• 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:
    The invention relates to a bearing assembly (10) comprising a bearing (1) provided with a first ring (2) provided with a bore (22), two front edges (23, 24) and a cylindrical surface outer ring (21), and a second ring (3) provided with a bore (32), two front edges (33, 34) and an outer cylindrical surface (31). Said first and second rings (2, 3) can be in relative rotation around a central axis (X1). Said assembly (10) is intended to be mounted in a housing. The assembly (10) comprises at least one first annular flange (11, 13) integral with the first ring (2) and covering at least partly a front edge (23, 24) of said first ring (2), and at least one second annular flange (12, 14) integral with the second ring (3) and covering at least partly a front edge (33, 34) of said second ring (3). Free ends (11b, 13b, 12a, 14a) of the first and second annular flanges (11, 12, 13, 14) are in sliding contact. The difference between the dimensions between the housing and the bearing (1) is compensated by said flanges (11, 12, 13, 14).
    公开号:FR3039600A1
    申请号:FR1557243
    申请日:2015-07-29
    公开日:2017-02-03
    发明作者:Frank Berens
    申请人:SKF AB;
    IPC主号:
    专利说明:

    Bearing assembly
    Description
    The present invention relates to an assembly comprising a bearing.
    A bearing generally comprises an inner ring and an outer ring, said rings being relatively rotatable relative to one another. The rings can define between them a rolling chamber in which are housed rolling elements, such as balls, needles, rollers.
    A bearing is provided to be mounted in a housing of a mechanical system, between a fixed mechanical element and a movable mechanical element rotation so as to support their relative rotation.
    The definition of a bearing, more precisely the type of bearing, the number of rows of rolling elements, the type of rolling elements, the sizing of the rings and rolling elements, depends on the application of the mechanical system. The conditions of torque, speed of rotation, load, environment or the space available in the housing affect the bearing and are therefore constraints for its definition.
    However, the manufacturer of the mechanical system and / or bearing may change their ranges and no longer adapt.
    The characteristics of a bearing may have been improved, but it still has the same housing, whereas a small dwelling could be suitable. It is these problems that the invention particularly intends to meet by proposing a bearing assembly simple to produce and mount, modular in its use and its adaptation to several applications. To this end, the invention relates to a bearing assembly comprising a bearing provided with a first ring provided with a bore, two front edges and an outer cylindrical surface, and a second ring provided with a bore. , two front edges and an outer cylindrical surface. Said first and second rings may be in relative rotation about a central axis. Said assembly is intended to be mounted in a housing.
    According to the invention, the assembly comprises at least a first integral annular flange of the first ring and covering at least partly a front edge of said first ring, and at least one second annular flange integral with the second ring and covering at at least partly a front edge of said second ring, the free ends of the first and second annular flanges being in sliding contact, so that a difference in size between the housing and the bearing is compensated by said flanges.
    Thanks to the invention, the difference between the dimensions between the bearing and the housing in which said bearing is intended to be mounted is compensated by the thickness of the flanges mounted integrally on the two rings. More specifically, the flanges serve as bearing surfaces with the housing instead of the front edges of the bearing rings.
    A standard roll of reduced size can be adapted to other applications without having to modify the overall mechanical system. This allows a reduction in the time and cost of designing the mechanical system. In addition, if the dimensions of the housing are outside a predefined range, it is possible to adapt a standard bearing of said range. The invention also makes it possible to adapt a roll of reduced dimensions instead of a larger roll bearing but incorporating additional features through the flanges.
    Another advantage is that no change is made to the standard bearing. The flanges are mounted on the rings a posteriori of the design and manufacture of the bearing. The flanges are mounted outside the bearing.
    Furthermore, the flanges of the two rings being in sliding contact with each other, a seal of the bearing can be ensured. It may therefore not be necessary to provide sealing means inside the bearing, such as lip seals mounted in one ring is in sliding contact or forming a labyrinth with the other ring. Conversely, the bearing may be equipped with such sealing means in addition to the flanges so as to increase the sealing of the bearing in particularly critical environments (pollution, water, dust, particles).
