DEVICE FOR ROTATABLE MOUNTING OF A CAMSHAFT

Abstract

A device for rotatable mounting of a camshaft of an internal combustion engine. The device includes a first bearing body with a receiver for rotatable mounting of the camshaft. The device has a cylinder head or a fixing frame for fixing the first bearing body. The device has a first fixing means which fixes the first bearing body to the cylinder head or fixing frame. The first fixing means is the sole fixing means which fixes the first bearing body to the cylinder head or fixing frame.

Claims

1. A device for rotatable mounting of a camshaft of an internal combustion engine, comprising: a first bearing body with a receiver for rotatable mounting of the camshaft; a cylinder head or a fixing frame for fixing the first bearing body; and a first fixing means which fixes the first bearing body to the cylinder head or the fixing frame, wherein the first fixing means is the sole fixing means which fixes the first bearing body to the cylinder head or the fixing frame.

2. The device according to claim 1, wherein: the first fixing means is a fixing screw; or the first fixing means fixes the first bearing body to the cylinder head or the fixing frame by force fit and form fit; or the first fixing means is a releasable fixing means.

3. The device according to claim 1, wherein the first bearing body forms a one-piece bearing block for mounting the camshaft.

4. The device according to claim 1, further comprising a second bearing body with a receiver for mounting the camshaft, wherein: the first bearing body and the second bearing body together form a two-piece bearing block; and the receiver of the first bearing body and the receiver of the second bearing body form a common receiver for the camshaft.

5. The device according to claim 4, wherein: the first bearing body and the second bearing body are fixed together, preferably by force fit and form fit, via a second fixing means, in particular a second fixing screw.

6. The device according to claim 5, wherein the second fixing means is a second fixing screw.

7. The device according to claim 4, wherein: the first fixing means also fixes the second bearing body to the cylinder head or the fixing frame.

8. The device according to claim 4, further comprising at least one positioning element which is arranged between the first bearing body and the second bearing body for positioning the first bearing body relative to the second bearing body.

9. The device according to claim 8, wherein the at least one positioning element arranged between the first bearing body and the second bearing body comprises a positioning dowel, an adapter sleeve surrounding the first fixing means or an adapter sleeve surrounding the second fixing means.

10. The device according to claim 4, further comprises: at least one positioning element which is arranged between the first bearing body or the second bearing body on one side and the cylinder head or the fixing frame on the other, for positioning the first or second bearing body relative to the cylinder head or fixing frame; or the device comprises no positioning element for positioning the first or second bearing body relative to the cylinder head or the fixing frame.

11. The device according to claim 10, wherein the at least one positioning element arranged between the first or second bearing body and the cylinder head or fixing frame comprises a positioning dowel or an adapter sleeve which surrounds the first fixing means.

12. The device according to claim 1, furthermore comprising: a rocker arm shaft for rotatable mounting of a rocker arm, wherein the first fixing means additionally fixes the rocker arm shaft to the cylinder head or the fixing frame.

13. The device according to claim 12, wherein: the first bearing body has a receiver for the rocker arm shaft which is arranged on a side of the first bearing body opposite the cylinder head or fixing frame; or a longitudinal channel of the rocker arm shaft for lubricating fluid is fluidically connected to the receiver for the camshaft of the first bearing body, preferably via a branch channel of the first bearing body and a branch channel of the rocker arm shaft.

14. The device according to claim 1, wherein the fixing frame or the cylinder head has a hole, in particular a blind hole or a passage hole, with a thread for force-fit and form-fit fixing of the first bearing body to the fixing frame or cylinder head by means of the first fixing means.

15. The device according to claim 1, wherein: the first bearing body is configured asymmetrically relative to a vertical plane through a central longitudinal axis of the receiver for the camshaft; or the first fixing means generates a tilting moment to support the first bearing body on a contact face of the cylinder head or the fixing frame.

16. A motor vehicle comprising: a device for rotatable mounting of a camshaft of an internal combustion engine, the device including, a first bearing body with a receiver for rotatable mounting of the camshaft; a cylinder head or a fixing frame for fixing the first bearing body; and a first fixing means which fixes the first bearing body to the cylinder head or the fixing frame, wherein the first fixing means is the sole fixing means which fixes the first bearing body to the cylinder head or the fixing frame.

17. The motor vehicle of claim 16, wherein the motor vehicle is a utility vehicle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0044] Further details and advantages of the present disclosure are described below with reference to the enclosed drawings. The drawings show:

[0045] FIG. 1 a sectional view through a device for rotatable mounting of a camshaft; and

[0046] FIG. 2 a sectional view through a device for rotatable mounting of a camshaft according to a further exemplary embodiment.

[0047] The embodiments shown in the figures correspond at least partially, so similar or identical parts carry the same reference signs and, for their explanation, reference is also made to the description of the other embodiments or figures, in order to avoid repetition.

DETAILED DESCRIPTION

[0048] FIG. 1 shows a device 10 for rotatable mounting of a camshaft 12. The device 10 comprises a bearing body 14, a cylinder head 16, a fixing screw 18 and a rocker arm shaft 20.

