Reciprocating-piston machine, compressed air supply system, vehicle and method for producing a reciprocating-piston machine

The invention claimed is: 1. A reciprocating-piston machine, comprising: a first connecting rod configured to deflect a first piston and which has a connecting-rod eye, the first connecting rod comprising a drive connecting rod; a second connecting rod configured to deflect a second piston and which has at least one further connecting-rod eye, the second connecting rod comprising a follower connecting rod; a coupling element which extends through the connecting-rod eye and the at least one further connecting-rod eye and about which the first connecting rod and the second connecting rod are rotationally movable relative to one another; a coupling bearing element arranged between the coupling element and a connecting-rod eye inner surface of the connecting-rod eye; and a damping element with elastic damping action arranged in a damping annular chamber between the coupling bearing element and the connecting-rod eye inner surface of the connecting-rod eye, wherein the damping element fills the damping annular chamber such that a ball joint which generates a form fit is formed between the coupling bearing element and the connecting-rod eye inner surface of the connecting-rod eye. 2. The reciprocating-piston machine of claim 1 , wherein the ball joint, which generates the form fit, between the coupling bearing element and the connecting-rod eye inner surface is generated by at least one of the damping element surfaces, which lie against the coupling bearing element and the connecting-rod eye inner surface, of the damping element being impressed by the coupling bearing element and/or the connecting-rod eye inner surface. 3. The reciprocating-piston machine of claim 1 , wherein the damping element fills the damping annular chamber such that holding forces generated as a result of the form fit are greater than shear forces which act on the damping element during operation of the reciprocating-piston machine. 4. The reciprocating-piston machine of claim 1 , wherein the coupling bearing element has a bearing bushing which has a bearing bushing outer surface situated opposite the connecting-rod eye inner surface. 5. The reciprocating-piston machine of claim 4 , wherein the connecting-rod eye inner surface and the bearing bushing outer surface each have at least one arcuate surface section which is domed in a direction of the opposite surface and which encircles a respective one of the opposite surfaces, the connecting-rod eye inner surface and the bearing bushing outer surface being convexly curved in a direction of one another, and wherein the damping element surfaces, which lie against the coupling bearing element and the connecting-rod eye inner surface, of the damping element are impressed by the connecting-rod eye inner surface and the bearing bushing outer surface such that the damping element has a biconcave shape along the damping annular chamber. 6. The reciprocating-piston machine of claim 4 , wherein the connecting-rod eye has a web which runs centrally along the connecting-rod eye inner surface and which extends in a direction of the bearing bushing outer surface. 7. The reciprocating-piston machine of claim 6 , wherein the bearing bushing has an outer diameter smaller than a smallest inner diameter, generated by the web, of the connecting-rod eye. 8. The reciprocating-piston machine of claim 7 , wherein the outer diameter of the bearing bushing is between 0.1% and 10% smaller than the smallest inner diameter of the connecting-rod eye. 9. The reciprocating-piston machine of claim 6 , wherein the bearing bushing has a groove which runs centrally along the bearing bushing outer surface and which extends away from the connecting-rod eye inner surface and which has a greater width and a greater height than the web. 10. The reciprocating-piston machine of claim 4 , wherein the bearing bushing is coated with a material with a low coefficient of friction. 11. The reciprocating-piston machine of claim 1 , wherein the damping element is injection-molded into the damping annular chamber and is completely vulcanized. 12. The reciprocating-piston machine of claim 11 , wherein the coupling bearing element has a bearing bushing which has a bearing bushing outer surface situated opposite the connecting-rod eye inner surface, and wherein the damping element is not vulcanized onto the connecting-rod eye inner surface and/or is not vulcanized onto the bearing bushing outer surface. 13. The reciprocating-piston machine of claim 1 , wherein the damping element, the connecting-rod eye inner surface, and the coupling bearing element are shaped so as to collectively form a ball-joint-like bearing. 14. The reciprocating-piston machine of claim 1 , wherein the connecting-rod eye of the first connecting rod is arranged between two of the further connecting-rod eyes of the second connecting rod and the coupling element extends through the three connecting-rod eyes. 15. The reciprocating-piston machine of claim 1 , wherein the reciprocating-piston machine has a first cylinder and a second cylinder, the first piston being assigned to the first cylinder and the second piston being assigned to the second cylinder, and, during operation, the first and second pistons are deflected along a radially oriented cylinder axis in a respective cylinder swept volume of the respective cylinder, wherein the reciprocating-piston machine has a crankshaft which is drivable during operation and which has a crankshaft journal which is arranged along a shaft axis of the crankshaft, which shaft axis runs eccentrically with respect to an axially oriented motor axis and runs perpendicular to the radially oriented cylinder axis, wherein the reciprocating-piston machine has a drive shaft coupling which is oriented along the axially oriented motor axis and which is configured to couple a drive shaft for driving the crankshaft, wherein the first connecting rod runs along a first connecting-rod axis running parallel to the radially oriented cylinder axis, and wherein the second connecting rod runs along a second connecting-rod axis running parallel to the radially oriented cylinder axis. 16. The reciprocating-piston machine of claim 15 , wherein the first connecting rod is mounted by a crankshaft bearing element directly on the crankshaft journal and is movable by the crankshaft journal, and the second connecting rod is movable by the coupling element. 17. The reciprocating-piston machine of claim 15 , wherein the connecting rods are configured such that a maximum deflection angle of a deflection of the connecting rods between the first connecting-rod axis and the second connecting-rod axis in a direction of a deflection axis running perpendicular to the cylinder axis and perpendicular to the motor axis amounts to at most 14°. 18. The reciprocating-piston machine of claim 15 , wherein the first piston is held on the first connecting rod by a piston holder, wherein the second connecting rod is connected to the first connecting rod by the coupling bearing element and the coupling element, and wherein the second piston is formed integrally on the second connecting rod. 19. The reciprocating-piston machine of claim 15 , wherein the reciprocating-piston machine comprises the two-stage compressor with a first and a second compressor stage, comprising a twin compressor, wherein the first connecting rod of the second compressor stage, which second compressor stage comprises a high-pressure compressor stage, is formed, and/or the second connecting rod of the first compressor stage, which first co