FOLLOWING ROLL DEVICE OF A CAM

专利摘要:
The follower cam follower device comprises a body 12, a shaft 16 mounted on the body 12, a roller 14 mounted on said shaft and rotatable, and a plain bearing 22 interposed radially between the shaft 16 and the roller 14. An outer surface 22a and / or an inner surface 22b of the plain bearing comprises a plurality of cavities 24. The ratio between the sum of the areas of the cavities and the total area of said outer surface, or said inner surface, on which are formed said cavities are between 2% and 40%. Said cavities have a depth of between 0.5 microns and 5 microns.
公开号:FR3013792A1
申请号:FR1361620
申请日:2013-11-26
公开日:2015-05-29
发明作者:Benoit Hauvespre；Aurelien Ghilbert-Simon
申请人:SKF AB；
IPC主号:

专利说明:

[0001] The present invention relates to the field of cam follower devices used in automotive or industrial applications. An interesting application of the invention relates to the use of the cam follower device in a fuel injection pump for an internal combustion engine, especially a motor vehicle such as a motor vehicle or truck. Such a device comprises a pusher or body and a roller rotatably mounted on the body and designed to cooperate with a cam synchronized with the camshaft of the internal combustion engine so that the rotation of the camshaft causes a displacement. period of a piston of the injection pump bearing against said body to allow a fuel dispensing. Another interesting application of the invention relates to the use of the device in a rocker system provided for the control of valves of a piston internal combustion engine. In this application, the roller of the device is provided to cooperate in rotation with a camshaft cam of the internal combustion engine so that the rotation of the camshaft causes a periodic pivoting of a body of the device or d a rocker arm to actuate the opening and closing of engine valves. For these devices, it is generally provided, during operation of the internal combustion engine, a continuous supply of oil to lubricate the roller and / or a support shaft of the roller. In order to reduce the costs associated with the use of such devices, it is desirable to minimize the flow of lubricating oil. In addition, in certain applications, the cam follower devices must be operational even during transient periods in which the oil supply is interrupted or in which the oil has not yet reached the zone or areas to be lubricated, for example when starting the combustion engine.
[0002] It is an object of the present invention to provide a cam follower device which satisfies these requirements. More particularly, the present invention aims to provide a device requiring a limited supply of lubricant. The present invention also aims to provide a device easy to manufacture, to assemble, limited size and having a limited number of components. In one embodiment, the cam follower roller device comprises a body, a shaft mounted on the body, a roller mounted on said shaft and rotatable, and a sliding bearing radially interposed between the shaft and the roller. An outer surface and / or an inner surface of the plain bearing comprises a plurality of cavities. The ratio between the sum of the areas of the cavities and the total area of said outer surface, or of said inner surface, on which said cavities are formed is between 2% and 40%.
[0003] Said cavities have a depth of between 0.5 micrometer (μm) and 5 micrometers (1.1m). Preferably, said ratio is between 5% and 15%. The cavities may have a profile shaped spherical cap. The diameter of the cavities may for example be between 20 μm and 80 μm. In one embodiment, the inner surface of the plain bearing is mounted radially in contact with an outer bearing surface of the shaft. Alternatively or in combination, the outer surface of the plain bearing can be mounted radially in contact with an inner surface of the roller. In one embodiment, an outer bearing surface of the shaft for mounting the plain bearing and / or an inner surface of the roller may include a plurality of cavities. The ratio between the sum of the areas of the cavities and the total area of said outer bearing surface of the shaft, or of said inner surface of the roller, on which said cavities are formed may advantageously be between 2% and 40%, said cavities having a depth of between 0.5 μm and 5 μm.
[0004] In one embodiment, the surface or surfaces of the plain bearing provided with the cavities are covered by a surface treatment which may consist of a carbon-based coating layer, such as amorphous diamond-like carbon which is known internationally as the designation DLC, or in a tungsten disulfide (WS2) coating layer, or in a black oxidizing oxidation. In one embodiment, the ends of the shaft are fixed in holes of the body. Alternatively, the device may further comprise a support fixed on the body and provided with open supports supporting the ends of the shaft. The present invention will be better understood on reading the detailed description of embodiments taken by way of non-limiting examples and illustrated by the appended drawings, in which: FIG. 1 is a sectional view of a roller device cam follower according to a first example of the invention, - Figure 2 is a detail view illustrating the outer surface of a sliding bearing of the device of Figure 1, and - Figure 3 is a sectional view of a follower follower device according to a second example of the invention. In Figure 1, there is shown a cam follower device, designated by the general reference numeral 10, which may for example be used in a fuel injection pump for an internal combustion engine.
[0005] The device 10 comprises a pusher or body 12 and a roller 14 mounted to rotate relative to the body and intended to bear against a cam synchronized with the camshaft of the internal combustion engine or directly against a cam of said shaft. The body 12 defines a recess 12a open towards the outside and inside which is mounted the roller 14. The roller 14 extends radially projecting outside the body 12. The body 12 may advantageously be obtained at low cost by forging or cutting, stamping and bending from a thin sheet metal flank. The device 10 also comprises a shaft 16, of geometric axis 16a, mounted on the body 12 and supporting the roller 14. The support shaft 16 comprises an axial cylindrical outer surface 16b around which the roller 14 is mounted. shaft 16 extends axially on either side of the roller 14. The ends of the shaft 16 are mounted inside holes 18, 20 through the formed on the body 12 axially facing one with respect to the 'other. The shaft 16 is fixed by any appropriate means on the body 12. The portion of the outer surface 16b left free by the body 12 forms an outer mounting surface. The outer span is located axially between the ends of the shaft 16 housed inside the holes 18, 20 of the body. The roller 14 comprises an axial cylindrical bore 14a forming an inner surface, and an outer axial cylindrical surface 14b radially opposite said bore. The outer surface 14b of the roll forms a contact surface intended to bear against the associated cam of the internal combustion engine. The device 10 also comprises a smooth bearing 22 interposed radially between the roller 14 and the shaft 16. The bearing 22 smooth has an annular sleeve shape and is coaxial with the roller 14 and the shaft 16. The bearing 22 comprises a surface axial cylindrical outer ring 22a mounted radially in contact with the bore 14a of the roller, and an opposite axial cylindrical bore 22b mounted radially in direct contact with the outer bearing surface of the shaft 16. The roller 14 is mounted on the shaft 16 by the 22. The outer bearing surface of the shaft 16 forms a bearing surface for the sliding bearing 22 which supports the roller 14. The bearing 22 can be fixed on the roller 14, or on the shaft 16 or mounted free to rotate between them. The roller 14 is rotatably mounted relative to the outer bearing surface of the shaft 16. In the exemplary embodiment illustrated, the roller 14 is also mounted free in translation with respect to said outer bearing surface of the shaft.