[0049] The device 10 may be used in any internal combustion engine for mounting the camshaft 12. The internal combustion engine may for example be contained in a motor vehicle, in particular a utility vehicle. The utility vehicle may for example be a truck or a bus.

[0050] The bearing body 14 is configured as a one-piece bearing block. The bearing body 14 has a receiver 22 for the camshaft 12. The camshaft 12 may be mounted rotatably in the receiver 22 via a plain bearing. The receiver 22 is a cylindrical passage bore of the bearing body 14. The camshaft 12 is an assembled camshaft. A cylindrical portion of the camshaft 12 is inserted in the receiver 22 when the camshaft 12 is in the disassembled state. The camshaft 12 is then assembled. For rotatable mounting of the camshaft 12, a plurality of bearing bodies 14 is provided along a longitudinal axis of the camshaft 12. The camshaft 12 is arranged as an overhead camshaft (OHC).

[0051] The bearing body 14 is attached (fixed) to the cylinder head 16 via the fixing screw 18. In detail, the fixing screw 18 passes through a passage hole 24 of the bearing body 14. The fixing screw 18 is screwed into a thread of a blind hole 26 of the cylinder head 16. The blind hole 26 extends into a casting extension (casting protrusion) 27 which is formed in particular for provision of the blind hole 26 or a passage hole.

[0052] It should be emphasised here that the fixing screw 18 is the sole fixing screw which fixes the bearing body 14 to the cylinder head 16. Conventional bearing blocks use at least two or four fixing screws for fixing the bearing body to the cylinder head.

[0053] It has been found that the fixing screw 18 is sufficient as the sole fixing screw for the bearing body 14. For example, in embodiments in which a rocker arm is used, the camshaft 12 is pressed down during operation by the cam follower of the rocker arm. The own weight of the camshaft 12 also acts downward. The camshaft 12 thus has no tendency to lift, together with the bearing body 14, from the cylinder head 16. Also, the screw force of the fixing screw 18 and a unilateral material region next to the fixing screw 18 (on the left in FIG. 1) generate a tilting moment on a contact face 29 of the cylinder head 16, which holds the first bearing body 14 securely on the cylinder head 16.

[0054] One advantage of using a single fixing screw 18 is the more compact dimensioning of the bearing body 14 and the saving of costs for further fixing screws. In detail, the bearing body 14, starting from the receiver 22, need have a material region for receiving the fixing screw 18 on just one side. On the opposite side, the bearing body 14 may terminate directly with a wall region adjacent to the receiver 22. Thus the bearing body 14 may be better adapted to the installation space available. In particular, the bearing body 14 may be configured asymmetrically relative to a vertical plane through a central longitudinal axis of the receiver 22 of the bearing body 14.

[0055] In addition, there is a greater degree of freedom with regard to the design of the cylinder head 16. The cylinder head 16 need have no casting extension (casting protrusion) in region A for provision of a blind hole for screwing in a fixing screw. Instead, region A may for example be formed fluid-dynamically optimised for a fluid channel 28 in the cylinder head 16.

[0056] Finally, the number of parts of the device may be reduced because of the reduction in fixing screws. Also, the production time and installation time are reduced since fewer screw holes need be made and fewer fixing screws fitted.

[0057] In addition, it is pointed out that the present disclosure is not restricted to the fixing screw 18 fixing the bearing body 14 to the cylinder head 16. Alternatively, the fixing screw 18 could fix the bearing body 14 to a fixing frame 30. The fixing frame 30 could then in turn be attached to a cylinder head. In other words, the component shown in FIG. 1 below the bearing body 14 could, instead of a region of the cylinder head 16, alternatively be a region of a fixing frame 30.

[0058] As an alternative to the fixing screw 18, another fixing means could be used for force-fit and form-fit fixing of the bearing body 14 to the cylinder head 16.

[0059] The rocker arm shaft 20 serves for rotatable mounting of a rocker arm (not shown). The rocker arm is actively connected via a cam follower between the camshaft 12 and one or more gas exchange valves (not shown) for actuation of the gas exchange valves.

[0060] In the embodiment depicted by FIG. 1, the fixing screw 18 also fixes the rocker arm shaft 22 the cylinder head 16 (fixing frame 30). In detail, the fixing screw 18 extends through a passage hole 32 of the rocker arm shaft 20. With the device 10 in mounted state, the holes 32, 24 and 26 are aligned with each other along a longitudinal axis of the fixing screw 18. A screw head 18A lies on a contact face 20A of the rocker arm shaft 20. The rocker arm shaft 20 is mounted in a receiver 21 of the bearing body 14. The additional fixing of the rocker arm shaft 20 via the fixing screw 18 is optional.

[0061] To lubricate the plain bearing in the receiver 22, a lubricating fluid may be supplied via a longitudinal channel 34 of the rocker arm shaft 20. A branch channel 36 of the rocker arm shaft 20 opens into a branch channel 38 of the bearing body 14. The branch channel 38 in turn opens into the receiver 22.

