Strip processing device and method for processing a strip

What is claimed is: 1. A strip processing device for processing a strip that is guided in a processing region of the strip processing device along a strip running direction, the strip processing device comprising: a roller holder disposed on a base frame so as to be pivotable on a pivot axis, wherein the pivot axis is oriented parallel to a strip running surface; a first processing roller disposed on the roller holder in the strip running direction and at a distance from the pivot axis perpendicular to the strip running direction, wherein the first processing roller is offset from the pivot axis such that by pivoting the roller holder the first processing roller is movable toward or away from the strip; a second processing roller disposed on the roller holder, wherein the first processing roller is disposed on a first side of the pivot axis and the second processing roller is disposed on a second side of the pivot axis, wherein pivoting the roller holder in a first direction moves the first processing roller towards the strip and moves the second processing roller away from the strip; and a first counter-processing roller disposed on the roller holder and in a direction perpendicular to the strip running direction at a distance that is farther from the pivot axis than the first processing roller such that the first processing roller and the first counter-processing roller interact to guide the strip in the processing region between the first processing roller and the first counter-processing roller if the first processing roller is moved toward the strip; wherein the first processing roller and the first counter-processing roller collectively move together on the base frame about the pivot axis in a first direction toward the strip and in a second direction away from the strip. 2. The strip processing device of claim 1 wherein a ratio of a distance of the first processing roller from the first counter-processing roller in the strip running direction to a distance of the first processing roller from the first counter-processing roller in a direction perpendicular to the strip running direction is such that placement of the first processing roller against the strip and the interaction of the first processing roller and the first counter-processing roller are effected by pivoting the roller holder. 3. The strip processing device of claim 1 wherein the first processing roller and the second processing roller are disposed with mirror symmetry in a plane in which the pivot axis is disposed. 4. The strip processing device of claim 1 , further comprising: a first dip roller disposed between the first processing roller and the second processing roller, wherein via an axle adjustment mechanism for axle adjustment of the first dip roller, the first dip roller is configured to contact a coating material disposed in a first reservoir below the first dip roller to provide at least one of the first processing roller or the second processing roller with the coating material by way of the first dip roller. 5. The strip processing device of claim 1 , further comprising: a first dip roller disposed between the first processing roller and the second processing roller, wherein the first dip roller is configured to contact a coating material disposed in a first reservoir below the first dip roller to provide at least one of the first processing roller or the second processing roller with the coating material by way of the first dip roller; and a second dip roller disposed between the first counter-processing roller and the second counter-processing roller, wherein the second dip roller is configured to contact a coating material disposed in a second reservoir below the second dip roller to provide at least one of the first counter-processing roller or the second counter-processing roller with the coating material by way of the second dip roller, wherein an axis of rotation of at least one of the first processing roller, the second processing roller, the first counter-processing roller, the second counter-processing roller, the first dip roller, or the second dip roller coincides with a respective axle adjustment mechanism for adjusting the at least one of the first processing roller, the second processing roller, the first counter-processing roller, the second counter-processing roller, the first dip roller, or the second dip roller relative to one another. 6. The strip processing device of claim 1 , further comprising: a second counter-processing roller, wherein the first processing roller, the second processing roller, the first counter-processing roller, and the second counter-processing roller are disposed on the roller holder, wherein a ratio of a distance of the first processing roller from the first counter-processing roller in the strip running direction to a distance of the first processing roller from the first counter-processing roller in a direction perpendicular to the strip running direction, and a ratio of a distance of the second processing roller from the second counter-processing roller in the strip running direction to a distance of the second processing roller from the second counter-processing roller in the direction perpendicular to the strip running direction are configured such that placement of the first processing roller against the strip and the interaction of the first processing roller with the first counter-processing roller, and such that placement of the second processing roller against the strip and an interaction of the second processing roller with the second counter-processing roller are effected by pivoting the roller holder. 7. The strip processing device of claim 6 , further comprising: a second dip roller disposed between the first counter-processing roller and the second counter-processing roller, wherein via an axle adjustment mechanism for axle adjustment of the second dip roller, the second dip roller is configured to contact a coating material disposed in a second reservoir below the second dip roller to provide at least one of the first counter-processing roller or the second counter-processing roller with the coating material by way of the second dip roller. 8. The strip processing device of claim 6 , further comprising: a first dip roller disposed between the first processing roller and the second processing roller, wherein via a first axle adjustment mechanism for axle adjustment of the first dip roller, the first dip roller is configured to contact a coating material disposed in a first reservoir below the first dip roller to provide at least one of the first processing roller or the second processing roller with the coating material by way of the first dip roller; and a second dip roller disposed between the first counter-processing roller and the second counter-processing roller, wherein via a second axle adjustment mechanism for axle adjustment of the second dip roller, the second dip roller is configured to contact a coating material disposed in a second reservoir below the second dip roller to provide at least one of the first counter-processing roller or the second counter-processing roller with the coating material by way of the second dip roller. 9. The strip processing device of claim 8 comprising at least one of: a first coating material feedline disposed in a region between the first dip roller and at least one of the first processing roller or the second processing roller; or a second coating material feedline disposed in a region between the second dip roller and at least one of the first counter-processing roller or the second counter-processing roller. 10. The strip processing device of claim 1 wherein the pivot axis is perpendicular to the strip running