• 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 pulley device (1) for a tensioner roller or rewinder for a transmission element comprising a bearing (3) and a pulley (2). The pulley (2) is provided with two pulley elements (21, 22) having a C shape in axial section. At least one of the pulley elements (21, 22) comprises a through opening (40, 41) axially, the other pulley element (22, 21) comprising an axial protrusion portion (44, 45) housed in said opening ( 40, 41), a flange (46, 47) being formed by deformation of the protruding portion (44, 45) in order to ensure an axial retention with said opening (40, 41). The at least one through opening (40, 41) is provided at its periphery with at least one recessed area (40a, 40b, 41a, 41b) formed recessed essentially radially with respect to said protrusion (44, 45) which passes through said opening (40, 41).
    公开号:FR3082908A1
    申请号:FR1855691
    申请日:2018-06-26
    公开日:2019-12-27
    发明作者:Benoit Arnault;Nicolas Tronquoy;Samuel Viault
    申请人:SKF AB;
    IPC主号:
    专利说明:

    Pulley device for tensioner roller or rewinder
    Technical field of the invention
    The present invention relates to the field of pulley devices for tensioner roller or rewinder provided to cooperate with a transmission element, for example a belt or a distribution or drive chain of the internal combustion engine of a motor vehicle.
    State of the art
    Such rollers are generally used to permanently maintain a tension on the transmission element in a determined range had to medically mediate the path taken by it. We speak of anchors respectively of tensioning rollers or of winding rollers. In the winding rollers, the sling is rotated on a threaded hook screw by means of a bearing, the roller being then fixed directly or indirectly on the metering unit having on an element of a tensioning roller device, for example an articulated arm had an eccentric.
    The bearing generally has a fixed inner ring with a bore through which the screw passes, a rotating outer ring surmounted by the pad, and at least one row of rolling elements interposed between the rings.
    It is particularly known to provide a pulley with two pulley elements each having a C-shape in axial section, the two elements each being symmetrically mounted on an outer surface of the outer ring of the bearing. Generally these two pulley elements are mounted tight on said outer ring, but it is known to provide specific axial attachment means between the two elements.
    For example, in previous publications US-A-1177046 and US-A4518372, the radial portions of the two pulley elements in C are circumferentially provided with a series of through holes, said holes in the series being axially opposite one another. . The two elements are attached by means of rivets provided in said openings.
    However, such a pulley requires a plurality of rivets in order to secure the two pulley elements in C. This implies additional parts on a production and assembly line, ensuring specific inventory management, and an additional cost.
    It is also known from US-A-1627558 to provide each of the two pulley elements in C are circumferentially provided with a series of through holes, said series holes being angularly offset. The radial portion of a pulley part comprises an axial protrusion inserted into a corresponding through hole of the other pulley element, said protrusion being consequently deformed in order to ensure axial retention. However, the process of deformation of the protrusions induces a brittleness of each pulley element, more particularly at the peripheries of the openings and of the junction zones between the axial portions and the radial portion of each element in C. When the protrusions of a first element pulley, housed in through openings of a second pulley element, are deformed against the intermediate portion of said second pulley element, forces are necessarily transmitted to the edges at the periphery of said openings. This border, and therefore the intermediate portion, can also be deformed. This can result in a general deformation of the pulley element and thus a mounting defect on the outer ring of the bearing.
    Summary of the invention
    The present invention aims to remedy these drawbacks.
    More particularly, the present invention aims to provide a particularly economical pulley device, of easy and secure mounting, forming a non-removable sub-assembly, and of reduced axial and radial size.
    The invention relates to a pulley device for a tensioner roller or rewinder for a transmission element having a central axis and comprising a pulley and a bearing.
    The bearing is provided with a rotating outer ring, a fixed inner ring with a bore capable of receiving a body of screws, and at least one row of rolling elements arranged between the rings.
    The pulley is provided with two pulley elements with a C shape in axial section and each having an inner portion mounted on an outer surface of the outer ring of the bearing, an outer portion with an outer surface intended to cooperate with the transmission element, and an intermediate portion extending essentially radially between axial ends of the inner and outer portions along an axial side, the intermediate portions of the two pulley elements being in axial support, and each pulley element being formed in one piece.
    The intermediate portion of at least one of the pulley elements comprises at least one axially through opening, the intermediate portion of the other pulley element comprising an axially protruding portion housed in said opening, a flange being formed by deformation of a free axial end of the protruding portion and directed in an essentially radial direction in order to ensure axial retention with the edge at the periphery of said opening.