    According to advantageous but non-mandatory aspects of the invention, such a rolling assembly may incorporate one or more of the following features taken in any technically permissible combination:
    A rolling chamber is defined between the first and second rings of the bearing in which is housed at least one row of rolling elements.
    The rolling elements are regularly circumferentially spaced and held by a cage.
    The rolling elements are balls.
    The first and second rings of the bearing are massive.
    The rings and the rolling elements define a pitch diameter of the bearing which is parallel to the relative rotational axis of the first and second rings of the bearing. The rings and the rolling elements define a pitch diameter of the bearing which is perpendicular to the relative rotational axis of the first and second rings of the bearing. The two flanges are in sliding contact with the pitch diameter of the bearing. - The flanges in sliding contact partially overlap each other in a contact portion. - At least one flange is fixedly secured to a ring of the bearing by fixing means, for example by welding, gluing, molding, by cooperation of mechanical means such parts of the flange and the ring in cooperation forms . - At least one flange comprises at least one layer of material made of vibration damping material. - At least one flange comprises at least one layer of electrically insulating material so as to prevent the passage of electric current through the bearing. - At least one flange is made of plastic or synthetic material. - At least one flange comprises a first portion of rigid material covering at least partly a front edge of a ring, and a second portion of flexible material being in sliding contact against another flange. - The assembly comprises at least two flanges integral with the same ring of the bearing and each covering at least partly a front edge of said ring. - Each of the two flanges of the same ring extends by a portion covering at least partly an annular cylindrical surface of said ring defining the outer cylindrical surface of the bearing or the bore of the bearing.
    The portions extending from the two flanges of the same ring are integral with each other.
    The portions extending from the two flanges of the same ring are annular so as to form an envelope surrounding the ring both radially and axially. - Each of the two rings comprises two flanges on each of their front edges, each flange being in sliding contact with an associated flange of the other ring so as to ensure complete sealing of the bearing. The invention will be better understood and other advantages thereof will appear more clearly in the light of the following description of embodiments having a rolling assembly in accordance with its principle, given solely by way of example and facts. with reference to the appended non-limiting drawings, in which:
    Figure 1 shows a sectional view of a bearing assembly according to a first embodiment;
    Figure 2 shows a front view of the rolling assembly of the first embodiment;
    Figure 3 shows a sectional view of a bearing assembly according to a second embodiment; - Figure 4 shows a side view of the bearing assembly of the second embodiment;
    Figure 5 shows a sectional view of a bearing assembly according to a third embodiment;
    Figure 6 shows a sectional view of a bearing assembly according to a fourth embodiment; and Fig. 7 is a sectional view of a rolling assembly according to a fifth embodiment.
    An assembly 10 comprises a bearing 1 of central axis X1 of rotation provided with an outer ring 2, an inner ring 3, a row of rolling elements 4, here balls, arranged in parallel planes respectively held by a cage 5 Such an assembly is intended to be mounted in a housing provided in a mechanical system (not shown).
    The rings 2, 3 are coaxial with the central axis X1 in normal operating mode.
    The outer ring 2 comprises an outer cylindrical surface 21, a bore 22 in which is formed a raceway for the rolling elements 4.
    The inner ring 3 comprises an outer cylindrical surface 31 in which is formed a raceway for the rolling elements 4.
    The inner ring 3 can be rotatable and the outer ring 2 non-rotating or vice versa, or the two rings can be rotated relative to each other around the central axis X1.
    The outer ring 2 is delimited axially by two radial rims 23 and 24 front and the inner ring 3 is delimited axially by two radial rims 33 and 34 front so that said rims are respectively aligned axially so as to define an axial dimension of the bearing 1.
