Patent ID: 8387946

Claim:
An electromagnetic valve, comprising: a valve housing having a bore; a magnet armature chamber formed in the bore of the housing; a pressure medium chamber formed in the bore of the housing and spaced from the magnet armature chamber; a magnetic core having a central bore fixed in the bore of the housing and delimited on a first end by the magnet armature chamber and delimited on a second end by the pressure medium chamber; a pressure medium outlet channel formed by the bore in the housing; a pressure medium inlet channel formed in a sidewall of the housing and connectable via the pressure medium chamber to the pressure medium outlet channel; a valve seat arranged in the bore of the housing in a region near the base of the housing; a valve closure member guided in the central bore of the magnetic core that, upon bearing contact on the valve seat, blocks a connection between the pressure medium inlet channel and the pressure medium outlet channel; a valve guide, which has an inner circumferential surface substantially having the surface shape of a circular truncated cone that widens toward the pressure medium chamber, extending between the magnet armature chamber and the pressure medium chamber for carrying the valve closure member in respect of longitudinal movement; and a sealing ring, which has an outer circumferential surface substantially having the surface shape of a spherical segment that widens toward the pressure medium chamber, surrounding the valve closure member, supporting on the valve guide and hydraulically separating the magnet armature chamber from the pressure medium chamber, and the sealing ring being composed of a polymer material, the valve guide contacting the sealing ring by means of the inner circumferential surface, and the sealing ring contacting the inner circumferential surface of the valve guide by means of the outer circumferential surface, wherein a geometric contact point between the inner circumferential surface of the valve guide and the outer circumferential surface of the sealing ring is defined by the following relationships: β≦α 1 +α 2 , wherein β is an included angle of the circular truncated cone, and the following is applicable to angles α 1 , α 2 on a spherical segment: cos α 1 =d 1 /D and cos α 2 =d 2 /D, wherein d 1 is a greatest diameter of the spherical segment, d 2 is a smallest diameter of the spherical segment, and D is a diameter of an associated sphere.