    According to the invention, the at least one through opening is provided at its periphery with at least one hollow area formed recessed essentially radially with respect to said protrusion which passes through said opening.
    Thanks to the invention, such an opening comprises a recessed area recessed with respect to the protrusion in order to protect from stresses and possible deformations the intermediate portion of the pulley element in this area during the production of the flange. by deformation of the free axial end of the protruding portion.
    In addition, by directing this recessed recessed area in an essentially radial direction, the folding junction between the intermediate portion and an interior and / or exterior portion is also less subject to stresses and possible deformations.
    This results in pulley elements assembled axially to one another in order to form an integral pulley assembly. These pulley elements are simple and economical to manufacture since they require known and economical manufacturing methods and tools, and without the need for additional fixing elements. These pulley elements once assembled do not have weakened zones and have a reduced risk of breakage in operation. These pulley elements have controlled dimensions even when assembled, and are optimally mounted on the outer ring of the bearing.
    According to other advantageous but not compulsory characteristics of the invention, taken individually or in combination:
    - The at least one through opening is provided at its periphery with two recessed areas formed recessed radially and in opposite directions relative to the protruding portion which passes through said opening.
    - The protruding portion is tubular.
    - The intermediate portions of each of the two pulley elements circumferentially comprises a series of through openings, and a series of portions protruding axially in the direction of the other pulley element.
    - The openings and the protruding portions of the same pulley element are alternated.
    - The outer portions of the pulley elements are cylindrical.
    - The inner portions of the pulley elements are cylindrical.
    - The inner portions of the pulley elements are mounted tight on an outer surface of the outer ring of the bearing.
    - At least one pulley element is provided with a lateral portion extending essentially radially from an axial end of the inner portion axially opposite the intermediate portion, said lateral portion coming to bear axially against a lateral surface of the outer ring of the rolling.
    - The inner ring of the bearing comprises at least one end portion projecting axially from a lateral surface of the outer ring, the lateral portion of a pulley element having a free end coming in close proximity to an outer surface of said end portion projecting axially from the inner ring so as to form a narrow passage.
    - Said end portion of the inner ring projects axially with respect to the lateral portion of the pulley element.
    - The pulley device comprises retaining means intended to cooperate with the screw.
    - The bore of the fixed inner ring includes an inner circumferential groove in which is housed an annular rod cooperating with the screw.
    - A cage maintains the circumferential spacing of the rolling elements.
    - The rolling elements are balls.
    - The pulley elements are made of metal, for example steel.
    Brief description of the drawings
    The present invention will be better understood on studying the detailed description of an embodiment of the invention taken by way of non-limiting example, and illustrated by the appended drawings in which:
    - Figure 1 is a rear perspective view of a pulley device;
    - Figure 2 is an axial sectional view of the pulley device of Figure 1; and
    - Figures 3 and 4 are front and front perspective views of a pulley element for the pulley device of Figure 1.
    detailed description
    As can be seen in Figures 1 and 2, a pulley device for a tensioner roller or belt winder, referenced 1 as a whole, is of geometric axis XI, and comprises a pulley 2 adapted to cooperate with a transmission element (not shown) such as a belt or chain, a bearing 3, and a screw 4.
    The bearing 3 comprises a fixed inner ring 5, a rotating outer ring 6, said rings 5, 6 being coaxial around the axis XI. The bearing 3 also comprises two rows of rolling elements 7 and 8, here produced in the form of balls, arranged between a radial space formed between the rings, and cages (not referenced) ensuring the maintenance of the circumferential spacing of the elements rollers 7 and 8, respectively.
    The inner 5 and outer 6 rings are concentric. In the illustrated embodiment, the rings are solid, that is to say obtained by machining or grinding with removal of material from metal tubes, bars, forgings or laminated blanks.
    The inner ring 5 comprises a bore 9, an outer surface 10 stepped and provided with rolling tracks (not referenced) having in axial section a concave internal profile and of toroidal shape suitable for the rolling elements 7, 8, and two rear side surfaces 11 and before 12.
    The outer ring 6 comprises a stepped cylindrical bore 13 and provided with rolling tracks (not referenced) having in axial section a concave internal profile and of toroidal shape suitable for the rolling elements
    7, 8, an outer cylindrical surface 14 on which the pulley 2 is mounted, and two rear side surfaces 15 and front 16.
