DE102007018686A1 - Cam follower bearing device - Google Patents

Abstract

The invention relates to a cam follower bearing device having at least a first and a second bearing body (10, 12) which are coupled via sliding bearing surfaces (14, 16). It is proposed that at least one bearing body (10, 12) has at least one differentiated compensating means (18, 20, 22, 24, 26), which is intended to compensate at least partially for an operational deformation.

Description

Field of the invention

The The invention is based on a cam follower bearing device with the Features of the preamble of claim 1.

Background of the invention

From the publication DE 198 29 269 A1 For example, there is known a generic cam follower bearing apparatus having a first bearing body formed by a roller and a second bearing body formed by an axle, which are coupled via slide bearing surfaces. The sliding bearing surface of the roller is formed by a cylindrical inner surface, while the sliding bearing surface of the axis is formed by a cylindrical outer surface.

Object of the invention

Of the The invention is in particular the object of a cam follower storage device to provide that cost and with low wear properties can be executed.

Description of the invention

The Task is according to the invention by the features of claim 1. Further embodiments result from the dependent claims.

The The invention is based on a cam follower bearing device with at least a first and a second bearing body, the over Sliding bearing surfaces are coupled.

It It is proposed that at least one bearing body at least has a differentiated compensation means provided for this purpose is to compensate for an operational deformation at least partially. By "differentiated" is meant in particular be that a compensation function of the compensation means in particular formed by a changing size is, as in particular by a changing in at least one direction Dimension, hardness, type of material, alloy, etc., and the The term "differentiated" is intended in particular to be a delimitation represent uniform means, such as especially against uniform hardening a storage area that in its entirety undergoes a hardening process was subjected. Under an "operational" deformation in particular, an adjusting in operation under a load Deformation, in particular an elastic deformation understood become. By "equalize" is meant in particular be that operational deformations and / or their undesirable Effects are at least reduced. Furthermore, under "provided" especially specially equipped and / or designed understood become.

By a corresponding embodiment can be operational Deformations at least partially compensated and conditional unwanted effects are at least reduced. Especially can be an advantageous uniform lubrication gap between the sliding bearing surfaces for a hydrodynamic Lubrication and thus an advantageously uniform Load can be achieved. Due to the advantageous lubrication gap and the even load can Cost-effective materials are used and it can be cost-intensive Slide bearing materials are dispensed with. Particularly advantageous while at least two sliding bearing surfaces at least partially made of metallic materials, for example, can a sliding bearing surface made of cast iron and a sliding bearing surface be formed of steel, or are particularly advantageous at least two corresponding sliding bearing surfaces at least partially made of steel. Preferably, at least one sliding bearing surface at least partially formed by a coating. Under "steel" should be understood in particular an iron-carbon compound which contains less than 2.06 weight percent carbon and their mass fraction of iron is greater than that of each other element. Under "cast iron" is in particular a Iron-carbon compound with higher compared to steel Be understood Kohl enstoffanteilen.

In Another embodiment of the invention proposes that the compensating means is formed by a molding. It should under a "molding" in particular a special, for Balancing the deformation provided shaping can be understood. By means of a corresponding shaping, the compensating means structurally simple and inexpensive to be realized.

One particularly effective compensation can be achieved structurally simple be if at least one storage area at least one Bearing body having the shape, with particular preference the Bearing surface with the formation of a sliding bearing surface is formed.

In Another embodiment of the invention proposes that the formation is curved at least partially transversely to a sliding direction, in particular at least partially convex and particularly preferred at least substantially logarithmic and / or at least substantially is formed circular segment-like. Under a "sliding direction" it should be understood a direction in which a main relative movement takes place between the sliding bearing surfaces.

there should under "at least essentially logarithmic" or "at least essentially circular-segmented "in particular that the curvature is less than 10% and preferably less as 1% of a logarithmically determined curve or of a circle segment differs, and more preferably under neglect of tolerances corresponds to a corresponding curve. By a corresponding embodiment may be an advantageous harmonic transition be achieved. A dimension deviation resulting from the formation or a resulting contour deviation is preferably in a range between 0.1 and 10 per mils of the diameter of the corresponding Bearing body. An axial length of the formation is preferably less than or equal to 40% of a total axial bearing surface length of Bearing body.

Preferably is at least one bearing body of a ring, in particular formed by a roller, whereby a favorable coupling with a cam can be achieved. Does the ring the sliding bearing surface with the shaping on, the compensating means can be particularly constructive easily realized and it can ensure an advantageous installation become. Basically, however, it is also conceivable that the with the ring corresponding bearing body a compensating means having.

