Overrun air recirculation valve for a compressor of an internal combustion engine

The invention claimed is: 1. A divert-air valve for a compressor of an internal combustion engine, the divert-air valve comprising: a flow housing comprising a duct formed therein, the duct comprising a throughflow cross section; an electromagnetic actuator; a control body configured to be moved by the electromagnetic actuator and to control the throughflow cross section of the duct, the control body comprising an axial extent; a valve housing comprising a housing wall and a housing interior, the valve housing being configured to radially surround the electromagnetic actuator and a part of the axial extent of the control body; an armature arranged in the housing interior of the valve housing, the armature being connected to the control body so as to be movable; openings arranged in the control body, the openings being configured to fluidically connect the housing interior to a part of the duct in the flow housing which bears axially against the control body; a support ring comprising a radially inwardly facing ring-shaped plate and a cylinder wall, the support ring being configured to bear, via the cylinder wall, radially from the outside against the housing wall; and a radial sealing ring configured to seal off the housing interior with respect to a part of the duct which bears radially against the control body, the radial sealing ring being arranged to lie axially against the radially inwardly facing ring-shaped plate of the support ring and to bear radially at the outside against the housing wall of the valve housing, wherein, the cylinder wall of the support ring is configured to surround the housing wall of the valve housing, the cylinder wall comprising a radially outward-facing annular plate at an end facing toward the electromagnetic actuator which is axially clamped between the valve housing and the flow housing. 2. The divert-air valve as recited in claim 1 , further comprising a sealing ring which is clamped between the flow housing and the valve housing radially outside the radially outward-facing annular plate. 3. The divert-air valve as recited in claim 2 , wherein the support ring is fastened to the valve housing via the housing wall. 4. The divert-air valve as recited in claim 3 , wherein, the valve housing further comprises a widened portion, and the cylinder wall, at its end axially facing away from the electromagnetic actuator, bears against the widened portion of the valve housing so as to generate a clamping force which serves as a fastening. 5. The divert-air valve as recited in claim 4 , wherein the valve housing further comprises a constriction formed thereon between the widened portion and the electromagnetic actuator, the constriction being configured to be resiliently deformable. 6. The divert-air valve as recited in claim 1 , wherein, the control body further comprises an outer diameter, and the support ring further comprises an annular, radially inward-facing plate at an axial end of the cylinder wall facing away from the electromagnetic actuator, the annular, radially inward-facing plate comprising an inner diameter which is slightly larger than the outer diameter of the control body, the annular, radially inward-facing plate being configured to have the radial sealing ring rest thereon. 7. The divert-air valve as recited in claim 1 , wherein the support ring is a deep-drawn component made of metal. 8. The divert-air valve as recited in claim 1 , wherein, the cylinder wall of the support ring comprises a height, the housing wall of the valve housing facing away from the electromagnetic actuator comprises a height, and the height of the cylinder wall is slightly larger than the height of the housing wall of the valve housing facing away from the electromagnetic actuator.