an air blowing device which is disposed along a travel region in a device width direction, through which cut processed portions of the corrugated cardboard sheet and the cutting waste travel, and which ejects air toward the cutting waste in such a way as to include a vertically downward directional component in a prescribed ejection mode, and a control device for performing intermittent on-off control of the operation of the air blowing device, wherein the control device controls the air blowing device to be on only at a timing at which the cutting waste passes through an air ejection region of the air blowing device.

A box forming device includes an internal partition wall including a positioning area to support a blank arriving from a magazine and positioned between a forming head movable along a rectilinear trajectory to intercept, in an operating position, a portion of the blank. A die receives the blank and forms an open box having a base and side walls defining a housing compartment. The forming head has an operating end for contact with the blank provided with a through seat extending transversely with respect to the rectilinear trajectory. A strap feeding member feeds a strap along a strap along a strap feeding direction in the through seat, which temporarily accommodates the strap. A strap retaining member retains the strap in the through seat while the forming head moves towards the blank, and to release the strap in the compartment such that the strap forms a partition wall which separates two adjacent compartments.

A method of at least partially erecting a carton includes loading a blank in a blank infeed assembly, the blank having a plurality of panels and a plurality of end flaps foldably connected to a respective panel of the plurality of panels. The method further includes positioning the blank on at least one conveyor assembly configured to move the blank in a downstream direction, operating the at least one conveyor assembly to move the blank in the downstream direction toward a carton erection assembly, the carton erection assembly including an end flap engagement assembly positioned adjacent the at least one conveyor assembly, and activating the end flap engagement assembly such that a portion of the end flap engagement assembly contacts and moves at least one end flap of the plurality of end flaps of the blank as the blank moves in the downstream direction.

A method of at least partially erecting a carton includes loading a blank in a blank infeed assembly, the blank having a plurality of panels and a plurality of end flaps foldably connected to a respective panel of the plurality of panels. The method further includes positioning the blank on at least one conveyor assembly configured to move the blank in a downstream direction, operating the at least one conveyor assembly to move the blank in the downstream direction toward a carton erection assembly, the carton erection assembly including an end flap engagement assembly positioned adjacent the at least one conveyor assembly, and activating the end flap engagement assembly such that a portion of the end flap engagement assembly contacts and moves at least one end flap of the plurality of end flaps of the blank as the blank moves in the downstream direction.