    The fixed inner ring 5 extends axially out of the rotating outer ring 6 in a rear axial direction directed towards a support (not shown) on which the pulley device 1 is intended to be mounted. The fixed inner ring 5 is thus provided with a rear protruding axial end portion 33, the rear lateral surface 11 of which is axially offset relative to the rear lateral surface 15 of the external ring 6. The rear lateral surface 11 is intended to form a bearing surface for the bearing 3 against the support of the device 1.
    The fixed inner ring 5 also extends axially out of the rotating outer ring 6 in a front axial direction directed away from the support on which the pulley device 1 is intended to be mounted. The fixed inner ring 5 is thus provided with a front projecting axial end portion 34 whose front side surface 12 is axially offset relative to the front side surface 16 of the outer ring 6. The front side surface 12 is intended to form a bearing surface for the screw 4.
    The bearing 3 advantageously comprises on each axial side an annular seal (not referenced) to close the radial space existing between the rings 5, 6 and inside which the rolling elements 7 are housed,
    8.
    Alternatively, the bearing may include a different number of rows of rolling elements arranged between the outer and inner rings, for example a single row of rolling elements.
    Alternatively, the bearing may include other types of rolling elements, for example tapered rollers, needles, or even tapered rollers. Alternatively, the bearing can be a plain bearing.
    In this embodiment, the inner ring 5 is formed in one piece. According to an alternative embodiment not shown, the bearing 3 can comprise an annular spacer mounted in the inner ring 5.
    The screw 4 comprises a body 17 and a head 18 at an axial end of said body 17. The body 17 is housed in the bore 9 of the bearing 3, and extends axially beyond the rear lateral surface 11 of the ring fixed inner 6. The body 17 comprises a threaded portion intended to be screwed into a corresponding tapped opening of the support for the pulley device 1. The head 18 of the screw 4 has a relatively flat surface bearing against the front lateral surface 12 of the inner ring 5 of the bearing 3, axially opposite the support in which the body 17 is intended to be screwed.
    In the illustrated embodiment, the bore 9 of the inner ring 3 is provided with a circumferential groove 19 at its rear end. An annular ring 20, preferably elastic, is housed in said groove 19 and cooperates with the body 17 of the screw 4 in order to hold the screw 4 integral with the inner ring 5, and therefore with the pulley device 1.
    The pulley 2 comprises a rear pulley element 21, and a front pulley element 22.
    The rear pulley element 21 comprises an outer annular portion 23 with an outer cylindrical surface 24 able to cooperate with a transmission means, and a cylindrical bore (not referenced). The element 21 also includes an inner annular portion 25 with a cylindrical bore 26 mounted tightly on the outer cylindrical surface 14 of the rotating outer ring 6 of the bearing 3, and an outer cylindrical surface (not referenced). The outer annular portion 23 is tubular and is of larger diameter than the inner annular portion 25 also tubular, the outer annular portion 23 radially surrounding said inner annular portion 25. The outer annular portion 23 is also of axial dimension greater than the annular portion inner 25, said outer annular portion 23 projecting axially from the inner annular portion 25 on the rear axial side of the device 1.
    The rear pulley element 21 finally comprises an intermediate portion for connecting the inner 25 and outer annular portions 23. The intermediate portion 27 extends radially between the front axial ends of the inner 25 and outer 23 portions of the rear pulley element
    21.
    The rear pulley element 21 is provided with a rear lateral portion 35. The rear lateral portion 35 extends essentially radially from an axial end of the inner portion 25 axially opposite to the intermediate portion 27 of the rear pulley element 21. The rear lateral portion 35 comes into axial abutment against the rear lateral surface 15 of the outer ring 6 of the bearing 3. The rear lateral portion 35 is provided with a free end which comes in close proximity to an outer surface of the rear axial protruding end portion 33 of the inner ring 5 in order to form a narrow radial passage 36.
    The rear pulley element 21 has a general C shape in axial section, defining an annular opening open on the rear axial side of the device 1 in the direction of the support on which the device 1 is intended to be mounted.
    The front pulley element 22 comprises an outer annular portion with an outer cylindrical surface 29 capable of cooperating with a transmission means, and a cylindrical bore (not referenced). The element 22 also includes an inner annular portion 30 with a cylindrical bore 31 mounted tightly on the outer cylindrical surface 14 of the rotating outer ring 6 of the bearing 3, and an outer cylindrical surface (not referenced). The outer annular portion 28 is tubular and is of larger diameter than the inner annular portion 30 also tubular, the outer annular portion 28 radially surrounding said inner annular portion 30. The outer annular portion 28 is also of axial dimension greater than the annular portion inner 30, said outer annular portion 28 projecting axially from the inner annular portion 30 on the front axial side of the device 1.
