WO2010046396A1 - Lever-like cam follower for actuating a gas-exchange valve of an internal combustion engine - Google Patents

Abstract

The invention relates to a lever-like cam follower for actuating a gas-exchange valve (2) of an internal combustion engine (1), comprising a lever body (7), a cam disengagement surface (5) and a lubricant passage (14) passing through the lever body for applying lubricant to the cam disengagement surface. The lubricant passage is oriented in the lever body for the purpose of producing a lubricant jet (11) that is directed at an angle past the cam disengagement surface, said lever body being provided with an attachment (16) for deflecting the lubricant jet towards the cam disengagement surface.

Description

 Name of the invention

Lever-like cam follower for actuating a gas exchange valve of an internal combustion engine

description

Field of the invention

The invention relates to a lever-like cam follower for actuating a gas exchange valve of an internal combustion engine. The cam follower comprises a lever body, a Nockenabgriffsfläche and a lever body passing through the lubricant passage for acting on the Nockenabgriffsfläche with lubricant. In this case, the lubricant passage to produce a directed on the Nockenabgriffsfläche past lubricant jet in the lever body is oriented, and the cam follower is provided with a means for deflecting the lubricant jet to Nockenabgriffsfläche out.

Background of the invention

Such a cam follower is apparent from DE 196 40 919 A1, which is regarded as generic, insofar as the lubricant passage is advantageously oriented in the longitudinal direction of a dome-shaped socket, by means of which the cam follower constructed as a cam follower is pivotally mounted on a spherical joint head of a support element with hydraulic valve play compensation. The deflection of the lubricant jet emerging from the lubricant passage in the direction of the cam-tapping surface designed as a roller-independently of the cited reference, this can of course also be a sliding surface formed rigidly on the lever body-takes place by means of a guide plate or by means of a guide bore, the or the on an integrally mounted on the lever body connecting element for captive retention of the finger lever on the support element integrally it is. A disadvantage of this embodiment, on the one hand, the additional effort for the production, provision and installation of the connecting element in cases where can be dispensed with the support function of the connecting element. On the other hand, if a connecting element is provided, it may be disadvantageous to have to equip it with separate guide devices, which deviates from the economic common-part principle.

From DE 196 24 413 A1 a drag lever is known in which the socket passing through the lubricant passage is oriented so that it produces a directly on the Nockenabgriffsfläche / role directed lubricant jet and in which no further means for deflecting the lubricant jet is provided. In this document, it is proposed to punch the lubricant passage by means of a punch laterally into the socket. However, this can pose significant manufacturing problems in that the punches tool is not always below the required, i. large angle to the longitudinal direction of the socket can be arranged to extend.

This problem arises in a corresponding manner with a drag lever according to EP 1 022 441 A2, whose lubricant passage also extending laterally on the socket is produced by a punching process which cuts through the material of the lever body. With regard to a defined opening cross-section with a defined size and shape, in this case a subsequent calibration of the lubricant passage is provided by means of a tool, which must necessarily also travel at a large angle to the longitudinal direction of the joint socket.

Object of the invention

The present invention is therefore based on the object to further develop a cam follower of the type mentioned in that the cam follower is still as little effort and thus inexpensive to produce at still production technology advantageous producible lubricant passage. Summary of the invention

The solution of this problem arises from the characterizing features of claim 1, while advantageous developments and refinements of the invention are the dependent claims can be removed. Accordingly, the means for deflecting the lubricant jet should be an integral formation with the lever body, which extends downstream of the lubricant passage above its mouth. On the one hand, the molding which guides the lubricant jet in the direction of the cam-tapping surface makes it possible to choose a machining angle of the tool which produces the lubricant passage, and secondly that the connecting element formed thereon with the guide plate formed thereon can be dispensed with.

With regard to low H costs of the cam follower, it is provided in a manufacturing technology preferred embodiment of the invention that the lever body is a sheet metal forming, the Anformung by non-cutting displacement and in particular by embossing downstream of the lubricant passage extending lever body material over the mouth of the Lubricant passage is made.

In a further concretization of the invention, the cam follower should be designed as a towing or rocker arm whose lever body has a socket for pivotally supporting the towing or rocker arm on a rod end of a stationary support arranged in the internal combustion engine, wherein the lubricant passage passes through the socket. While such drag or rocker arms are known to have an end or centrally arranged joint socket for pivotally mounted on the joint head of a support element, the invention can still be used in other types of cam followers, such as axle-mounted swing or rocker arms application. In the case of the aforementioned towing or tilting lever, it may also be advantageous if the lubricant passage is formed as a bore substantially parallel to the Längsssymmetheachse the joint socket.

If possible and expedient, the abovementioned embodiments and features of the invention should also be combined with one another as desired.

