The invention relates to a cam drive having a camshaft and having cams arranged thereon and having at least one rocker arm which has a cam follower according to the preamble of the claim 1.
To be able to further reduce the energy consumption of motor vehicles, in particular in the case of internal combustion engines having a higher number of cylinders, individual or more cylinders can be shut-off during an operation of the motor vehicle at partial load or can be operated at least energy-reduced. Devices for influencing a valve control, in particular for shutting-off individual cylinders, are known from a high number of publications, whereof hereinafter the most obvious ones are explained briefly.
From U.S. Pat. No. 5,529,033, a device is known for a cam drive having a camshaft with cams arranged thereon, by means of which a valve lift of at least one gas exchange valve can be varied. For this, the cam drive has at least one rocker arm which has a cam follower, and which is actively connected via its first arm with a plunger-like abutment and via its second arm with the at least one gas exchange valve of the associated cylinder. The rocker arm has an inner and an outer rocker arm which is supported by means of a slotted hole so that the inner rocker arm can be axially moved relative to the outer rocker arm, which results in varying of the valve lift. Such an axial movement of the outer rocker arm relative to the inner rocker arm is actuated by an electromagnet.
From U.S. Pat. No. 5,682,848, a further device is known for varying a lift of a gas exchange valve of an internal combustion engine, wherein the device, in addition to an electromagnetic spring, has at least one further arm, in particular an axially telescoping actuator arm. At the same time, a control unit for controlling the device is also needed, wherein all of the above mentioned components, excluding the control unit, are accommodated in the area of the cylinder head and hence require an installation space which is not be underestimated. Moreover, the known device is relatively complicated and thereby expansive.
Further devices for varying a lift of gas exchange valves in internal combustion engines are known, for example, from U.S. Pat. No. 4,151,817, from U.S. Pat. No. 5,655,487, from U.S. Pat. No. 6,460,495 B1, from U.S. Pat. No. 6,752,107 B2 and from U.S. Pat. No. 6,655,331 B2.
The invention is concerned with the problem to propose for a cam drive of the generic type, an improved embodiment which is characterized in particular by a structurally simple design and an arrangement of the device for varying the lift of a gas exchange valve at stationary parts.
This problem is solved by means of the subject matter of the independent claim 1.
Advantageous embodiments are subject matter of the dependent claims.
The invention is based on the general idea, for a cam drive having a camshaft and having cams arranged thereon and having at least one rocker arm which, on the one hand, is actively connected with a plunger-like abutment and, on the other hand, with at least one gas exchange valve of an associated cylinder, to form a device for varying the lift of the at least one gas exchange valve in the manner of a rotatable actuating element, wherein the actuating element is supported so as to be rotatable about an axis of the plunger-like abutment at least between two end positions, preferably between two end positions, and wherein a valve lift in a first position of the actuating element is smaller or bigger as in comparison to a second position of the actuating element. In the case of two end positions, the rocker arm is located with respect to the plunger-like abutment in one end position in a coupled state and in the other end position in a decoupled state. Conceivably, here that the actuating element is rotatably supported only between the two end positions, wherein it generates in a first end position, a normal, in particular, maximal valve lift of the gas exchange valve, while it generates, in its second end position, a reduced or even no valve lift, wherein the latter equates with a cylinder shut-off. Different intermediate positions between the end positions are certainly also possible here, whereby a particularly accurate control of the valve lift is enabled. Such a rotatable actuating element is simple to manufacture with respect to the design and is thereby inexpensive.
Advantageously, the device is arranged between the first arm of the rocker arm and the plunger-like abutment. This offers the advantage that for the arrangement of the device according to the invention almost no additional space is required so that the device can also be used in restricted space conditions which are often found in the area of cylinder heads. An actuating device for actuating the actuating element can be arranged, for example, in the form of an actuating drive and can be used selectively for one or more actuating elements. It is in particular conceivable here that to each actuating element, a separate actuating device is allocated, or that a plurality of actuating elements is actuated by a common actuating device.
