• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A sealing device (5) insertable between a fixed outer ring (2) and a rotating inner ring (3) of a bearing or hub bearing unit, comprising a first C-shaped flange ( 10) carried by the inner ring and a second L-shaped flange (11) carried by the outer ring; wherein the first flange comprises a first annular sealing member (15) comprising a first annular lip (20) which extends axially cantilevered from the flange portion (13) of the second flange in a facing position to a radially outer sleeve portion (19) of the first flange and a second elastically deformable annular lip (21) which is disposed radially inside the first lip (20) and which cooperates in contact with a sleeve portion radially internal portion (16) of the first flange, which carries a second sealing element (24) comprising a third annular lip (25), which extends axially cantilevered from the first flange and towards the second flange, and which is radially interposed between the first (20) and the second (21) lip.
    公开号:FR3032765A1
    申请号:FR1651284
    申请日:2016-02-17
    公开日:2016-08-19
    发明作者:Carmelo Gulli;Davide Antonio Olivieri;Michel Organisciak;Marco Panchetti;Hector Villalobos
    申请人:SKF AB;
    IPC主号:
    专利说明:

    [0001] 2014P00632EN 1 Sealing device for rolling bearings, in particular for a vehicle hub bearing, and associated hub bearing. TECHNICAL FIELD OF THE INVENTION The present invention relates to a sealing device for rolling bearings, in particular for use in a vehicle hub bearing, in particular, but not exclusively, useful both on the "outside" and "outside" side. edge ", ie facing, in use, the outer side of the vehicle body of said unit, and" inner ", ie facing the vehicle interior, with a high efficiency of sealing against external contaminants and low friction, and a hub bearing provided with said sealing device. PRIOR ART As is known, the vehicle hub bearings comprise an outer ring, for example non-rotating in use, and an inner ring, for example in rotation during use, disposed on the outer side of the unit. hub bearing with a mounting flange for a vehicle wheel. Between the inner and outer rings sealing devices are interposed respectively, one on the outer side and the other on the opposite side, called "inside". Among the most used sealing devices, not only on the hub bearings, but more generally on the bearings, there are so-called "cassette" seals which include two rigid L-shaped flanges in radial section. , one of which is provided with an elastomeric seal provided with a plurality of sliding lips. The known sealing devices are relatively satisfactory, but they often have large overall dimensions and a relatively high friction. To achieve low friction, the number of slip lips can be reduced by resting partially or entirely on the use of labyrinth-type non-contact seals. This, however, can reduce the effectiveness of the seal, since a large portion of the contaminants come into contact with the sliding lip, resulting in premature wear of the seal. In addition, both because of machining tolerances and "cornering" constraints in use, the slip seals, particularly the axial ones, may possibly malfunction.
    [0002] The disadvantages described are not eliminated by the solution according to EP1795787A1 based on the use of a labyrinth seal between the two flanges, formed by substantially rigid and opposed protruding projections made of elastomer. In fact, the contaminants that penetrate beyond the labyrinth seal are then evacuated with difficulty from an internal chamber of the seal which, therefore, increases the wear of the lip in contact. In addition, the problem "cornering" is not solved.
    [0003] SUMMARY OF THE INVENTION The object of the present invention is to provide a bearing device for rolling bearings, particularly but not exclusively, adapted for use in a hub bearing unit of a vehicle wheel. having excellent hydraulic seal characteristics against external contaminants, low bulk and low friction. According to the invention, a sealing device for rolling bearings and a hub bearing unit provided with said sealing device having the characteristics set forth in the appended claims are therefore provided.
    [0004] BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described with reference to the accompanying drawings, which show non-limiting embodiments thereof, in which: - Figure 1 schematically illustrates a radial sectional view of a portion of the invention; a vehicle hub bearing unit (partial or partial view in section), provided with a sealing device implemented according to the invention; FIG. 2 schematically illustrates, on a larger scale, a detail of FIG. 1, which shows the conformation of a first embodiment of a sealing device according to the invention; FIG. 3 schematically illustrates a view in radial section of a portion of a vehicle hub bearing unit (partial or partial, seen in section), provided with a sealing device implemented according to a second embodiment embodiment of the invention; FIG. 4 schematically illustrates on a larger scale a detail of FIG. 3, which shows the conformation of the second embodiment of a sealing device according to the invention; and FIG. 5 schematically illustrates, on an enlarged scale, a third embodiment of a sealing device according to the invention, replaceable in FIGS. 1 and 3 for the embodiments of FIGS. 2 and 4.
