Round filter element

What is claimed is: 1. A method for producing a round filter element, the method comprising the steps of: providing a filter medium; forming a plurality of pleats into the filter medium; forming the pleated filter medium into an annular pleated filter medium body, the annular pleated filter medium body is circumferentially closed and forms a hollow body having a hollow interior; wherein the annular pleated filter medium body surrounds a longitudinal axis extending through a hollow interior of the annular pleated filter medium body from a first axial end face to an opposite second axial end face of the annular pleated filter medium body, wherein axial, as used herein, is a direction of the longitudinal axis, wherein radial, as used herein, is a direction transverse to the longitudinal axis; wherein individual pleats of the plurality of pleats of the annular pleated filter medium body extend axially from the first axial end face to the opposite second axial end face of the annular pleated filter medium body; the method further comprising: axially compressing the filter medium of the annular pleated filter medium body, to form a compressed section arranged adjacent to but spaced axially inwardly away from a respective one of the axial end faces by a distance of maximally 5 mm, forming an uncompressed free region of the filter medium between the compressed section and the respective axial end face; forming and fixing a first end disk onto an axial end face of the annular pleated filter, wherein the forming and fixing of the first end disk is carried out by: providing a flowable plastic material; applying the flowable plastic material in a flowable state onto the uncompressed free region of the annular filter medium body such that the compressed section forms a barrier separating the flowable plastic material from an axially inward uncompressed region of the annular pleated filter medium body; curing or hardening the flowable plastic material on the axial end face of the annular pleated filter medium body, forming the first end disk; forming and fixing a second end disk onto an opposite axial end face of the annular pleated filter; wherein an outer contour or an inner contour of the first end disk is identically or at least substantially identically embodied to an outer contour or an inner contour of the annular pleated filter medium body; wherein an outer contour or an inner contour of the second end disk is identically or at least substantially identically embodied to the outer contour or the inner contour of the annular pleated filter medium body. 2. The method according to claim 1 , wherein in the step of forming the pleating filter medium into an annular pleated filter medium body, the first axial end face has a smaller outer diameter than the opposite second axial end face such that the annular pleated filter medium body has an outer diameter that changes conically from the first axial end face to the opposite second axial end face at a cone angle of maximally 30 degrees. 3. The method according to claim 1 , wherein in the step of applying the flowable plastic material, the flowable plastic material is applied by either: immersing the uncompressed free region of the annular filter medium body into the flowable plastic material, or injection molding the flowable plastic material onto the uncompressed free region of the annular filter medium body. 4. The method according to claim 3 , wherein in the step of forming the pleating filter medium into an annular pleated filter medium body, the first axial end face has a smaller outer diameter than the opposite second axial end face such that the annular pleated filter medium body has an outer diameter that changes conically from the first axial end face to the opposite second axial end face at a cone angle of maximally 30 degrees. 5. The method according to claim 1 , wherein one of the first and second end disks is an open end disk; a different one of the first and second end disks is a closed end disk. 6. The method according to claim 5 , wherein in the step of forming an end disk, an outer contour of the closed end disk follows an adjacent outer contour of the annular filter medium body. 7. The method according to claim 5 , wherein in the step of forming an end disk, an inner contour of the open end disk follows an adjacent inner contour of the filter medium body. 8. The method according to claim 2 , wherein before the step of axially compressing the filter medium, the method further comprises: providing a lower casting mold part and an upper casting mold part; placing the annular pleated filter medium body onto the lower casting mold part; wherein the step of axially compressing the filter medium is practiced by: moving the upper casting mold part from above onto the annular pleated filter medium body and moving the upper casting mold part towards the lower casting mold part; wherein one of the casting mold parts is positioned inside the annular filter medium body and a different one of the casting mold parts is positioned outside of the filter medium body; interacting the upper casting mold part with the lower casting mold part such that the compressed section is formed in the annular filter medium body adjacent to but spaced axially inwardly away from a respective one of the axial end faces by a distance of maximally 5 mm. 9. The method according to claim 1 , wherein the step of forming and fixing a second end disk is practiced by: providing a flowable plastic material; applying the flowable plastic material in a flowable state onto the uncompressed free region of the annular filter medium body such that the compressed section forms a barrier separating the flowable plastic material from an axially inward uncompressed region of the annular pleated filter medium body; curing or hardening the flowable plastic material on the axial end face of the annular pleated filter medium body, forming the second end disk. 10. The method according to claim 1 , wherein the step of axially compressing the filter medium further includes: axially compressing the filter medium of the annular pleated filter medium body to form a second compressed section arranged adjacent to but spaced axially inwardly away from an opposite axial end face by a distance of maximally 5 mm, forming a second uncompressed free region of the filter medium between the second compressed section and the opposite axial end face; wherein the step of forming a second end disk is practiced by: applying the flowable plastic material in a flowable state onto the second uncompressed free region of the annular filter medium body such that the second compressed section forms a barrier separating the flowable plastic material from an axially inward uncompressed region of the annular pleated filter medium body; curing or hardening the flowable plastic material on the opposite axial end face of the annular pleated filter medium body, forming the second end disk. 11. A round filter element according to claim 1 , wherein the annular pleated filter medium body is configured to be flowed through by a fluid to be purified in a radial direction in relation to the longitudinal axis of the annular pleated filter medium body; wherein an outer contour or an inner contour of the first end disk is identically or at least substantially identically embodied to an outer contour or an inner contour of the annular pleated filter medium body; wherein an outer contour or an inner contour of the second end disk is identically or at least substantially identically embodied to the outer contour or the inner contour of the annular pleated filter mediu