The present disclosure relates to a label-placement module having a first feeder assembly, including a horizontal delivery platter for receiving a label, and a first drive wheel, positioned adjacent to a distal end of the horizontal delivery platter and rotatable to move the label on the horizontal delivery platter in a first direction. The label-placement module may include a second feeder assembly coupled to an actuator that moves the second feeder assembly vertically to a delivery position associated with the container. The second feeder assembly having a vertical delivery platter for receiving the label from the horizontal delivery platter and a second drive wheel rotatable to move the label forward in the first direction towards the container such that at least a portion of the label may be clamped between the container and a lid of the container thereby attaching the label to the container.

There is a provided a label feeder for a hybrid irregular component insertion robot, the label feeder includes: a label printer configured to print a label to be attached to a printed circuit board or an electronic component supplied from an electronic component supply unit to a hybrid irregular component insertion robot, and to enable the printed label to be published; and a label supply unit configured to take over the label being published from the label printer and supply the label to a label pickup position provided inside the hybrid irregular component insertion robot.

There is a provided a label feeder for a hybrid irregular component insertion robot, the label feeder includes: a label printer configured to print a label to be attached to a printed circuit board or an electronic component supplied from an electronic component supply unit to a hybrid irregular component insertion robot, and to enable the printed label to be published; and a label supply unit configured to take over the label being published from the label printer and supply the label to a label pickup position provided inside the hybrid irregular component insertion robot.

The present disclosure provides an automatic labeling apparatus and method, as well as an assembly jig and method, the automatic labeling apparatus includes an attachment platform provided with an attachment surface, an attachment unit provided with a label receiving surface, and a separation unit, wherein the separation unit is configured to separate a label from a label base paper to the label receiving surface with a glue surface of the label away from the label receiving surface, the label receiving surface being configured to make the glue surface of the label higher than the attachment surface when the label is on the label receiving surface.

The present disclosure provides an automatic labeling apparatus and method, as well as an assembly jig and method, the automatic labeling apparatus includes an attachment platform provided with an attachment surface, an attachment unit provided with a label receiving surface, and a separation unit, wherein the separation unit is configured to separate a label from a label base paper to the label receiving surface with a glue surface of the label away from the label receiving surface, the label receiving surface being configured to make the glue surface of the label higher than the attachment surface when the label is on the label receiving surface.

The workpiece bagging device delivers a bag placed on a first placement part to a second placement part and places a workpiece in the bag on the second placement part. The device includes a first arm including, at a tip thereof, at least one first suction part configured to suck the bag, the first arm being configured to move the at least one first suction part, a second arm including, at a tip thereof, a feeding part configured to feed the workpiece, and a second suction part provided on an upper surface of the second placement part. The first suction part sucks the bag placed on the first placement part, delivers the bag to the second placement part, sucks the bag sucked by the second suction part, and moves upward to open the bag, and the workpiece fed by the feeding part is placed in the bag.

The workpiece bagging device delivers a bag placed on a first placement part to a second placement part and places a workpiece in the bag on the second placement part. The device includes a first arm including, at a tip thereof, at least one first suction part configured to suck the bag, the first arm being configured to move the at least one first suction part, a second arm including, at a tip thereof, a feeding part configured to feed the workpiece, and a second suction part provided on an upper surface of the second placement part. The first suction part sucks the bag placed on the first placement part, delivers the bag to the second placement part, sucks the bag sucked by the second suction part, and moves upward to open the bag, and the workpiece fed by the feeding part is placed in the bag.

An assembly for feeding backing ribbon for adhesive labels for labeling products to be labeled, comprising a splicing device and at least two supporting elements for the backing ribbon, the splicing device being intended to perform on command the splice between a first splicing region, formed on a first backing ribbon being unwound from a first supporting element, and a second splicing region, formed on a second backing ribbon wound on a second supporting element, the first backing ribbon supporting a plurality of adhesive labels which are arranged, mutually spaced, on the face directed toward the second splicing region; the first backing ribbon having, when associated with the respective first supporting element, at least one portion that is free from self-adhesive labels and forms the first splicing region; the portion is located substantially at the end of the first backing ribbon that is associated with the first supporting element.

An assembly for feeding backing ribbon for adhesive labels for labeling products to be labeled, comprising a splicing device and at least two supporting elements for the backing ribbon, the splicing device being intended to perform on command the splice between a first splicing region, formed on a first backing ribbon being unwound from a first supporting element, and a second splicing region, formed on a second backing ribbon wound on a second supporting element, the first backing ribbon supporting a plurality of adhesive labels which are arranged, mutually spaced, on the face directed toward the second splicing region; the first backing ribbon having, when associated with the respective first supporting element, at least one portion that is free from self-adhesive labels and forms the first splicing region; the portion is located substantially at the end of the first backing ribbon that is associated with the first supporting element.

An in-line label applicator includes a label printer to print variable data on each label and a label application station that moves the printed labels into a container conveyance path for application to containers moving along the path. One scanner scans the label code of each printed label before the label reaches the conveyance path, and another scanner scans the helper code of each container as the label is being applied during movement of the container along the conveyance path.