Disc chipper with an adjustable knife

The invention claimed is: 1. A disc chipper comprising: a knife disc comprising a plurality of segments, wherein each segment is separated from an adjacent segment by a chip opening extending approximately in a radial direction of the knife disc between an inner and outer periphery of the knife disc; at least one knife for each segment, wherein the knife is located in the segment in a vicinity of the chip opening preceding the corresponding segment in a rotational direction, wherein the knife extends a distance axially from the knife disc and is supported between two surfaces that oppose each other; and at least one wedge element for each segment, wherein the at least one wedge element is adapted to adjust the position of at least one of the said opposing surfaces relative to the knife disc, to set an axial reach of the knife to a desired value, wherein the at least one wedge element is situated in the segment essentially at an end adjacent to the preceding chip opening. 2. The disc chipper according to claim 1 , in which each segment further comprises: a wear plate located opposite to the knife disc and extending essentially between leading and trailing openings to the segment in the rotational direction; a knife base located between the knife disc and the wear plate in the vicinity of the opening preceding said segment in the rotational direction, wherein the knife base is adapted to press against the knife, a hinge strip located in said segment essentially at the end adjacent to the opening preceding the segment, between the knife disc and the wear plate, wherein the hinge strip is wedge shaped in the radial direction of the knife disc; and an adjustment strip, located in said segment essentially at the end adjacent to the following opening, between the knife disc and the wear plate, wherein the wear plate and the knife base form the two opposing surfaces for supporting the knife, and the hinge strip acts as the wedge element, wherein the end of the wear plate adjacent to the chip opening preceding said segment in the rotational direction is axially adjustable relative to the knife disc by shifting said hinge strip in the radial direction of the knife disc. 3. The disc chipper according to claim 2 , wherein a spacer has been inserted between the knife disc and the adjustment strip, thereby increasing the contact surface between the adjustment strip and the wear plate. 4. The disc chipper according to claim 1 , wherein each segment further comprises: a knife compression element located in the vicinity of the opening preceding said segment in the rotational direction; a knife base located between the knife compression element and the knife disc, in the vicinity of the opening preceding said segment in the rotational direction; and a pair of overlying wedges located between the knife base and the knife disc, wherein the wedges of the pair are wedge-shaped in opposite directions, wherein the knife compression element is adapted to press against the knife, the knife being trapped between the knife compression element and the knife base, wherein the knife compression element and the knife base form the two opposing surfaces for supporting the knife, wherein the wedge pair functions as the wedge element, and wherein the knife base is axially adjustable as to its location relative to the knife disc by shifting at least one of the pair of wedges in a direction of the wedge shape. 5. The disc chipper according to claim 4 , wherein the wedges in the wedge pair have a wedge shape in the radial direction of the knife disc. 6. The disc chipper according to claim 4 , wherein the wedges in the wedge pair have a wedge shape in the tangential direction of the knife disc.