    [0005] DETAILED DESCRIPTION Referring to FIG. 1, reference numeral 1 generally denotes a rolling bearing, in the illustrated example constituting a hub bearing unit and comprising an outer ring 2, an inner ring 3, a plurality of rolling bodies 4 (one of which, for the sake of clarity, is indicated by dotted lines) interposed between the outer ring 2 and the inner ring 3 for. rotating them, relative to one another, about a common axis of rotation A, and a sealing device 5, disposed between the rings 2 and 3, illustrated truncated for simplicity, to close a an annular space 7 radially delimited between the rings 2 and 3 and 10 which receives the rolling bodies 4. More generally, the rings 2 and 3 may form part of a rolling bearing of any known type, whether or not it is part of the hub bearing unit 1. In all cases, the outer ring 2 is stationary during use, while the inner ring 3 rotates in use around an axis of rotation A common to the rings 2 and 3, 15 which in general is also a common axis of symmetry of the sealing device 5 and one or both rings 2 and 3. When the rings 2 and 3 are part of a hub bearing unit, the outer ring Fixed 2, for example, is attached to a vehicle suspension amount, known and not shown in. For simplicity, while the rotating inner ring 3 is secured to a wheel of the vehicle, known and not shown for the sake of simplicity. The sealing device 5 comprises (FIG. 2) a first rigid annular flange 10, made of a metallic or plastic or polymeric material, designed to be integrally supported, in use, by a first bearing ring, in this case. case by the inner ring 3 which is rotating in use, and a second rigid annular flange 11, also of metal or plastic or polymeric material, intended to be integrally supported in use by a second bearing ring, in this case case by the outer ring 2 which is fixed in use. The second annular flange 11 has the shape, in radial section, of an upside-down L facing outwardly of the bearing 1, that is, facing on the opposite side to the annular space 7 and comprises a radially outer sleeve-shaped trunnion portion 12 and a flange portion 13 which extends radially cantilevered inwardly from a first end 14 (Fig. 2) of the trunnion portion 12 facing the opposite side to the first annular flange 10 and inward of the bearing 1.
    [0006] In addition, the annular flange 11 comprises in one piece and radially on the inside an annular sealing element 15 made of elastomeric material, which has been rendered integrally indivisible (unless broken) at the same time. flange 11 during vulcanization by means of a known method. According to a first aspect of the invention, in combination with the described structure of the shield 11, the first annular flange 10 has the radial cross-sectional shape of a C, the concavity of which faces the annular flange 11 and faces towards the annular flange 11. the annular space 7 and, thus, towards the interior of the bearing 1; the first flange 10 comprises a first radially inward sleeve portion 16 defining a journal portion for accommodating the flange 10, a flange portion 17 which extends radially cantilevered outwardly from a flange first end 18 of the sleeve portion 16, the end 18 facing the opposite side to the first annular flange 11, and a second sleeve portion radially outwardly and extending axially, cantilevered from the flange portion 17 on the same side as the first sleeve portion 16, at which the sleeve portion 19 faces radially and with which it is coaxial with respect to an axis of symmetry common to the flanges 10,11, coinciding with the relative rotation axis between the rings 2 and 3. Still in combination with what has already been described, the annular sealing element 15 comprises a first annular lip 20 which extends axially in a door false from the flange portion 13 of the flange 11 and towards the flange 10, rotary 20 in use, also known as the "baffle", so as to be radially interposed between the first radially inner sleeve portion 16 and the second portion radially outer sleeve sleeve 19 of the flange 10, radially closer to the sleeve portion 19 radially outer than the sleeve portion 16 radially inner.
    [0007] The sealing element 15 also comprises a second annular elastically deformable lip 21, which is arranged radially inside the first annular lip 20 and which extends axially and radially (thus oriented at an angle to the axis A) to cooperate in contact and with some interference, although reduced, with the first rigid flange 10 and, in particular, according to the nonlimiting embodiment illustrated, with the sleeve portion 16, with which it defines a sliding joint which, in the embodiment shown, is a radial sliding seal. In combination with this configuration, the annular lip 20 is shaped to delimit radially outwardly a first annular channel 22 facing a free end edge 23 of the radially outer sleeve portion 19 of the shaped flange 10 Dec; the free end edge 23 is opposite the flange portion 17 of the first flange 10.
    [0008] According to the non-limiting embodiment shown in FIGS. 1 and 2, the first flange 10 carries in one piece with the flange portion 17 thereof and on the side facing the second flange 11 a second flange annular sealing element 24 made of elastomeric material and comprising a third annular lip 25 which extends axially cantilevered from the flange 10 and towards the flange 11 and which is interposed radially between the lip 20 and the lip 21 The annular lip 25 is shaped so as to delimit radially outwardly a second annular channel 26 (FIG. 2) facing a free end 27 of the annular lip 20.