    The inner ring 3 also comprises a through cylindrical bore 32. For example, an axis or support may be inserted into said bore 32. The bore 32 of the inner ring 3 and the outer cylindrical surface 21 of the outer ring 2 define a radial dimension of the bearing.
    The cylindrical outer surface 31 of the inner ring 3, the bore 22 of the inner ring 2 and the radial front edges 23, 33 and 24, 34 define a rolling chamber 8 in which the rolling elements 4 are in motion between the rings. 2, 3. The rolling chamber 8 can be filled with lubricant, for example grease or oil, to reduce the friction between the contact surfaces of the moving elements, here the rolling elements 4, the raceway provided with the cylindrical outer surface 31 and the race provided with the bore 22 of the inner ring 2.
    The rings 2, 3 and the rolling elements 4 define a pitch diameter P1 of the bearing 1 as being an axis of rotation of the rolling elements, said rings being in relative rotation parallel to this axis situated between said rings.
    According to the rotation modes illustrated in FIGS. 1 to 7, the pitch diameter P1 is parallel to the central axis X1 of rotation. According to an alternative not shown, the pitch diameter P1 may be perpendicular to the central axis.
    According to the invention, the assembly 10 also comprises annular radial flanges 11, 12, 13 and 14 integrally mounted on the rings 2, 3 of the bearing 1.
    Each annular radial flange 11, 12, 13 and 14 comprises an outer circumferential flange 11a, 12a, 13a and 14a respectively and an inner circumferential flange 11b, 12b, 13b and 14b respectively.
    The annular flanges 11, 12, 13 and 14 are coaxial with the central axis X1 in normal operating mode.
    The flanges 11 and 13 rest on the radial front edges 23 and 24 respectively of the outer ring 2. The flanges 12 and 14 rest on the radial front edges 33 and 34 respectively of the inner ring 3.
    The flanges 11, 12, 13 and 14 are integral with the outer rings 2 and inner 3 by fixing means (not shown), for example by welding, gluing, molding, by cooperation of mechanical means such as parts of the flange and of the ring in cooperation of forms or any other appropriate means.
    The outer circumferential flanges 11a, 13a of the flanges 11, 13 respectively mounted on the outer ring 2 of the bearing 1 do not protrude axially outwardly from the outer cylindrical surface 21 of said outer ring 2.
    The inner circumferential flanges 12b, 14b of the flanges 12, 1b respectively mounted on the inner ring 3 of the bearing 1 do not protrude axially inwardly from the bore 32 of said inner ring 3.
    The outer circumferential flanges 12a, 14a of the flanges 12, 14 respectively mounted on the inner ring 3 of the bearing 1 come into sliding contact with the inner circumferential flanges 11b, 13b of the flanges 11, 13 respectively mounted on the outer ring 2 of the bearing 1.
    During the relative rotation of the inner ring 3 and outer 2 of the bearing 1, the flanges 12a and 11b, 14a and 13b remain in contact and slide on each other.
    The difference between the axial dimensions between the bearing 1 and the housing in which the assembly 10 is intended to be mounted is compensated by the flanges 11, 12, 13, 14.
    Alternatively not shown, only the flanges 11 and 12, or 13 and 14, on the same side of the bearing 1 can equip the assembly 10.
    According to the embodiment shown in Figures 1 and 2, each flange 11, 12, 13, 14 is made of a single material, for example plastic or synthetic.
    A second embodiment illustrated in FIGS. 3 and 4, in which the identical elements have the same references, differs from the first embodiment in that the flanges 11 and 13 mounted on the outer ring 2 are both extended by axial portions. 11c and 13c respectively.
    The axial portions 11c and 13c are annular and each cover a portion of the outer cylindrical surface 21 of the outer ring 2 so as to completely cover said surface 21. According to an alternative embodiment not shown, the axial portions 11c and 13c may not be annular, the flanges 11 and 13 then being extended by a plurality of axial portions 11c and 13c respectively.
