• 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:
    This pulley device (10) for a tensioning roller or winder of a torque transmission means comprises a pulley (12), a bearing (14), a spacer (18) supporting said bearing (14) and provided with a bore (50). ), and a fixing screw (20) extending inside said bore (50) of the spacer (18). The device (10) further comprises at least one means (62) for captively attaching the fastening screw (20) relative to the spacer (18), said captive fastening means (62) being breakable and interposed between said screw (20) and the spacer (18).
    公开号:FR3039863A1
    申请号:FR1557574
    申请日:2015-08-06
    公开日:2017-02-10
    发明作者:Frederic Liege;Torbjorn Hedman;Romuald Lescorail
    申请人:SKF AB;
    IPC主号:
    专利说明:

    Pulley device for tensioner roller or roller
    The present invention relates to the field of pulley devices for tensioner or retractor roller provided to cooperate with a torque transmission means such as a chain or a belt, for example a motor vehicle internal combustion engine timing belt.
    Such rollers are generally used to permanently maintain a tension on the belt or chain in a specific range or to locally change the path taken by it. These are then called tensioning rollers or rollers. In the rollers, the pulley is rotatably mounted on a screw or axle via a bearing, the roller then being attached directly or indirectly to the engine block or to a member of a tensioner device for example an articulated arm or an eccentric. The bearing is any mechanical device for implementing a pivot connection between the pulley and the screw or the axis, and may for this purpose be a rolling bearing or plain bearing.
    To achieve the fixing of the roller on its support, a spacer is generally used in association with said screw or axis. During this assembly, it is desirable that the axis or the screw is axially integral with the other elements constituting the roller and comprising the pulley. This provides a set that is indémontable, easy to handle and transport, and can be mounted easily.
    For this purpose, document FR 2 954 437 discloses a pulley device for tensioner roller comprising a pulley, a bearing, a spacer supporting the bearing and a fixing screw immobilized axially with respect to the spacer. The relative axial retention of the fixing screw and the spacer is effected by means of a retaining ring provided to cooperate with a groove formed on the fixing screw.
    Among other disadvantages, this solution requires a particular design of the fixing screw. Relatively large clearance must also be made on the front surface of the spacer to allow mounting of the retaining ring. This considerably reduces the contact area between the spacer and its support.
    The present invention aims to overcome these disadvantages.
    More particularly, the present invention aims to provide a pulley device easy to manufacture, to assemble and economic. For this purpose, it is proposed a pulley device for a tensioning roller or a reel of a torque transmission means comprising a pulley, a bearing, a support member supporting said pulley in a rotary manner and provided with a through bore, a fixing screw extending inside said bore of the support member. The device further comprises at least one captive fastening means of the fixing screw relative to the support element. In addition, the support member has a cavity extending from the through bore of the support member, said captive attachment means being adapted to be mounted at least partially within said cavity.
    According to the invention, an outer radial wall of said cavity has at least one portion inclined with respect to the axial direction of the pulley. Thanks to the interaction of the inclined wall with the captive fastening means, it is possible to achieve a very easy and robust clamping effect during transport without any risk of disturbing influences during the final assembly of the device on the engine block or elsewhere. . The inclined wall can take the form of a chamfer.
    In one embodiment, the cavity opens on a radial surface at an axial end of the support member opposite a head of the fixing screw.
    Preferably, the inclination of the wall is such that the cavity widens in the direction of said radial surface.
    In one embodiment, said captive fastening means is adapted to be wedged between said outer radial wall and an outer radial surface of the fixing screw and that an inclination angle of the outer radial wall is sufficiently small to cause a self locking effect opposing the release of the fixing screw.
    In a preferred embodiment, said fixing screw comprises at least one threaded portion and wherein said captive fastening means locally covers the threaded portion of said fixing screw. It is well known that the self locking effect depends on the relationship between the arc tangent of the angle of inclination and the coefficient of friction of adhesion between the captive fastening means and the surfaces between which it is jammed. Obviously, the friction coefficient of adhesion is very high on the threaded part of the fixing screw. In addition, it is not necessary to engineer the outer walls of the cavity to make them smooth for the same reasons.
