FR3018320A1 - BEARING BEARING COMPRISING A SEALING DEVICE - Google Patents

Abstract

The invention relates to a rolling bearing comprising an outer member (1), an inner member (2) and rolling bodies arranged in a running space (3) formed between said members to allow their relative rotation, said bearing being equipped with a sealing device comprising an armature (4) having a front axial bearing surface (6) on a complementary axial surface (7) of one of said members, said complementary surface having an annular groove (10) opposite which a front ring (8) of said fitting seat is disposed, a static sealing member (9) being associated with said ring being disposed in sealing engagement in said groove.

Description

The invention relates to a rolling bearing comprising an inner member, an outer member and rolling bodies arranged in a running space formed between said members to allow their relative rotation.

In particular, the invention applies to rolling bearings of a motor vehicle, in particular wheel bearings. Advantageously, a bearing according to the invention allows the mounting of a drive wheel or non-driving motor vehicle, the inner member being rotatable and comprising means for fixing the wheel while the outer member is fixed and comprises fastening means on an element of the vehicle. To prevent, on the one hand, the leakage of lubricant present in the running space and, on the other hand, the contamination of said space with external pollutants, at least one side of the running space can be equipped with a device seal. Sealing devices are known comprising an armature carrying a covering cap and / or a sealing element at an opening of the running space in order to limit the penetration of pollutants into said space. In particular, it is known to mount the armature between the bodies by equipping it with an axial bearing surface on a complementary bearing of one of said bodies. However, there is then the problem of the mechanical strength of mounting the armature on the body, in particular relative to the displacement stresses during the rotation of said member, as well as the static seal between said armature and said member. In particular, the bearings must meet increasingly stringent specifications in terms of tightness, especially for the validation of wheel bearings by car manufacturers, with regard to salt spray tests with thermal cycling (tests of static and dynamic sealing) to which said bearings must comply.

The object of the invention is to improve the prior art by proposing in particular a rolling bearing equipped with a sealing device comprising an armature whose mounting on a member of said bearing is made reliable both in terms of its mechanical strength and its static sealing.

For this purpose, the invention proposes a rolling bearing comprising an outer member, an inner member and rolling bodies arranged in a running space formed between said members to allow their relative rotation, said bearing being equipped with a device for rolling. sealing comprising an armature having a bearing before axial fitting on a complementary axial bearing of one of said members, said complementary bearing having an annular groove opposite which a front crown of said fitting seat is arranged, an element of static sealing being associated with said ring being disposed in sealing engagement in said groove.

Other objects and advantages of the invention will appear in the description which follows, made with reference to the appended figures, in which: FIG. 1 partially and in longitudinal section represents the outer member of a rolling bearing according to a first embodiment of the invention, Figure la being an enlarged view of Figure 1, showing more particularly the fitting of the frame of the sealing device on an axial bearing of said member; FIG. 2 partially and in longitudinal section shows a rolling bearing according to a second embodiment of the invention, FIG. 2a being an enlarged view of FIG. 2, showing more particularly the mounting of the armature of the device of FIG. sealing on an organ forming a game of quibbling with the other organ. In connection with these figures, a rolling bearing is described below, in particular for mounting a driving or non-driving wheel of a motor vehicle.

The bearing comprises an outer member 1 and an inner member 2, at least one of said members may comprise fixing means to respectively a fixed structure or a rotating assembly. In one embodiment, the outer member 1 is fixed, for example having means for fixing the bearing on a suspension element of the motor vehicle, the wheel being associated with the inner member 2 which is then rotating. Between these members 1, 2, a running space 3 is formed to allow the relative rotation of said members. In this description, the terms of positioning in space are taken with reference to the axis of rotation of the bearing. In particular, the term "inside" relates to a disposition close to this axis and the term "outside" relates to a distance arrangement of this axis, the terms "before" and "backward" being relative to a disposition respectively to left and right in the figures.

To enable rotation, each member 1, 2 may have two axially spaced rolling tracks so as to form between said members two raceways in which are respectively arranged a row of rolling bodies, said rolling bodies may be in the form of balls, said balls being held in a row by means of a retention cage. However, the invention is not limited to an embodiment of the bearing, in particular with respect to the geometries of the rolling bodies and / or those of the inner and outer members 2 and 1. To protect the running space 3 from the pollution the surrounding environment, the bearing comprises a sealing device disposed between the outer member 1 and the inner member 2. The device comprises a frame 4 which is secured by fitting to a member 1, 2 by preventing, or at least by limiting, the penetration of pollutants in the running space 3 through a lateral opening 5 of said space formed between the members 1, 2.