Further It is suggested that the sliding bearing surface of the ring has an at least substantially cylindrical portion, whereby an advantageous coupling between the bearing bodies, In particular, an advantageous leadership of the ring achieved can be, especially if the cylindrical portion in an axially middle region and the formation in an axially outer Area is arranged and / or if the cylindrical portion is at least 20% of a total ring width of the ring. The molding preferably closes at least approximately tangential to the cylindrical portion. Under "im Essentially cylindrical "is intended in this context in particular be understood that the subarea neglected is formed by tolerances cylindrical.

is the sliding bearing surface of the ring in the axial direction mirror-symmetrical trained, this can be structurally simple and in particular simply an advantageous pressure distribution can be achieved.

In Another embodiment of the invention proposes that the bearing surface with the formation of a radial outer surface is formed of the ring, in particular of a storage area, by means of which the ring is coupled directly or indirectly with a cam is. By an appropriate configuration, in turn, an advantageous Compensatory be created. Preferably, the molding is curved at least partially transversely to a sliding direction formed and in particular the shape of a crowned Design formed a radius between 120 mm to 11,500 may have mm.

Further It is suggested that the compensatory means vary from a Hardness of a bearing surface, in particular a sliding bearing surface is formed, whereby operational deformations and / or their undesirable effects can be reduced structurally can. In this case, preferably, a partial area of the bearing surface at least 10% and preferably at least 25% softer than a other part of the storage area.

Brief description of the drawings

Further Advantages are shown in the following description of the drawing. In the drawing is an embodiment of the invention shown. The drawing, the description and the claims contain numerous features in combination. The skilled person will become the characteristics expediently also consider individually and to summarize meaningful further combinations.

Detailed description the drawings

1 shows a schematically illustrated cam follower bearing device with a first bearing body formed by a ring or a roller 10 and a second bearing body formed by an axle 12 , which are made of steel slide bearing surfaces 14 . 16 are coupled. Instead of a two-part embodiment shown also embodiments are conceivable that have even more bearing body, such as in particular an intermediate ring. The cam follower bearing device has a pressure oil supply, not shown, which is provided to supply pressure oil in a region of a substantially load-free zone. Additionally or alternatively, it is also conceivable that the cam follower bearing device itself supplies itself with lubricant via engine oil usually present in the cylinder head.

The bearing bodies 10 . 12 have differentiated compensatory means 18 . 20 . 22 . 24 . 26 on, which are intended to an operational deformation, in particular in a central region of the bearing body 12 to at least largely compensate.

The bearing body 10 has three compensating means formed by formations 18 . 20 . 22 on, and indeed has the sliding bearing surface 14 two transverse to a sliding direction 30 curved, namely convex formations on and one of a Radial outer surface of the ring formed bearing surface 28 has a transverse to the sliding direction 30 curved, namely convex shape on. It should be noted that the formations, in particular those of the sliding bearing surface 14 , are exaggerated for illustrative purposes.

The curvature of the storage area 28 has a radius of about 150 mm. The formations of the sliding bearing surface 14 . 16 are formed logarithmic, so that there is an inner diameter difference h of about 0.06 mm. The sliding bearing surface 14 of the ring has a cylindrical portion 32 on, which is arranged in an axially central region, while the compensating means formed by the formations 20 . 22 are arranged in axially outer regions of the ring. The cylindrical part 32 shows about 30% of a total ring width 34 on. Here is the sliding bearing surface 14 of the ring in the axial direction 36 or to a perpendicular to the axial direction 36 standing central axis 44 formed mirror-symmetrically.

Furthermore, the bearing body 12 compensation means 24 . 26 due to a varying hardness of the sliding bearing surface 16 are formed, and that has the sliding bearing surface 16 in its axially outer region by about 30% lower hardness than in its central region, wherein a sum of axial lengths 38 . 40 the two balancing means 24 . 26 approx. 30% of a total axial length 42 the sliding bearing surface 16 is. The sum of the axial lengths 38 . 40 can be up to 35% of the total axial length 42 be. The different hardnesses are realized by different heat treatment methods. In principle, it is also conceivable that different bearing bodies of the camshaft bearing device are subjected to different heat treatment methods, in particular to support and / or realize balancing means in their function.

