Valve component arrangement and a control valve with a valve component arrangement

The invention claimed is: 1. A valve component arrangement for a control valve for adjusting a process fluid flow, the control valve having an inlet and an outlet for the process fluid flow, the valve component arrangement comprising: a valve housing having a passage for the process fluid flow and extending along a longitudinal axis; a valve component mountable on the valve housing; a seal configured to circumferentially seal between the valve housing and the valve component; and a contact abutment to be disposed in the axial direction between the seal and the valve housing, and which is configured to be movable in a pre-assembled state relative to the valve housing and relative to the valve component, wherein: in an assembled state, the seal is inserted into an annular-groove-shaped seal receptacle limited by the valve component, the valve housing, and the contact abutment; the valve housing, the valve component, and the contact abutment are matched to each other such that the seal receptacle is reduced when the valve component is mounted on the valve housing, the contact abutment being supported on the valve housing; the contact abutment undergoing a relative movement relative to the valve component; and the contact abutment is held axially movable to the valve component by a carrier, the carrier being configured to carry the contact abutment with the valve component when the valve component is removed. 2. The valve component arrangement according to claim 1 , wherein the valve housing, the valve component, and the contact abutment are matched to each other such that the seal receptacle is reduced when the valve component is mounted on the valve housing for pressing the seal, wherein, in the mounted state, the seal is compressed in the axial direction. 3. The valve component arrangement according to claim 2 , wherein, in the mounted state, the seal is expanded in the radial direction. 4. The valve component arrangement according to claim 1 , wherein the carrier is arranged on the valve component, the carrier being configured to carry the seal with the valve component when the valve component is removed. 5. The valve component arrangement according to claim 4 , wherein the contact abutment and/or the carrier is held to the valve component by a connection detachable in the radial direction. 6. The valve component arrangement according to claim 4 , wherein the carrier comprises at least one engaging part radially protruding from the valve component, wherein the contact abutment comprises at least an axial undercut which is complementary in shape to the at least one engaging part and configured to receive the engaging part, the axial undercut being larger in the axial direction than the received engaging part. 7. The valve component arrangement according to claim 1 , wherein the contact abutment and/or the carrier is held to the valve component by a connection detachable in the axial direction. 8. The valve component arrangement according to claim 7 , wherein the connection detachable in the axial direction is a threaded pairing or a bayonet connection. 9. The valve component arrangement according to claim 1 , wherein the contact abutment is annular, and is formed as one-piece or as multi-parts of pitch circle sections. 10. The valve component arrangement according to claim 1 , wherein the valve component is a valve cage and the contact abutment is formed in one piece with a valve seat. 11. The valve component arrangement according to claim 1 , wherein the valve component is a valve seat and/or a valve cage. 12. The valve component arrangement according to claim 1 , wherein the carrier is further configured to carry the seal with the valve component when the valve component is removed. 13. The valve component arrangement according to claim 1 , wherein: the seal is a ring seal configured to circumferential seal between the valve housing and the valve component; and the contact abutment is structurally separate from the valve housing, the contact abutment being configured to limit the annular-groove-shaped seal receptacle, in which the ring seal is seated, in the axial direction and the contact abutment is held in its operational state in the axial direction by axial pressing forces which are transmitted exclusively from the valve component via the ring seal to the contact abutment. 14. The valve component arrangement according to claim 1 , wherein: the carrier comprises at least one engaging pin that radially extends from the valve component, the contact abutment includes a recess that is complementary in shape to the at least one engaging pin and configured to receive the at least one engaging pin, the recess being larger in the axial direction than the received engaging pin; and an axial clearance between the contact abutment and the at least one engaging pin, in a mounted state, is greater than an axial clearance between the valve housing and the valve component in a preassembled state. 15. A control valve comprising: the valve component arrangement according to claim 1 . 16. A valve component arrangement for a control valve for adjusting a process fluid flow of a process plant, comprising: a housing configured to accept a process fluid flowing therethrough, the housing having a passage for the flow of the process fluid extending along a longitudinal axis; a valve component mounted on the valve housing; and a ring seal configured to circumferential seal between the valve housing and the valve component, wherein, when the valve component is axially inserted into the valve housing, there is a threaded engagement between the valve housing and the valve component, and wherein, with continued axial displacement of the valve component, the threaded engagement between the valve component and the valve housing is released, such that the valve component is displaceable longitudinally in the axial direction relative to the valve housing, thereby reducing the seal receptacle in the axial direction. 17. The valve component arrangement according to claim 16 , wherein the seal is pressed in the seal receptacle axially between the valve housing and the valve component.