    [0009] In this way, the flange 10 defines in radial section, with the annular sealing element 24, an E-shaped element whose branches or arms, defined by the two sleeve-shaped parts 16 and 19 and by the annular lip 25, are arranged radially alternately with the lips 20 and 21, thus forming a radial labyrinth path.
    [0010] The annular sealing element 15 further comprises, according to a further and important aspect of the invention, another annular lip 28 which extends radially and axially cantilevered from the journal portion 12 of the flange 11 and in the direction of the flange portion 17 of the flange 10, so as to be interposed between the journal portion 12 and the radially outer sleeve portion 19 of the flange 10, close to the outer side thereof in the radial direction and obliquely relative to the flange portion 17 of the first rigid flange 10. The annular lip 28 is elastically deformable and is adapted to selectively take first and second configurations, different from each other; in the first configuration, not deformed and visible in FIG. 2, the annular lip 28 is in its normal operating state, in which the lip 28 is not subjected to external stresses and is therefore not elastically deformed ; in this first configuration, during normal use in operation, the lip 28 does not contact with a radially outer lateral surface 29 (FIG. 2) of the sleeve-shaped part 19, defining on the contrary, with the latter, a radial distance sufficiently small to form a first labyrinth seal 30, radially directed; in the second configuration, deformed and not shown for the sake of simplicity, the lip 28, in response to an external force applied to the sealing device 5, is in contact with the radially outer side surface 29 thus forming a seal by sliding contact with the latter. For this purpose, the annular lip 28 extends cantilevered from an axially intermediate position of the trunnion portion 12 of the second rigid flange 11, so that, radially outwardly of the Annular lip 28, a first annular cavity 32 is delimited between the lip 28 and the trunnion portion 12, the first cavity which widens radially in the axial direction towards the flange portion 17 of the first rigid flange 10. In FIG. non-limiting embodiment shown, the lip 28 extends cantilevered from an axially intermediate position of a first portion 31 of the elastomeric sealing member 15 which radially covers the inside at least a portion of the trunnion portion 12 of the flange 11 so that, radially outwardly of the annular lip 28, the first cavity 32 is delimited between the lip 28 and the portion 31 of the annular element. In the non-limiting embodiment shown in FIGS. 1 and 2, between the part 31 of the elastomer sealing element 15 which, in the nonlimiting example illustrated, covers completely radially with the The entire trunnion portion 12, 15 and the sleeve portion 19 are also provided at a sufficiently small radial distance to define a second axially developing radial labyrinth seal 33. The labyrinth seal 33 is axially extended by at least one stretch of the axial extension of the sleeve portion 19.
    [0011] In the preferred embodiment illustrated, the sleeve portion 19 comprises (Figure 2), from the flange portion 17, a first annular stretch 34, a second annular stretch 35 and a third annular stretch 36. The first stretch The annulus 34 is rectilinear and is disposed parallel to the annular lip 25, the second annular stretch 35 is inclined away from the axis of symmetry A on the opposite side to the first stretch 34, and the third annular stretch 36 is, proceeding in the axial direction, on the one hand radially bulged on the outside, then becomes thin in a radial direction towards the free end edge 23 of the sleeve-shaped portion 19. In the illustrated example, the labyrinth seal 33 is axially extended by at least a portion of the axial extension of the third stretch 36. According to one aspect of the invention, the first and second annular channels 22 and 26 are designed to intercept and collect external contaminants that can overcome the first labyrinth seal 30 as well as any additional labyrinth seal 33; further, between the annular channel 22 formed by the lip 20 and the sleeve portion 19, a first annular chamber 37 is delimited to collect said contaminants (Figure 2), disposed downstream of the labyrinth seal 33, and a second chamber The labyrinth seal 33 is delimited between the lip 20 and the lip 25. Accordingly, the labyrinth seal 33 is disposed upstream of the chambers 37 and 38 taking into account the direction of arrival of the contaminants. The lip 28 is, according to one aspect of the invention, adapted to flex radially outward (also due to the presence of the annular cavity 32) to allow easy and rapid flow of contaminants by gravity from the collecting chambers 37 38. Preferably, the annular flange 10 is disposed axially inside the annular flange 11, so that a second end 39 of the trunnion portion 12, 10 opposite the end 14 and in this case completely covered by the part 31 of the elastomeric sealing element 15 defines axially a second annular recess 40 outside the flange 10, opposite it and on the side opposite the flange portion 13. According to another aspect of the In the invention, the lip 20 and the lip 25 each have a respective free end, the end 27 has already been described for the lip 20 and an end 41 of the lip 25, which are radially bent outwardly and towards the outside. sleeve portion 19; a first radial annular space 42 and a second radial annular space 43 are delimited between the end 27 and the sleeve portion 19 and between the end 41 and the lip 20 whose dimensions