Valve train device

Abstract

A valve train device, in particular for an internal combustion engine, includes a support element and a cam element which can be moved axially relative to the support element. The valve train device further includes a switch unit for axially moving the cam element, which switch unit includes a displacer that is intended to be at least operatively inserted between the support element and the cam element in order to axially move the cam element.

Claims

1. A valve train device, comprising: a support element; a cam element, wherein the cam element is configured to move axially relative to the support element and wherein the cam element has a multitrack cam; and a switch unit for axially moving the cam element, wherein the switch unit includes a first displacer, wherein the switch unit and the first displacer are disposed external to the support element and are disposed axially between the support element and the multitrack cam such that the first displacer slides laterally on the support element and is operatively inserted between the support element and the cam element so as to axially move the cam element in a first direction, wherein the first displacer is configured to move radially relative to the cam element, wherein the first displacer has an inclined surface, and wherein the inclined surface is inserted between the cam element and the support element.

2. The valve train device according to claim 1, wherein the support element is fixed to a housing.

3. The valve train device according to claim 1, wherein the inclined surface comes into contact with the cam element and axially moves the cam element when operatively inserted between the support element and the cam element.

4. The valve train device according to claim 1, wherein the switch unit includes a housing and wherein the first displacer is mounted on the housing.

5. The valve train device according to claim 1, wherein the switch unit has a second displacer that is operatively inserted between the support element and the cam element so as to axially move the cam element in a second direction that is counter to the first direction.

6. The valve train device according to claim 1, wherein the first displacer forms an axial bearing for the cam element.

7. The valve train device according to claim 1, wherein the support element forms a radial bearing for the cam element.

8. An internal combustion engine, comprising: a valve train device including: a support element; a cam element, wherein the cam element is configured to move axially relative to the support element and wherein the cam element has a multitrack cam; and a switch unit for axially moving the cam element, wherein the switch unit includes a displacer, wherein the switch unit and the displacer are disposed external to the support element and are disposed axially between the support element and the multitrack cam such that the displacer slides laterally on the support element and is operatively inserted between the support element and the cam element so as to axially move the cam element, wherein the displacer is configured to move radially relative to the cam element, wherein the displacer has an inclined surface, and wherein the inclined surface is inserted between the cam element and the support element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows a valve train device in a first switch state, which device is for an internal combustion engine and comprises a support element and a cam element which can be moved axially relative to the support element, the device also comprising a switch unit for axially moving the cam element, which unit comprises at least one displacer that is intended to be inserted between the cam element and the support element in order to axially move the at least one cam element, and

(2) FIG. 2 shows the valve train device in a second switch state.

DETAILED DESCRIPTION OF THE DRAWINGS

(3) FIGS. 1 and 2 show a valve train device 10 for an internal combustion engine, comprising an axially movable cam element 14 which has two multitrack cams 15, 19, each of which has two cam tracks 17, 18, 21, 22. The valve train device 10 is provided for actuating gas exchange valves (not shown in greater detail) of the internal combustion engine (not shown in greater detail) by means of the cam tracks 17, 18, 21, 22. The cam tracks 17, 18, 21, 22 provide different valve lifts and/or valve timings for the gas exchange valves. The cam element has two peripheral surfaces 20, 16.

(4) The valve train device 10 comprises a camshaft 11, which has a drive shaft 12 and the cam element 14. The cam element 14 is rotationally fixed to the drive shaft 12, but can be moved in both axial directions. The drive shaft 12 has spur teeth on the outer periphery thereof. The cam element 14 has corresponding spur teeth on the inner periphery thereof, which teeth engage with the spur teeth of the drive shaft 12. The cam element 14 is rotationally fixed by means of the corresponding spur teeth and the spur teeth of the drive shaft 12, but can be moved in both axial directions. The camshaft 11 rotates about a rotational axis 13, thereby causing the cam element 14 to rotate. The drive shaft 12 comprises a crankshaft connection for connecting to a crankshaft (not shown in greater detail). Alternatively, it is conceivable for the camshaft 11 to be composed of a plurality of cam elements 14 which mutually engage at the edges thereof.

(5) The valve train device 10 comprises a support element 23 which supports the camshaft 11 with respect to a housing. The cam element 14 is arranged on the camshaft 11 so as to be axially movable relative to the support element 23.

