Vehicle hydraulic brake unit having a cylinder bore and piston with rotation prevention parts

What is claimed is: 1. A hydraulic unit for a hydraulic vehicle brake system, the hydraulic unit comprising: a hydraulic block having a cylinder bore; an electric motor mounted to the hydraulic block on a side of the cylinder bore at which a mouth of the cylinder bore is located; a piston that includes at least one counter-element; a rotation prevention part; and a worm gear configured to be rotatably driven by the electric motor, and configured to convert an angular motion of the electric motor to a linear movement, by which the piston is axially displaceable in the cylinder bore; wherein: the cylinder bore includes a first axial region and a second axial region; the second axial region includes the mouth of the cylinder bore; the second axial region is radially wider than the first axial region due to a radial step in the second axial region formed by a radius of curvature of a first circumferential region of the second axial region being greater than a radius of curvature of a second circumferential region of the second axial region, the radial step forming an interior radially extending edge; and the rotation prevention part: is situated in the second axial region; encircles a part of a circumference of the piston; includes an exterior radially extending edge facing the interior radially extending edge of the second axial region of the cylinder bore and preventing rotation of the rotation prevention part by locking against the interior radially extending edge of the second axial region of the cylinder bore; and includes at least one rotation prevention element that runs in a longitudinal direction of the cylinder bore and in which a respective one of the at least one counter-element of the piston is retained in a rotatably-fixed and longitudinally-displaceable manner. 2. The hydraulic unit as recited in claim 1 , wherein the at least one rotation prevention element includes a plurality of rotation prevention elements distributed over a circumference of the rotation prevention part, and the at least one counter-element of the piston includes a plurality of counter-elements each supported in a respective one of the rotation prevention elements. 3. The hydraulic unit as recited in claim 1 , wherein the rotation prevention part extends circumferentially at least one of (i) more than 180° and (ii) not more than approximately 230°. 4. The hydraulic unit as recited in claim 1 , wherein: the rotation prevention element is a groove that runs in the longitudinal direction of the cylinder bore; and the counter-element is a shoulder that juts radially outwards from a circumference of a main body of the piston into the groove. 5. The hydraulic unit as recited in claim 1 , wherein the rotation prevention part includes axially parallel C-profiles joined by a clip. 6. The hydraulic unit as recited in claim 1 , wherein the rotation prevention part is produced by primary shaping. 7. The hydraulic unit as recited in claim 1 , wherein the rotation prevention part includes an insertion chamfer on an end face. 8. The hydraulic unit as recited in claim 1 , further comprising: a friction-reducing and/or wear-reducing sliding element positioned between the rotation prevention element and the counter-element. 9. The hydraulic unit as recited in claim 1 , wherein the rotation prevention part is secured in the mouth of the cylinder bore by deforming the hydraulic block in a region in the second axial region surrounding the rotation prevention part. 10. The hydraulic unit as recited in claim 1 , wherein the piston is a hollow piston (a) that includes an open end that faces the electric motor and (b) in which the worm gear is at least partially accommodated. 11. The hydraulic unit as recited in claim 1 , wherein the worm gear includes a pivot bearing that is positioned (a) coaxially to the cylinder bore and (b) either outside of the hydraulic block or on the hydraulic block so as to be partially in, and protrude partially out, of the cylinder bore. 12. A hydraulic unit for a hydraulic vehicle brake system, the hydraulic unit comprising: a hydraulic block having a cylinder bore; an electric motor mounted to the hydraulic block on a side of the cylinder bore at which a mouth of the cylinder bore is located; a piston that includes a counter-element; a rotation prevention part; and a worm gear configured to be rotatably driven by the electric motor, and configured to convert an angular motion of the electric motor to a linear movement, by which the piston is axially displaceable in the cylinder bore; wherein: the cylinder bore has a first section and a second section; the second section is wider than the first section and is located at the mouth of the cylinder bore; the rotation prevention part is situated in the second section, encircles at least part of a circumference of the piston, and is rotatably locked by a form-fitting of a shape of the rotation prevention part to a shaped of the second section of the cylinder bore; the rotation prevention part includes a rotation prevention element that runs in a longitudinal direction of the cylinder bore and in which the counter-element of the piston is supported in a rotatably-fixed and longitudinally-displaceable manner; and the hydraulic unit includes at least one of the following features (a)-(c): (a) the rotation prevention part extends circumferentially at least one of (i) more than 180° and (ii) not more than approximately 230°; (b) the rotation prevention part includes axially parallel C-profiles joined by a clip; and (c) a friction-reducing and/or wear-reducing sliding element is positioned between the rotation prevention element and the counter-element. 13. The hydraulic unit as recited in claim 12 , wherein the rotation prevention part extends circumferentially at least one of (i) more than 180º and (ii) not more than approximately 230°. 14. The hydraulic unit as recited in claim 12 , wherein the rotation prevention part includes the axially parallel C-profiles joined by the clip. 15. The hydraulic unit as recited in claim 12 , wherein the hydraulic unit further comprises the friction-reducing and/or wear-reducing sliding element positioned between the rotation prevention element and the counter-element.