    The front pulley element 22 finally comprises an intermediate portion 32 for connecting the inner 30 and outer annular portions 28. The intermediate portion 32 extends radially between the rear axial ends of the inner 30 and outer 28 portions of the pulley element before
    22.
    Opposite to the axial rear portion 35, the front pulley element 22 is provided with a front lateral portion 37. The front lateral portion 37 extends essentially radially from an axial end of the axially opposite inner portion 30 to the intermediate portion 32 of the front pulley element 22. The front side portion 37 comes to bear axially against the front side surface 16 of the outer ring 6 of the bearing 3. The front side portion 37 is provided with a free end which comes in close proximity to an outer surface of the front axial protruding end portion 34 of the inner ring 5 so as to form a narrow radial passage 38.
    The front pulley element 22 has a general C shape in axial section, defining an annular opening open on the front axial side of the device 1 in the direction opposite to the support on which the device 1 is intended to be mounted.
    The front and rear pulley elements 21 and 22 are mounted on the rotating outer ring 6 of the bearing 3 so that their intermediate portions 27 and 32, respectively, come to bear radially against one another. The pulley elements 21, 22 are mounted axially symmetrically. The outer cylindrical surfaces 24, 29 of the outer annular portions 23, 28 of the front pulley elements 21 and rear 22, respectively, form in an associated manner a cooperation surface with a transmission element.
    In a particularly advantageous manner, the end portion projecting from the front axial portion 34 of the inner ring 5 is projecting axially from the front side portion 37 of the front pulley element 22. In addition, the end portion front axial projection 34 is chamfered to form an additional barrier against the intrusion of pollution and water.
    Each of the rear pulley elements 21 and front 22 are advantageously in one piece, and are advantageously formed by cutting and stamping a metal sheet, for example steel.
    As illustrated in Figures 3 and 4, the intermediate portion 27 of the rear pulley element 21 comprises two through openings 40, 41 diametrically opposite, and two protruding portions 42, 43 also diametrically opposite. The openings and protruding portions are circumferentially alternated. The protruding portions 42, 43 are tubular.
    Similarly, the intermediate portion 32 of the front pulley element 22 includes two diametrically opposite through openings (not shown), and two protruding portions 44, 45 also diametrically opposite. The openings and protruding portions are circumferentially alternated. The protruding portions 44, 45 are tubular.
    The openings 40, 41 of the rear pulley element 21 are axially opposite the protruding portions 44, 45 of the front pulley element 22, respectively. Similarly, the openings of the front pulley member 22 are axially opposite the protruding portions 42, 43 of the rear pulley member 21, respectively. The protruding portions 42, 43 and 44, 45 are housed in the corresponding through openings 40, 41.
    The protruding portions 44, 45 of the front pulley element 22 are each provided with an annular flange 46, 47, respectively. The flanges 46, 47 are each formed by deformation of a free axial end of the protruding portions 44, 45, respectively. The flanges 46, 47 are directed in an essentially radial direction in order to each ensure an axial retention with the edge on the periphery of the corresponding opening 40, 41 of the rear pulley element 21. Similarly, the portions protruding 42, 43 of the rear pulley element 21 are each provided with an annular flange (not shown) in order to ensure axial retention with the corresponding opening of the front pulley element 22.
    The pulley elements 21, 22 are thus axially attached to one another in order to form an integral pulley assembly 2. In addition, the outer ring 6 of the bearing 3 is axially held between the rear lateral portion 35 of the rear pulley element 21 and the front lateral portion 37 of the front pulley element 22. The pulley 2 is thus axially maintained on the outer ring 6 of the bearing 3. In addition, the inner annular portions 25, 30 of the rear pulley elements 21 and front 22, respectively, are mounted clamped on the outer surface 14 of the outer ring 6 of the bearing 3. The pulley 2 is thus integral in rotation with the outer ring 6 of the bearing 3.
    According to the invention, the through openings 40, 41 of the rear pulley element 21 are each provided at their periphery with two recessed areas 40a, 40b and 41a, 41b formed recessed radially and in opposite directions relative to the protruding portion 44, 45 which passes through said opening 40, 41, respectively.
    The recessed areas 40a, 41a are directed radially towards the inner portion 25, and more particularly towards the folding junction between the intermediate portion 27 provided with said openings 40, 41 and said inner portion 25. The recessed areas 40b, 41b are directed radially towards the outer portion 23, and more particularly towards the folding junction between the intermediate portion 27 provided with said openings 40, 41 and said outer portion 27.
