The invention relates to a valve drive for an internal combustion engine, in which an axially movable cam with two cam tracks acts on a lever which actuates a valve of the internal combustion engine.
DE 196 11 641 C1 discloses a camshaft on which a cam, with three axially adjacent cam tracks with different lift profiles, is arranged so as to be movable axially into three latching positions. In the three latching positions, a cam follower interacts in each case with one cam track in order to actuate a gas exchange valve. A change of a cam track and therefore a change from one latching position to another latching position takes place by means of radially actuable pins which can enter into grooves which run in the peripheral direction of the cam, with the grooves having an axial component in order to bring about the axial movement of the cam.
The present invention is based on the object of proposing a valve drive with improved possibilities for influencing the lift profile while adhering to the installation space demands.
According to the invention, the object is achieved by means of the features of independent Patent Claim 1. Further embodiments of the invention can be correspondingly gathered from the features of dependent Patent Claims 2 to 6.
According to the invention, the lifting movement of a valve of an internal combustion engine, that is to say the phase position and/or the lift of said valve, is predefined as a function of the rotational angle, by a lever, in particular a (roller) cam follower or else a rocker arm. The invention is based on the knowledge that the position of an attachment point for the valve to the lever is dependent on the position of two characteristic points of the lever, specifically on the one hand the contact point of the lever against a cam track and on the other hand against a support point which forms a bearing point. According to the invention, not only one of the above-specified characteristic points is influenced but rather both characteristic points, specifically the support point of the lever on the one hand and the active cam track on the other hand, resulting in improved possibilities for a variation of the lift profile:
For a movement of the support point, a movement is possible between different, discrete positions which are active for a plurality of rotations of the camshaft. Alternatively or in addition, a position of the support point which is variable with the rotation of the camshaft is possible, which can be given by active adjusting means or by means of passive elements.
According to one preferred embodiment of the invention, the support point is formed by a support element which is switchable with a first switching position in which the support point is fixed and a second switching position in which the support point is movable during a rotation of the camshaft. In the first switching position, therefore, substantially in the first axial position of the cam, the movement of the lever and therefore the lift profile of the valve is predefined by the first cam track, while in the second axial position, the second cam track determines the lift profile. In contrast, in the second switching position, the lift profile results from a superposition of the movements of the support point and the respectively active cam track.
In addition to the abovementioned degrees of freedom and adjustment possibilities, it is possible according to a further embodiment of the invention for the support element to have a valve play compensating element which serves not to change the lift profile but rather to compensate an undesired play.
A further embodiment of the invention is of particular significance in connection with a deactivation of the valve, in particular in connection with a cylinder shutoff. In this case, the valve should pause in its closed position. According to the invention, in order to bring about such a stationary valve despite a rotating cam, the cam which has the smallest lift is firstly selected. In addition, the support element is placed into the second switching position in which the support point is movable during a rotation of the camshaft. According to said embodiment, the support point accordingly deflects corresponding to the rotation of the cam track and its lift, so that in this case, the lever pivots about the attachment point of the valve. Said so-called “idle stroke” of the support element is dimensioned here such that, during a rotation about the associated cam track, the support point is moved by approximately the idle stroke in one direction and then back again, while the valve remains at least largely unmoved.
As a result of an idle stroke of a support element of said type being connected with an axially movable cam with cam tracks with different lifts, it is possible for the idle stroke of the support element to be reduced in relation to comparable support elements which have an idle stroke in connection with axially non-movable cams with only one cam track. This results in a reduced longitudinal extent of the support element, which can be decisively advantageous with the restricted installation conditions in the region of a cylinder head.
It is also possible according to the invention for the cam track with a relatively small lift to be operated on the one hand with the support element in the first switching position, that is to say with an approximately fixed support point, which can be suitable for example for operating the internal combustion engine with reduced power, reduced torque and/or reduced rotational speed. With the same cam track but with the support element in the second switching position, it is also possible to bring about a cylinder shutoff in a simple manner.
