Arrangement for automatic adjustment of a spacing between cutting blades

The invention claimed is: 1. An adjustment device for adjustment of a spacing between a first and a second cutting blade for a cutting device; the first cutting blade comprising a planar first contact surface, an opposite first outer surface, and at least one first cutting edge in a first plane; and the second cutting blade comprising a planar second contact surface, an opposite second outer surface, and at least one second cutting edge in a second plane, wherein the first contact surface and the second contact surface are facing and aligned with each other; the first and second cutting blades being interconnected by the adjustment device arranged to maintain the spacing between the first and second contact surfaces; the adjustment device comprising: a connector extending through a recess in the respective first and second cutting blades; a first stop arranged at one end of the connector and arranged proximate with the second outer surface of the second cutting blade; and an adjuster located at the opposite end of the connector and arranged to act on the first outer surface of the first cutting blade and maintain the spacing between the first and second contact surfaces; wherein the adjuster comprises a first and a second element, each of the first and second elements having an inner control surface and an outer surface opposite the inner control surface, wherein the inner control surface of at least one of the first or second element is an inclined control surface and configured to engage with the inner control surface of the other of the first or second element, wherein the first and second elements are arranged to be displaceable relative to each other; wherein the inclined control surface is arranged at an angle to the first and second contact surfaces of the first and second cutting blades; wherein the adjuster further comprises a biasing element positioned coaxial with the connector and having a central aperture, the biasing element being disposed between the inner control surface of the first element and the inner control surface of the second element to effect a relative displacement between the first and second elements, wherein the relative displacement between the first and second elements occurs along said inclined control surface, and wherein the connector extends through the central aperture of the biasing element. 2. The device according to claim 1 , wherein in response to the inner control surfaces being engaged, the inner control surfaces are self-locking in the direction of the connector and separation of the first and second cutting blades is inhibited. 3. The device according to claim 1 , wherein the inclined control surface comprises a series of steps ascending at a predetermined rate. 4. The device according to claim 1 , wherein both the first and the second elements have the inclined control surface. 5. The device according to claim 1 , wherein at least one of the first and second elements is arranged to be displaceable in a plane parallel to the first and second contact surfaces. 6. The device according to claim 1 , wherein at least one of the first and second elements is arranged to be displaced along the inclined control surface wherein a distance between the first stop and the adjuster is reduced. 7. The device according to claim 1 , wherein the biasing member is a torsion spring located on the connector. 8. The device according to claim 1 , wherein the first stop comprises a second adjuster. 9. The device according to claim 1 , wherein a portion of the connector adjacent the biasing member has an enlarged diameter with an axial extension equal to a thickness of the first and second cutting blades and a minimum thickness of the first and the second rotationally symmetrical bodies in an assembled state. 10. A cutting device comprising: a first cutting blade comprising a planar first contact surface, an opposite first outer surface, and at least one first cutting edge in a first plane; a second cutting blade comprising a planar second contact surface, an opposite second outer surface, and at least one second cutting edge in a second plane, wherein the first and second cutting blades are mounted so that the first and second contact surfaces are in contact with and parallel to each other; a driving unit arranged to act on at least one of the first and second cutting blades to move the blades relative to each other; and an adjustment device interconnecting the first and second cutting blade, the adjustment device comprising: a connector extending through a recess in the respective first and second cutting blades; a first stop arranged at one end of the connector and arranged proximate with the second outer surface of the second cutting blade; and an adjuster located at the opposite end of the connector and arranged to act on the first outer surface of the first cutting blade and maintain the spacing between first and second contact surfaces; wherein the adjuster comprises a first and a second element, each of the first and second elements having an inner control surface and an outer surface opposite the inner control surface, wherein the inner control surface of at least one of the first or second element is an inclined control surface and configured to engage with the inner control surface of the other of the first or second element, wherein the first and second elements are arranged to be displaceable relative to each other; wherein the inclined control surface is arranged at an angle to the contact surfaces of the first and second cutting blades; wherein the adjuster further comprises a biasing element positioned coaxial with the connector and having a central aperture, the biasing element being disposed between the inner control surface of the first element and the inner control surface of the second element to effect a relative displacement between the first and second elements, wherein the relative displacement between the first and second elements occurs along said inclined control surface, and wherein the connector extends through the central aperture of the biasing element. 11. The cutting device according to claim 10 , wherein the cutting device is one of a powered hedge trimmer, a manual hedge trimmer, a cutting bar and gardening or industrial scissors. 12. The cutting device according to claim 10 , wherein the cutting device further comprises a support bar, wherein the support bar is arranged along the first outer surface of the first blade. 13. The cutting device according to claim 12 , wherein the support bar comprises a first surface and a second surface opposite from the first surface, wherein the first surface of the support bar is arranged along the first outer surface of the first blade, and wherein the adjustment device further comprises a locking means configured to prevent rotation of the adjustment device, and wherein the locking means is arranged in contact with the second surface of the support bar.