The following documents are incorporated herein by reference as if fully set forth: German Patent Application No. 102012204621.6, filed Mar. 22, 2012.
The invention relates to a cam part for a variable sliding cam valve drive of an internal combustion engine, which cam part can be mounted on a basic shaft of the sliding cam valve drive fixedly so as to rotate with it but axially displaceably, and has one or more cam groups and at least one connecting link piece with at least one spiral groove for an actuator pin engagement.
A cam part of this type is disclosed in DE 10 2009 048 621 A1. It is disadvantageous that comparatively high displacement forces are necessary due to its mass and therefore inertia. The actuator pin, actuator, spiral groove, etc. are therefore subjected to correspondingly high loading as a result of respective shear and displacement forces. Unnecessarily high wear occurs during operation, which wear is greater the shorter, for example, the available circumferential displacement region of the spiral groove, for instance, inter alia, in the case of a double S spiral groove (three lifting cams) or in the case of a cam part with two sliding groups, as can be gathered from the abovementioned document, purely for reasons of mass.
It is therefore an object of the invention to reduce the above-described high loads and the wear by way of simple measures concerning the cam part.
According to the invention, this object is achieved by the fact that at least one weight-reducing groove which does not coincide with the spiral groove is formed on the outer casing of the cam part.
The at least one groove according to the invention reduces the mass of the cam part and therefore the forces which are necessary during its temporally cyclical displacement on a basic shaft. Wear phenomena on the spiral groove and on the actuator pin are reduced considerably. This actuator pin can possibly be of smaller dimensions. Moreover, it is possible to realize fast switching times, despite a short displacement region of the spiral groove (double S design).
Also included in the scope of protection of said invention is a solution, in which the at least one groove is applied in a targeted manner to the inner ring of the cam part and is present separately to one or more latching grooves for a latching body engagement for fixing the cam part. This variant can also be present together with an application of the grooves on the outer ring of the cam part.
A plurality of grooves are preferably provided per cam part, with the result that there is a particularly lightweight design. It is proposed here in one specific embodiment of the invention to place two or more grooves axially next to one another, which grooves are separated by a web (remaining residual material). The web can also be attached retrospectively.
It is expedient if the at least one groove has such a design that unintentional retraction of the actuator pin is ruled out. This can be realized by way of its width which is smaller than the width of the spiral groove in the displacement region or, in other words, is narrower than the engagement region of the actuator pin.
However, it is also provided in this context to provide the groove with other types of measures such as thin-walled covers, etc., via which a retraction of the actuator pin is likewise ruled out.
The at least one groove can, but does not have to be present in an all-encompassing form. Since the connecting link piece is already as a rule as narrow as possible, the at least one groove ends at a displacement region of the spiral groove, as viewed in the circumferential direction. A region of the respective cam group can also optionally be provided with at least one weight-reducing groove.
It is clear that, for further wear reduction, the region of the spiral groove can be provided with suitable applied layers such as CVD, PVD, inter alia, also galvanically applied material.
According to the invention, a cam part comprises at least one group, having a connecting link piece and one or two cam groups. One connecting link piece can also have a plurality of spiral grooves, the at least one cam group having at least two lifting cams which are different than one another. A plurality of the groups mentioned at the outset can also form one structural unit and can be separated, for example, by a bearing ring. The cams of at least one group can also run in a phase-offset manner with respect to one another.
According to a further development of the invention, the mass-reducing groove can have a U-shaped, T-shaped, V-shaped profile or a profile in the manner of a hollow channel.
In the drawings:
With respect to
A cam part 1 is shown for a variable sliding cam valve drive of an internal combustion engine. The cam part 1 can be mounted on a basic shaft (not shown) of the sliding cam valve drive fixedly so as to rotate with it but axially displaceably via an internal toothing system 12 (see
In order to reduce the mass of the cam part 1, said cam part 1 has two grooves 7 on its outer casing 6, which grooves 7 are of U-shaped cross section, run around in a segment-like manner and can be gathered well, for example, from
It can be seen that each groove 7 extends circumferentially with its entry and exit region 10, 11 to such an extent that, as viewed in the axial direction of the cam part 1, it is adjacent to a displacement region 9 of the spiral groove 5.
With respect to
The difference from the above-described design lies in the fact that in each case two grooves 7 which lie on each side of the spiral groove 5 are applied here such that they are adjacent to one another axially.
In both variants (
Number | Date | Country | Kind |
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10 2012 204 621 | Mar 2012 | DE | national |
Number | Name | Date | Kind |
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7219638 | Mueller-Frank | May 2007 | B2 |
7404383 | Elendt | Jul 2008 | B2 |
8025003 | Saur | Sep 2011 | B1 |
8186320 | Schiepp et al. | May 2012 | B2 |
8191524 | Elendt et al. | Jun 2012 | B2 |
8365692 | Schoeneberg et al. | Feb 2013 | B2 |
8584639 | Elendt et al. | Nov 2013 | B2 |
8607750 | Parsche | Dec 2013 | B2 |
8707917 | Schiepp | Apr 2014 | B2 |
Number | Date | Country |
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102009048621 | Apr 2011 | DE |
Number | Date | Country | |
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20130247711 A1 | Sep 2013 | US |