    The edges of the openings 40, 41 are circular with a diameter corresponding to a mounting clearance close to the outside diameters of the portions in protrusions 42, 43 tubular, and the hollow areas illustrated in FIG. 3 are portions of an arc of a circle. larger diameter, concentric with the circular borders, and connected to said borders. Alternatively, the recessed areas may be of any other shape, for example of oval shape.
    Advantageously, the through openings (not shown) of the front pulley element 22 are also provided with similar recessed areas.
    Thanks to the invention, such openings 40, 41 with recessed areas 40a, 40b and 41a, 41b make it possible to protect the intermediate portion 27 of the pulley element 21 in these areas from stresses and possible deformations during the making the flanges 46, 47 by deformation of the free axial end of the protruding portion 44, 45. The folding junctions between the intermediate portion 27 and the outer portion 23 on the one hand, and between the intermediate portion 27 and the inner portion 25 on the other hand, are also less subject to stresses and possible deformations. The pulley elements 21, 22 once assembled do not have weakened zones and have a reduced risk of breakage in operation. These pulley elements 21, 22 have controlled dimensions even when assembled, and are optimally mounted on the outer surface 14 of the outer ring 6 of the bearing 3.
    The pulley elements 21, 22, and more particularly such openings 40, 41, are simple and economical to manufacture because they require known and economical manufacturing methods and tools.
    The technical characteristics of the various embodiments can be, in whole and only for some of them, combined with each other. Thus, the pulley device can be adapted in terms of costs, performance and simplicity of implementation.
    权利要求:
    Claims (8)
    [1" id="c-fr-0001]
    claims
    1. Pulley device (1) for tensioner roller or rewinder for a transmission element comprising:
    - a bearing (3) provided with:
    a rotating outer ring (6), a fixed inner ring (5) with a bore (9) capable of receiving a body (17) of screws (4), and at least one row of rolling elements ( 7, 8) arranged between the rings; and
    - a pulley (2) provided with two pulley elements (21, 22) having a C shape in an axial section and each having:
    an inner portion (25, 30) mounted on the outer surface (14) of the outer ring (6) of the bearing (3), an outer portion (23, 28) with an outer surface (24, 29) intended to cooperate with the transmission element, and an intermediate portion (27, 32) extending essentially radially between axial ends of the inner (25, 30) and outer (23, 28) portions along an axial side, the intermediate portions (27, 32) of the two pulley elements being in axial support, and each pulley element (21, 22) being formed in one piece, the intermediate portion (27, 32) of at least one of the pulley elements (21, 22) comprises at at least one axially through opening (40, 41), the intermediate portion (32, 27) of the other pulley element (22, 21) comprising an axial protrusion portion (44, 45) housed in said opening (40, 41 ), a flange (46, 47) being formed by deformation of a free axial end of the protruding portion (44, 45) and directed in an essentially radial direction in order to ensure an axial retention with the edge on the periphery of said opening (40, 41);
    characterized in that the at least one through opening (40, 41) is provided at its periphery with at least one hollow area (40a, 40b, 41a, 41b) formed recessed essentially radially with respect to said protrusion (44 , 45) which passes through said opening (40, 41).
    [2" id="c-fr-0002]
    2. Pulley device according to claim 1, in which the at least one through opening (40, 41) is provided at its periphery with two recessed areas (40a, 40b, 41a, 41b) formed radially recessed and in opposite directions with respect to the protruding portion (45, 46) which passes through said opening (40, 41).
    [3" id="c-fr-0003]
    3. Pulley device according to any one of the preceding claims, in which the protruding portion (45, 46) is tubular.
    [4" id="c-fr-0004]
    4. Pulley device according to any one of the preceding claims, in which the intermediate portions (27, 32) of each of the two pulley elements (21, 22) circumferentially comprise a series of through openings (40, 41), and a series of protruding portions (42, 43, 45, 46) axially in the direction of the other pulley element (22, 21).
    [5" id="c-fr-0005]
    5. Pulley device according to claim 4, wherein the openings (40, 41) and the protruding portions (42, 43, 45, 46) of the same pulley element (21, 22) are alternated.
    [6" id="c-fr-0006]
    6. Pulley device according to any one of the preceding claims, in which the internal portions (25, 30) of the pulley elements (21, 22) are mounted clamped on an external surface (14) of the external ring (6) of the bearing (3).
    [7" id="c-fr-0007]
    7. Pulley device according to any one of the preceding claims, in which at least one pulley element (21, 22) is provided with a lateral portion (35, 37) extending essentially radially from an axial end of the inner portion (25, 30) axially opposite the intermediate portion (27, 32), said lateral portion (35, 37) coming to bear axially against a lateral surface (15, 16) of the outer ring (6) of the bearing ( 3).
