This application is the U.S. National Phase of PCT Appln. No. PCT/DE2015/200103 filed Feb. 26, 2015, which claims priority to DE 10 2014 208 005.3 filed Mar. 29, 2014, the entire disclosures of which are incorporated by reference herein.
The disclosure relates to a component of a valve drive of an internal combustion engine, with a drag lever, a support element and a connection clip connected to the drag lever in the central region a cam thrust surface. On its lower face at a first end an equipment for a gas exchange valve, and at a second end has a concave indentation, over which it is fixed in an articulated manner by a connection clip, which is formed by two spring limbs connected to each other at one end by a transverse bracket, to a head of the support element, wherein a spring limb is in contact with the lower face of the drag lever and envelops with a recess a retaining region of the support element underneath its head, and another spring limb extends on the upper face of the drag lever and wherein through the indentation extends a channel supplied by the support element for injection oil lubrication.
Components equipped with connection clips are known from prior art (see DE 10 2004 041 231 A1, EP 1554 470 B1, DE 10 2011 077 024 A1 (drag lever with connection clip for support element), EP 1 554 470 B1). The other, upper spring limb of the connection clip is usually designed open, the channel for injection oil lubrication in the dome-shaped molding of the drag lever is directed in the longitudinal direction of the drag lever to its first end and is used for oil lubrication of the cam contact on the bracketed drag lever. Direct or indirect injection oil admission for lubrication or cooling of other components located in the cylinder head is not provided.
At the same time, a permanent tightness of the connection clip is problematic.
It may be beneficial to provide a component without the above disadvantages.
Such benefits may be accomplished by locating a spring limb of the connection clip, at least largely closed, on the upper face of the drag lever above the dome-shaped indentation that may include an injection oil bore in fluid communication with the channel, wherein the bore extends along the drag lever over its second end.
The spring limb of the connection clip may be provided with two injection oil bores, one of which extends away from the drag lever and the other extends in the drag lever direction and thus towards the rising cam.
Thus, a primary admission of lubricating and cooling oil emanating from the component to other parts not belonging to the component is proposed, which may include bearings. This also makes it possible to splash oil on a lower face of the cylinder head or baffle plates to produce oil mist.
The injection oil bores can be simply punched into the connection clip. A special and more elaborate fitting-out of the head of the support elements may be unnecessary. It may require only a simple axial channel with an optional protuberance.
Due to the closed envelopment of the upper face of the drag lever in the hemispherical head above the upper spring limb, the connection clip has an excellent fit and can well absorb laterally introduced forces.
The drag lever may include a U profile in cross section and is made of thin-walled steel sheet, with its hemispherical head in the lower face thus appears as a material depression in the upper face. If necessary, with e.g. an appropriately thick transom in the hemispherical head region, the upper face can also be flat.
Another embodiment may relate to a position of injection oil bores. The one injection oil bore may be introduced on a side of the hemispherical head facing the second end and the additional injection oil bore may be on the side of the hemispherical head facing the first end.
Another embodiment may include an “oblique” position of at least one of the injection oil bores so that the oil spray jet is conducted on the side of the support element or cam contact past the drag lever. If necessary, a “widespread” oil spray jet is also possible.
The connection clip is “conducted” from the second end of the drag lever. However, if the drag lever is recessed in the central region, the connection clip can also be mounted from the side of the recess over the drag lever, or at least have in this section yet another retaining bracket or the like.
An exemplary embodiment, discloses using a connection clip a standard mass items US fold-back clip (multipurpose clip) as it is sold e.g. by Jakob Maul GmbH (Bad Konig, Germany) under the name of “mauly”. After mounting the fold-back clip on the drag lever, its handles are expediently removed. It is clear that also a clip can be used, which is only similar to the design of the US fold-back clip.
The invention is apparent from the drawing.
The drag lever 2 is formed in a U-shape in cross-section. It has in its middle section a recess 25 with a cam thrust surface 6 designed as a roller. On its lower face 7 at a first end 8, the drag lever 2 has a surface 9 for a gas exchange valve and on the second end 10 a dome-shaped indentation 11.
As can be seen in
The connection clip 4 is carried out in the design of a US fold-back clip. It includes as described in detail in
Through the indentation 11 extends a channel 19 along the axial line of the support element 3 for injection oil lubrication. The channel is in fluid communication with two injection oil bores 20, 21 in the other spring limb 15 of the connection clip 4.
The injection oil bore 20 (right) is located in the region of a first quadrant 23 of the indentation 11 facing the end 8. It is used for the admission of spray oil to a cam contact section on the cam thrust surface 6. In this embodiment, the injection oil bore 20 may be aligned so that a contact gap between the cam and its cam surface 6 is not necessarily impinged.
The injection oil bore 21 (left) is located in the region of a second quadrant 24 of the indentation 11 facing the other end 10. It may be used for spraying oil at lubrication points in a cylinder head area, which may also include bearings.
Number | Date | Country | Kind |
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10 2014 208 005 | Apr 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2015/200103 | 2/26/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/165445 | 11/5/2015 | WO | A |
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Entry |
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International Search Report for International Application No. PCT/DE2015/200103 dated May 21, 2015. |
Number | Date | Country | |
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20170067374 A1 | Mar 2017 | US |