Filter system comprising coupling device

What is claimed is: 1. A filter system for filtering a fluid having an end face inlet and outlet, comprising: a filter housing; a filter element arranged in an interior of the filter housing, the filter element having: a hollow cylindrical filter body of a filter medium, the hollow cylindrical filter body surrounding a central longitudinal axis; a tubular outlet arranged directly on the hollow cylindrical filter body on an axial end face of the hollow cylindrical filter body, the tubular outlet projecting axially outwardly away from the filter element at a first axial end of the filter element, the tubular outlet opening into an interior of the hollow cylindrical filter body; a coupling device having: a first axially extending annular cylindrical wall surrounding the longitudinal axis of the filter element, a first axial end of the axially extending annular cylindrical wall positioned on the axial end face of the hollow cylindrical filter body, the axially extending annular cylindrical wall projecting axially outwardly away from the filter element, the first axial end of the axially extending annular cylindrical wall arranged on the axial end face of the hollow cylindrical filter body and radially surrounding the tubular outlet; an annular U-shaped circumferential groove formed on the first axially extending annular cylindrical wall and surrounding the central longitudinal axis; a plurality of radially inwardly projecting coupling elements formed on an interior surface of the first axially extending annular cylindrical wall of the coupling device and projecting into an interior of the first axially extending annular cylindrical wall, the plurality of radially inwardly projecting coupling elements spaced apart circumferentially about an inner circumference of the first axially extending annular cylindrical wall and configured to lockably engage with a plurality of locking contours of a receiving member when the filter system is lockably mounted by a push-turn movement relative to the receiving member; a seal holder arranged on the coupling device and having a seal configured to seal the filter system to the receiving member when the filter system is lockably mounted; a compression spring having one or more raised points, the compression spring arranged axially outside of the filter element in the interior of the first axially extending annular cylindrical wall of the coupling device and configured to apply an axial spring force against the receiving member and against the first axial end of the filter element. 2. The filter system according to claim 1 , wherein the first axially extending annular cylindrical wall has at least one radially inwardly projecting retaining element projecting into the interior of the first axially extending annular cylindrical wall; wherein the compression spring contacts directly against the at least one radially inwardly projecting retaining element of the first axially extending annular cylindrical wall. 3. The filter system according to claim 2 , wherein the at least one radially inwardly projecting retaining element of the first axially extending annular cylindrical wall is arranged directly on and contacting against the first axial end of the filter element. 4. The filter system according to claim 1 , wherein the coupling device is connected to the seal holder. 5. The filter system according to claim 1 , wherein the seal is radially arranged so that it radially seals the filter system against the receiving member in an installed state of the filter system on the receiving member. 6. The filter system according to claim 1 , wherein the seal holder is one-piece and has a U-shaped portion in which the seal is arranged, wherein the one-piece seal holder is connected to the filter housing at an end face edge of the filter housing. 7. The filter system according to claim 6 , wherein the seal is positioned at least radially and axially directly against the one-piece seal holder. 8. The filter system according to claim 6 , wherein the seal has an inward sealing function radially relative to the longitudinal axis (L). 9. The filter system according to claim 6 , wherein the one-piece seal holder is connected to the coupling device in a material fit, non-positive fit, or positive fit. 10. The filter system according to claim 1 , wherein the seal holder is an end face closure of the filter system. 11. The filter system according to claim 1 , wherein one or a plurality of connecting elements for connecting to the coupling device are provided at the seal holder. 12. The filter system according to claim 1 , wherein the filter element is arranged in the filter housing via a filter element holder that is supported against the coupling device. 13. A combination of the filter system according to claim 1 and the receiving member, wherein the receiving member is configured to lockably engage and mount the filter element and the filter housing to the receiving member, the receiving member having: a second axially extending annular cylindrical wall is configured to be received into the interior of the first axially extending annular cylindrical wall of the coupling device; a plurality of locking contours formed in or on a radial outer side of the second axially extending annular wall and configured to lockably engage with the plurality of radially inwardly projecting coupling elements by a push-turn movement of the coupling device relative to the receiving member; wherein each locking contour includes: a ramped contour portion having a first end configured to receive a respective one of the inwardly projecting coupling elements; a second end of the ramped contour having an end position formed as an axially outwardly extending contour configured to capture the respective one of the inwardly projecting coupling elements to lockably engage with the coupling device, the axial spring force of the compression spring holding the inwardly projecting coupling elements in the end position of the ramped contour.