    [8" id="c-fr-0008]
    8. Pulley device according to claim 7, wherein the inner ring (5) of the bearing (3) comprises at least one end portion (33, 34) projecting axially relative to a lateral surface (15, 16) of the outer ring (6), the lateral portion (35, 37) of a pulley element (21, 22) having a
    5 free end coming in close proximity to an outer surface of said end portion (33, 34) projecting axially from the inner ring (5) so as to form a narrow passage (36, 38).
    类似技术:
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    同族专利:
    公开号 | 公开日
    CN110645338A|2020-01-03|
    US11092227B2|2021-08-17|
    DE102019208745A1|2020-01-02|
    US20190390756A1|2019-12-26|
    FR3082908B1|2020-06-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US1627558A|1924-03-27|1927-05-10|Prec Metal Workers|Sheave|
    EP1162379A2|2000-06-06|2001-12-12|Skf France|Belt tensioning pulley|
    US20060142102A1|2004-12-23|2006-06-29|Mijo Radocaj|Pulley assembly|
    CN102235430B|2010-04-28|2014-06-18|小仓离合器有限公司|Power transmission device|
    US622214A|1899-04-04|Trolley-wheel |
    US1177046A|1913-09-19|1916-03-28|Budd G Nice|Antifriction-wheel.|
    US1606175A|1921-11-21|1926-11-09|Fed Mfg Company|Pulley sheave|
    US1976025A|1931-08-08|1934-10-09|Allis Chalmers Mfg Co|Sheet metal pulley|
    US1995907A|1931-08-08|1935-03-26|Allis Chalmers Mfg Co|Sheet metal pulley|
    US2610514A|1948-07-22|1952-09-16|Jr Ballard Emerson Long|Sheave|
    US2655813A|1950-08-10|1953-10-20|Edward N Howell|Sheave|
    US2923166A|1956-03-05|1960-02-02|Richard B Brindley|Pulley construction|
    US2922310A|1957-02-01|1960-01-26|John W Anderson|Composite pulley structure|
    US3722968A|1967-06-29|1973-03-27|Nat Bearings Co|Wheel-bearing assembly|
    FR1576262A|1967-08-15|1969-07-25|
    US3592511A|1969-05-27|1971-07-13|American Koyo Corp|High speed wheel|
    US3565490A|1969-08-18|1971-02-23|Robert G Statz|Wheel assembly|
    US3822457A|1971-11-18|1974-07-09|Frost & Son C L|Method of making rotatable member assembly|
    US3789683A|1971-11-18|1974-02-05|Frost & Son C L|Rotatable member assembly and method for making same|
    US3772928A|1972-06-07|1973-11-20|W Gobeille|Composite v-belt pulley and method|
    US3815959A|1972-08-08|1974-06-11|M Hill|Industrial roller or wheel|
    US3898888A|1973-03-30|1975-08-12|Frost & Son C L|Pulley construction|
    US3961406A|1973-03-30|1976-06-08|C. L. Frost & Son, Inc.|Method of pulley construction|
    JPS5145548U|1974-10-01|1976-04-03|
    US4113328A|1977-08-22|1978-09-12|C. L. Frost & Son, Inc.|Wheel bearing assembly with plastic bearing seals|
    US4265133A|1978-08-03|1981-05-05|C. L. Frost & Son, Inc.|Drive disc-pulley assembly|
    US4254541A|1978-11-06|1981-03-10|Aspro, Inc.|Method of making clutch housing and pulley assembly|
    US4402678A|1978-11-06|1983-09-06|Dyneer Corporation|Clutch housing and pulley assembly|
    US4294491A|1978-11-27|1981-10-13|Pemco-Kalamazoo, Inc.|Metal disk wheel with resilient tread and bearing support|
    JPS56124426A|1980-03-07|1981-09-30|Nissan Eng Kk|Wet type deodorizing method including regeneration process of oxidizing agent|
    IT8121810V0|1980-06-27|1981-05-19|Skf Kugellagerfabriken Gmbh|BELT TENSIONER ROLLER FOR BELT DRIVES.|
    DE8025902U1|1980-09-27|1981-01-15|Skf Kugellagerfabriken Gmbh, 8720 Schweinfurt|Role, in particular tensioning roller for belt drives or the like|
