Pump device with pump ring having curved contact portion

The invention claimed is: 1. A pump device for pumping a liquid, comprising a hydraulics housing ( 12 ), in which a pump ring ( 14 ) with a contact surface ( 46 ), a pump ring support ( 16 ) and an eccentric ( 18 ), driven by a shaft ( 20 ), are accommodated, said shaft defining an axial and a radial direction, wherein the hydraulics housing ( 12 ) has an annular portion ( 22 ) and a first and a second lateral section ( 24 , 26 ), the two lateralsections ( 24 , 26 ) being arranged opposite each other, and wherein the pump ring ( 14 ) is, at least in some portions, mounted between the two lateral sections ( 24 , 26 ) of the hydraulics housing ( 12 ), wherein a profile of the contact surface ( 46 ) has a contour with a curvature that changes, at least in portions, and specifically in such a way that the curvature increases, at least in some portions, towards ends of the contact surface ( 46 ), and the pump ring ( 14 ) comprises a base ( 38 ) from which two first projections ( 28 ) extend on a side facing away from the pump ring support ( 16 ) and two second projections ( 42 ) extend on a side facing the pump ring support ( 16 ), wherein the contact surface ( 46 ) is limited by side walls ( 50 ) of the two first projections ( 28 ); wherein the pump ring support ( 16 ) comprises a tongue ( 100 ), and the two second projections ( 42 ) define a region therebetween into which the tongue ( 100 ) projects toward the base ( 38 ) of the pump ring ( 14 ). 2. The pump device according to claim 1 , wherein the first and second projections ( 28 , 42 ) each comprise a first section ( 80 , 180 ) and a second section ( 82 , 182 ), wherein the first section ( 80 , 180 ) connects the second section ( 82 , 182 ) with the base ( 38 ), and wherein the first section ( 80 , 180 ) extends to a greater extent in a radial direction than in an axial direction and the second section ( 82 , 182 ) extends to a greater extent in an axial direction than in a radial direction. 3. The pump device according to claim 1 , wherein the second projections ( 42 ) enclose an angle ( 90 ) of 25° to 90° with the base ( 38 ) of the pump ring ( 14 ) in the region of the transition to the base ( 38 ). 4. The pump device according to claim 1 , wherein the profile of the contact surface ( 46 ) has a central region, in an axial direction, without curvature. 5. The pump device according to claim 1 , wherein a ratio between a width of the contact surface ( 46 ) and a thickness of the pump ring ( 14 ) between the contact surface ( 46 ) and the pump ring support ( 16 ) is between 1.5 and 5.0. 6. The pump device according to claim 1 , wherein coverage of the pump ring ( 14 ) laterally to the pump ring support ( 16 ) amounts to more than 0.9 mm. 7. The pump device according to claim 1 , wherein the pump ring ( 14 ) is made of an elastomeric material. 8. The pump device according to claim 1 , wherein a Shore hardness of the pump ring ( 14 ) lies between 55 and 70 Shore. 9. The pump device according to claim 1 , wherein the pump ring ( 14 ) is made of a material with a glass transition temperature below 20° C.