The line comprises: an unwinding section (3) for unwinding parent reels (Ba, Bb, Bm) of web material (Na, Nb), with at least a first unwinding station (5; 7); at least a winding station (15) downstream of the unwinding section (3); a feed path from the unwinding section (3) toward the winding station (15);
The unwinding section (3) is associated with a loading arrangement of the parent reels (Bm), which comprises: an upender (253; 306) configured to upend the parent reels (Bm) positioning them with their axis horizontal; and a loading robot (263; 313), configured to position a parent reel (Bm; Ba, Bb) on an unwinding mandrel (9) of the unwinding section (3).

The invention relates to an applicator for die-cut parts (2), having a die-cut part strip (1) with a longitudinal direction (L) having a carrier layer (3) and an adhesive layer (4), where an outer contour of the die-cut parts (2) is punched through the carrier layer and adhesive layer (3, 4) down to predetertnined breaking points (18) and a die-cut part complement (19) protrudes beyond the die-cut parts (2) continuously laterally to a longitudinal direction (L), and a punch head (8) over which the die-cut part strip (1) runs, where the die-cut parts (2) running over the punch head (8) face away from the punch head (8) by their adhesive layer (4), and the die-cut parts (2) can be pressed by means of the punch head (8) onto a surface (11).

The invention relates to a method for the optimal positioning of veneer sheets at a lay-up station, wherein the veneer sheets are attached for a veneer assembly composed of veneer sheets glued on top of each other. The method comprises determining an optimal position for each veneer sheet and a location for virtual alignment edges and laying up the veneer sheets as positioned in accordance with the virtual alignment edges, for a veneer assembly.

A packing system includes a conveyor configured to transport one or more containers. Two or more printers are disposed along the conveyors. The printers are configured to print printed material. Each of the printers has a tray upon which the printed material is deposited from the printer. A robotic arm is disposed proximal to the conveyor and the printers. The robotic arm has an end of arm tool configured to pick the printed material from the tray of each printer. A controller is operatively connected to the printers and the robotic arm. The controller is configured to send one or more print instructions to one or more of the printers to print the printed material. The controller is configured to instruct the robotic arm to place the printed material from the tray into the container.

A method for loading blanks to a head of the stamping press line includes providing a stack of blanks at a pick-up position; loading blanks from the stack of blanks to the head of the stamping press line; before the stack of blanks is exhausted, creating a buffer by raising a predetermined number of blanks from the top of the stack to a position above the stack; and loading blanks from the buffer to the line while replacing the stack of blanks with a new stack of blanks. A handling system for creating a buffer includes one or more buffer robots with one or more supporting tools on which the blanks can be held, and one or more separating tools to separate one or more blanks at the top of the stack from the underlying blank of the stack.

A handling device which is suitable for repositioning objects has an adhesive gripping device which includes a support structure on which at least one gripping unit is arranged. The gripping unit has an adhesive belt which extends between two holding regions and which, in a working region having a longitudinal portion functioning as a gripping portion, is wound around a release deflection element which is translationally movable relative to the support structure. The release deflection element is part of a release system, by means of which adherence of the object can be released again as required. This release system also has a release drive system, by means of which a rotational movement of the gripping portion around the release deflection element, which movement accompanies the release movement, can be caused, leading to the active removal of the adhesive belt from the gripped object.

A method and apparatus for automated aerating and handling a sub stack of a stack of rectangular paper sheets where the sub stack is gripped near or at opposed corners of a common edge of the sub stack by means of two robotic grippers (A, B) having two opposed gripping fingers (A1, A2, B1, B2), lifting and rotating the corners in mutually opposite first directions such that the work stack achieves an upwards concave form, gripping the corners by the robotic grippers (A, B), and rotating the grippers in second directions opposite to the first directions such that the upper sheet of the sub stack has a curvature smaller than the bottom sheet of the sub stack, preferably a substantially plane form.

Material moving apparatus, systems and methods are presented which can include an air material mover. Airflow through orifices can create a localized vacuum such that the uppermost or top layer of material can be separated from the stack of material. The airflow can interact with the material to produce flutter, which assists in separating lower layers from the uppermost layer. A material gripper can grip the uppermost or top layer of material for removal from the stack and repositioning in a work area.

A gripper assembly for recovering a layout (22) from a sheet material (12) is presented. It comprises a vacuum gripper (26) with a gripper body (32) on which an array of air flow openings (34a, 34b) is arranged. Air flow openings (34a) associated with one or more blanks (20) of the layout (22) are selectively open and air flow openings (34b) associated to waste (28) of the sheet material (12) are selectively closed. Additionally, an apparatus for recovering a layout (22) from a sheet material (12) comprising such a gripper assembly is described. Furthermore, a method for separating a layout (22) from waste (28) of a sheet material (12) is explained.

According to the present embodiment, a control device of a conveyor system controls a moving device and a suction device to suction the transport target article so that an approximate center of an opening of at least one suction unit is located on a first imaginary line, and remaining suction unit is located on one end side in a longitudinal direction of the transport target article with respect to the first imaginary line, controls a turning-over section to be in a front-back reversing orientation, and performs control so that suction of the transport target article by the suction units is released after the suction device is in the front-back reversing orientation.