    In addition, the invention proposes that said cavity has an essentially conical shape.
    A conical or frustoconical cavity can be made easily and economically - even in a single step with the bore.
    In a preferred embodiment, the cavity has an essentially frustoconical shape.
    In one embodiment, the support member is a spacer supporting an inner ring of said bearing.
    In another embodiment, the support member is made in one piece with an inner ring of said bearing. Preferably, the support element comprises rolling tracks, in particular deep grooves for balls, on its circumferential outer surface.
    In one embodiment, the fastening means is an O-ring. O-rings are economical and ready to create a self-locking effect thanks to their high coefficient of friction, especially in the case of a rubber O-ring.
    In one embodiment, the fixing screw comprises a head and a rod comprising at least one threaded portion, said captive fixing means being disposed axially on the opposite side to the head of the screw relative to the support member. In one embodiment, the captive fastening means is disposed radially between the bore of the support member and the threaded portion of the screw.
    In addition, the captive fastening means can be divisible and temporary. By "breakable" is meant a captive fastening means whose rupture can be caused by a mechanical action of the user, for example during assembly of the device. For example, the mechanical action can be manual, such as manually exerting a tightening torque on the fixing screw. Such a pulley device temporarily locks the fixing screw relative to the spacer, for example the time of transport, until the final assembly of the device on an external support. In addition, it is possible to use standard design fastening screws that have no throat.
    In a preferred embodiment, said captive fastening means is interposed radially between the screw and the bore of the spacer.
    In one embodiment, the captive fastening means covers locally both the fastening screw and the spacer.
    In one embodiment, the captive fastening means is fully mounted within said cavity.
    The device may comprise one or more temporary blocking means. The locking means may be made in the form of rubber balls or fixing points made of synthetic material.
    In another embodiment, the cavity is discrete, that is to say that it extends within a given angular sector, for example between 20 ° and 60 °, and preferably between 35 ° and 45 °. Advantageously, the through bore of the spacer comprises a plurality of such cavities.
    Preferably, the pulley comprises an outer axial portion and an inner axial portion fixed on an outer ring of the bearing. Alternatively, the pulley can be made in one piece with the outer ring.
    According to another aspect, there is provided a method of assembling a pulley device for tensioner roller or belt or chain winder, in which is mounted a subassembly comprising a pulley, a bearing, a support member supporting said pulley and provided with a through bore, a fixing screw is introduced inside said bore of the support member, and the position of the fixing screw is maintained relative to the spacer by depositing at least captive fastening means of the screw within a cavity extending from the bore. An outer radial wall of said cavity has at least one portion inclined with respect to the axial direction of the pulley. Other objects, features and advantages of the invention will become apparent on reading the following description, given solely by way of nonlimiting example, and with reference to the appended drawings in which: FIG. 1 is a sectional view axial view of a pulley device according to a first embodiment of the invention, - Figure 2 is a detail view of Figure 1, - Figure 3 is an axial sectional view of a pulley device according to a second embodiment of the invention, and - Figure 4 is a side view of a pulley device according to a third embodiment of the invention.
    As can be seen in FIGS. 1 and 2, the pulley device for a tensioning or tensioning roller of a torque transmission means such as a belt or a chain, referenced as a whole, comprises a pulley 12, a rolling bearing 14 , of geometric axis 16, a spacer 18 of generally cylindrical shape and a fastening screw 20 coaxial with the axis 16. As will be described in more detail later, the device 10 comprises means provided to ensure a fixation or locking of the fixing screw 20 with respect to the spacer 18.
    The pulley 12 comprises an outer axial portion 24 having an outer surface intended to cooperate with a torque transmission means (not shown) such as a belt or a chain, an inner axial portion 26 and a radial annular intermediate portion 28 connecting said portions. The outer 24 and inner 26 portions are coaxial with the axis 16. Rigidification ribs 29 are also provided between the inner and outer axial portions 26 and 24 and are connected to the intermediate portion 28.