[0062] Optionally, also, positioning elements 40, 42 may be used for positioning the bearing body 14 relative to the cylinder head 16 (fixing frame 30). The positioning elements 40, 42 position the bearing body 14 relative to the cylinder head 16 in a plane perpendicular to the longitudinal axis of the fixing screw 18.

[0063] The positioning element 40 is configured as an adapter sleeve. The positioning element 40 is held by form fit in a recess 44 of the bearing body 14 and a recess 46 of the cylinder head 16 (fixing frame 30). The positioning element 40 is arranged around the fixing screw 18, preferably without touching the fixing screw 18.

[0064] The positioning element 42 is configured as a positioning dowel. The positioning element 42 is held by form fit in a recess 48 of the bearing body 14 and a recess 50 of the cylinder head 16 (fixing frame 30). The positioning elements may for example also be configured as adapter sleeves.

[0065] It is pointed out that embodiments without positioning element are also conceivable. The bearing body 14 may then be aligned for example by means of guidance by the camshaft 12 which is mounted in several bearing bodies 14.

[0066] FIG. 2 shows a further exemplary embodiment of a device 110 for rotatable mounting of the camshaft 12. The device 110 is distinguished in particular in that it is also suitable for rotatable mounting of forged camshafts, since it is not possible to thread the bearing blocks into place on these.

[0067] Instead of a one-piece bearing body, the device 110 comprises a first bearing body 14A and a second bearing body 14B. The first bearing body 14A and the second bearing body 14B form a two-piece bearing block. The first bearing body 14A has a first receiver 22A, and the second bearing body 14B has a second receiver 22B. The receivers 22A, 22B form a common receiver in cylindrical form for the camshaft 12.

[0068] In this embodiment, it should again be emphasised that the fixing screw 18 is the sole fixing screw which attaches (fixes) the bearing bodies 14A, 14B to the cylinder head 16 (fixing frame 30). In detail, the fixing screw 18 extends through a passage hole 24A of the first bearing body 14A and through a passage hole 24B of the second bearing body 14B.

[0069] In addition, a second fixing screw 52 may be provided which fixes the first bearing body 14A to the second bearing body 14B. The fixing screws 18 and 52 may be positioned on opposite sides of the camshaft 12. The fixing screw 52 extends through a passage hole 58 in the first bearing body 14A. The fixing screw 52 is screwed into a thread of a blind hole 16 of the second bearing body 14B.

[0070] Positioning elements 54 and 56 are provided for positioning the bearing bodies 14A and 14B relative to each other. The positioning elements 54, 56 position the first bearing body 14A relative to the second bearing body 14B in a plane perpendicular to the longitudinal axis of the fixing screw 18. The positioning elements 54, 56 are configured as adapter sleeves, but may however also be configured as dowels for example. The positioning elements 54, 56 connect the first bearing body 14A to the second bearing body 14B by form fit. The position element 54 is arranged around the fixing screw 18, preferably without touching the fixing screw 80. The positioning element 56 is arranged around the fixing screw 52, preferably without touching the fixing screw 52.

[0071] The device 110 of FIG. 2 is an exemplary embodiment in which no positioning elements are provided for positioning the first and second bearing bodies 14A, 14B relative to the cylinder head 16 (positioning frame 30). In refinements of this exemplary embodiment, positioning elements may be provided between the second bearing body 14B and the cylinder head 16 (fixing frame 30).

[0072] The present disclosure is not restricted to the exemplary embodiments described above. Rather, a plurality of variants and derivatives are possible which also make use of the concepts of the present disclosure and therefore fall within the scope of protection.

LIST OF REFERENCE SIGNS

[0073] 10, 110 Device for rotatable mount of a camshaft [0074] 12 Camshaft [0075] 14 Bearing body [0076] 14A First bearing body [0077] 14B Second bearing body [0078] 16 Cylinder head [0079] 18 Fixing screw (fixing means) [0080] 18A Screw head [0081] 20 Rocker arm shaft [0082] 20A Contact face [0083] 21 Receiver [0084] 22 Receiver [0085] 22A Receiver in first bearing body [0086] 22B Receiver in second bearing body [0087] 24 Passage hole [0088] 24A Passage hole in first bearing body [0089] 24B Passage hole in second bearing body [0090] 26 Blind hole [0091] 27 Casting extension (casting protrusion) [0092] 28 Fluid channel [0093] 29 Contact face [0094] 30 Fixing frame [0095] 32 Passage hole [0096] 34 Longitudinal channel [0097] 36 Branch channel [0098] 38 Branch channel [0099] 40 Adapter sleeve (positioning element) [0100] 42 Positioning dowel (positioning element) [0101] 44 Recess [0102] 46 Recess [0103] 48 Recess [0104] 50 Recess [0105] 52 Fixing screw [0106] 54 Adapter sleeve (positioning element) [0107] 56 Adapter sleeve (positioning element) [0108] 58 Passage hole [0109] 60 Blind hole [0110] A Region free from casting extensions (casting protrusions)