[0006] In order to be able to reduce the lubricant flow rate provided for the roller 14, the shaft 16 and the sliding bearing 22 while allowing operation without lubricant supply during transient periods, a plurality of cavities 24 (FIG. 2) is formed on the outer surface 22a of the bearing. The cavities 24 are formed from the outer surface 22a and extend radially inwardly. The cavities 24 are oriented radially outwards and open towards the bore 14a of the roller. The cavities 22 form concave recesses formed on the outer surface 22a of the bearing and are substantially substantially identical to each other. The cavities 24 may be formed by a method of mechanical impact treatment of the shot blasting type with balls made for example of steel, ceramic or glass. The cavities 24 are distributed on the outer surface 22a of the bearing so that the ratio between the sum of the areas of the walls delimiting the cavities 24 and the total area of said surface is between 2% and 40%. Preferably, said ratio is between 5% and 15%. In addition, the cavities 24 have a depth of between 0.5 μm and 5 μm. In the exemplary embodiment illustrated, the cavities 24 have a spherical cap-shaped profile. The cavities 24 may have, on the outer surface 22a of the bearing, a diameter between 20 i.tm and 80 i.tm. Under normal lubrication conditions, the grooves 24 of the sliding bearing are filled with lubricant and form reservoirs which can then allow diffusion of the lubricant contained during transitional periods in which the contact zone between the roller 14 and the sliding bearing 22 n is more lubricated. The Applicant has determined that with a recovery rate and a depth as defined above for the cavities 24, it is possible to reduce the lubricant flow to be provided under normal lubrication conditions while maintaining satisfactory operation during transitional periods. without lubricant supply. The risks of premature wear, galling and energy losses by friction are thus significantly reduced. In addition, the frictional torque between the roller 14 and the sliding bearing 22 is also reduced. Advantageously, it is possible to further provide cavities on the bore 22b of the plain bearing which are formed from said bore and extend radially outwards. Such cavities are oriented radially inward and open towards the outer surface 16a of the shaft. The recovery ratio defined by the ratio between the area of the cavities and the area of the bore 22b of the bearing and the depth of the cavities are identical to those previously defined for the outer surface 22a of said bearing.
[0007] Thus, the lubricant flow rate to be provided can be further reduced. In an alternative embodiment, it may be possible to provide cavities only on the bore 22b of the plain bearing. In another variant embodiment, it could still be possible to provide at least the range of the outer surface 16a of the shaft on which the sliding bearing 22 is mounted, and / or the bore 14a of the roller, a plurality cavities for forming lubricant reserves identical to those provided on the outer surface 22a and / or the bore 22b of the bearing. The exemplary embodiment illustrated in FIG. 3, in which the identical elements bear the same references, differs mainly from the first exemplary embodiment described in that the device 10 comprises a support 26 mounted axially in abutment against a bottom wall 12b of the body and comprising bearings or supports 26a, 26b open and oriented radially outwardly. The support 26 is fixed on the body 12 by any appropriate means. The supports 26a, 26b have a semi-circular profile open radially outwardly with a diameter corresponding to the diameter of the shaft 16. The shaft 16 is mounted radially in contact against the supports 26a, 26b of the support. A circlip 28 is fixed on the shaft 16 and axially bears against the plain bearing. In this embodiment, the device 10 also comprises an annular retaining ring 30 fixed to the end of the body 12 to retain the roller 14 relative to said body during the transport and assembly of the device 10. In the illustrated example, the retaining ring 30 is an insert and attached to the body 12. Alternatively, it may be possible to form at the end of the body 12 or local deformations of material so as to prevent movement of the roller 14 out of the body 12 after assembly. In this embodiment, identical to the first embodiment, at least the outer surface 22a of the plain bearing on which is mounted the roller and / or the bore 22a of said bearing comprise cavities as defined above.
[0008] The present invention has been illustrated on the basis of a cam follower device which can for example be used in a fuel injection pump for an internal combustion engine. It is also possible, without departing from the scope of the invention, to provide a cam follower device in a rocker arm system which is used for valve control of an internal combustion engine, and which comprises a shaft, a roller and a plain bearing as defined above.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. A cam follower roller device comprising a body (12), a shaft (16) mounted on the body (12), a roller (14) mounted on said shaft and rotatable, and a plain bearing (22) interposed radially between the shaft (16) and the roller (14), characterized in that an outer surface (22a) and / or an inner surface (22b) of the plain bearing comprise a plurality of cavities (24), the ratio of the sum areas of the cavities and the total area of said outer surface, or of said inner surface, on which said cavities are formed between 2% and 40%, said cavities having a depth of between 0.5 μm and 5 μm; .TM.
[0002]
2. Device according to claim 1, wherein said ratio is between 5% and 15%.
[0003]
3. Device according to claim 1 or 2, wherein the cavities (24) have a profile shaped spherical cap.
[0004]
4. Device according to claim 3, wherein the diameter of the cavities (24) is between 20 i.tm and 80 i.tm.
[0005]
5. Device according to any one of the preceding claims, wherein the inner surface (22b) of the sliding bearing is mounted radially in contact with an outer bearing surface of the shaft (16).
[0006]
6. Device according to any one of the preceding claims, wherein the outer surface (22a) of the sliding bearing is mounted radially in contact with an inner surface (14a) of the roller.
[0007]
Apparatus according to any one of the preceding claims, wherein an outer bearing surface of the shaft (16) for mounting the plain bearing and / or an inner surface (14a) of the roller comprises a plurality of cavities.
[0008]
8. Device according to claim 7, wherein the ratio between the sum of the areas of the cavities and the total area of said outer bearing surface of the shaft, or said inner surface of the roller, on which said cavities are formed is between 2% and 40%, said cavities having a depth of between 0.5 nm and 5 nm.
[0009]
9. Device according to any one of the preceding claims, wherein the ends of the shaft (16) are fixed in holes (18, 20) of the body.
[0010]
10.Dispositif according to any one of claims 1 to 8, further comprising a support (26) fixed on the body and provided with supports (26a, 26b) open supporting the ends of the shaft (16).

