Switching valve for liquid chromatography

What is claimed is: 1. A switching valve comprising: (a) a stator arranged in a housing, the stator including multiple connection ports; (b) a rotor configured to be rotated, is arranged in the housing and, in which the rotor has predetermined switching positions and interacts with the stator to form a fluidic connection or a fluidic disconnection of predetermined connection ports; (c) the rotor being mounted rotatably via a bearing and pressing device, where the bearing and pressing device is arranged in the housing and loaded with a predefined pressing force in a direction of the stator; (d) in which the bearing and pressing device includes a spring unit, the spring unit being supported against a receiving part, the receiving part being positionally fixed in an axial direction and mounted to rotate about a rotor axis via a single radial bearing of the bearing and pressing device without the use of other bearings, where the bearing and pressing device loads the rotor axially, and (e) in which the receiving part is coupled rotationally conjointly to the rotor and the receiving part has a drive region which faces away from the stator and is coupled to an output of a drive device. 2. The switching valve of claim 1 , in which the bearing and pressing device loads the rotor axially via a coupling unit of the bearing and pressing device. 3. The switching valve of claim 2 , in which the receiving part is connected rotationally conjointly to the coupling unit, and the coupling unit is connected rotationally conjointly to the rotor. 4. The switching valve of claim 1 , in which the spring unit has a ring-shaped form, and in that a region, formed coaxially with respect to the rotor axis of the rotor, engages in an axial direction into a ring opening of the ring-shaped form and is loaded radially such that the rotor is centered relative to the stator. 5. The switching valve of claim 1 , in which the spring unit has a ring-shaped form, and in that a region, formed coaxially with respect to the axis of the coupling unit, engages in an axial direction into a ring opening of the ring-shaped form and is loaded radially such that the rotor is centered relative to the stator. 6. The switching valve of claim 5 , in which the spring unit includes a stack of multiple ring-shaped spring elements. 7. The switching valve of claim 5 , in which the rotationally conjoint connection between the receiving part and the spring unit, and the rotationally conjoint connection between the spring unit and the coupling unit are formed exclusively from a frictional lock. 8. The switching valve of claim 5 , in which the rotationally conjoint connection between the receiving part and the spring unit, and the rotationally conjoint connection between the spring unit and the coupling unit are formed exclusively from a positive lock. 9. The switching valve of claim 5 , in which the ring opening interacts with a cylindrically or conically formed region of the rotor. 10. The switching valve of claim 5 , in which the ring opening interacts with a cylindrically or conically formed region of the coupling unit. 11. The switching valve of claim 1 , in which the receiving part is a pot-shaped configuration and has a circumferential radial flange for support with respect to the bearing, the spring unit being supported against an end side of the flange of the receiving part. 12. The switching valve of claim 11 , in which the radial flange includes a circumferential axial projection to radially position and fix the spring unit, a region of the spring unit is supported against the end side of the flange. 13. The switching valve of claim 1 , in which the receiving part has a drive region which faces away from the stator and is coupled to an output of the drive device. 14. The switching valve of claim 3 , in which the coupling unit has a coupling element to interact with the spring unit, the rotor is configured to rotate along a valve axis and to wobble with respect to the valve axis, the switching valve further comprising: a compensation element configured to transmit the pressing force between the coupling element and the stator, to flex with a bending load, and to wobble with the rotor. 15. The switching valve of claim 14 , in which the compensation element is a bar-shaped element that has an end region and a rotor side end region, the end region being supported against the coupling element, and the rotor side end region loads the rotor. 16. A switching valve comprising: (a) a stator arranged in a housing, the stator including multiple connection ports; (b) a rotor configured to be rotated, is arranged in the housing and, in which the rotor has predetermined switching positions and interacts with the stator to form a fluidic connection or a fluidic disconnection of predetermined connection ports; (c) the rotor being mounted rotatably via a bearing and pressing device, where the bearing and pressing device is arranged in the housing and loaded with a predefined pressing force in a direction of the stator; (d) in which the bearing and pressing device includes a spring unit, the spring unit being supported against a receiving part, the receiving part being positionally fixed in an axial direction and mounted to rotate about a rotor axis via a bearing of the bearing and pressing device, where the bearing and pressing device loads the rotor axially, and (e) in which the receiving part is coupled rotationally conjointly to the rotor and the receiving part has a drive region which faces away from the stator and is coupled to an output of a drive device, in which the receiving part is connected rotationally conjointly to the coupling unit, and the coupling unit is connected rotationally conjointly to the rotor, in which the coupling unit has a coupling element to interact with the spring unit, the rotor is configured to rotate along a valve axis and to wobble with respect to the valve axis, the switching valve further comprising: a compensation element configured to transmit the pressing force between the coupling element and the stator, to flex with a bending load, and to wobble with the rotor, in which the compensation element is a bar-shaped element that has an end region and a rotor side end region, the end region being supported against the coupling element, and the rotor side end region loads the rotor, in which the rotor includes grooves in a region of the rotor face surface to form fluidic connections, the rotor side end region of the compensation element being rigid to load the rotor, the rotor side end region of the compensation element being at least as large as the region of the rotor face surface in which the grooves are formed. 17. The switching valve of claim 1 further comprising a drive device where an output of the drive device is coupled to a drive region of the receiving part. 18. The switching valve of claim 17 , in which the drive device includes a planetary gear set, and in that at least one planet gear of the planetary gear set has a central pin to engage into a recess in the drive region of the receiving part, causing the at least one planet gear to be rotatably mounted to the receiving part.