    According to this second embodiment, the axial portions 11c and 13c are integrally connected to each other at their respective axial ends 11d and 13d. The fastening means (not shown) ensuring their connection may consist of welding, bonding, molding, mechanical cooperation of parts of the axial portions cooperating forms or any other suitable means.
    Thanks to this second embodiment, the flanges 11 and 13 are both integral with the outer ring 2 by cooperation of their respective axial portions 11c and 13c. It is then not necessary to fix the flanges 11 and 13 directly on the bearing. The assembly consisting of flanges 11 and 13 with their respective axial portions 11c and 13c defines a U-shape in which the outer ring 2 is integrated. An interference may be provided between the radial flanges 11 and 13 with the borders 23 and 24 of the outer ring 2 so as to provide anti-rotation.
    With this embodiment, a difference between the radial dimensions between the bearing 1 and the housing in which the assembly 10 is intended to be mounted is compensated by the axial portions 11c and 13c.
    According to the second embodiment illustrated in FIG. 3, the flanges 12 and 14 of the inner ring 3 are similar to those of the first embodiment illustrated in FIG.
    Alternatively and according to a third embodiment illustrated in Figure 5, the flanges 12 and 14 of the inner ring 3 are also extended by axial portions 12c and 14c respectively.
    The axial portions 12c and 14c are annular and each cover a portion of the bore 32 of the inner ring 3 so as to completely cover said surface 32. According to an alternative embodiment not shown, the axial portions 12c and 14c may not be annular the flanges 12 and 14 then being extended by a plurality of axial portions 12c and 14c respectively.
    The axial portions 12c and 14c are integrally connected to each other at their respective axial ends 12d and 14d.
    With this third embodiment, the flanges 12 and 14 are both integral with the inner ring 3 by cooperation of their respective axial portions 12c and 14c. It is then not necessary to fix these flanges 12 and 14 directly on the bearing. The assembly consisting of flanges 12 and 14 with their respective axial portions 12c and 14c defines a U-shape in which the inner ring 3 is integrated. An interference may be provided between the radial flanges 12 and 14 with the edges 33 and 34 of the outer ring 3 so as to provide anti-rotation.
    According to an alternative not shown, only the flanges 12 and 14 are extended by axial portions 12c and 14c respectively, and not the flanges 11 and 13 then sim Mairs to those described in Figure 1.
    A fourth embodiment illustrated in FIG. 6, in which the identical elements have the same references, differs from the second embodiment in that the outer circumferential flanges 12a, 14a of the flanges 12, 14 respectively mounted on the inner ring 3 and the inner circumferential flanges 11b, 13b of the flanges 11, 13 respectively mounted on the outer ring 2 of the bearing 1 form sealing lips.
    The outer circumferential flanges 12a, 14a form sealing lips 12e, 14e for the flanges 12, 14 respectively. The inner circumferential rims 11b, 13b form sealing lips 11e, 13e for the flanges 11, 13 respectively. The lips 12e, 14e are in sliding contact with the lips 11e, 13e and are all made of a flexible polymeric or synthetic material. For example, the lip material may be PA66 reinforced with 30% glass fiber to limit abrasion.
    The flanges 11, 12, 13 and 14 are made of a more rigid material than said lips, for example hard plastic or metal. The lips 11e, 12e, 13e, 14e may be molded, glued or vulcanized for example on the flanges 11, 12, 13, 14 respectively.
    By being sufficiently rigid, the flanges 11, 12, 13, 14 serve as bearing surfaces for the assembly 10 in its housing. The lips 11e, 12e, 13e, 14e softer material can reduce the friction torque while sealing.
    According to an alternative embodiment not shown, only a flange of a pair of flanges in sliding contact is provided with a lip of flexible material.
    A fifth embodiment illustrated in FIG. 7, in which the identical elements have the same references, differs from the fourth embodiment in that the lips 11e, 12e and 13e, 14e in sliding contact are superimposed axially.
    The flexibility of the flexible material forming said lips allows their axial deformation and thus ensure their recovery.