are substantially similar, respectively. The first annular sealing element 15 further comprises a fifth annular lip 44 which extends inwardly and radially cantilevered from a radially inner edge 45 of the flange portion 13 and cooperates with the sleeve portion 16 of the flange 10 to define therewith a third labyrinth seal 46. In this way, the contact sealing lip 21 is very protected from external contaminants; in case of a particularly abundant flow of contaminants, the lip 28 curves inwards and closes, preventing the entry of contaminants, then opens successively and allows the gravity removal of said contaminants that could have entered previously and be collected in the channels 22 and 26 and in the chambers 37 and 38. In addition, the sealing lip 21 and the entire sealing device 5 are protected against any axial displacement between the flanges 10, 11 relative to the intended position, both because of machining tolerances and deformations in use, for example during "turning". Referring now to Figures 3 and 4, they show a sealing device made in accordance with the invention. Details similar or identical to those already described are indicated, for the sake of simplicity, with the same reference numbers. The sealing device 105 is substantially identical to the sealing device 5 already described, except that it has neither the sealing element 24 with the sealing lip 25 nor the lips 21 and 44. The sealing element 15 has instead, in combination with what has been described, an annular lip 131 elastically deformable, which replaces the lip 21. The lip 131 is disposed radially inside the annular lip 20 and extends axially beyond the lip 20 to cooperate in contact with the flange portion 17 of the rotatable flange 10, with which it defines, according to this embodiment of the invention, an axial sliding seal. The annular lip 131, according to the preferred embodiment but not limiting, has a radial cross-section open V shape and comprises a base portion 132 in the immediate vicinity of the flange portion 13 of the flange 11 and an end portion 133 disposed inclined with respect to the axis A so as to move away from the shaped portion of the sleeve 16 of the flange 10 at the approach of the flange portion 17 of the flange 10 itself. The lip 131 has at its end portion 133, a free end 134 which cooperates by contact with the flange portion 17; Similarly, the lip 20 has a free end 27, which is folded radially outwardly and towards the sleeve portion 19 so as to be inclined with respect to the axis A, with an inclination substantially similar to that of the portion 133 of the lip 131. The free ends 134 and 27 delimit between them a first radial annular space 136 having dimensions substantially similar to those of the radial annular space 42 delimited between the free end 27 and the part of FIG. sleeve form 19 of the flange 10, which optimizes the spaces and facilitate in use the emptying of the collection chamber 37. The described form of the portion 19 of the flange 10 is an additional barrier against the entry of contaminants in the chamber 37 and in the collection channel 222 and, defining towards the chamber 37 a kind of funnel-shaped conduit, that is to say widening towards the chamber 37, it favors the emptying by gravity. The annular sealing element 15 preferably also comprises (FIG. 4) an additional annular lip 138, which extends radially inwardly from the lip 131, from a point between the base portion 132 and the end portion 133 of the annular lip 131, and which cooperates radially outwardly by the flange portion 16 of the flange 10 to define therewith a second labyrinth seal 139. In FIG. in case of strong external pressure or during a "turn" made by the vehicle equipped with the hub bearing 1, the lip 28 becomes slippery, which, although increasing the friction although temporarily and slightly (thanks to reduced interference 5 which are created), however considerably increases the sealing and the protective action of the lip 131. These advantages are finally also achieved thanks to the fact that the sliding joint made by the lip 131 is a axial seal and also that the free end 134 of the lip 131 is located radially outwardly of a second annular collection chamber 144 for external contaminants which is delimited between the lips 131 and 20 and in which the channel 22 flows from the free end 27, which serves as a weir or drain, a possible excess of contaminants in the chamber 37 does not affect the end of the free seal 134 of the lip 131. With reference to FIG. 5, reference numeral 205 indicates another preferred embodiment of a sealing device according to the invention. Details similar or identical to those already described are identified, for the sake of simplicity, by the same reference numbers. The sealing device 205 is similar to the sealing device 5, of which it differs only in the shape of the sleeve portion 19, which is simplified and is merely cylindrical, and by the shape of the first elastically deformable annular lip. , indicated by 220, which has a shape in a circular arc and which defines the first annular channel 22 whose concavity is turned towards the second sleeve portion 19 of the first rigid flange 10; the first annular lip 220 has a curvature so as to delimit with the second sleeve portion 19 and with the first elastically deformable annular lip 28, a collecting chamber 237 for possible contaminants which would cross the first labyrinth seal 30. The chamber collector 237 is C-shaped facing the first rigid flange 10 and has a depth, taken in a radial direction, substantially equal to or greater than its width taken in the axial direction.
