Globe valve and arrangement for a globe valve

The invention claimed is: 1. An arrangement for a globe valve for adjusting a process fluid, the arrangement comprising: a valve housing including an inlet and an outlet for the process fluid, a passage opening that is arranged between the inlet and the outlet, and an internal thread; a fastening nut with an external thread configured to screw into the internal thread; a valve cage configured to linearly guide a valve member of the globe valve in an axial direction, and including at least one passage channel for the process fluid which extends transversely in the axial direction, wherein the valve cage is arranged in the valve housing such that: the valve cage circumferentially surrounds the passage opening with respect to the axial direction, the valve cage is clampable in the axial direction between the fastening nut and an annular section surrounding the passage opening of the valve housing, and a radial outer side of the valve cage with respect to the axial direction is in contact with a radial inner side of the valve housing with respect to the axial direction; an intermediate sleeve arranged between the fastening nut and the valve cage such that an axial clamping force with which the valve cage is held between the annular section and the fastening nut is transmitted completely indirectly from the fastening nut through the intermediate sleeve to the valve cage; a sealing arranged radially between the valve cage and the valve housing, the sealing being received in a sealing receiver delimited in the axial direction by the intermediate sleeve and by the valve cage; and a position lock configured to fix a relative position of the valve cage relative to the valve housing and arranged on the radial outer side and/or on the radial inner side. 2. The arrangement according to claim 1 , wherein the position lock is a rotation lock configured to prevent a rotational movement of the valve cage relative to the valve housing, the rotation lock including a connection which is form-fit relative to the axial direction in a circumferential direction. 3. The arrangement according to claim 2 , wherein the position lock comprises: at least one radial projection on the radial outer side of the valve cage and at least one radial recess on the radial inner side of the valve housing; or at least one radial recess on the radial outer side of the valve cage and at least one radial projection on the radial inner side of the valve housing. 4. The arrangement according to claim 1 , wherein the position lock comprises: at least one radial projection on the radial outer side of the valve cage and at least one radial recess on the radial inner side of the valve housing; or at least one radial recess on the radial outer side of the valve cage and at least one radial projection on the radial inner side of the valve housing. 5. The arrangement according to claim 4 , wherein the at least one radial projection is integrally formed by material of the valve cage or the valve housing. 6. The arrangement according to claim 4 , wherein the at least one radial projection is a connecting body. 7. The arrangement according to claim 6 , wherein the connecting body is a pin or a wedge. 8. The arrangement according to claim 6 , wherein the at least one radial recess comprises a blind borehole configured to hold the connecting body or a groove extending in the axial direction. 9. The arrangement according to claim 1 , wherein the intermediate sleeve is held with a linear guide relative to the valve housing and/or relative to the valve cage, the linear guide being configured to permit a translational relative movement in the axial direction and prevent a rotational relative movement. 10. The arrangement according to claim 1 , wherein the valve cage is sleeve shaped. 11. The arrangement according to claim 1 , wherein the valve member is a reciprocating piston. 12. The arrangement according to claim 1 , wherein the arrangement is configured to adjust the process fluid of a technical process plant, a chemical plant, a food processing plant, or a power plant. 13. A globe valve configured to adjust a process fluid, comprising: an arrangement including: a valve housing including an inlet and an outlet for the process fluid, a passage opening that is arranged between the inlet and the outlet, and an internal thread; a fastening nut with an external thread configured to screw into the internal thread; a valve cage configured to linearly guide a valve member of the globe valve in an axial direction, and including at least one passage channel for the process fluid which extends transversely in the axial direction, wherein the valve cage is arranged in the valve housing such that: the valve cage circumferentially surrounds the passage opening with respect to the axial direction, the valve cage is clampable in the axial direction between the fastening nut and an annular section surrounding the passage opening of the valve housing, and a radial outer side of the valve cage with respect to the axial direction is in contact with a radial inner side of the valve housing with respect to the axial direction; an intermediate sleeve arranged between the fastening nut and the valve cage such that an axial clamping force with which the valve cage is held between the annular section and the fastening nut is transmitted completely indirectly from the fastening nut through the intermediate sleeve to the valve cage; a sealing arranged radially between the valve cage and the valve housing, the sealing being received in a sealing receiver delimited in the axial direction by the intermediate sleeve and by the valve cage; and a position lock configured to fix a relative position of the valve cage relative to the valve housing and arranged on the radial outer side and/or on the radial inner side; a valve member that is linearly movably guided in the valve cage; an actuator connected to the valve member and configured to actuate the valve member; and a housing cover with an actuating opening for the actuator. 14. The globe according to claim 13 , wherein the actuator is an actuating rod. 15. The globe according to claim 13 , wherein the valve member is a reciprocating piston. 16. An arrangement for a globe valve for adjusting a process fluid, the arrangement comprising: a valve housing including an inlet and an outlet for the process fluid, a passage opening that is arranged between the inlet and the outlet, and an internal thread; a fastening nut with an external thread configured to screw into the internal thread; a valve cage configured to linearly guide a valve member of the globe valve in an axial direction, and including at least one passage channel for the process fluid which extends transversely in the axial direction, wherein the valve cage is arranged in the valve housing such that: the valve cage circumferentially surrounds the passage opening with respect to the axial direction, the valve cage is clampable in the axial direction between the fastening nut and an annular section surrounding the passage opening of the valve housing, and a radial outer side of the valve cage with respect to the axial direction is in contact with a radial inner side of the valve housing with respect to the axial direction; an intermediate sleeve arranged between the fastening nut and the valve cage such that an axial clamping force with which the valve cage is held between the annular section and the fastening nut is transmitted completely indirectly from the fastening nut through the intermediate sleeve to the valve cage, wherein the intermediate sleeve is held