    With this fifth embodiment, the contact between two lips 11e, 12e and / or 13e, 14e is retained even in case of bearing misalignment 1 during assembly or in use.
    According to embodiments not shown, the bearing may be provided with one or more rows of rolling elements. The rolling elements may be balls, rollers, needles or any other type of rolling elements. Conversely, the bearing can not be provided with rolling elements and consist of a plain bearing.
    According to embodiments not shown, at least one flange comprises at least one layer of material made of vibration attenuation material and / or at least one flange comprises at least one layer of electrically insulating material so as to prevent the passage of electrical current through the bearing.
    The technical characteristics of the embodiments and variants envisaged above can be combined with each other.
    权利要求:
    Claims (7)
    [1" id="c-fr-0001]
    claims
    Bearing assembly (10) comprising a bearing (1) provided with a first ring (2) provided with a bore (22), two front edges (23, 24) and an outer cylindrical surface (21). ), and a second ring (3) provided with a bore (32), two front edges (33, 34) and an outer cylindrical surface (31), said first and second rings (2, 3) which can be in relative rotation around a central axis (X1), said assembly (10) being intended to be mounted in a housing, characterized in that - the assembly (10) comprises at least a first flange (11, 13 ) annular integral with the first ring (2) and covering at least partly a front edge (23, 24) of said first ring (2), and at least a second annular flange (12, 14) integral with the second ring (2); 3) and covering at least partly a front edge (33, 34) of said second ring (3), - free ends (11b, 13b, 12a, 14a) of the first first and second annular flanges (11, 12, 13, 14) are in sliding contact, and - the difference between the dimensions between the housing and the bearing (1) is compensated by said flanges (11, 12, 13, 14).
    [2" id="c-fr-0002]
    2. Assembly according to the claim characterized in that flanges (11, 12; 13, 14) in sliding contact overlap one another in a contact portion.
    [3" id="c-fr-0003]
    3. Assembly according to any one of the preceding claims characterized in that at least one flange (11, 12, 13, 14) comprises a first portion of rigid material covering at least partly a front edge (23, 24, 33 , 34) of a ring (2, 3), and a second portion (11e, 12e, 13e, 14e) of flexible material being in sliding contact against another flange (11, 12, 13, 14).
    [4" id="c-fr-0004]
    4. Assembly according to any one of the preceding claims characterized in that the assembly (10) comprises at least two flanges (11, 13; 12, 14) integral with the same ring (2, 3) of the bearing (1 ) and each covering at least partly a front edge (23, 24, 33, 34) of said ring (2, 3).
    [5" id="c-fr-0005]
    5. Assembly according to claim 4 characterized in that each of the two flanges (11, 13; 12, 14) of a ring (2; 3) extends through a portion (11c, 13c, 12c, 14c) covering at less in part an annular cylindrical surface (21; 32) of said ring (2; 3).
    [6" id="c-fr-0006]
    6. Assembly according to claim 5 characterized in that the portions (11c, 13c, 12c, 14c) extending from the two flanges (11, 13; 12, 14) of the same ring (2; 3) are integral between them.
    [7" id="c-fr-0007]
    7. Assembly according to claim 5 or 6 characterized in that the portions (11c, 13c; 12c, 14c) extending from the two flanges (11, 13; 12, 14) of the same ring (2; 3) are annular so as to form an envelope surrounding the ring (2, 3).
