A labeling device and a method for applying labels to containers comprising an unwinding unit for receiving thereon at least one supply roll with a label tape; having an intermediate buffer unit for temporarily storing the label tape unwound from the supply roll, the intermediate buffer unit comprising at least one first movable roller unit; a drive unit arranged downstream of the intermediate buffer unit when seen in the conveying direction and used for driving the label tape in the conveying direction and processing unit for separating the label tape into the individual labels and for optionally coating the labels with glue and for transferring the labels to the containers wherein the intermediate buffer unit and the drive unit have arranged between them a separately configured, dynamic buffer unit comprising at least one second roller unit which is movable independently of the intermediate buffer unit.

A labeling system includes a frame component pivotal between a label load position, a first label apply position and a second label apply position. A vacuum applicator is carried on the frame component for movement with the frame component. A first actuator is configured for pivoting the frame component between the label load position and the first label apply position. A second actuator is configured for pivoting the frame component from the label load position to the second label apply position. The second label apply position is located between the label load position and the first label apply position. The labeling system can be used to apply one label to the leading side of an item moving along a conveyance path, and to apply another label to the lateral side of the same item.

A labeling system includes a frame component pivotal between a label load position, a first label apply position and a second label apply position. A vacuum applicator is carried on the frame component for movement with the frame component. A first actuator is configured for pivoting the frame component between the label load position and the first label apply position. A second actuator is configured for pivoting the frame component from the label load position to the second label apply position. The second label apply position is located between the label load position and the first label apply position. The labeling system can be used to apply one label to the leading side of an item moving along a conveyance path, and to apply another label to the lateral side of the same item.

A system and method for advancing sticky media through printers includes one or more feed rollers comprised of a grit roller. The grit roller contacts an adhesive side of liner-less label stock removed from a roll or stack for printing. The grit roller works cooperatively with an opposing, counter-rotating roller to remove the label stock from the roll and feed it to a printer.

A system and method for advancing sticky media through printers includes one or more feed rollers comprised of a grit roller. The grit roller contacts an adhesive side of liner-less label stock removed from a roll or stack for printing. The grit roller works cooperatively with an opposing, counter-rotating roller to remove the label stock from the roll and feed it to a printer.

A machine for labeling containers, which includes a transfer drum, fed by an unwinding assembly for unwinding a labeling ribbon, which is provided with cutting elements which are mutually angularly spaced apart around an axis thereof; the unwinding assembly is drivable by control elements which are adapted to command, during the rotation of the transfer drum about its own axis, at least one variation of the feeding speed of the labeling ribbon, with respect to the peripheral speed of the transfer drum; the control elements are adapted to command at least one first slowing of the feeding speed of the labeling ribbon during the activation of the cutting device.

A machine for labeling containers, which includes a transfer drum, fed by an unwinding assembly for unwinding a labeling ribbon, which is provided with cutting elements which are mutually angularly spaced apart around an axis thereof; the unwinding assembly is drivable by control elements which are adapted to command, during the rotation of the transfer drum about its own axis, at least one variation of the feeding speed of the labeling ribbon, with respect to the peripheral speed of the transfer drum; the control elements are adapted to command at least one first slowing of the feeding speed of the labeling ribbon during the activation of the cutting device.

A labelling machine comprises a supply spool support for supporting a supply spool comprising label stock; a take-up spool support adapted to take up a portion of the label stock; a movable element which defines a portion of a web path between the supply spool and the take-up spool support; a sensor configured to produce a sensor signal indicative of the position of the movable element; a controller configured to receive the sensor signal and output a brake assembly control signal based upon the sensor signal; and a brake assembly configured to apply a braking force to one of said spool supports based upon the brake assembly control signal, the braking force resisting rotation of said one of said spool supports. The controller is configured to control the brake assembly based upon the sensor signal so as to cause the moveable element to move towards a desired position.

A labelling machine comprises a supply spool support for supporting a supply spool comprising label stock; a take-up spool support adapted to take up a portion of the label stock; a movable element which defines a portion of a web path between the supply spool and the take-up spool support; a sensor configured to produce a sensor signal indicative of the position of the movable element; a controller configured to receive the sensor signal and output a brake assembly control signal based upon the sensor signal; and a brake assembly configured to apply a braking force to one of said spool supports based upon the brake assembly control signal, the braking force resisting rotation of said one of said spool supports. The controller is configured to control the brake assembly based upon the sensor signal so as to cause the moveable element to move towards a desired position.

A labeling device, comprising a scale control assembly (11) and a stripping assembly (12), the scale control assembly (11) being configured to obtain a material strip (10) and to lead out a predetermined length of the material strip (10); the stripping assembly (12) being configured to grasp a target label (101) on the material strip (10) led out by the scale control assembly (11) and to affix the target label (101) to a product (D) to be labeled at a pre-set position so as to obtain a labeled product. Said device controls, by means of the scale control assembly, the length of the material strip that is led out at each time when labeling the product to be labeled, so as to improve the precision of the stripping assembly grasping the label and affixing the label to the product to be labeled.