Piston pump having a helical gear as a power brake pressure generator of a hydraulic vehicle power brake system

What is claimed is: 1. A piston pump, comprising: a helical gear as a power brake pressure generator of a hydraulic vehicle power brake system; a piston displaceable in a cylinder, wherein: the helical gear includes a spindle that is connected to the piston or is rotationally drivable and a nut that is rotationally drivable or connected to the piston for displacing the piston in the cylinder for generating a hydraulic brake pressure; the nut includes: a plastic body with a nut thread; and a metal sleeve covering the plastic body; and the piston pump includes at least one of the following features (a)-(g): (a) the plastic body and the metal sleeve are each tubular and are form-fitted to each other; (b) the metal sleeve is arranged relative to the plastic body such that the plastic body is prevented from radially expanding due to impingement of the plastic body against the metal sleeve; (c) the metal sleeve is arranged at a radial position that is between a radial position of the plastic body and a radial position of the piston; (d) the metal sleeve encloses the plastic body at a circumference of the plastic body without any space between the plastic body and the metal sleeve; (e) the metal sleeve includes an inward corrugation inserted in a groove of the plastic body of the nut (f) the plastic body of the nut has a rib inserted in an outward corrugation of the metal sleeve; and (g) the metal sleeve and the plastic body of the nut have corresponding ring steps for an axially fixed connection between the metal sleeve and the plastic body of the nut in a direction of the pressure-generating forward stroke of the piston. 2. The piston pump as recited in claim 1 , wherein the metal sleeve is arranged relative to the plastic body of the nut such that the plastic body is prevented from radially expanding due to impingement of the plastic body against the metal sleeve. 3. The piston pump as recited in claim 1 , wherein the metal sleeve is rotatably fixed and/or axially fixed, at least in the direction of the pressure-generating forward stroke of the piston, to the plastic body of the nut. 4. The piston pump as recited in claim 3 , wherein, to rotatably fix the metal sleeve to the plastic body of the nut: (i) the metal sleeve includes the inward corrugation, inserted in the groove of the plastic body of the nut, and/or (ii) the plastic body of the nut has the rib inserted in the outward corrugation of the metal sleeve. 5. The piston pump as recited in claim 1 , wherein the metal sleeve and the plastic body of the nut have the corresponding ring steps for the axially fixed connection between the metal sleeve and the plastic body of the nut in the direction of the pressure-generating forward stroke of the piston. 6. The piston pump as recited in claim 1 , wherein the metal sleeve includes a multifunction part, which forms a bearing support for a spindle bearing for the nut of the helical gear and a carrier for a gear output element of a reduction gear for a rotational drive of the nut. 7. The piston pump as recited in claim 6 , wherein the multifunction part is pressed into the metal sleeve and/or is integrally joined with the metal sleeve. 8. The piston pump as recited in claim 6 , wherein the multifunction part axially supports the plastic body of the nut and/or the spindle bearing of the nut. 9. The piston pump as recited in claim 6 , wherein the reduction gear is a planetary gear whose planet carrier is connected to the multifunction part in a rotatably fixed manner pressed onto the multifunction part. 10. The piston pump as recited in claim 1 , wherein the piston is a hollow piston and the helical gear is situated at least partially in the hollow piston. 11. The piston pump as recited in claim 1 , wherein the plastic body and the metal sleeve are each tubular and are form-fitted to each other. 12. The piston pump as recited in claim 1 , wherein the metal sleeve is arranged at the radial position that is between the radial position of the plastic body and the radial position of the piston. 13. The piston pump as recited in claim 1 , wherein the metal sleeve encloses the plastic body at the circumference of the plastic body without any space between the plastic body and the metal sleeve. 14. The piston pump as recited in claim 1 , wherein the metal sleeve includes the inward corrugation inserted in the groove of the plastic body of the nut. 15. The piston pump as recited in claim 1 , wherein the plastic body of the nut has the rib inserted in the outward corrugation of the metal sleeve. 16. A hydraulic block for a hydraulic unit of an hydraulic vehicle power brake system, comprising: a helical gear as a power brake pressure generator of a hydraulic vehicle power brake system; a piston displaceable in a cylinder, wherein: the helical gear includes a spindle that is connected to the piston or is rotationally drivable and a nut that is rotationally drivable or connected to the piston for displacing the piston in the cylinder for generating a hydraulic brake pressure; the nut includes: a plastic body with a nut threat and a metal sleeve covering the plastic body; the helical gear is situated coaxially to the cylinder and is supported rotatably with a spindle bearing on the hydraulic block, which supports the helical gear axially on the hydraulic block; and the hydraulic block includes at least one of the following features (a)-(g): (a) the plastic body and the metal sleeve are each tubular and are form-fitted to each other; (b) the metal sleeve is arranged relative to the plastic body such that the plastic body is prevented from radially expanding due to impingement of the plastic body against the metal sleeve; (c) the metal sleeve is arranged at a radial position that is between a radial position of the plastic body and a radial position of the piston; (d) the metal sleeve encloses the plastic body at a circumference of the plastic body without any space between the plastic body and the metal sleeve; (e) the metal sleeve includes an inward corrugation inserted in a groove of the plastic body of the nut (f) the plastic body of the nut has a rib inserted in an outward corrugation of the metal sleeve; and (g) the metal sleeve and the plastic body of the nut have corresponding ring steps for an axially fixed connection between the metal sleeve and the plastic body of the nut in a direction of the pressure-generating forward stroke of the piston.