    类似技术:
    公开号 | 公开日 | 专利标题
    FR2923277A1|2009-05-08|BEARING BEARING WITH INTERNAL LUBRICATION
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    FR2965028A1|2012-03-23|Bump stop device for use in MacPherson strut of motor vehicle, has labyrinth sealing lips and rubbing sealing lips that are distinct from anchoring units, and rolling bearing arranged between lower and upper enclosures
    FR3004770A1|2014-10-24|BEARING BEARING DEVICE FOR STEERING COLUMN
    FR3004769A1|2014-10-24|BEARING BEARING DEVICE FOR STEERING COLUMN
    FR2634529A1|1990-01-26|Elastic connection sleeve including a sliding mechanism of partially spherical shape
    FR3020421A1|2015-10-30|BEARING BEARING, IN PARTICULAR FOR A CLUTCH STOP DEVICE
    EP0007832A1|1980-02-06|Seal for coaxial rotating parts
    FR3080421A1|2019-10-25|PULLEY DEVICE FOR TILT ROLLER OR ROLLER
    FR3039601A1|2017-02-03|BEARING ASSEMBLY
    FR3032499A1|2016-08-12|NUT FOR THE AXIAL BLOCKING OF A BEARING RING IN A TURBOMACHINE
    FR2971825A1|2012-08-24|Rolling bearing for use in clutch release bearing device arranged on diaphragm of clutch of motor vehicle, has metallic rigid stop portions cooperating by contact with rolling elements to limit angular tilting of movable outer ring
    FR3020423A1|2015-10-30|BEARING BEARING, IN PARTICULAR FOR A CLUTCH STOP DEVICE
    FR3086027A1|2020-03-20|PULLEY DEVICE FOR TENSIONER OR ROLLER
    EP2212574B1|2011-03-30|Fluid-tight rotation-guiding device
    FR3041723A1|2017-03-31|BALL BEARING COMPRISING A CAGE COMPRISING A WIRE AND A SEAL
    FR3039602A1|2017-02-03|BEARING ASSEMBLY
    FR3039865A1|2017-02-10|BEARING ASSEMBLY, VEHICLE AXLE COMPRISING SUCH A BEARING ASSEMBLY AND METHOD FOR MOUNTING A BEARING ASSEMBLY
    FR2886693A1|2006-12-08|ANTI-ROTATION DEVICE FOR ROLLING BEARING, AND BEARING AND MACHINE THEREFOR
    FR3018568A1|2015-09-18|BEARING BEARING COMPRISING AN ENVELOPE FOR MAINTAINING ONE OF THE RINGS AND A DEVICE FOR SEALING
    FR3008149A1|2015-01-09|BEARING BEARING, IN PARTICULAR FOR A CLUTCH STOP DEVICE
    FR3042561A1|2017-04-21|BEARING COMPRISING A CAGE WITH A WIRE AND A SEAL
    FR2965870A1|2012-04-13|Connection assembly for e.g. cardan joint, of flight control device for aircraft, has cage comprising axial holding units for holding rolling elements relative to mounting socket and associated trunnion
    同族专利:
    公开号 | 公开日
    US10024363B2|2018-07-17|
    CN106402164B|2019-11-12|
    CN106402164A|2017-02-15|
    DE102016213359A1|2017-02-02|
    FR3039600B1|2018-02-23|
    US20170030410A1|2017-02-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    BE494855A|
    US3519316A|1967-06-16|1970-07-07|Skf Svenska Kullagerfab Ab|Rolling bearing unit|
    FR2199081A2|1972-09-11|1974-04-05|Skf Ind Trading & Dev|
    JPH0471817U|1990-10-29|1992-06-25|
    DE102011103441A1|2011-06-07|2012-12-13|Enno Luiken|Slewing bearing seal has seal carrier which is connected over transverse pin and is connected with elastic elements, and fixing screws on periphery are axially movable with main seal carrier|US11204066B2|2019-11-28|2021-12-21|Aktiegolaget Skf|Insulating device for a bearing|US2428041A|1945-09-26|1947-09-30|Saywell Associates|Sealing assembly|
    US2661226A|1949-07-19|1953-12-01|Saywell Associates|Sealing assembly|
    US2706650A|1949-12-03|1955-04-19|Saywell Associates|Sealing assembly|