    The rolling bearing 14 comprises an inner ring 30, an outer ring 32, a row of rolling elements 34, here made in the form of balls, arranged between the races of the rings, and a cage 36 ensuring the maintenance of the circumferential spacing of the rolling elements 34. The rolling bearing 14 also comprises on each side an annular seal 38, 40 fixed on the outer ring 30 to close the radial space existing between the rings and inside which are housed the rolling elements 34 and the cage 36.
    In the exemplary embodiment illustrated, the inner and outer rings 30 and 32 are massive. The term "solid ring" means a ring whose shape is obtained by machining with chip removal (turning, grinding) from tubes, bars, forged blanks and / or rolled. The inner ring 30 has an axial outer surface 30a of revolution on which is formed the toroidal raceway for the rolling elements 34. The inner ring 30 also comprises a bore 30b fitted on the spacer 18 and two frontal radial surfaces 30c, 30d axially delimiting said bore and the outer surface. The outer ring 32 has a similar design.
    In the exemplary embodiment illustrated, the pulley 12 is obtained by overmolding on the outer ring 32 of a plastic material, such as a polyamide. This results in excellent cohesion between these parts. Alternatively, the pulley could be made of sheet metal and be fitted on the outer ring 32. In another variant, the pulley 12 and the outer ring 32 could be made in one piece. The spacer 18, with axis 16, comprises a cylindrical axial portion 42 on which is fitted the inner ring 30 of the rolling bearing 14, and which is extended, at one axial end, by a cylindrical axial portion 44 of more large diameter. An annular radial shoulder 46 is formed between the axial portions 42, 44 and forms an abutment surface against which axially bears the radial surface 30c of the inner ring 30. Axially on the opposite side to the radial shoulder 46, the axial portion 44 is delimited by a radial front surface 48 adapted to bear against an external support (not shown) to the device to allow mounting and fixing the device on said support. The support may for example be an engine block, an articulated arm or an eccentric of the associated automatic tensioner roller. The axial portion 44 extends in axial projection with respect to the pulley 12. Axially on the opposite side to the radial front surface 48, the axial portion 42 is delimited by a radial front surface 49. The spacer 18 is delimited axially by the radial surfaces 48, 49 front.
    In this embodiment, the axial dimension of the axial portion 42 is very slightly less than that of the inner ring 30. In this way, the radial surface 49 is slightly offset axially with respect to the radial surface 30d of the inner ring 30 The spacer 18 thus leaves the radial surface 30d completely free so that it can be used as a reference surface and bear against another surface. The spacer 18 comprises a cylindrical bore 50, of axis 16, inside which the fixing screw 20 extends. The fixing screw 20 can be adjusted with a greater or lesser radial clearance in the bore 50. The bore 50 is through. The bore 50 extends axially from the radial surface 49 to the radial surface 48.
    A cavity 52 extends from the bore 50. The cavity 52 here extends radially outwardly from said bore. In this example, the cavity 52 is in the form of a conical bore, that is to say a conical bore. The outer annular wall 52a of the cavity 52 is thus inclined and forms a chamfer. In the embodiment of Figure 1, the chamfer extends to the bore 50. In another embodiment, a flat bottom portion located in the radial plane with respect to the axis 16 could be provided. radially between the inclined wall 52a and the bore 50 accommodating the screw. As shown in Figure 2, the axial section of the cavity 52 has a conical shape.
    As illustrated more clearly in FIG. 2, the wall 52a inclined in the form of a chamfer is made on the bore 50 of the spacer 18, opening on the radial surface 48. The cavity 52 has a frustoconical shape, which 16, axis of smaller diameter equal to that of the bore 50. The taper angle or angle of inclination the wall inclined relative to the axis 16 may advantageously be between 10 ° and 40 °, and preferably between 25 ° and 35 °, and in particular equal to 30 °. In particular, this inclination angle of the outer radial wall 52a is small enough to cause a self locking effect opposing the release of the fastening screw.
