Flange, Filter Insert, Device for Separating Oil Aerosol from Air, and Method for Producing a Filter Insert

What is claimed is: 1 . A flange for a filter insert for separating oil aerosol from air, the flange comprising: a flange region comprising a contact surface configured to support the flange, wherein the flange region extends radially relative to a longitudinal axis of the flange; a first wall region adjoining the flange region radially inwardly, wherein the first wall region extends axially; a cover region adjoining an end of the first wall region facing away from the flange region, wherein the cover region extends radially inwardly; a second wall region adjoining radially inwardly the cover region, wherein the second wall region extends axially and surrounds a central cutout of the flange; two or more lifting regions configured for holding the flange, wherein the lifting regions adjoin an end of the second wall region facing away from the cover region, wherein the lifting regions extend radially inwardly into the central cutout of the flange; wherein the first wall region, the cover region, and the second wall region are arranged concentrically relative to each other about the longitudinal axis of the flange, wherein the flange is annular and, viewed in a longitudinal section along the longitudinal axis, comprises a stepped configuration; wherein the lifting regions are arranged exclusively in a radially outer region of the central cutout; wherein an imaginary circle, arranged coaxially to the longitudinal axis of the flange and comprising an outer circumference defined by a radially innermost point of the lifting regions, has a radius corresponding to at least three fourths of a radius of the second wall region. 2 . The flange according to claim 1 , wherein the flange is of a multi-part configuration including a first flange part and a second flange part, wherein the first flange part comprises the flange region, the first wall region, a first part of the cover region, and a first part of the second wall region, and wherein the second flange part comprises a second part of the cover region, a second part of the second wall region, and the lifting regions. 3 . The flange according to claim 2 , wherein the second flange part is an insertion ring configured to be inserted into a radially inner cutout of the first flange part, wherein the second part of the cover region is configured to rest against the first part of the cover region. 4 . The flange according to claim 1 , wherein at least three of the lifting regions are provided and arranged symmetrically about the central cutout of the flange. 5 . The flange according to claim 1 , wherein the lifting regions are arranged displaced relative to each other so that, when considering two oppositely positioned points of the second wall region, a respective lifting region is arranged at only one of the two oppositely positioned points of the second wall region. 6 . The flange according to claim 1 , wherein the lifting regions are part-circular tabs. 7 . The flange according to claim 1 , wherein the lifting regions each comprise at least one fastening cutout configured for fastening at least one holding element of a hoisting crane. 8 . A filter insert for installation in a device for separating oil aerosol from air, the filter insert comprising: at least one separating element configured to separate oil aerosol from air, wherein the at least one separating element is a cylindrical coalescer; a support pipe, wherein the at least one separating element is arranged about the support pipe and the support pipe supports the at least one separating element; a flange comprising: a flange region comprising a contact surface configured to support the flange, wherein the flange region extends radially relative to a longitudinal axis of the flange; a first wall region adjoining the flange region radially inwardly, wherein the first wall region extends axially; a cover region adjoining an end of the first wall region facing away from the flange region, wherein the cover region extends radially inwardly; a second wall region adjoining radially inwardly the cover region, wherein the second wall region extends axially and surrounds a central cutout of the flange; two or more lifting regions configured for holding the flange, wherein the lifting regions adjoin an end of the second wall region facing away from the cover region, wherein the lifting regions extend radially inwardly into the central cutout of the flange; wherein the first wall region, the cover region, and the second wall region are arranged concentrically relative to each other about the longitudinal axis of the flange, wherein the flange is annular and, viewed in a longitudinal section along the longitudinal axis, comprises a stepped configuration; wherein the lifting regions are arranged exclusively in a radially outer region of the central cutout; wherein an imaginary circle, arranged coaxially to the longitudinal axis of the flange and comprising an outer circumference defined by a radially innermost point of the lifting regions, has a radius corresponding to at least three fourths of a radius of the second wall region; wherein the flange is arranged such that the cover region of the flange covers a first axial end face of the at least one separating element and wherein the flange is captively connected with the at least one separating element. 9 . A device for separating oil aerosol from air, the device comprising: a cylinder-shaped pressure-resistant housing body comprising a radially arranged raw air inlet for letting in oil aerosol-laden compressed air of a connecting component; a filter insert according to claim 8 disposed in the housing body; a housing cover configured to close off an axial end face of the housing body, the housing cover comprising a clean air outlet arranged coaxially relative to the flange of the filter insert for letting out clean air from which the oil aerosol has been separated; an axial end disk covering an axial end face of the at least one separating element of the filter insert, wherein the axial end face is facing away from the flange of the filter insert, wherein the axial end disk comprises an oil collecting region arranged radially within the at least one separating element and configured to collect oil that has been separated by the at least one separating element; at least one drainage element configured to drain the oil that has been separated by the at least one separating element from the device and to return the oil that has been separated by the separating element to the connecting component; wherein, in a position of use of the device, the flange region of the flange of the filter insert contacts the axial end face of the housing body and is clamped between the housing cover and the housing body. 10 . The device according to claim 9 , wherein the connecting component is a compressor or a vacuum pump. 11 . A method for producing a filter insert according to claim 8 , the method comprising: assembling a first flange part, comprising the flange region, the first wall region, a first part of the cover region, and a first part of the second wall region, and a second flange part, comprising a second part of the cover region, a second part of the second wall region, and the lifting regions, to assembled first and second flange parts; subsequently, arranging the assembled first and second flange parts at the axial end face of the at least one separating element such that the cover region covers the axial end face of the at least one separating element; subsequently, connecting captively the assembled first and second flange parts and the at least one separating element to each other. 12 . The method according t