Patent ID: 7770896
Filing Date: 2010-08-10
Classification: F16J

Abstract:
1. A sealing assembly, for insertion between two relatively-rotating members, the sealing assembly comprising: an annular sealing member made partly of an elastomeric material and partly of a low-friction polymer material, and a substantially rigid supporting armature embedded in the elastomeric material, wherein the supporting armature comprises a sleeve portion, and a flange portion which extends radially from a first end of the sleeve portion towards an axis of symmetry of the sleeve portion, and partly supports an elastomeric radial portion of the sealing member, projecting towards the axis of symmetry and made entirely of the elastomeric material with no supporting armature; wherein the elastomeric radial portion of the sealing member increases in axial size towards the axis of symmetry, and supports, on its free end, a sleeve made of a polymer material, and which has been cured to the elastomeric radial portion, said sleeve being arranged asymmetrically with respect to the supporting armature, having a cylindrical first end portion projecting axially parallel to the sleeve portion of the supporting armature to form a radial sealing lip, and having a conical second end portion projecting axially on a side opposite to and by a greater amount than the first end portion to form an elastically deformable axial sealing lip which extends, towards its free end, away from said axis of symmetry; said cylindrical first end portion projecting on the same side as the sleeve portion of the supporting armature; and wherein: (a) said axial sealing lip projects, from the elastomeric radial portion of the sealing member having no supporting armature, sufficiently to flex, in use, into a deformed work configuration in which a predetermined length of its free end is arranged perpendicular to the axis of symmetry; (b) said elastomeric radial portion of the sealing member is bounded laterally, towards said axial sealing lip, by a conical surface having an opposite taper to that of said second end portion of the polymer sleeve defining said axial sealing lip to provide a deformation of the lip; (c) said sealing assembly further-comprises an annular shield having an L-shaped radial section, and which cooperates in sliding manner, in use, with said sealing lips of the sealing member; (d) said shield comprises a sleeve portion interference-fitted to and angularly integral, in use, with a first of said relatively-rotating members and coaxial with the sleeve portion of said supporting armature; and a flange portion extending radially on the opposite side to the axis of symmetry of the sleeve portion of the shield, and from a first end of the sleeve portion of the shield; said radial sealing lip cooperating, in use, in sliding manner with a lateral surface of said sleeve portion of the shield, and said axial sealing lip cooperating, in use, in sliding manner with a front surface of the flange portion of the shield with a nonlinear portion of said lip arranged substantially perpendicular to said axis; (e) said sleeve portion of said shield is axially insertable, for the purpose having a beveled end opposite to its first end, inside said cylindrical portion with a predetermined amount of radial interference which is only compensated partly by the relatively limited elasticity of said elastomeric radial portion, (f) said elastomeric radial portion is shaped so as to ensure a sufficient axial load on the sealing member to provide an effective sealing in use without using springs.