    US2600434A|1950-06-06|1952-06-17|Saywell Associates|Sealing device|
    DE1066059B|1956-07-19|1959-09-24|
    US3097896A|1959-06-10|1963-07-16|Wasley Products Inc|Bearing seal|
    US3141708A|1961-08-28|1964-07-21|Gen Motors Corp|Demountable closure|
    US3415500A|1966-09-21|1968-12-10|Fafnir Bearing Co|Combined seal and shock mount for a bearing|
    US3476395A|1967-11-09|1969-11-04|Cornelius Co|Shaft seal assembly|
    US3713707A|1970-01-12|1973-01-30|Sun Oil Co|Bearing seal|
    FR2212015A5|1972-12-22|1974-07-19|Paulstra Sa|
    US4452497A|1982-09-20|1984-06-05|Rockwell International Corporation|Grease seal for bearing arrangement|
    US4727970A|1984-06-12|1988-03-01|Luk Lamellen Und Kupplungsbau Gmbh|Torque transmitting and torsion damping apparatus for use in motor vehicles|
    SE454909B|1986-11-12|1988-06-06|Skf Ab|Centrifugal force regulated sealing device|
    EP0301130B1|1987-07-25|1992-03-25|Firma Carl Freudenberg|Bearing with rolling elements|
    DE8904504U1|1989-04-11|1989-05-18|Fag Kugelfischer Georg Schaefer Kgaa, 8720 Schweinfurt, De|
    US5110222A|1990-02-02|1992-05-05|The United States Of America As Represented By The United States Department Of Energy|Positive contact, self retaining bearing seals|
    US5002406A|1990-02-20|1991-03-26|Emerson Electric Co.|Sealing structure for a spherical bearing assembly|
    US5044782A|1990-09-14|1991-09-03|Allied-Signal Inc.|Sealed tapered roller bearing assembly for aircraft wheel bearing system|
    DE4224695A1|1992-07-25|1994-01-27|Kmf Maschinenfabrik Gmbh|Rolling bearing with two concentric track rings - has elastic support rings on cylinder faces of track rings and enclosed by metal bands.|
    US5533815A|1992-08-20|1996-07-09|Fichtel & Sachs Ag|Bearing arrangement for a device comprising two rotating components|
    JP4812112B2|2007-01-25|2011-11-09|Ntn株式会社|Wheel bearing device|
    DE102008012488A1|2008-03-04|2009-09-17|Schaeffler Kg|Part element for a sealing element of a bearing|
    US8807841B2|2008-12-23|2014-08-19|Aktiebolaget Skf|Bearing assembly|
    JP2014513782A|2011-05-16|2014-06-05|アクティエボラゲット・エスコーエッフ|Slewing bearing with a housing having two parts and method of manufacturing such a bearing|US10422384B2|2018-01-25|2019-09-24|Aktiebolaget Skf|Electrical insulating device for bearings|
    DE102018210091A1|2018-06-21|2019-12-24|Aktiebolaget Skf|roller bearing assembly|
    法律状态:
    2016-07-28| PLFP| Fee payment|Year of fee payment: 2 |
    2017-02-03| PLSC| Publication of the preliminary search report|Effective date: 20170203 |
    2017-07-27| PLFP| Fee payment|Year of fee payment: 3 |
    2018-07-26| PLFP| Fee payment|Year of fee payment: 4 |
    2019-07-29| PLFP| Fee payment|Year of fee payment: 5 |
    2020-07-28| PLFP| Fee payment|Year of fee payment: 6 |
    2021-07-26| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1557243A|FR3039600B1|2015-07-29|2015-07-29|BEARING ASSEMBLY|
    FR1557243|2015-07-29|FR1557243A| FR3039600B1|2015-07-29|2015-07-29|BEARING ASSEMBLY|
    DE102016213359.4A| DE102016213359A1|2015-07-29|2016-07-21|bearing arrangement|
    CN201610615885.5A| CN106402164B|2015-07-29|2016-07-28|Roller bearing unit|
    US15/222,069| US10024363B2|2015-07-29|2016-07-28|Rolling bearing assembly|
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