The armature 4 can be made in one rigid piece, in particular based on plastic or metal material, for example stamped sheet metal. In particular, the armature 4 has a front seat 6 which is mounted by axial fitting on a complementary axial bearing surface 7 of a member 1, 2 in order to fasten said armature to said member. According to the embodiments shown, the fitting surface 6 is mounted on an outer axial surface 7 of the member 1, 2. As a variant, the fitting surface 6 can be mounted on an inner axial bearing surface of the body 1, 2 corresponding.

The fitting surface 6 has at its end a front ring 8 which is equipped with a sealing element 9 which is associated on said ring, in particular by extending continuously over the entire inner and / or outer periphery of said ring. . The sealing element 9 is mounted at least between the complementary surface 7 and the ring 8 to form the static seal by preventing the introduction of pollutants between the frame 4 and said complementary surface. The sealing element 9 may be overmolded around the front ring 8 by being made of a flexible material, for example an elastomer, in particular based on nitrile butadiene copolymer (NBR), optionally mechanically reinforced by fillers such as carbon black. carbon, hydrogenated NBR (HNBR), fluoropolymer or polyacrylate. In connection with the figures, the ring 8 is connected to the fitting surface 6 by an outer shoulder 8a which is arranged so that said ring has a diameter greater than the nominal diameter of the fitting surface 6. Thus the element sealing 9 may be disposed inside the ring 8 to a significant thickness while allowing the fitting of the bearing surface 6 according to its nominal diameter.

The complementary bearing surface 7 has an annular groove 10 opposite which the front ring 8 is disposed, the static sealing element 9 being associated around said ring being placed in sealing engagement in said groove to guarantee the static seal while by making reliable the mechanical strength of the mounting of the armature 4 on the body 1, 2. In particular, the static sealing element 9 has an annular bead 11 disposed on the bottom 12 of the groove 10 which is defined axially by two edges respectively before 13 and rear 14, said bead having a radial interference with said edges which is arranged to promote the mechanical strength and the static seal of the assembly.

Advantageously, at least the rear edge 14 extends substantially radially to ensure the axial retention of the bead 11 in the groove 10 after fitting and thus to make reliable the mechanical strength of said fitting. Thus, it is possible to promote the static sealing function conferred by the radial clamping of the sealing element 9 in the groove 10 while making reliable the assembly function provided by the fitting surface 6. Advantageously, the sealing member 9 has at least one portion adjacent to the bead 11 which is arranged in sealing engagement on the complementary bearing surface 7 on one side of the groove 10. There is thus provided a plurality of sealing zones between the sealing element 9 and the complementary bearing 7 to guarantee a satisfactory static seal. According to the embodiments shown, the sealing element 9 comprises in particular a front portion 15 which extends beyond the front end of the ring 8 while being in sealing engagement on the front side of the groove 10. In relation with FIGS. 1, an embodiment is described in which the sealing device has a reinforcement 4 in the form of a cover secured to the outer member 1. The armature 4 then comprises a solid disc 16 of which the geometry is arranged to laterally cover the annular opening 5 of the running space 3 in order to prevent the penetration of pollutants into said space through said annular opening.

The fitting surface 6 extends around the disc 16 while being fitted on a complementary bearing surface 7 formed on an axial extension 17 of the outer member 1. In particular, the disc 16 has a radial bearing surface 18 for connection to the scope 6, said radial bearing bearing axially on a rear bearing surface 19 of the axial extension 17. The disc 16 and the fitting seat 6 are advantageously made in one piece, in particular based on plastic material or metal, for example stamped sheet. In relation with FIG. 1a, the bead 11 of the sealing element 9 is sealingly abutting against the bottom 12 of the annular groove 10, said sealing element also having a front portion 15 and a rear portion 20 waterproof support on one side of said groove respectively to obtain three zones of tight support. In relation with FIG. 2, a second embodiment is described in which the sealing device comprises an armature 4 associated with a member 1, 2, said armature being equipped with one or more dynamic sealing elements with respect to a sealing surface that is integral with the other member 2, 1. The frame 4 comprises an annular wall 21 around which extends the front engagement surface 6, said wall being advantageously made in one piece with said fitting seat. The annular wall 21 further comprises a rear axial engagement seat 22 which extends axially inside the front engagement seat 6, said fitting seats being connected by a connecting fillet 23.

The connecting fillet 23 has an intermediate portion 23a which extends radially from the front bearing surface 6 and a curved portion 23b connecting said intermediate portion to the rear bearing surface 22.

According to the embodiment shown, the outer member 1 comprises an annular extension 24 which extends axially on one side of the rolling space 3, said extension having an end wall 24a and two respectively outer walls 24b and inside 24c. The end wall 24a is disposed axially facing a rear bearing surface 25 of the inner member 2, said end wall forming an axial clearance with said rear bearing surface which delimits the annular opening 5 of the running space. 3.

