The invention concerns a rocker arm for actuating a gas exchange valve of an internal combustion engine.
In internal combustion engines, rocker arms are located in a valve train as transmission elements between cams and the gas exchange valves to be actuated. Rocker arms consist of a lever body that is supported at one of its ends on a support element and with its other end engages, through a contact surface, the gas exchange valve to be opened. In a section of the lever body near the center, a cam pickup surface is provided on which a cam of a camshaft runs during operation of an internal combustion engine, causing a pivoting motion of the rocker arm. The cam pickup surface can be implemented as a sliding surface or as a cam roller.
A rocker arm for actuating a gas exchange valve of an internal combustion engine is known from DE 10 2008 029 333 A1. At one end, the rocker arm has an oval opening that encompasses a valve stem end of the gas exchange valve. In addition, the rocker arm provides a cam roller in a section near the center.
WO2011/157499 A1 discloses a rocker arm that has a cam roller supported on an axle pin by means of a needle roller and cage assembly. A contact surface for a valve stem end of the gas exchange valve is provided at one end of the rocker arm. Side bars are provided in the region of the contact surface to guide the rocker arm on the valve stem end.
The object of the present invention is to provide a rocker arm that can be manufactured economically and that ensures adequate stiffness.
According to the invention this object is attained by a rocker arm for actuating at least one gas exchange valve of an internal combustion engine having an elongated lever body with a floor and with side walls angled away therefrom, wherein a first end section of the lever body has a cup formed in the floor for a support element, and in that a section near the center is provided with a cam engagement surface and in that a second end section of the lever body has a bottom contact surface for a valve stem end of the gas exchange valve, wherein a crossbar extends between the section near the center and the second end section, and wherein the bottom contact surface for the valve stem end has a first stamping toward the top side of the rocker arm for a direct fine enclosure of the valve stem end, and wherein the crossbar has a second stamping whose shape is matched to the valve stem end.
In the rocker arm according to the invention, a first stamping is provided on the contact surface for the valve stem end. A fine enclosure that serves to guide the valve stem end is formed on the lateral ends of the contact surface by the first stamping. The fine enclosure permits precise guidance of the valve stem end.
The second stamping in the crossbar makes it possible for contact between the valve stem end and the lever body to be avoided during pivoting motions of the rocker arm. The necessary stiffening of the rocker arm is ensured by the crossbar, which in turn results in increased strength of the rocker arm. The advantage of this is that the shortest possible construction of the rocker arm can be achieved.
The stamping can be an embossing, for example. The shape of the stamping is designed to be complementary to the shape of the valve stem end. Preferably the stamping is implemented as a cylindrical molding.
In a preferred embodiment of the invention, the stamping is provided on the side facing away from the section near the center. This arrangement allows for the necessary clearance between the crossbar and the valve stem end.
According to one embodiment of the invention, the second end section has side bars that are provided for coarse enclosure of the valve stem end and have a slightly larger clear width than the clear width of the first stamping. Additional valve guidance of the valve stem end is ensured by means of the coarse enclosure. The side bars can be designed as a single piece with the second end section. It is also possible to weld the side bars on or to join them to the second end section using another connection method.
It is preferred for the side bars to extend in a curve from the side walls to the crossbar. The coarse enclosure formed by the side bars thus extends below the fine enclosure.
Preferably the second end section of the lever body has an H-shaped profile when viewed in cross-section. The H-shaped profile permits a narrow construction of the rocker arm since it eliminates double folds of the rocker arm that necessitate a wider construction, such as in a W-shaped profile, for example. However, it is also possible to provide a W-shaped or U-shaped profile.
In one embodiment, the cam pickup surface is implemented by a cam roller, wherein the section near the center has a recess in the floor that serves to accommodate the cam roller. The recess in the floor creates the necessary free space for the cam roller so that rotary motion of the cam roller is possible.
Preferably, the lever body is either produced by stamping and forming techniques from a sheet metal material, by extrusion molding, or by deep-drawing. However, other materials and manufacturing methods are also possible.
An exemplary embodiment of the invention is explained below using three figures. They show:
Formed in the part of the floor 3 running along the first end section 6 is a cup 9, which rises between the side walls 4, 5. The cup 9 provides support on a support element that is not shown.
In the region of the section 7 near the center, each of the side walls 4, 5 has a bore 10 serving to support a cam roller that is not shown. The cam roller that is not shown defines a cam pickup surface. A recess 11 designed with a rectangular outer contour is provided in the part of the floor 3 running along the section 7 near the center.
A contact surface 12 for a valve stem end, not shown, of a gas exchange valve is provided on the part of the floor 3 running along the second end section 8 of the lever body 2. The contact surface 12 has a first stamping 13, which is provided towards the top of the rocker arm 1. A fine enclosure 14, 15 for a valve stem end, not shown, is formed on the lateral ends of the contact surface 12 by the first stamping 13. The fine enclosure 14, 15 is matched to the valve stem end in this design.
A crossbar 16 that is provided between the side walls 4, 5 extends between the second end section 8 and the section 7 near the center. The crossbar 16 has a second stamping 17, which is implemented as a cylindrical molding, on the side facing away from the section 7 near the center. The stamping 17 makes it possible for adequate clearance of the contact surface relative to the gas exchange valve, not shown, to be present during pivoting motions of the rocker arm 1.
As is evident from
The spacing between the side bars 18, 19 defines a clear width Lwg of the coarse enclosure 20. The spacing of the fine enclosure 14, 15 defines a clear width Lwf. As is evident from
1 rocker arm
2 lever body
3 floor
4 side wall
5 side wall
6 first end section
7 section near the center
8 second end section
9 cup
10 bore
11 recess
12 contact surface
13 first stamping
14 fine enclosure
15 fine enclosure
16 crossbar
17 second stamping
18 side bar
19 side bar
20 coarse enclosure
Lwg clear width of the coarse enclosure
Lwf clear width of the fine enclosure
Number | Date | Country | Kind |
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102012204727.1 | Mar 2012 | DE | national |