类似技术:

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同族专利:

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公开号 | 公开日

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FR3013792B1|2016-01-01|

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US20150143947A1|2015-05-28|

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US9777820B2|2017-10-03|

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CN104675465A|2015-06-03|

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CN104675465B|2019-04-16|

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DE102014116679A1|2015-05-28|

引用文献:

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DE102010022318B4|2010-06-01|2017-09-07|Schaeffler Technologies AG & Co. KG|roller plunger|FR2998629B1|2012-11-29|2015-07-03|Skf Ab|FOLLOWING ROLL DEVICE OF A CAM|

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法律状态:
2015-11-30| PLFP| Fee payment|Year of fee payment: 3 |

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2016-11-29| PLFP| Fee payment|Year of fee payment: 4 |

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2017-11-29| PLFP| Fee payment|Year of fee payment: 5 |

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2019-11-27| PLFP| Fee payment|Year of fee payment: 7 |

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2020-11-26| PLFP| Fee payment|Year of fee payment: 8 |

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2021-11-26| PLFP| Fee payment|Year of fee payment: 9 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1361620A|FR3013792B1|2013-11-26|2013-11-26|FOLLOWING ROLL DEVICE OF A CAM|FR1361620A| FR3013792B1|2013-11-26|2013-11-26|FOLLOWING ROLL DEVICE OF A CAM|

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DE102014116679.5A| DE102014116679A1|2013-11-26|2014-11-14|Device of a cam follower roll|

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US14/554,390| US9777820B2|2013-11-26|2014-11-26|Cam follower roller device|

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CN201410696179.9A| CN104675465B|2013-11-26|2014-11-26|Cam driven roller arrangement|