The sealing device is associated with the inner member 2 by fitting the front and rear bearing surfaces 6 and 6 of the armature 4 respectively to a complementary axial bearing surface 7, 26 formed on a wall of said member, said complementary bearing surfaces being connected by the rear reach 25.

In particular, the rear bearing surface 22 is mounted on the complementary inner bearing surface 26 by arranging the connection fillet 23 at an axial distance from the rear bearing surface 25 of the inner member 2 so as to avoid the bending of the frame 4 and therefore its deformations during the rotation of the bearing.

In relation to FIG. 2a, the annular groove 10 of the complementary front span 7 has a concave geometry. Thus, the groove 10 is arranged to ensure clipping of the bead 11 in said groove for its front and rear axial retention, said bead having a geometry complementary to that of said groove. Furthermore, the sealing element 9 is in sealing engagement on one side of the groove 10 by having a front portion 15 pressed against the front side of said groove. The sealing device also comprises a sealing element 27 which is associated with the wall 21 of the armature 4 while being arranged to form a dynamic seal with respect to a sealing surface formed on the extension 24, particularly at level of its outer walls 24b and / or end 24a. In a variant, the sealing device may comprise a second armature integral with the outer member 1 to form the sealing surface opposite which the dynamic sealing element 27 is arranged. According to the embodiment shown, the element dynamic seal 27 comprises a protrusion 28 forming a baffling set with the sealing surface at the opening 5 of the bearing space 3. In particular, the dimension and / or the geometry of the baffling set is arranged to limit the introduction of pollutants, in particular sludge, into the running space 3. Alternatively, possibly complementary, the dynamic sealing element 27 may comprise at least one lip in rubbing contact on the sealing surface of the outer member 1. Advantageously, the dynamic sealing element 27 is made in one piece with the static sealing element 9, for example by overmolding on the wall ring 21 of the armature 4. In relation with FIG. 2, the projection 28 of the dynamic sealing element 27 is bent with respect to the static sealing element 9.

Claims (12)

REVENDICATIONS1. Rolling bearing comprising an outer member (1), an inner member (2) and rolling bodies arranged in a running space (3) formed between said members to allow their relative rotation, said bearing being equipped with a device sealing comprising an armature (4) having a front axial bearing surface (6) on a complementary axial bearing surface (7) of one of said members, said bearing being characterized in that the complementary bearing surface (7) has an annular groove ( 10) opposite which a front ring (8) of the fitting seat (6) is arranged, a static sealing element (9) being associated with said ring being arranged in sealing engagement in said groove. 2. Rolling bearing according to Claim 1, characterized in that the groove (10) has a bottom (12) defined axially by two edges respectively front (13) and rear (14), the sealing element (9). having a bead (11) disposed on said bottom having radial interference with said edges. 3. rolling bearing according to claim 2, characterized in that the rear edge (14) of the groove (10) extends substantially radially. Rolling bearing according to one of Claims 1 to 3, characterized in that the sealing element (9) is arranged in sealing engagement with the complementary bearing surface (7) on at least one side of the groove ( 10). 5. Rolling bearing according to any one of claims 1 to 4, characterized in that the ring (8) of the fitting seat (6) has a diameter which is greater than the nominal diameter of said bearing. 6. Rolling bearing according to any one of claims 1 to 5, characterized in that the sealing element (9) is overmolded around the ring (8). 7. rolling bearing according to any one of claims 1 to 6, characterized in that the armature (4) has a disc (16) arranged to cover laterally the running space (3), the fitting seat (6) said armature extending around said disk being fitted on a complementary surface (7) of the outer member (1). 8. rolling bearing according to any one of claims 1 to 6, characterized in that the armature (4) has a wall (21) around which extends the fitting seat (6) on one members (1, 2), said wall being equipped with at least one dynamic sealing element (27) with respect to a sealing surface which is integral with the other member (2, 1). Roller bearing according to Claim 8, characterized in that a dynamic sealing element (27) is arranged in frictional contact with the sealing surface. 10. Rolling bearing according to one of claims 8 or 9, characterized in that a dynamic sealing element (27) forms a baffling clearance with the sealing surface. Rolling bearing according to one of Claims 8 to 10, characterized in that the static (9) and dynamic (27) sealing elements are formed in one piece on the reinforcement (4). Roller bearing according to one of Claims 8 to 11, characterized in that the wall (21) has a rear bearing surface (22) extending axially inside the fitting seat (6). being connected to it by a fillet (23), said rear seat being fitted on the member (1, 2) by arranging said connecting fillet at axial distance from a rear bearing surface (25) of said member.