(6) The valve train device 10 comprises a switch unit 24 for axially moving the cam element 14, which unit comprises a displacer 25 that is intended to be operatively inserted between the support element 23 and the cam element 14 in order to axially move the cam element 14. The displacer 25 has a width which corresponds to a path of movement of the cam element 14 between two switch positions which are associated with different cam tracks 17, 18, 21, 22. In the embodiment shown, the displacer 25 is inserted directly between the support element 23 and the cam element 14, thereby moving the cam element 14 on the camshaft 11 along the path of movement between two switch positions. In an alternative embodiment, the displacer 25 can be inserted between the support element 23 and an element connected to the cam element 14, and can move the element connected to the cam element 14 along the path of movement between two switch positions. The element connected to the cam element 14 then in turn moves the cam element 14 along the path of movement between two switch positions. FIG. 1 shows the valve train device 10 in a first switch state in which a large valve lift is applied to the gas exchange valves. The first switch state is achieved by operatively inserting the displacer 25 between the support element 23 and the cam element 14.

(7) The switch unit 24 of the valve train device 10 comprises a further displacer 26, which is arranged opposite the displacer 25 on an opposite side of the support element 23. The further displacer 26 is intended to be operatively inserted between the support element 23 and the cam element 14 in order to switch the valve train device 10 into a second switch state in which the cam element 14 applies a small valve lift to the gas exchange valves (FIG. 2). In a third switch state (not shown in greater detail) in which the displacers 25, 26 are operatively remote from the support element 23 and the cam element 14, a medium valve lift is applied to the gas exchange valves. When inserted between the support element 23 and the cam element 14, the further displacer 26 axially moves the cam element 14 in a direction counter to the direction in which the displacer 25 moves the cam element 14.

(8) The displacers 25, 26 are uncoupled. In principle, the displacer 25 and the further displacer 26 can also be coupled by a rocker, such that the further displacer 26 is pulled out when the displacer 25 is inserted, and vice-versa.

(9) The displacer 25 can be moved radially relative to the cam element 14. In order to switch to the first switch state, the displacer 25 is moved radially towards the cam element 14 until it is inserted between the cam element 14 and the support element 23. The switch unit 24 comprises a switch actuator 27, which is provided to move the displacer 25 radially towards the cam element 14 and away from the cam element 14. The further displacer 26 can similarly be moved radially relative to the cam element 14. The switch unit 24 comprises a further switch actuator 28, which is provided to move the further displacer 26 radially towards the cam element 14 and away from the cam element 14.

(10) The support element 23 is fixed to a housing and supports the camshaft 11 against a housing of the internal combustion engine. In the embodiment shown, the support element 23 is connected directly to the housing. In an alternative embodiment, it is conceivable for the support element 23 to be connected to the camshaft 11 for conjoint rotation, and to be connected to the housing by means of a further element.

(11) The displacer 25 has an inclined surface 29 for insertion between the cam element 14 and the support element 23. When the displacer 25 is operatively inserted, the cam element 14 first comes into contact with the inclined surface 29 of the displacer 25. The displacer 25 is in the shape of a wedge, which forms the inclined surface 29. When the displacer 25 is inserted, the displacer 25 slides laterally on the support element 23 and laterally engages with a peripheral surface 20 of the cam element 14 by means of an edge of the wedge that is oriented towards the cam element 14 in the radial direction. When the displacer 25 is inserted further, the cam element 14 slides on the inclined surface 29 and is moved along the path of movement in the axial direction by means of the displacer 25. In an alternative embodiment, the displacer 25 can also have a straight surface, and the cam element 14, or a component connected to the cam element 14, can have the inclined surface 29.

(12) The further displacer 26 likewise has an inclined surface 30 for insertion between the cam element 14 and the support element 23. Similarly to the displacer 25, the displacer 26 is also in the shape of a wedge, which forms the inclined surface 30.

(13) The switch unit 24 comprises housings 31, 32 on which the displacers 25, 26 are mounted. When the displacers 25, 26 are operatively not inserted between the support element 23 and the cam element 14, 60 percent of the displacers 25, 26 are accommodated in the housings 31, 32. The switch actuators 27, 28 for radially moving the displacers 25, 26 are also accommodated in the housings 31, 32.

(14) The support element 23 forms a radial bearing for the cam element 14. Further radial bearings for supporting the cam element 14 can be provided in addition to the support element 23.

(15) The displacers 25, 26 form an axial bearing for the cam element 14. In forming the axial bearing for the cam element 14, the displacers 25, 26 each form axial stops for the cam element 14.

LIST OF REFERENCE SIGNS

(16) 10 Valve train device 11 Camshaft 12 Drive shaft 13 Rotational axis 14 Cam element 15 Cam 16 Peripheral surface 17 Cam track 18 Cam track 19 Cam 20 Peripheral surface 21 Cam track 22 Cam track 23 Support element 24 Switch unit 25 Displacer 26 Displacer 27 Switch actuator 28 Switch actuator 29 Inclined surface 30 Inclined surface 31 Housing 32 Housing