    Referring again to FIG. 1, the fixing screw 20 comprises a clamping head 54 and a rod provided with a smooth portion 56 extending axially from the head and coming to center in the bore 50, and a threaded portion 58 opposite said head. The threaded portion 58 of the screw is projecting axially relative to the radial surface 48 of the spacer 18. It is intended to be inserted into a threaded hole formed in the support outside the device.
    As indicated above, the device 10 comprises means for ensuring the captive retention of the fastening screw. In the exemplary embodiment illustrated, these means are in the form of an O-ring 62 interposed radially between the screw 20 and the spacer 18 inside the chamfer of the cavity 52 of the spacer 18.
    The O-ring 62 is wedged between the inclined surface 52 of the cavity 52 and the securing screw 20 so that a self locking effect occurs at the moment when the fixing screw 20 is pulled in the direction of its head 54. The pulling force in this direction results in a radial clamping force between the O-ring and its contact surfaces. This force produces an increase in adhesion friction greater than the pulling force itself. As a result, the screw 20 can not be detached. During the final assembly of the device on a radial support, the screw 20 tends to move in the axial direction in which the clamping force is reduced. Thus, the friction of adhesion becomes too weak to interfere with the control of the tightening torque of the screw 20 at the time of final assembly of the device on its support.
    To assemble the pulley device, the procedure is as follows.
    First of all, a subassembly is made comprising the pulley 12, the rolling bearing 14 and the spacer 18. To do this, the pulley 12 is assembled with the outer ring 26 of the rolling bearing 14. the spacer 18 in the bore 30b of the inner ring 30 of the rolling bearing 14, until the shoulder 46 abuts against the radial front surface 30c. In a second step, the fixing screw 20 is introduced into the washer 60, then into the spacer 18 of the subassembly.
    In a third step, the O-ring 62 is mounted in the annular cavity 52 so that an axial play of the screw 20 is reduced to essentially zero. The O-ring 62 serves as a captive fastening means of the fastening screw 20 with respect to the spacer 18. This captive fastening means 62 provides a dual function of axial retention and circumferential retention of the screw 20.
    By providing a means 62 for captively fastening the fastening screw 20 to the spacer 18, a better tightening of the fastening screw 20 in its holder is allowed. Indeed, during the tightening of the fixing screw 20, when the radial front surface 48 abuts against the outer support, the captive fastening means 62 ceases to produce its effect. Since the fixing screw 20 is pivotable relative to the spacer 18, it is possible to tighten the latter more strongly.
    Furthermore, in the embodiment shown, the captive fastening means 62 is recessed or flush with the mounting surface 48 of the spacer 18 on its support. The absence of projecting elements with respect to the surface 48, apart from the fixing screw 20, facilitates the positioning of the pulley device against its support. However, in an alternative embodiment, it may be possible to provide captive attachment means 62 provided between the fixing screw 20 and the front surface 48 of the spacer.
    In addition, the pulley device 10 has the advantage of not requiring a particular design of the fastening screw.
    The second exemplary embodiment illustrated in FIG. 3, in which the identical elements have the same references, differs from the first example described in that the spacer and the inner ring of the bearing are replaced by a single element 30 comprising rolling tracks. . This element 30 is an inner ring projecting axially with respect to the outer ring. In addition, the bearing 14 is a ball bearing with two rows of balls.
    The cavity 52 receiving the captive fastening means 62 and the bore 18 is made directly in this modified inner ring 30.
    In a third embodiment illustrated in FIG. 4, in which the identical elements have the same references, the device comprises several captive fastening means having a double function of temporary locking means in the form of several fastening points 62 made of synthetic material. . The attachment points 62 are made of synthetic material, for example of polyamide material, for example deposited by overmolding. Alternatively, the synthetic material may be glue or silicone.
    By adjusting the amount of synthetic material deposited, it is possible to define a breaking level of the temporary locking of the screw 20 relative to the spacer 18. In other words, in this embodiment, the number of attachment points 62 and the amount of synthetic material deposited by fixing point 62 can advantageously be calculated so that the clamping action of the screw 20 performed manually by a user causes the locking of the screw 20 to break with respect to the spacer 18 .
