Method and device for producing an elastomer stack actuator

1 . A method for producing an elastomer-based film stack actuator, including: a) a start-up process comprising the steps of: a1) providing an elastomer film with an elastomer layer, and two cover layers, in the form of a lamination layer and a liner layer, and a2) removing one of the two cover layers from the elastomer film thereby producing a delaminated film assembly; b) a stacking process following the start-up process, comprising the steps of: b1) applying a layer of electrodes onto the elastomer layer of the delaminated film assembly; b2) laminating a further delaminated elastomer film onto the film assembly provided with electrodes; and b3) removing one of the two cover layers of the laminated film assembly for the production of a delaminated film assembly, wherein steps b1) to b3) are repeated at least once in stacking process b), wherein applying the layer of electrodes onto the elastomer layer comprises applying a layer of electrodes in successive, alternating steps b1), in each case with an offset of between 0.2 mm and 2.0 mm, and wherein the delaminated film assembly created in the previous step b3) is provided as a delaminated film assembly for the repeated step b1). c) a finalization process following the stacking process, comprising the steps of: c1) contacting the electrodes of the film assembly generated by the stacking process; and c2) separating one or more stack actuators from the film assembly generated by the stacking process. 2 . The method according to claim 1 , further comprising cutting the elastomer film in one step a3) of the start-up process a). 3 . The method according to claim 1 , wherein applying a layer of electrodes onto the elastomer layer comprises applying a layer of structured electrodes onto the elastomer layer via a screen printing process. 4 . (canceled) 5 . The method according to claim 1 , wherein contacting the electrodes of the film assembly comprises creating cavities on or in one or more terminal contact surfaces of the electrodes, and filling the cavities with a conductive paste. 6 . The method according to claim 5 , wherein a material comprising the conductive paste is chemically similar to a material comprising the stack actuator, or is the same material comprising the stack actuator. 7 . The method according to claim 1 , further comprising separating one or more stack actuators from the film assembly so that the front surfaces the terminal contact surfaces of the electrodes are exposed, and attaching an electrical conductor for contacting the electrodes to the exposed terminal. 8 . The method according to claim 7 , further comprising casting the electrical conductor via a screen printing process. 9 . The method according to claim 7 , wherein separating the stack actuators comprises separating the stack actuators using an ultrasonic process, and/or cutting the elastomer sheet using an ultrasonic process. 10 . The method according claim 1 , further comprising encapsulating the separated stack actuators by casting with a material exhibiting a low modulus of elasticity, the material comprising silicone or polyurethane. 11 . The method according to claim 1 , further comprising encapsulating the stack actuators with an encapsulation form, which is filled by means of a two-component dispensing system. 12 . An elastomer-based film stack actuator produced by a method according to claim 1 . 13 . An apparatus for producing an elastomer-based film stack actuator, the apparatus comprising: a) a start-up process assembly comprising: an initial delaminating station configured to remove a cover layer from an elastomer film thereby producing a delaminated film assembly, wherein the elastomer film comprises an elastomer layer and two cover layers in the form of a lamination layer and a liner layer; b) a stack process assembly comprising: an application station configured to apply a layer of electrodes onto the elastomer layer of the delaminated film assembly; a lamination station configured to laminate an additional delaminated elastomer film onto the film assembly provided with the electrodes; and a second delamination station configured to remove one of the two cover layers of the laminated film assembly thereby producing a delaminated film assembly, wherein the stacking process assembly is configured to supply the delaminated film assembly generated by the second delamination station, either of the application station or a subsequent finalization process assembly; and c) a finalization process assembly comprising: a contacting station configured to contact the electrodes of the delaminated film assembly generated by the second delamination station; a separating station configured to separate the stack actuators of the delaminated film assembly produced by the second delamination station; and an encapsulation station configured to encapsulate the separated stack actuators. 14 . The apparatus according to claim 13 wherein the starting-process assembly comprises a cutting station configured to cut the elastomer film or the delaminated film assembly. 15 . The apparatus according to claim 13 wherein: the contacting station has a contacting device for contacting the electrodes; the contacting device comprises a suction unit configured to remove a slug generated during the production of a cavity; and the contacting device has a supply unit adapted for dispensing a conductive paste into the cavity. 16 . The method according to claim 2 , wherein applying a layer of electrodes onto the elastomer layer comprises applying a layer of structured electrodes onto the elastomer layer via a screen printing process. 17 . The apparatus according to claim 14 wherein: the contacting station has a contacting device for contacting the electrodes; the contacting device comprises a suction unit configured to remove a slug generated during the production of a cavity; and the contacting device has a supply unit adapted for dispensing a conductive paste into the cavity.