The invention relates to a switchable drag lever of a valve timing mechanism of an internal combustion engine, having an outer lever, an inner lever extending with its arms in the cut-out of the said outer lever between its side walls, a rest for a gas exchange valve being intrinsic to the drag lever on an underside at one end, and a pivoting bearing being intrinsic to the drag lever at the other end, the levers extending at one of the ends on a common pin and having receptacles for at least one coupling means which extend longitudinally at the end facing away from the pin and are aligned with respect to one another in the cam base circle, which coupling means can be displaced for coupling the levers in sections in or below the receptacle which lies opposite, and at least one of the levers being provided with a cam contact face on its upper side.
In order to produce an aligned position of receptacles for coupling means in the cam base circle in levers which are already known from the prior art, a respective outer lever has a stop which engages in the manner of a bracket under the corresponding inner lever approximately in the region of the transverse centre plane. On account of the necessary transition radii of this bracket-like stop from the arms of the outer lever, as viewed in the transverse direction, a drag lever of this type has to be of relatively wide construction, as the inner lever cannot come into contact with an upper side of the transverse bracket in the radii region. If, nevertheless, there is contact in the region of the radii, unnecessarily high material loading is to be expected. States can also occur, in which there is not sufficient alignment of the coupling means with respect to the receptacle which lies opposite, with the result that coupling cannot be realized.
Secondly, it is obvious that, on account of the transverse bracket which engages over the underside of the inner lever, the drag lever is of unnecessarily deep construction. Here, problems can occur with free movement in the region of the cylinder head.
It is therefore an object of the invention to provide a drag lever of the abovementioned generic type, in which the disadvantages described are eliminated.
According to the invention, this object is achieved in that a segment-like projection protrudes longitudinally into the cut-out from the outer lever in the region of its end which faces away from the pin, the bottom face of the said segment-like projection bearing against a complementary stop piece of the adjacent upper side of a pivoting-away end of the inner lever in the coupling case.
The above-described disadvantages are therefore eliminated. The scope of protection of this invention also relates to solutions for switchable drag levers, in which what is known as “transverse locking” is applied.
On account of the internal stop measures which are proposed here and are preferably configured in one piece on the respective lever parts, the abovementioned bracket-like stop which engages under the inner lever can be omitted. Alignment of the receptacles for the at least one coupling means is therefore provided in the cam base circle in a simple way.
At the same time, as is the subject-matter of a subclaim, these stop measures can realize a freedom of movement of one of the cam contact faces (preferably the inner lever here) in the cam base circle in relation to the respective cam. As a result of the lastmentioned measure, structural redundancy is avoided and, at the same time, base circle friction is reduced.
The measures according to the invention can be implemented in a switchable drag lever according to the system “lifting switch-off means” or “lifting switchover means”. In contrast to the lever from the prior art, the proposed lever is of relatively narrow construction. It can therefore also be used in constricted installation-space conditions and is present in a mass-reduced form.
The bottom face of the projection is preferably to be complementary to the mating face on the stop piece. Flat engagement structures and also partially cylindrical engagement structures are suitable here. It is important to provide a relatively wide contact face which is optionally protected against wear separately, in order to keep the Hertzian stress low.
In a concrete form of the invention, the segment-like projection can emerge in one piece from the upper side of the outer lever or else be applied to a transverse web which is ultimately formed on the outer lever together with vane-like cam contact faces.
In a development of the invention, it is provided that the receptacle for the coupling means is configured on the inner lever on the underside of the pivoting-away end of the inner lever, and as a simple stop bar. This measure is particularly favourable with regard to the manufacturing costs. There is optionally also provision to apply a hole or a similarly suitable opening in the end side of the inner lever in this region.
Sliding faces on the outer lever can be suitable in general as cam following faces. The inner lever can, however, also have a sliding face as cam following face of a roller. As an alternative, the outer lever can also have rollers as cam followers.
It is particularly advantageous if the sliding faces are configured as cam contact faces on the outer lever and the transverse web which connects them is configured in one piece with the side walls of the outer lever. The cam contact faces can also optionally be aligned with respect to upper sides of the side walls.
In order to provide a cam follower with a sufficient width, it is proposed to allow the cam contact faces of the outer lever to protrude outwards beyond the side walls of the latter in the manner of vanes. In order for these vane-like or segment-like cam contact faces to be supported satisfactorily, it is proposed, moreover, to allow at the end side in each case one finger-like carrier to protrude from them in the direction away from the cam, which finger-like carrier is supported on an outer face of the respective side wall.
In addition, it is proposed to manufacture at least one of the levers from a lightweight material such as steel sheet or the like. Composite materials or plastics are also optionally suitable.
Via the pivoting bearing on the outer lever, it is possible in a simple manner to guide hydraulic medium out of the head of the associated supporting element to the receptacle for the coupling means which preferably lies above it. The rest for the gas exchange valve then lies at the other end, as viewed in the longitudinal direction of the drag lever.
The invention is expediently explained in greater detail using the drawing, in which:
The figures disclose a switchable drag lever 1 for a valve timing mechanism of an internal combustion engine. The said drag lever 1 has an outer lever 2. An inner lever 5 is mounted between side walls 4 of the outer lever 2, which inner lever 5 has two arms 6 which are spaced apart and between which a roller runs as a cam contact face 18. This roller is roller-mounted, as
At one end 10 on an underside 7, the outer lever 2 has a pivoting bearing 11 which is configured as a spherical cap. Via the said pivoting bearing 11, the said outer lever 2 can be mounted in a pivotably movable manner on a head of a supporting element which is, for example, hydraulic. At the other end 8, the outer lever 2 has a rest 9 on the underside 7 for at least one gas exchange valve (one gas exchange valve in concrete terms here).
Moreover,
A pin 12 is positioned at the other end 8 of the drag lever 1. The levers 2, 5 are arranged on the said pin 12 such that they can be moved pivotably relative to one another. A swivel pin spring is arranged as a lost-motion spring on the pin 12 between the arms 6 of the inner lever 5.
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Number | Date | Country | Kind |
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10 2005 037 051.9 | Aug 2005 | DE | national |