The storage areas 14 . 16 . 28 are each made of a base material of the respective bearing body 10 respectively. 12 , made of steel. In principle, however, it would also be conceivable that the storage areas 14 . 16 . 28 are at least partially formed by a coating that support a compensating agent in its function and / or can even form a compensating means. In particular, it is advantageous for an axially middle region of the sliding bearing surface 16 is formed by a coating.

The camshaft bearing device has a bearing clearance s of approximately 1 per thousand of a diameter d of the bearing body 12 on, wherein the bearing clearance s by a distance in the unloaded state between the cylindrical portion 32 and the sliding bearing surface 16 is determined. Basically, the bearing clearance s in a two-part embodiment shown is advantageously in a range between 0.4 and 10 parts per thousand of the diameter d of the bearing body 12 and in a three-part embodiment with an outer ring, an intermediate ring and a bearing body formed by an axis advantageously in a range between 0.2 and 10 parts per thousand of a diameter of the respective inner part.

By the compensation means 18 . 20 . 22 . 24 . 26 becomes the operational elastic deformation of the bearing body 12 , And that a diameter reduction in the central region of the sliding bearing surface 16 , at least largely balanced, so that between the bearing bodies 10 . 12 or the sliding bearing surfaces 14 . 16 sets a uniform lubrication gap for an advantageous hydrodynamic lubrication and thus an advantageously uniform load can be achieved.

10

bearing body

12

bearing body

14

friction bearing surface

16

friction bearing surface

18

compensation means

20

compensation means

22

compensation means

24

compensation means

26

compensation means

28

storage area

30

sliding

32

subregion

34

Total ring width

36

axially

38

axial length

40

axial length

42

Axialgesamtlänge

44

central axis

s

bearing clearance

H

Inner diameter difference

d

diameter

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19829269 A1 [0002]

Claims (17)

Cam follower bearing device with at least a first and a second bearing body ( 10 . 12 ), which have sliding bearing surfaces ( 14 . 16 ), characterized in that at least one bearing body ( 10 . 12 ) at least one differentiated compensatory means ( 18 . 20 . 22 . 24 . 26 ), which is intended to compensate for an operational deformation at least partially. Cam follower bearing device according to claim 1, characterized in that at least two corresponding sliding bearing surfaces ( 14 . 16 ) are formed at least partially of metallic materials. Cam follower bearing device according to claim 2, characterized in that at least two corresponding sliding bearing surfaces ( 14 . 16 ) are formed at least partially of steel. Cam follower bearing device according to one of the preceding claims, characterized in that the compensating means ( 18 . 20 . 22 ) is formed by a molding. Cam follower bearing device according to claim 4, characterized in that at least one bearing surface ( 28 . 14 ) at least one bearing body ( 10 ) has the shape. Cam follower bearing device according to claim 5, characterized in that the bearing surface with the formation of a sliding bearing surface ( 14 ) is formed. Cam follower device at least according to claim 4, characterized in that the formation at least partially transverse to a sliding direction ( 30 ) is curved. Cam follower device at least according to claim 4, characterized in that the formation at least partially transverse to a sliding direction ( 30 ) is convex. Cam follower bearing device according to claim 7 or 8, characterized in that the formation transverse to the sliding direction ( 30 ) is formed at least substantially logarithmically and / or at least substantially circular segment-like. Cam follower bearing device according to one of the preceding claims, characterized in that at least one bearing body ( 10 ) is formed by a ring. Cam follower device at least according to claim 4 and 10, characterized in that the ring, the sliding bearing surface ( 14 ) having the shape. Cam follower bearing device at least according to claim 11, characterized in that the sliding bearing surface ( 14 ) of the ring an at least substantially cylindrical portion ( 32 ) having. Cam follower device at least according to claim 4 and 12, characterized in that the cylindrical portion ( 32 ) is arranged in an axially central region and the formation in an axially outer region. Cam follower bearing device according to claim 12 or 13, characterized in that the cylindrical portion ( 32 ) at least 20% of a total ring width ( 34 ) of the ring. Cam follower bearing device at least according to claim 10, characterized in that the sliding bearing surface ( 14 ) of the ring in the axial direction ( 36 ) is mirror-symmetrical. Cam follower device at least according to claim 4 and 10, characterized in that the bearing surface ( 28 ) is formed with the formation of a radial outer surface of the ring. Cam follower bearing device according to one of the preceding claims, characterized in that the compensating means ( 24 . 26 ) of a varying hardness of a bearing surface ( 16 ) is formed.