Axial piston machine with outlet control

The invention claimed is: 1. An axial piston machine comprising: a shaft rotatable about a rotation axis; a housing surrounding at least a portion of the shaft; a cylinder arrangement disposed within the housing in a circular manner, wherein the cylinder arrangement comprises a plurality of cylinders and a plurality of pistons each extending within each of the plurality of cylinders constructed and arranged to drive the shaft, wherein the plurality of cylinders each have an expansion volume with an inlet and at least one outlet opening for a working medium; a cylinder head provided on the housing constructed and arranged to close the plurality of cylinders of the cylinder arrangement; the housing having a cavity provided around the shaft in a central region of the cylinder arrangement, and the cylinder arrangement includes a plurality of auxiliary outlet openings respectively structured and arranged to connect the expansion volume of each of the plurality of cylinders to the cavity, wherein the cavity is in operative communication with the plurality of auxiliary outlet openings via a temporary connection; a cylindrical roller slider disposed within the cavity, constructed and arranged to be driven by the shaft and rotate within the cavity in the central region of the cylinder arrangement; and wherein the temporary connection between the cavity and the expansion volume of each of the plurality of cylinders is provided by at least one of a channel through the cylindrical roller slider and a recess on an outside surface of the cylindrical roller slider, wherein the recess extends laterally from a casing of the cylindrical roller slider to the cavity in the central region of the cylinder arrangement and is arranged at a height of the plurality of auxiliary outlet openings in each of the plurality of cylinders; and wherein the plurality of auxiliary outlet openings are provided in a cylinder wall of the housing arranged radially between the expansion volume of each of the plurality of cylinders and the cavity. 2. The axial piston machine according to claim 1 , further comprising a sealing sleeve disposed through the cylinder head, constructed and arranged to seal towards the cylindrical roller slider. 3. The axial piston machine according to claim 2 , wherein a region between the sealing sleeve and the shaft and a region on a side of the sealing sleeve facing away from the cylindrical roller slider are exposed to a pressure of the working medium. 4. The axial piston machine according to claim 2 , further comprising at least one of an anti-turn device constructed and arranged to hold the sealing sleeve and a guide constructed and arranged to guide the sealing sleeve. 5. The axial piston machine according to claim 2 , wherein the sealing sleeve includes an anti-turn device constructed and arranged to hold the sealing sleeve. 6. The axial piston machine according to claim 5 , wherein the anti-turn device comprises a projection which extends from the sealing sleeve, and wherein the projection is constructed and arranged to engage with a recess in the cylinder head. 7. The axial piston machine according to claim 1 , wherein the cylindrical roller slider comprises at least one of a steel, a carbon, a temperature-resistant plastic, and an alloy containing at least one of a copper, a tin, a zinc, and a nickel. 8. The axial piston machine according to claim 1 , wherein a material or a composition of materials for the cylindrical roller slider are constructed and arranged to prevent abrasive wear upon contact with the housing. 9. The axial piston machine according to claim 1 , wherein the cylindrical roller slider is structured and arranged within the cavity such that a gap is defined between the housing and the cylindrical roller slider that is sized to account for an expansion caused by heat generation at an operating temperature. 10. The axial piston machine according to claim 1 , further comprising a spacer ring disposed between a shaft shoulder and the cylindrical roller slider. 11. The axial piston machine according to claim 10 , wherein the spacer ring comprises a material having a thermal expansion and is constructed and arranged to allow the cylindrical roller slider to move into an optimal position when the machine is at an operating temperature. 12. The axial piston machine according to claim 1 , wherein the temporary connection between the cavity and the expansion volume of each of the plurality of cylinders is provided by the recess on the outside surface of the cylindrical roller slider. 13. An axial piston machine comprising: a shaft; a housing surrounding at least a portion of the shaft; a cylinder arrangement disposed within the housing in a circular manner, wherein the cylinder arrangement comprises a plurality of cylinders and a plurality of pistons each extending within each of the plurality of cylinders constructed and arranged to drive the shaft, wherein the plurality of cylinders each have an expansion volume with an inlet and at least one outlet opening for a working medium; a cylinder head provided on the housing constructed and arranged to close the plurality of cylinders of the cylinder arrangement, and wherein a cavity is defined around the shaft in a central region of the cylinder arrangement and is in operative communication with a plurality of auxiliary outlet openings of the expansion volume of each of the plurality of cylinders via a temporary connection; a cylindrical roller slider disposed within the cavity, constructed and arranged to be driven by the shaft and rotate within the cavity in the central region of the cylinder arrangement; a sealing sleeve disposed through the cylinder head, constructed and arranged to seal towards the cylindrical roller slider; a spacer ring disposed between a shaft shoulder and the cylindrical roller slider; and wherein the temporary connection between the cavity and the expansion volume of each of the plurality of cylinders is provided by at least one of a channel through the cylindrical roller slider or a recess on an outside surface of the cylindrical roller slider. 14. The axial piston machine according to claim 13 , wherein the temporary connection is provided by the recess on the outside surface of the cylindrical roller slider, wherein the recess is arranged at an axial height of the plurality of auxiliary outlet openings in each of the plurality of cylinders. 15. The axial piston machine according to claim 13 , wherein the plurality of auxiliary outlet openings respectively extend directly from the expansion volume of each of the plurality of cylinders into the cavity. 16. The axial piston machine according to claim 1 , wherein the plurality of auxiliary outlet openings respectively extend in a radial direction of the rotation axis directly from the expansion volume of each of the plurality of cylinders into the cavity. 17. The axial piston machine according to claim 1 , wherein the cylindrical roller slider has a first end face that faces towards the cylinder head and a second end face that faces away from the cylinder head with the casing disposed therebetween in an axial direction of the rotation axis of the shaft, and wherein the recess provides the temporary connection and extends in the axial direction from the second end face partially along the casing towards the first end face. 18. The axial piston machine according to claim 17 , wherein the plurality of auxiliary outlet openings are disposed on the cylinder wall between the first end face and the second end face of the cylindrical r