Bearing assembly

The invention claimed is: 1. A bearing assembly configured to be mounted in a housing, comprising: a bearing provided with: a first ring having a hole, two front edges and an outer cylindrical surface, a second ring having a hole, two front edges and an outer cylindrical surface, the first and second rings being in relative rotation about a central axis (X 1 ), and at least one row of rolling elements housed in a bearing chamber formed between an outer cylindrical surface and a hole of the rings, at least one envelope mounted on one of the rings of the bearing, such that: a dimensional difference between the housing and the bearing is compensated by the envelope, the envelope includes a first envelope part and a second envelope part that are distinct, each having an annular flange at least partially overlapping a front edge of the ring and a cylindrical portion extending from the flange and at least partially overlapping the cylindrical surface or hole of the ring outside the bearing chamber, the two envelope parts are rigidly connected together using attachment means provided on the cylindrical portions, and the attachment means provide at least one cavity formed at one end portion of the cylindrical portion of the first envelope part and at least one relief formed at one end portion of the cylindrical portion of the second envelope part, the at least one relief being housed in the related cavity to attach the first and second envelope parts the assembly (A), wherein the annular end portion of the cylindrical portion of the first envelope part includes a plurality of reliefs and cavities spaced out regularly, successively and alternately about the circumference, and wherein the annular end portion of the cylindrical portion of the second envelope part includes a plurality of reliefs and cavities spaced out regularly, successively and alternately about the circumference, wherein at least one envelope part is provided with at least one spacing zone that is circumferentially adjacent to the end portion provided with the at least one cavity on one side and to the end portion provided with the at least one relief on the other side. 2. The bearing assembly according to claim 1 , wherein at least one flange of the envelope mounted on the first ring is in sliding contact with the other ring, either directly against one of the surfaces of the second ring or indirectly against an element rigidly connected to the second ring. 3. The assembly according to claim 1 , wherein the one end portion of the cylindrical portion of the first envelope part comprise a plurality of tabs toward the second envelope part, and wherein the at least one cavity formed at the one end portion of the cylindrical portion of the first envelope part resides between a pair of the plurality of tabs. 4. The bearing assembly according to claim 1 , wherein the annular end portions provided with a plurality of reliefs and cavities successively and alternately of the cylindrical portions of the first and second envelope parts are circumferentially adjacent. 5. A method for assembling a bearing assembly (A) including at least one envelope part having at least one spacing zone that is circumferentially adjacent to an end portion provided with a cavity on one side and to an end portion provided with a relief on the other side, the method comprising: providing a pre-assembled bearing including rings that rotate relative to a central axis (X 1 ), positioning the at least one envelope part coaxially and on either side of one of the rings of the bearing, an end portion of a first envelope part of the at least one envelope part including at least one attachment means comprising the relief and an end portion of a second envelope part of the at least one envelope part including at least one attachment means comprising the cavity, at least one envelope part having at least one spacing zone that is circumferentially adjacent to the end portion provided with the cavity on one side and to the end portion provided with the relief on the other side, sliding axially onto at least one spacing zone of the other envelope part the end portion of one of the envelope parts such that the end portion overlaps the spacing zone radially, sliding the end portion including at least one attachment means of one of the envelope parts in rotation from the spacing zone towards the end portion including at least one attachment means of the other envelope part by applying a relative rotation about the axis (X 1 ) to the envelope parts, and wherein the attachment means of the envelope parts cooperating with one another.