    US4474562A|1980-12-03|1984-10-02|Fag Kugelfischer Georg Schafer & Co.|Tensioner for motor-vehicle timing belt|
    US4464949A|1981-04-17|1984-08-14|Algat S.P.A.|Toothed pulley of pressed sheet metal|
    US4580846A|1981-07-24|1986-04-08|Hoosier Stamping & Mfg. Corp.|Wheel-cased bearing|
    US4441692A|1982-04-30|1984-04-10|Wyrepak Industries, Inc.|Rubber-lagged sheave|
    DE3217579A1|1982-05-11|1983-11-17|Skf Kugellagerfabriken Gmbh, 8720 Schweinfurt|ROLLER|
    IT1194363B|1982-08-14|1988-09-22|Skf Kugellagerfabriken Gmbh|SUPPORTING BODY FOR TENSIONER ROLLERS|
    US4518372A|1983-10-24|1985-05-21|Dye Donald D|Idler pulley and method of mounting a precision bearing|
    US4602875A|1985-11-18|1986-07-29|General Motors Corporation|Combined bearing, rotatable member and shield assembly|
    JPS62278315A|1986-05-24|1987-12-03|Koyo Seiko Co Ltd|Bearing device|
    JPS6314018U|1986-07-11|1988-01-29|
    US4863293A|1988-09-15|1989-09-05|Frost Inc.|Sealed bearing assembly|
    US5188573A|1992-01-08|1993-02-23|Eclipse Manufacturing Co.|Pulley construction|
    DE9319394U1|1993-12-17|1994-02-10|Schaeffler Waelzlager Kg|Tensioner pulley for a belt drive|
    DE19581535T1|1994-12-28|1997-06-05|Ntn Toyo Bearing Co Ltd|Belt tensioner|
    US5775819A|1996-03-14|1998-07-07|Virginia Industries, Inc.|Roller bearing assembly and method for making the same|
    JP3717645B2|1997-10-31|2005-11-16|Ntn株式会社|Idler pulley|
    DE29720776U1|1997-11-22|1998-01-15|Skf Gmbh|Fastening device for belt rolls|
    FR2791289B1|1999-03-26|2001-05-04|Skf France|PROCESS FOR MANUFACTURING A ROLLER ROLLER|
    FR2794823B1|1999-06-14|2001-08-10|Skf France|FIXING DEVICE FOR ROLLER ROLLER AND ROLLER ROLLER COMPRISING SUCH A DEVICE|
    DE10043840A1|2000-09-06|2002-03-14|Schaeffler Waelzlager Ohg|Deflection roller for a traction drive|
    US7485059B2|2000-09-26|2009-02-03|Emerson Electric Co.|Two piece stamped steel pulley|
    DE10061995A1|2000-12-13|2002-06-20|Ina Schaeffler Kg|Sealing for a rolling bearing|
    DE10209673A1|2002-03-05|2003-09-18|Ina Schaeffler Kg|Roll for a belt drive|
    US20060171622A1|2002-06-25|2006-08-03|Nsk Ltd|Double-row ball bearing for supporting pulley|
    CN100400910C|2002-07-12|2008-07-09|日本精工株式会社|Pulley support double row ball bearing|
    US6941651B2|2003-04-12|2005-09-13|Mijo Radocaj|Pulley and bearing assembly and a method and apparatus for inserting and fastening a bearing within a pulley|
    WO2004104435A1|2003-05-20|2004-12-02|The Gates Corporation|Load spreader|
    US7591593B2|2005-02-04|2009-09-22|Ntn Corporation|Sealed rolling bearing|
    FR2889278B1|2005-07-27|2008-09-12|Skf Ab|ROLLER DEVICE FOR BELT|
    US8012053B2|2005-09-29|2011-09-06|Dayco Products, Llc|Combination dust cover and bearing retention member|
    JP4965109B2|2005-11-04|2012-07-04|サンデン株式会社|Pulley|
    US7588372B2|2006-04-13|2009-09-15|Bishop-Wisecarver Corporation|Guide wheel having a bearing for food and beverage applications|
    DE102006022766A1|2006-05-16|2007-11-22|Schaeffler Kg|Clamping or deflection roller, in particular for the traction mechanism drive of an internal combustion engine|
    FR2907526B1|2006-10-20|2009-06-26|Skf Ab|TENDER ROLL OR ROLLER DEVICE.|
    FR2913081B1|2007-02-27|2009-05-15|Skf Ab|DEBRAYABLE PULLEY DEVICE|