Brief description of the drawings

Further features of the invention will become apparent from the following description and from the drawings, in which an embodiment of the invention is shown in simplified form. Unless otherwise stated, the same or functionally identical components of the features are provided with the same reference numbers. Show it:

Figure 1 is an overall view of a finger lever valve train and

Figure 2 shows a longitudinal section through the socket of the finger lever in greatly enlarged representation.

Detailed description of the drawings

Figure 2 shows a useful for understanding the invention overall representation of a person skilled in the known valve train of an internal combustion engine 1. A spring-loaded in the closing direction gas exchange valve 2 is operated by a trained as a follower cam follower 3 between its currently closed position and an open position. The driven by a cam 4 of a camshaft drag lever 3 has for this purpose a here roller bearing roller as a low-friction Nockenabgriffsfläche 5. The drag lever 3 is pivotally mounted with a dome-shaped socket 6, which extends in a lever body 7 at the end, on a spherical joint head 8 of a stationary arranged in the internal combustion engine 1 support member 9. The connected to the lubricant supply 10 of the internal combustion engine 1 supporting element 9 is equipped with a hydraulic valve clearance compensation known type. A portion of the conveyed in the support element 9 lubricant flow passes through the condyle 8 in the socket 6 and leaves them as directed to the roller 5 lubricant jet 11. In this way, the acted upon by the lubricant roller 5 and the cam 4 are not only lubricated, but also cooled.

The longitudinal section through the joint socket 6 shown in FIG. 1 illustrates the lubricant guide according to the invention in the region of the socket joint 6. On the inside, this has the dome-shaped contact surface 12 for the spherical joint head 8 of the support element 9 and a recess 13 adjoining in the upper region of the contact surface 12 and a lubricant passage 14 connecting the trough 13 and the outside of the socket 6. This is formed as a longitudinal symmetry axis 15 of the joint socket 6 (more precisely, the contact surface 12) parallel and concentric bore here with defined opening cross-section and accordingly generates a first directed to the roller 5 lubricant jet 11, as symbolized by the dotted line. The deflection of the lubricant jet 11 to the roller 5 out by means of an integrally formed with the lever body 7 Anformung 16, which extends downstream of the bore 14 via the mouth and serves as a guide vane for the exiting lubricant jet 11.

In contrast to the lever body 7 made of cast material shown in Figure 2 is in the lever body 7 according to the invention to a comparatively inexpensive producible sheet metal formed part known per se geometry, wherein the Anformung 16 according to the invention is produced by non-cutting displacement and here by embossing. In the subsequent to the bore 14 embossing process in the direction of the longitudinal axis of symmetry 15 of the joint socket 6 downstream of the bore 14 extending lever is moved Körpermatehal before the mouth of the bore 14 in order to obtain the highly simplified in Figure 2 with triangular cross section Anformung 16. reference numerals

1 internal combustion engine

2 gas exchange valve 3 cam follower / drag lever

4 cams

5 cam support surface / roller

6 socket

7 lever body 8 condyle

9 support element

10 lubricant supply

11 lubricant jet

12 dome-shaped contact surface 13 trough

14 lubricant passage / bore

15 longitudinal symmetry axis

16 Forming

Claims

claims

1. lever-like cam follower for actuating a gas exchange valve (2) of an internal combustion engine (1), with a lever body (7), a Nockenab- grip surface (5) and a lever body (7) passing through the lubricant passage (14) for acting on the Nockenabgriffsfläche ( 5) with lubricant, wherein the lubricant passage (14) for generating a on the Nockenabgriffsfläche (5) directed past lubricant jet (11) in the lever body (7) is oriented and the cam follower (3) with a means for deflecting the lubricant jet (11) Cam Abgriffsfläche (5) is provided, characterized in that it is the means for deflecting an integrally formed with the lever body (7) Anformung (16) extending downstream of the lubricant passage (14) via the mouth thereof.

2. cam follower according to claim 1, characterized in that it is at the lever body (7) is a sheet metal forming part, wherein the Anformung (16) by non-cutting displacement downstream of the lubricant passage (14) extending lever body material over the mouth of the lubricant passage (14) is.

3. cam follower according to claim 2, characterized in that the Anformung (16) is made by embossing.

4. cam follower according to claim 1, characterized in that the cam follower (3) is designed as a towing or rocker arm whose lever body (7) has a socket (6) for pivotally supporting the towing or rocker arm on a joint head (8) of a stationary in the internal combustion engine (1) arranged supporting element (9), wherein the lubricant passage (14) passes through the socket (6). Cam follower according to claim 4, characterized in that the lubricant passage (14) as to the longitudinal axis of symmetry (15) of the joint socket (6) is formed substantially parallel bore.