    [0012] The first elastically deformable annular lip 220 extends axially on the same side of the annular lip 28 and axially beyond it to form, with the flange portion 17 of the first rigid flange 10 either a sliding seal or a labyrinth seal. . In addition, the second annular lip 21 is replaced by an elastically deformable lip 221, which slidably engages with the first sleeve portion 16 of the first rigid flange 10 by means of a free end 234 thereof. , which end has in radial section a thickness D greater than the thickness d of the base portion 235 of the annular lip 221 facing the flange portion 13 of the second rigid flange 11. This shape of the lip 221 gives it a greater flexibility while allowing a wider contact area to be achieved between the lip 221 and the side surface of the sleeve portion 16, which improves the sealing action. All the objects of the invention are therefore achieved.
    权利要求:
    Claims (12)
    [0001]
    REVENDICATIONS1. Sealing device (5; 105; 205) for rolling bearings, in particular for a hub bearing unit (1) of vehicles, adapted to be inserted between a first (3) rotating ring in use , and a second (2) ring, fixed in use, to protect external contaminants an annular space (7) delimited between the first and second rings, comprising a first annular rigid flange (10) adapted to be integrally carried by the first ring and a second annular rigid flange (11) adapted to be carried by the second ring; wherein: i) - the second annular rigid flange (11) is L-shaped in radial section and comprises a radially outer trunnion-shaped portion (12) and a flange portion (13) which extends cantilevered radially inwardly from a first end (14) of the journal facing the opposite side of the first annular flange; the second annular rigid flange carrying in one piece and radially inside a first annular sealing element (15) made of elastomeric material; and wherein: ii) - the first rigid flange (10) is C-shaped in radial section, the concavity of which faces the second annular rigid flange (11) and comprises a first radially inner sleeve portion (16) defining a trunnion portion of the first rigid flange, a flange portion (17) which extends cantilevered radially outwardly from a first end (18) of the first sleeve portion facing the opposite side to the second an annular rigid flange, and a second sleeve portion (19) which extends axially cantilevered from the flange portion of the first flange on the same side of the first sleeve portion of the first rigid flange; the first and second sleeve portions of the first rigid flange (10) facing each other radially relative to each other and being coaxial with respect to a common axis of symmetry (A) of the first and second rigid flanges; iii) - the first annular sealing element (15) comprises a first elastically deformable annular lip (20; 220) which extends axially cantilevered from the flange portion (13) of the second rigid flange and steering the first rigid flange so as to be radially interposed between the first (16) and the second (19) sleeve portion of the first rigid flange; and a second annular lip (21; 131; 221), elastically deformable, which is arranged radially inside the first annular lip (20; 220) and which extends axially and radially to cooperate by contact with the first rigid flange with which it defines a sliding joint; iv) - the first annular lip (20; 220) is shaped to delimit radially outwardly a first annular channel (22) facing a free end edge (23) of the second sleeve portion of the first rigid flange, opposite the flange portion of the first rigid flange; characterized in that: v) - the first annular sealing element (15) comprises a third annular lip (28), elastically deformable, which extends radially and axially cantilevered from the trunnion portion (12) of the second rigid flange and in the direction of the flange portion (17) of the first rigid flange, so as to be interposed between the trunnion portion (12) of the second rigid flange and the second sleeve portion (19) of the first rigid flange, obliquely to the flange portion (17) of the first rigid flange; vi) - the third annular lip (28) being adapted to selectively: a first undistorted configuration in which it does not make contact with a radially outer side surface (29) of the second sleeve portion (19) the first rigid flange, defining with it a radial space sufficiently small to form a first radially directed labyrinth seal (30); and a second, deformed configuration, in which, in response to the application of a force external to the sealing device, it comes into contact with the radially outer side surface (29) of the second sleeve portion of the first rigid flange , Forming a sliding seal thereon.
    [0002]
    2. Sealing device according to claim 1, characterized in that the third annular lip (28) extends cantilever from an axially intermediate position of the trunnion portion (12) of the second rigid flange ( 11) so that radially outside the third annular lip (28) a first annular cavity (32) is delimited between the annular lip (28) and the trunnion portion (12). cavity widens radially in the axial direction towards the flange portion (17) of the first rigid flange.