    FR2923281B1|2007-11-06|2010-04-09|Skf Ab|ROLLER OR ROLLER DEVICE|
    US8308370B2|2008-02-25|2012-11-13|Jtekt Corporation|Sealing device for bearing|
    JP5165462B2|2008-05-28|2013-03-21|Ntn株式会社|Pulley fixing structure|
    EP2414689B1|2009-04-03|2018-09-19|Aktiebolaget SKF|An idler and bearing assembly and a method of manufacturing same|
    FR2946716B1|2009-06-12|2011-07-08|Skf Ab|DEVICE FOR PULLEY HAVING PRE - CONTAINED ELASTIC RING AND DEVICE MOUNTING METHOD.|
    US8979686B2|2009-09-24|2015-03-17|Dayco Ip Holdings, Llc|Cap retainer and a pulley assembly including the cap retainer and method of assembly|
    FR2968373B1|2010-12-07|2013-01-04|Skf Ab|BEARING FOR TILT ROLLING DEVICE AND TENDERING GAUGE|
    EP2562445B1|2011-08-26|2014-06-25|Aktiebolaget SKF|Pulley device with a damping element|
    FR2991019B1|2012-05-24|2015-07-24|Skf Ab|PULLEY DEVICE FOR AIR CONDITIONING COMPRESSOR|
    FR2991018B1|2012-05-24|2015-07-24|Skf Ab|PULLEY DEVICE FOR AIR CONDITIONING COMPRESSOR|
    US20130331215A1|2012-06-08|2013-12-12|Dan Hewitt|Pulley With Lateral Annular Bearing Retainers|
    JP6238535B2|2013-03-14|2017-11-29|Ntn株式会社|Press pulley|
    US9416863B2|2013-05-29|2016-08-16|Schaeffler Technologies AG & Co. KG|Pulley ring|
    FR3006711B1|2013-06-07|2015-06-05|Skf Ab|WATER PUMP DRIVE SYSTEM AND MOUNTING METHOD|
    FR3013093B1|2013-11-14|2015-12-11|Skf Ab|PULLEY DEVICE FOR CHAIN OR BELT AND MOTOR VEHICLE EQUIPPED WITH SUCH A DEVICE|
    FR3018887B1|2014-03-19|2016-03-11|Skf Ab|ROLLER OR ROLLER DEVICE|
    FR3018886B1|2014-03-19|2016-03-11|Skf Ab|ROLLER OR ROLLER DEVICE|
    FR3019866B1|2014-04-11|2016-12-23|Skf Ab|PULLEY DEVICE FOR BELT OR CHAIN, METHOD FOR MANUFACTURING HOLLOW SHAFT FOR SUCH DEVICE AND METHOD FOR ASSEMBLING SUCH DEVICE|
    FR3020107B1|2014-04-17|2016-04-01|Skf Ab|ROLLER OR ROLLER DEVICE|
    FR3035928B1|2015-05-04|2017-12-01|Skf Ab|PULLEY DEVICE FOR TILT ROLLER OR ROLLER|
    US10030758B2|2016-04-12|2018-07-24|Ford Global Technologies, Llc|Two-piece zero distortion pulley assembly having outer bearing raceway|
    US10228051B2|2016-07-22|2019-03-12|Ford Global Technologies, Llc|Two-piece molded pulley having radial bearing distortion-reducing characteristics|DE102019201754A1|2019-02-11|2020-08-13|Aktiebolaget Skf|Pulley device especially for a tension pulley or a pulley|
    DE102019201752A1|2019-02-11|2020-08-13|Aktiebolaget Skf|Pulley device especially for a tension pulley or a pulley|
    法律状态:
    2019-06-26| PLFP| Fee payment|Year of fee payment: 2 |
    2019-12-27| PLSC| Search report ready|Effective date: 20191227 |
    2020-06-26| PLFP| Fee payment|Year of fee payment: 3 |
    2021-06-25| PLFP| Fee payment|Year of fee payment: 4 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1855691A|FR3082908B1|2018-06-26|2018-06-26|PULLEY DEVICE FOR TENSIONER OR ROLLER|
    FR1855691|2018-06-26|FR1855691A| FR3082908B1|2018-06-26|2018-06-26|PULLEY DEVICE FOR TENSIONER OR ROLLER|
    US16/423,378| US11092227B2|2018-06-26|2019-05-28|Pulley device for a tensioner roller or winding roller|
    DE102019208745.0A| DE102019208745A1|2018-06-26|2019-06-17|Pulley device for a tension roller or winding roller|
    CN201910548265.8A| CN110645338A|2018-06-26|2019-06-24|Pulley device for a tension or winding roller|
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