Leveling valve for discharging and supplying fluid

What is claimed is: 1. A leveling valve for discharging air from and supplying air to utilization elements, the leveling valve comprising: a valve disc arrangement configured to direct air between a source of pressurized air, an exhaust port, and the utilization elements, the valve disc arrangement including: a first valve disc having a contact surface and at least one flow portion being a recess in the contact surface of the first valve disc; and a second valve discs having a contact surface and at least one inlet/outlet flow portion being a recess in the contact surface of the second valve disc, wherein the contact surface of the first valve disc contacts the contact surface of the second valve disc, wherein the first valve disc and the second valve disc are rotatable relative to one another such that the valve disc arrangement is switchable between multiple switching positions, wherein the multiple switching positions include a neutral position in which fluid communication between the utilization elements and both the source of pressurized air and the exhaust port is blocked, a discharge position in which a discharge flow path is provided allowing fluid communication between the utilization elements and the exhaust port, and a supply position in which a supply flow path is provided allowing fluid communication between the utilization elements and the source of pressurized air is provided, and wherein the first and second valve discs, when rotated relative to one another to switch the valve disc arrangement from the neutral position to one of the discharge position or the supply position, are configured to provide, respectively, the discharge flow path and the supply flow path, wherein rotation of the first and second valve disc relative to one another provides, between the neutral position and one of full opening of the discharge flow path and full opening of the supply flow path, a flow path cross-section that increases by varying rates of increase, the varying rates of increase being dependent on an angle of rotation between the valve discs. 2. The leveling valve according to claim 1 , wherein at least one of the first and second valve discs comprises at least one of first and second support ridges abutting against the contact surface of the respective other of the first and second valve discs; and wherein at least one of the first and second support ridges is located in a radially peripheral region of the respective valve disc contact surface. 3. The leveling valve according to claim 1 , wherein the utilization elements are pneumatic suspension bellows. 4. The leveling valve according to claim 1 , wherein the at least one flow portion being a recess in the contact surface of the first valve disc has at least one end portion having a radial width and at least one middle portion having a radial width that is less than the radial width of the end portion. 5. The leveling valve according to claim 1 , wherein a zero line at a center of the neutral position defines a state of zero rotation of the first valve disc relative to the second valve disc, wherein a rotation of approximately ±4-10 degrees from the zero line provides a first rate of increase of the flow path after which further rotation, for at least some range, provides a second rate of increase of the flow path that is less than the first rate of increase. 6. The leveling valve according to claim 1 , wherein the flow portion of the first valve disc comprises a first section corresponding to a first rate of increase in flow path cross section, and a second section corresponding to a second rate of increase in flow path cross section different from the first rate of increase. 7. The leveling valve according to claim 6 , wherein the second rate of increase is less than the first rate of increase. 8. The leveling valve according to claim 6 , wherein the flow portion of the first valve disc comprises a third section corresponding to a third rate of increase in flow path cross section different from the second rate of increase. 9. The leveling valve according to claim 8 , wherein the third rate of increase is higher than the second rate of increase. 10. The leveling valve according to claim 1 , wherein at least one of the supply flow path and the discharge flow path comprises a throttle, the throttle being integrated in one of the valve disc arrangement and a housing of the leveling valve. 11. The leveling valve according to claim 10 , the first valve disc further having a first air passage to the source of pressurized air, a second air passage to a first of the utilization elements, a third air passage to a second of the utilization elements, and a fourth air passage to the exhaust port. 12. The leveling valve according to claim 11 , wherein the at least one flow portion being a recess in the contact surface of the first valve disc includes a first arcuate flow portion being a recess in the contact surface of the first valve disc and a second arcuate flow portion being a recess in the contact surface of the first valve disc. 13. The leveling valve according to claim 11 , wherein the throttle is a flow channel connecting the second air passage and the third air passage. 14. The leveling valve according to claim 13 , wherein the flow channel connecting the second air passage and the third air passage is one of (i) a recess in the contact surface of at least one of the first valve disc and the second valve disc, (ii) a recess in a surface opposite the contact surface of the first valve disc, and (iii) a flow passage inside a housing of the leveling valve. 15. The leveling valve according to claim 11 , the second valve disc further having a manifold being a recess in the contact surface of the second valve disc, and wherein, depending which of the multiple switching positions the valve disc arrangement assumes, the manifold is in fluid communication with one of none and at least one of the first, second, third, and fourth air passages. 16. The leveling valve according to claim 15 , wherein in the supply position, the manifold connects the first air passage to the second and third air passages, wherein in the discharge position, the manifold connects the fourth air passage to the second and third air passages, and wherein in the neutral position, the manifold does not connect either of the first or fourth air passages to the second and third air passages. 17. The leveling valve according to claim 15 , wherein the manifold comprises first and second arcuate manifold flow portions respectively being recesses in the contact surface of the second valve disc, wherein the first and second manifold flow portions are configured to communicate, depending on which of the multiple switching positions the valve disc arrangement assumes, with the second and third air passages in the contact surface of the first valve disc. 18. The leveling valve according to claim 15 , wherein an identical number of the multiple switching positions is provided when the second valve disc is rotated by about 180° in either direction with respect to the first valve disc. 19. A vehicle air suspension system, comprising: utilization elements; the leveling valve according to claim 1 for discharging and supplying air from and to the utilization elements; and a source of pressurized air connected to a first air passage of the leveling valve. 20. A vehicle, comprising: tires mounted on a vehicle axle; a superstructure; and the vehicle air suspension system according to claim 19 , the air