    [0003]
    3. Sealing device according to claim 1 or 2, characterized in that the third annular lip (28) extends cantilevered from a first portion (31) of the first elastomeric sealing element. (15) radially inwardly covering at least a portion of the journal (12) of the second rigid flange, the first annular cavity (32) being delimited between the third annular lip (28) and the first portion (31) of the first element annular seal (15). 10
    [0004]
    4. Sealing device according to claim 2 or 3, characterized in that between the first portion (31) of the first elastomeric sealing element (15) covering radially inward at least a portion of the trunnion of the second flange rigid and the second sleeve portion (19) of the first rigid flange there is a radial clearance 15 sufficiently small to define a second radial labyrinth seal (33) with axial development; the second labyrinth seal extending axially by at least a portion of the axial extension of the second sleeve portion (19) of the first rigid flange. 20
    [0005]
    5. Sealing device according to any one of the preceding claims, characterized in that the first rigid flange (10) carries integrally on the flange portion (17) thereof and on the side facing the second rigid flange (11), a second annular sealing element (24) made of elastomeric material and comprising a fourth annular lip (25) extending axially in a false door from the first rigid flange (10); ) and to the second rigid flange (11) and which is radially interposed between the first (20) and the second (21) annular lip; the fourth annular lip (25) being shaped to define radially outwardly a second annular channel (26) facing a free end (27) of the first annular lip (20). 30
    [0006]
    6. Sealing device according to any one of the preceding claims, characterized in that the third annular elastically deformable lip (28) is adapted to bend radially outwardly to allow the flow by gravity of any contaminants that would cross the first labyrinth seal from at least one collection chamber (37) for contaminants located between the first annular channel (22) and the second sleeve portion (19) of the first rigid flange .
    [0007]
    7. Sealing device according to claim 6, characterized in that the second sleeve portion (19) of the first rigid flange comprises, starting from the flange portion (17) of the first rigid flange, a first, a second and a third annular stretch (34, 35, 36); the first annular stretch (34) being rectilinear, the second annular stretch (35) being inclined away from the axis of symmetry (A) on the side opposite the first stretch and the third annular stretch (36) being in the axial direction, firstly bulged radially outward then becoming thinner in the radial direction towards a free end edge (23) of the second sleeve portion; the first, second and third annular stretches defining a second labyrinth seal (33) axially extending through at least a portion of the axial extension of the third stretch (36) towards the journal portion (12) of the second rigid flange (36); ) of the second sleeve portion of the first flange and which is disposed upstream of said at least one collection chamber (37) for contaminants.
    [0008]
    8. Sealing device according to any one of the preceding claims, characterized in that the first annular flange (10) is arranged axially inside the second annular flange (11), so that a second end ( 39) of the trunnion portion (12) of the second rigid flange, opposite the first end of the trunnion portion, defines axially outwardly of the first rigid flange, opposite the latter and on the opposite side of the flange portion of the second rigid flange, a second annular recess (40).
    [0009]
    9. Sealing device according to any one of the preceding claims, characterized in that the second annular elastically deformable lip (131) extends axially beyond the first annular lip (20) to cooperate in contact with the part. flange (17) of the first rigid flange with which it defines an axial sliding joint; the second annular lip (131) having an open V shape in radial section, and comprising a base portion (132) immediately adjacent to the flange portion of the second rigid flange and an end portion (133) oblique to the axis of symmetry (A) so as to move away from the first sleeve portion (16) of the first rigid flange as it approaches the flange portion (17) of the first rigid flange. 3032765 2014P00632EN 15
    [0010]
    10. Sealing device according to any one of claims 1 to 6, characterized in that the first elastically deformable annular lip (220) has a circular arc shape and defines the first annular channel (22) whose concavity is turned towards the second sleeve portion (19) of the first rigid flange (10); the first annular lip (220) having a curvature so as to define, with the second sleeve portion (19) and with the first annular elastically deformable lip (28), a collection chamber (237) for possible contaminants that would cross the first labyrinth seal (30), said collection chamber (237) having the shape of a C facing the first rigid flange (10) and has a depth in the radial direction substantially equal to or greater than its width taken in the axial direction.
    [0011]
    11. Sealing device according to claim 10, characterized in that the first elastically deformable annular lip (220) extends axially on the same side of the third annular lip (28) and axially beyond it. forming with the flange portion (17) of the first rigid flange (10) either a slip seal or a labyrinth seal; the second annular elastically deformable lip (221) slidably cooperating with the first sleeve portion (16) of the first rigid flange (10) by means of a free end (234) thereof, which end has, radial section, a thickness (D) greater than the thickness (d) of a base portion (235) of the second annular lip (221) facing the flange portion (13) of the second rigid flange (11). 25
    [0012]
    12. Hub bearing unit (1) for vehicles, comprising an outer ring (2), fixed in use, an inner ring (3), rotating in use around a common axis of relative rotation (A) inner and outer rings, a plurality of rolling bodies (4) interposed between the inner and outer rings and housed in a radially annular space (7) delimited between the inner and outer rings, and at least one device sealing ring (5; 105; 205) arranged to close the annular space receiving the rolling bodies and implemented according to any one of the preceding claims.
    类似技术:
    公开号 | 公开日 | 专利标题
    FR3032765A1|2016-08-19|SEALING DEVICE FOR BEARING BEARINGS, ESPECIALLY FOR A VEHICLE HUB BEARING, AND ASSOCIATED HUB BEARING.