In a further advantageous embodiment of the solution according to the invention, the rocker arm is formed in two parts and has an outer and an inner rocker arm, wherein the actuating element rests in a first position against the outer rocker arm so that the same is in contact with a first cam and can carry out an oscillating tilting movement, which causes an actuating of the gas exchange valve of the associated cylinder. In contrast, the actuating element is displaced with respect to the outer rocker arm in a second position, for example in a second end position, and, in doing so, rests solely against the inner rocker arm so that the inner rocker arm is in contact with a second cam of the cam shaft and can carry out an oscillating tilting movement, which causes a varied actuating of the associated gas exchange valve in comparison to the first position. In this embodiment, it is hence possible, depending on the embodiment of the two cams, to influence the valve lift of the associated gas exchange valve. Here, a shut-off of the cylinder, hence no valve lift, is conceivable as well as a so-called “cylinder switching”, wherein here the second cam has a different form than the first cam and generates a varied, in particular, reduced valve lift compared to the first position of the actuating element. Depending on the form of the inner or outer rocker arm, respectively, and of the two associated cams on the camshaft, a particularly exact and fine-adjusted control of the valve lift is accomplished, wherein a particularly energy-saving operation of the internal combustion engine and a reduction of the energy cost can be achieved.
Advantageous exemplary embodiments, which are explained hereinafter in more detail, are illustrated in the drawings.
In the figures, in each case schematically and in a perspective view:
a shows a device according to
b shows an illustration as in
a shows a device as in
b shows an illustration as in
a shows a device according to
b shows an illustration as in
According to
In general, the device 10 for varying the lift of the at least one gas exchange valve 7 has an actuating element 12 at which the guide pin 11 is arranged. According to the invention, the actuating element 12 is rotatably supported about an axis 13 of the plunger-like abutment 5 between two positions, wherein a valve lift in a first, coupled position (compare
At the first arm 4 of the rocker arm 3, a spring device 15 is provided, which pretensions the rocker arm 3 or the first arm 4 of the rocker arm 3, respectively, against the associated, not-shown cam of the camshaft. For this, the spring device 15 is formed as a leg spring and engages, on the one hand, with the second arm 6 of the rocker arm 3 and, on the other hand, with the guide pin 11 of the actuating element 12 as an abutment.
During the operation of the cam drive 1, the rocker arm 3 carries out a tilting movement, wherein the tilting axis varies depending on the position of the actuating element 12. In the position of the actuating element 12 in its second end position (compare
The actuating element 12 hence can be rotated between at least two end positions, wherein the first end position results in a “normal” lift of the gas exchange valve 7, while the second end position causes a reduced lift, in particular a zero-lift, of the gas exchange valve 7. The latter is referred to as “cylinder shut-off”. It is also thinkable here that between the two mentioned end positions of the actuating element 12, at least one intermediate position is provided in which the actuating element 12 does not plunge as deep into the second arm 4 of the rocker arm 3 as this is the case in the second end position, and hence causes a reduced valve lift of the gas exchange valve 7 compared to the first end position and to an increased valve lift compared to the second end position. Hence, a particularly exact control of the valve lift of the gas exchange valve 7 is possible.
According to
Also in the device 10 according to the
As shown in
Between the two end positions of the actuating element 12, further intermediate positions are thinkable, in any case at least one, in which a valve lift is varied in comparison to the first end position of the actuating element 12 and in comparison to the second end position of the actuating element 12. Hence, a particularly accurate control of the valve lift can be achieved.
According to
At the second arm 6, the inner rocker arm 3′ is rotatably supported at the outer rocker arm 3″ by means of a pin 8. Another difference between the embodiments of the device 10 according to the
As in the
In a first position, in particular in its first end position, the actuating element 12 rests against the outer rocker arm 3″ (compare
Hence, with the device according to the
All embodiments according to the
All features illustrated in the description and in the following claims can be essential for the invention, individually as well as combined with one another in any form.
Number | Date | Country | Kind |
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10 2006 033 403.5 | Jul 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/056752 | 7/4/2007 | WO | 00 | 12/15/2009 |