    By against a tensile force in the axial direction of the head of the screw 20 causes a self-locking effect and a compression of the synthetic material so that a break is avoided. Consequently, this blocking is temporary and is effective only during storage and transport of the pulley device 10.
    As can be seen in FIG. 4, each attachment point 62 extends along the chamfer of the frustoconical cavity 52, inside an angular sector β about the axis 16. In this embodiment, the angle β is between 1 ° and 10 °, preferably between 1 ° and 5 °, and in particular substantially equal to 3 °. This local application of the means 62 captive fastening strengthens the temporary nature of the latter. Alternatively, each temporary captive fastening means 62 may be in the form of at least one continuous line of glue within the cavity 52, extending over a wider angular sector.
    In this embodiment, the device comprises three attachment points 62.
    However, it is not beyond the scope of the invention by applying a different number of attachment points 62, for example 1, 2, 4 or more.
    These locking means 62 are breakable to allow temporary locking of the screw 20, for example limited to the storage and transport of the pulley device 10.
    In another embodiment, the attachment points of the third embodiment are replaced by rubber balls pressed into the cavity.
    In other embodiments not illustrated, the device comprises at least one cavity extending within an angular sector strictly less than 360 °, and in this particular example between 35 ° and 45 °. Each cavity extends from the bore and has an inclined wall as described above. Advantageously, there are as many cavities as attachment points. Each attachment point is disposed within a cavity of its own. Preferably, identical cavities are provided on the support member and are spaced relative to each other in the circumferential direction, here in a regular manner. Such an embodiment is particularly advantageous in that the contact surface between the support element and its support is greater. The invention has been illustrated on the basis of a pulley device comprising a rolling bearing provided with an inner ring, an outer ring and at least one row of rolling elements arranged between the rings. Alternatively, the bearing may be of the sliding type and consist of an annular body, for example made of thermoplastic material, and may comprise radial grooves capable of being filled with lubricant. In another variant, the sliding bearing may comprise two tracks or rings sliding directly on one another.
    Finally, this solution provides a more economical and easier way to implement, further enabling attachment of the pulley device to its improved external support.
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    claims
    A pulley device (10) for a tensioner roller or a torque transmission means roller comprising a pulley (12), a bearing (14), a support member (18) rotatably supporting said pulley (14). and provided with a through bore (50), a fastening screw (20) extending within said bore (50) of the support member (18), at least one captive fastening means (62) of the fastening screw (20) relative to the support member (18), the support member (18) having a cavity (52) extending from the through bore of the support member (18) , said captive fastening means (62) being mounted at least partially inside said cavity, characterized in that an outer radial wall (52a) of said cavity (52) comprises at least one portion inclined with respect to the axial direction of the pulley (12).
    [2" id="c-fr-0002]
    2. Device (10) according to claim 1, wherein the cavity (52) opens on a radial surface (48) at an axial end of the support member (18) opposite a head (54) of the screw ( 20).
    [3" id="c-fr-0003]
    The device (10) of claim 2, wherein the cavity (52) widens in the direction of said radial surface (48).
    [4" id="c-fr-0004]
    4. Device (10) according to any one of the preceding claims, wherein said captive fastening means (62) is adapted to be wedged between said outer radial wall (52a) and an outer radial surface of the screw (20). fixation and that a tilt angle of the outer radial wall (52a) is sufficiently small to cause a self locking effect opposing the release of the fastening screw (20).
    [5" id="c-fr-0005]
    5. Device (10) according to any one of the preceding claims, wherein said fastening screw (20) comprises at least one threaded portion (58) and wherein said captive fastening means (62) locally covers the threaded portion ( 58) of said fixing screw (20).
    [6" id="c-fr-0006]
    6. Device (10) according to any one of the preceding claims, wherein said cavity (52) has an essentially frustoconical shape.