    EP0631072B1|1997-01-15|Seal for rotating shaft
    FR2727175A1|1996-05-24|BEARING EQUIPPED WITH A SEALING DEVICE FOR FLUID PASSAGE
    CA2558028C|2013-08-13|Locking device for an axial retention ringon a blade, associated disk rotor and retention ring and rotor and aircraft engine containing same
    FR2576383A1|1986-07-25|SEAL JOINT TO BE MOUNTED ON THE CONICAL TRUNK OF A ROLLER CYLINDER OF ROLLING MILL
    FR2501323A1|1982-09-10|SEALING DEVICE FOR BEARING GROOVE PLACED BETWEEN BEARING AND MOUNTING OF A UNIVERSAL JOINT
    EP1277978A1|2003-01-22|Conical roller bearing with a sealing device
    EP3256698B1|2019-04-03|Retainer nut for axial blockage of a bearing in a turbomachine
    FR2504231A3|1982-10-22|SEAL COMPRISING TWO LEVERS, ONE OF WHICH IS AXIAL AND THE OTHER RADIAL, AND A LABYRINTH
    FR2984978A1|2013-06-28|Method for manufacturing bearing that is utilized in rotary device i.e. clutch thrust, involves allowing reliefs to protrude such that reliefs are inserted into peripheral groove of ring on which gasket is fixed in undeformed state
    FR2519103A1|1983-07-01|SEALING DEVICE FOR BEARING WITH TAPERED ROLLERS
    FR2778217A1|1999-11-05|RELEASE CLUTCH WITH VIBRATION DAMPING
    FR2482878A1|1981-11-27|
    FR3006397A1|2014-12-05|SEGMENTED CAGE FOR UNIT OF BEARING.
    FR2927395A3|2009-08-14|Dynamic sealing joint i.e. lip seal, protecting ring for power train of motor vehicle, has deflection piece i.e. plate, whose rear face includes peripheral edge that is bordered by vented interior face of deflection piece
    FR3039865A1|2017-02-10|BEARING ASSEMBLY, VEHICLE AXLE COMPRISING SUCH A BEARING ASSEMBLY AND METHOD FOR MOUNTING A BEARING ASSEMBLY
    FR3075103B1|2019-11-22|SUSPENSION STOP DEVICE AND FORCE LEG EQUIPPED WITH SUCH A DEVICE
    FR3050773A1|2017-11-03|DEGRASABLE HYDRAULIC MACHINE AND VEHICLE EQUIPPED WITH SUCH A MACHINE
    FR2978699A1|2013-02-08|ROTATING SEALING DEVICE AND SEALING RING FOR SUCH A DEVICE
    FR3079586A1|2019-10-04|PULLEY DEVICE FOR TILT ROLLER OR ROLLER
    EP2299129B1|2012-10-31|Antifriction bearing with improved seal
    FR2858375A1|2005-02-04|Wheel hub and outer ring fixing device for motor vehicle, has elastic ring inserted in annular groove of outer ring to stop relative axial movement between wheel hub and outer ring in telescopic relation
    FR3079582A1|2019-10-04|PULLEY DEVICE FOR TILT ROLLER OR ROLLER
    FR3019867A1|2015-10-16|ASSEMBLY COMPRISING A BEARING UNIT AND A FUNCTIONAL PART SPECIALLY INTENDED TO BE MOUNTED ADJACENTLY TO A MOBILE MEMBER.
