Applicators for die-cut parts, methods for applying die-cut parts to surfaces, and die-cut part strips

The invention claimed is: 1. An applicator for die-cut parts, the applicator being displaceable in a first back-and-forward movement in a z-direction that is perpendicular to a surface and a second movement in an xy-plane parallel to the surface and comprising: a die-cut part strip having a belt strip and a row of die-cut parts disposed alongside one another on the belt strip; a carrier layer of the die-cut parts disposed adjacent to the belt strip; an adhesive layer of the die-cut parts disposed such that the carrier layer is disposed between the belt strip and the adhesive layer; a liner disposed along the adhesive layer of the die-cut parts, a punch head; and a control system signal-conductingly connected to a first sensor, which with a scanning region is directed at the punch head and registers the presence of one of the die-cut parts at the punch head, and an actuating drive of the punch head, wherein the control system is configured to halt a first winding roller of the die-cut part strip when one of the die-cut parts is registered at the punch head and then to activate the actuating drive that drives the first back-and-forward movement and the second movement, wherein the carrier layer consists of one or more plastics selected from the group consisting of polyethylene, polypropylene, cyclic olefin copolymers, polyvinyl chloride, polyester, ethylene-vinyl alcohol, polyvinylidene chloride, polyvinylidene fluoride, polyacrylonitrile, polycarbonate, polyamide, polyethersulfone, and polyimide, the adhesive layer of the die-cut parts faces away from the punch head as the die-cut part strip runs over the punch head, and the die-cut parts are pressable by means of the punch head onto the surface, the control system is configured to move the punch head into a first position above the surface and to adhere a first die-cut part of the die-cut parts in a first surface position onto a first opening of the surface and, after the adhering of the first die-cut part on the first opening, the control system is configured to move the punch head into a second position above the surface, where a second die-cut part of the die-cut parts is adherable, through the first back-and-forward movement in the z-direction, onto a second opening of the surface, a first release force between the belt strip and the carrier layer is greater than a second release force between the liner and the adhesive layer, and the belt strip is an adhesive tape having a belt strip carrier layer and a belt strip adhesive layer. 2. The applicator according to claim 1 , further comprising: a die-cut part roll provided on a supply side of the punch head and by a first winding roller on a removal side of the punch head, the first winding roller being signal-conductingly connected to the control system, being able to accept winding of the belt strip of the die-cut part strip and moving the die-cut part strip cyclically onward. 3. The applicator according to claim 2 , further comprising: a second winding roller disposed at the supply side for accepting winding of the liner. 4. A method for applying die-cut parts to a surface, the method comprising: applying die-cut parts of a die-cut part strip disposed alongside one another on a belt strip of the die-cut parts, wherein each die-cut part of the die-cut parts has a carrier layer and an adhesive layer, the carrier layer is disposed between the belt strip and the adhesive layer, a liner disposed along the adhesive layer of each die-cut parts, a first release force between the belt strip and the carrier layer is greater than a second release force between the liner and the adhesive layer, and the belt strip is an adhesive tape having a belt strip carrier layer and a belt strip adhesive layer; moving the die-cut part strip over a punch head of a punch; halting movement of the die-cut part strip when one die-cut part of the die-cut parts is positioned over the punch head and the punch; directing a first sensor disposed at the punch head and recognizing the presence of the die-cut part over the punch head and, upon recognition of the die-cut part over the punch head, halting the die-cut part strip and moving the punch to the surface; adhering the die-cut part to the surface such that an opening of the surface is closed by the die-cut part and an adhesive margin is disposed around the opening of the surface by the die-cut part; and cycling the die-cut part strip on by one die-cut part of the die-cut parts. 5. The method according to claim 4 , wherein a first position on the surface is determined and the die-cut part is stuck to the first position and, in that a second position on the surface is determined, the punch during the cycling is moved to the second position. 6. A die-cut part strip comprising: a belt strip that is an adhesive tape having a belt strip carrier and a belt strip adhesive layer; a series of die-cut parts disposed alongside one another on the belt strip, wherein each die-cut part of the die-cut parts has a carrier layer and an adhesive layer and the carrier layer is disposed between the belt strip and the adhesive layer; and a liner disposed along the adhesive layers of the die-cut parts, wherein a first release force between the belt strip and the carrier layer of each die-cut part is greater than a second release force between the liner and the adhesive layer of each die-cut part, and the carrier layer consists of one or more plastics selected from the group consisting of polyethylene, polypropylene, cyclic olefin copolymers, polyvinyl chloride, polyester, ethylene-vinyl alcohol, polyvinylidene chloride, polyvinylidene fluoride, polyacrylonitrile, polycarbonate, polyamide, polyethersulfone, and polyimide.