    [7" id="c-fr-0007]
    7. Device (10) according to any one of the preceding claims, wherein said support member (18) is a spacer supporting an inner ring (30) of said bearing.
    [8" id="c-fr-0008]
    8. Device (10) according to any one of the preceding claims, wherein said support member is made in one piece with an inner ring (30) of said bearing (14).
    [9" id="c-fr-0009]
    Apparatus (10) according to any one of the preceding claims, wherein the captive fastening means (62) is an O-ring.
    [10" id="c-fr-0010]
    10. A method of assembling a device (10) pulley for tensioner roller or retractor of torque transmission means, wherein a subset is mounted comprising a pulley (12), a bearing (14), a member carrier (18) supporting said pulley (14) and provided with a bore (50) therethrough, a fixing screw (20) is introduced into said bore (50) of the support member (18), and maintaining the position of the fastening screw (20) relative to the spacer (18) by removing at least one means (62) for locking (62) the screw (20) within a cavity (52) extending from the bore (50), characterized in that an outer radial wall of said cavity (52) has at least one portion inclined with respect to the axial direction.
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    同族专利:
    公开号 | 公开日
    US20170037953A1|2017-02-09|
    CN106438932A|2017-02-22|
    US10393252B2|2019-08-27|
    FR3039863B1|2018-03-02|
    CN106438932B|2021-05-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE10003208B4|2000-01-26|2005-01-27|Dr.Ing.H.C. F. Porsche Ag|Deflection or tensioning pulley for the belt drive of an internal combustion engine|
    DE10043840A1|2000-09-06|2002-03-14|Schaeffler Waelzlager Ohg|Deflection roller for a traction drive|
    DE10209673A1|2002-03-05|2003-09-18|Ina Schaeffler Kg|Roll for a belt drive|
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    EP2463538B1|2010-11-30|2013-09-25|Siemens Aktiengesellschaft|Shrink disc for friction-type connection of rotating machine components|
    FR2970755B1|2011-01-24|2015-09-11|Skf Ab|BELT TENSION ROLLER DEVICE AND ASSOCIATED ASSEMBLY METHOD|
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    CN203906687U|2014-05-06|2014-10-29|青岛铠硕纺机有限公司|Belt pulley locking structure and loom power transmission mechanism using same|
    FR3029586B1|2014-12-08|2018-03-30|Aktiebolaget Skf|PULLEY DEVICE|
    FR3037115B1|2015-06-02|2018-11-23|Aktiebolaget Skf|PULLEY DEVICE FOR TILT ROLLER OR ROLLER|FR3037115B1|2015-06-02|2018-11-23|Aktiebolaget Skf|PULLEY DEVICE FOR TILT ROLLER OR ROLLER|
    DE102017223317A1|2017-12-20|2019-06-27|Aktiebolaget Skf|Pulley device, in particular for a tensioning roller or roller|
    FR3078758B1|2018-03-06|2020-04-03|Aktiebolaget Skf|PULLEY DEVICE FOR TENSIONER OR ROLLER|
    法律状态:
    2016-08-25| PLFP| Fee payment|Year of fee payment: 2 |
    2017-02-10| PLSC| Publication of the preliminary search report|Effective date: 20170210 |
    2017-08-28| PLFP| Fee payment|Year of fee payment: 3 |
    2018-08-29| PLFP| Fee payment|Year of fee payment: 4 |
    2019-08-28| PLFP| Fee payment|Year of fee payment: 5 |
    2020-08-24| PLFP| Fee payment|Year of fee payment: 6 |
    2021-08-26| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1557574A|FR3039863B1|2015-08-06|2015-08-06|PULLEY DEVICE FOR TILT ROLLER OR ROLLER|FR1557574A| FR3039863B1|2015-08-06|2015-08-06|PULLEY DEVICE FOR TILT ROLLER OR ROLLER|
    CN201610622083.7A| CN106438932B|2015-08-06|2016-08-01|Pulley device for a tension or winding roller|
    US15/228,510| US10393252B2|2015-08-06|2016-08-04|Pulley device for tensioner roller or winding roller|
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