    FR2526849A1|1983-11-18|Drill bit for boring oil wells, mines, etc. - having rolling cutters with sealed lining comprising rigid ring and elastomeric sealing ring
    同族专利:
    公开号 | 公开日
    ITUB20160770A1|2017-08-16|
    US20160236509A1|2016-08-18|
    US9956820B2|2018-05-01|
    CN105889331A|2016-08-24|
    CN105889331B|2020-06-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR3064705A1|2017-03-31|2018-10-05|Ntn-Snr Roulements|BEARING BEARING|IT8553275V0|1985-04-19|1985-04-19|Riv Officine Di Villar Perosa|SEALING COMPLEX IN TWO PERFECTED TYPE ELEMENTS|
    IT1240464B|1990-05-24|1993-12-17|Skf Ind Spa|WATERPROOF SEALING DEVICE FOR BEARINGS OF VEHICLE WHEEL HUBS.|
    DE4123688A1|1991-07-17|1993-01-21|Goetze Ag|SHAFT SEAL|
    US5209499A|1992-05-26|1993-05-11|Mather Seal Company|Unitized polytetrafluoroethylene radial lip seal|
    US5201533A|1992-07-20|1993-04-13|General Motors Corporation|Unitized seal with extra sealing contact and method of making|
    EP0785369B1|1996-01-22|2004-03-24|Nsk Ltd|Rolling bearing unit with tone wheel|
    DE19614649A1|1996-04-13|1997-10-16|Fag Automobiltechnik Ag|Vehicle wheel roller bearing assembly|
    ITTO980210A1|1998-03-12|1999-09-12|Skf Ind Spa|SEALING DEVICE FOR A ROLLING BEARING|
    KR20010068304A|2000-01-04|2001-07-23|일진산업주식회사|apparatus for sealing for bearing|
    IT1318196B1|2000-07-19|2003-07-28|Rft Spa|SEALING COMPLEX FOR TWO MUTUAL ROTATING BODIES, IN PARTICULAR THE TWO RINGS OF A ROLLING BEARING|
    ITTO20020221A1|2002-03-14|2003-09-15|Skf Ind Spa|SEALING DEVICE FOR ROLLING BEARINGS.|
    JP4300412B2|2003-07-22|2009-07-22|Nok株式会社|Sealing device with encoder|
    CN2854231Y|2005-09-27|2007-01-03|万向钱潮股份有限公司|Low torque combined seal ring|
    EP1795787A1|2005-12-09|2007-06-13|Carl Freudenberg KG|Sealing arrangement|
    US8016293B2|2006-01-03|2011-09-13|Freudenberg-Nok General Partnership|Contaminant exclusion seal|
    DE102008017409B4|2008-04-05|2016-02-11|Schaeffler Technologies AG & Co. KG|Sealing arrangement and wheel bearing with the seal assembly|
    JP6036215B2|2011-11-29|2016-11-30|日本精工株式会社|Rolling bearing unit with combination seal ring|
    ITTO20130548A1|2013-07-01|2015-01-02|Skf Ab|LOW FRICTION SEALING COMPLEX FOR A WHEEL HUB UNIT AND WHEEL HUB UNIT EQUIPPED WITH THIS SEALING COMPLEX|US9810372B2|2014-12-31|2017-11-07|Lincoln Industrial Coporation|Bearing system with lubricated exclusion seal|
    US9841141B2|2014-12-31|2017-12-12|Lincoln Industrial Corporation|Lubrication method for housing having an exclusion seal|
    JP6921491B2|2016-09-20|2021-08-18|Nok株式会社|Sealing device|
    JP6857479B2|2016-10-07|2021-04-14|Nok株式会社|Sealing device|
    CN106481594A|2016-12-14|2017-03-08|宜兴市灵谷塑料设备有限公司|Water pump wear-resistant seal circle|
    TWI603860B|2017-02-24|2017-11-01|Wheel seal|
    KR101948759B1|2017-06-30|2019-02-18|주식회사 일진글로벌|Sealing device for wheel bearing|
    IT201700076771A1|2017-07-07|2019-01-07|Skf Ab|HOLDING DEVICE FOR A ROLLING BEARING|
    KR101965601B1|2017-07-07|2019-04-05|주식회사 일진글로벌|Sealing device for wheel bearing|
    JP2019019870A|2017-07-14|2019-02-07|株式会社ジェイテクト|Wheel bearing device and sealing device|
    CN109307077A|2017-07-27|2019-02-05|舍弗勒技术股份两合公司|Seal assembly|
    CN107420546A|2017-08-11|2017-12-01|安徽农业大学|Paddy field tractor supporting wheel bearing Oil sealing assembly and its second order seam sealing structure|
    US10527173B2|2017-08-15|2020-01-07|Aktiebolaget Skf|Resilient shaft seal|
    DE102018103109A1|2018-02-13|2019-08-14|Schaeffler Technologies AG & Co. KG|Wheel bearing assembly with a rotation axis|
    US10955006B2|2018-05-30|2021-03-23|Freudenberg-Nok General Partnership|Radial shaft seal with dynamic exclusion of contamination|
    IT201900005776A1|2019-04-16|2020-10-16|Skf Ab|LABYRINTH SEALING DEVICE FOR IMPROVED DRAINAGE|
    IT201900013908A1|2019-08-05|2021-02-05|Skf Ab|SEALING DEVICE|
    法律状态:
    2017-02-24| PLFP| Fee payment|Year of fee payment: 2 |
    2018-02-27| PLFP| Fee payment|Year of fee payment: 3 |
    2019-02-27| PLFP| Fee payment|Year of fee payment: 4 |
    2020-08-07| PLSC| Search report ready|Effective date: 20200807 |
    2020-11-13| ST| Notification of lapse|Effective date: 20201006 |
    优先权:
    申请号 | 申请日 | 专利标题
    ITUB20150360|2015-02-17|
    ITUB20150128|2015-02-17|
    [返回顶部]