An apparatus for attaching a label to a moving cable, the apparatus comprising: a roller for pressing a label against the moving cable, wherein the label has a first attaching edge and a second attaching edge and wherein the roller comprises: a first roller for pressing the label against the moving cable, wherein the label is pressed against the moving cable with the first attaching edge and the second attaching edge of the label on opposites sides of the moving cable; a first roll down roller for folding the second edge of the label against the moving cable; and a second roll down roller for folding the first edge of the label against the moving cable.

A method for the manufacture of a sports article, in particular a sport shoe, can include the operations of: (a) providing at least one laminar component; (b) providing at least one three-dimensional object; and (c) placing the component onto the object by means of a first roll while simultaneously moving the object relative to the roll.

A label applicator with a label peeling function includes a frame supported by a support machine, a suction unit that is supported by the frame and has a suction pad, a claw member having a sharp tip that is disposed under the suction pad, a moving mechanism that is supported by the frame, and supports the claw member so as to be movable in an up-down direction relative to the suction pad, and a lock device that locks movement of the claw member in the up-down direction relative to the suction pad, in a state where the suction pad is placed on top of and in contact with an end of a label lying on the tip of the claw member.

A label applicator with a label peeling function includes a frame supported by a support machine, a suction unit that is supported by the frame and has a suction pad, a claw member having a sharp tip that is disposed under the suction pad, a moving mechanism that is supported by the frame, and supports the claw member so as to be movable in an up-down direction relative to the suction pad, and a lock device that locks movement of the claw member in the up-down direction relative to the suction pad, in a state where the suction pad is placed on top of and in contact with an end of a label lying on the tip of the claw member.

A labelling method includes receiving an occupied signal from a conveyor indicating that the next spot on the conveyor is occupied with an object to be labeled and instructing a turret motor to rotate a turret continuously from one application position to another application position to apply a second label to the second object. The method then includes determining the absence of an occupied signal within a time threshold, and instructing the turret motor to rotate the turret to an intermediate position and to slow the turret at the intermediate position. The intermediate position is between two consecutive application positions. The method then includes receiving another occupied signal indicating that the next spot on the conveyor is occupied, and instructing the turret motor to rotate the turret to the next application position to apply a third label to the object.

A labelling method includes receiving an occupied signal from a conveyor indicating that the next spot on the conveyor is occupied with an object to be labeled and instructing a turret motor to rotate a turret continuously from one application position to another application position to apply a second label to the second object. The method then includes determining the absence of an occupied signal within a time threshold, and instructing the turret motor to rotate the turret to an intermediate position and to slow the turret at the intermediate position. The intermediate position is between two consecutive application positions. The method then includes receiving another occupied signal indicating that the next spot on the conveyor is occupied, and instructing the turret motor to rotate the turret to the next application position to apply a third label to the object.

A labeling device for a syringe that includes a first labeling subsystem adapted to print a first label having machine readable information and a second labeling subsystem adapted to print a second label having human readable information is disclosed. The first labeling subsystem includes a label applicator adapted to automatically apply the first label to a portion of the syringe. The first labeling subsystem includes a syringe clamp assembly that securely holds the syringe while the label applicator automatically applies a first label to the syringe. The second labeling subsystem includes a removal device adapted to automatically remove a backing material from the second label.

A labeling device for a syringe that includes a first labeling subsystem adapted to print a first label having machine readable information and a second labeling subsystem adapted to print a second label having human readable information is disclosed. The first labeling subsystem includes a label applicator adapted to automatically apply the first label to a portion of the syringe. The first labeling subsystem includes a syringe clamp assembly that securely holds the syringe while the label applicator automatically applies a first label to the syringe. The second labeling subsystem includes a removal device adapted to automatically remove a backing material from the second label.

Provided is a pressure sensitive adhesive sheet for tires that enables continuous and efficient labeling on tires using a labeling apparatus. The pressure sensitive adhesive sheet includes a release material (C), a first pressure sensitive adhesive layer (B1), a first substrate (A1), a second pressure sensitive adhesive layer (B2), and a second substrate (A2), in this order, and satisfies Requirement (1): in a planar view of the pressure sensitive adhesive sheet, the outline of the first pressure sensitive adhesive layer (B1) exists inside the outline of the second substrate (A2); and Requirement (2): the MD stiffness of the second substrate (A2), measured in the Gurley method according to JIS L 1085, is 0.10 mN or more.

Provided is a pressure sensitive adhesive sheet for tires that enables continuous and efficient labeling on tires using a labeling apparatus. The pressure sensitive adhesive sheet includes a release material (C), a first pressure sensitive adhesive layer (B1), a first substrate (A1), a second pressure sensitive adhesive layer (B2), and a second substrate (A2), in this order, and satisfies Requirement (1): in a planar view of the pressure sensitive adhesive sheet, the outline of the first pressure sensitive adhesive layer (B1) exists inside the outline of the second substrate (A2); and Requirement (2): the MD stiffness of the second substrate (A2), measured in the Gurley method according to JIS L 1085, is 0.10 mN or more.