For a further embodiment according to the invention of the valve drive, a control device (or regulating device) is provided which acts on suitable actuators which can on the one hand influence and predefine the axial position of the cam and can on the other hand move the support element into the respective switching positions. Here, the control device and the actuators can be of any desired design, for example activated electrically, electromagnetically, hydraulically and/or by means of suitable CPUs. The activation of the actuators takes place in such a way that, in a first operating phase, the support element is fixed, while a first cam track, preferably with a large lift profile, acts in the cam. In a second operating phase, the support element is likewise fixed, while the other cam track, for example the cam track with a relatively small lift, acts in the cam. For a variation of the lift when the second cam track is active, in particular for a zero lift, it is possible in a third operating phase for the support element to be placed into the second switching position, so that in addition to the movement of the contact point between the lever and the cam track, the support point of the lever on the support element is also variable.
A particularly compact device for activating a plurality of valves can be provided in that two cams with in each case two cam tracks can be moved together, for example by virtue of the two cams being rigidly connected to one another. By means of a common movement of the cams of said type, it is possible on the one hand for the cam tracks which act at the associated valves to be correlated with one another in a particularly reliable fashion. In addition, the expenditure for the actuators for influencing the axial position of the cams can be reduced, since a separate actuator is not strictly necessary for each cam.
For roller cam followers according to the prior art which interact with non-axially movable cams with only one cam track, a cylinder shutoff or a desired reduced lift can be brought about only if the support point is movable in the range between 6 and 12 mm. By means of the superposition according to the invention of the movement of the support element on the one hand and the different cam tracks on the other hand, it is possible to use a support element which is movable only less than 5 mm, preferably 2 to 4 mm and in particular 2.5 to 3.5 mm.
Further features of the invention can be gathered from the following description and the associated drawings in which exemplary embodiments of the invention are schematically illustrated. In the drawings:
In each case two cams 17, 23 are rigidly connected to one another by means of a connecting region 24 and are axially movable in the direction of the longitudinal axis 21-21 with respect to the camshaft 22, but are connected in a form-fitting manner to said camshaft 22 in the peripheral direction. Each cam 17, 23 has a first cam track 25 and a second cam track 26, which cam tracks directly adjoin one another in the axial direction, that is to say in the direction of the longitudinal axis 21-21 and have different lift profiles, in particular different lift progressions, different maximum lifts and different phase angles.
For the axial movement of the axially movable modular unit which is formed with the cams 17, 23 and the connecting region 24, two actuators 27, 28 act on the modular units in the end regions. The actuators 27, 28 have pins 29, 30 which can be retracted and deployed transversely with respect to the longitudinal axis 21 and which, in the deployed state, can enter into guide slots or grooves 31, 32 arranged in the end regions of said modular unit, with the grooves 31, 32 not being aligned entirely in the peripheral direction, but rather being inclined slightly in the axial direction, thereby bringing about an axial lift.
In order to provide axial mobility of the cam, it is possible to use any desired design which encompasses the utilization of different cam tracks by the same lever as a result of an axial movement of the cam, of the cam track or of the camshaft itself.
Reference is made merely by way of example to the following design possibilities for the axial mobility of the cam:
With regard to influencing the position of the support point 15, it is possible to use any desired actuators or support elements 16. Here, it is possible for the support element 16 to perform further functions in addition to a movement of the support point 15, for example to contain a valve play compensating element.
Reference is made merely by way of example to the following embodiments of a support element 16 which can be used in the invention:
According to the invention, a combination of the above-listed embodiments for permitting the axial mobility of a cam in order to activate two cam tracks can take place with said different embodiments for support elements.
10 Valve drive
11 Lever
12 End region
13 Valve
14 End region
15 Support point
16 Support element
17 Cam
18 Roller
19 Contact point
20 Cam track
21 Longitudinal axis
22 Camshaft
23 Cam
24 Connecting region
25 First cam track
26 Second cam track
27 Actuator
28 Actuator
29 Pin
30 Pin
31 Groove
32 Groove
Number | Date | Country | Kind |
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10 2005 033 018.5 | Jul 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/006292 | 6/29/2006 | WO | 00 | 1/24/2008 |