DE102007002802B4 - Method for switching a valve train of an internal combustion engine between a two-stroke and a four-stroke operation and valve train - Google Patents

Abstract

method for switching a valve train of an internal combustion engine between a two-stroke and a four-stroke operation of the internal combustion engine with at least one rotatably mounted camshaft and at least one, several different cam profiles having cam profile group, characterized in that at least one rotationally fixed and axially displaceable on the camshaft guided Cam support, which has the at least one cam profile group, for cam profile selection between at least one of the two-stroke operation associated axial Position and at least one other, the four-stroke operation assigned axial position is shifted.

Description

The The invention relates to a method for changing over a valve train an internal combustion engine between a two-stroke and a four-stroke operation of Internal combustion engine with at least one rotatably mounted camshaft and at least one, several different cam profiles having cam profile group.

Farther The invention relates to a valve train of an internal combustion engine with at least one rotatably mounted camshaft, at least one, several different cam profiles having cam profile group and one of the cam profiles selecting Changeover device for a switch between a two-stroke and a four-stroke operation of Internal combustion engine.

A method for switching a valve train between a two-stroke and a four-stroke operation of the internal combustion engine are known. In two-stroke operation operated internal combustion engines due to their higher firing order inherently compared to the four-stroke operation the advantages of a higher specific power. On the other hand, the four-stroke operation has significant advantages in terms of fuel consumption and the reduction of pollutant emissions due to the avoidance of flushing losses during the charge cycle. An interchangeable between the two-stroke and four-stroke engine internal combustion engine combines the advantages of four-stroke operation in the partial load range with the advantage of two-stroke operation in the full load range of the internal combustion engine. The DE 43 22 212 A1 has a cam-controlled valve actuation of an internal combustion engine with a switchover between a two-stroke and a four-stroke operation in which each gas exchange valve is assigned a cam profile group of the camshaft with two cam profiles each having a cam, wherein the cams are arranged offset by 180 degrees. Between the first cam profile and the gas exchange valve, a first transmission element is arranged, to which a second, arranged between the second cam profile and the gas exchange valve transmission element can be coupled. If the internal combustion engine is operated in four-stroke mode, then the gas exchange valve is controlled only via the first cam profile and the first transmission element. In two-stroke operation, the gas exchange valve is controlled via the first and the second transmission element by the superposition of the two cam profiles. The coupling of the two transmission elements via a transverse pin between the transmission elements. In such a coupling of two transmission elements, the precision of the cam control in two-stroke operation is limited by the coupling element.

Of the Invention has for its object to provide a method which a quick changeover between a two-stroke and a four-stroke operation allows and precise cam control even at high speed and two-stroke operation guaranteed. The inventive method provides that at least one rotationally fixed and axially displaceable guided on the camshaft Cam support, which has the at least one cam profile group, for cam profile selection between at least one axial position associated with the two-stroke operation and at least one other, the four-stroke mode associated axial Position is moved. On the at least one cam carrier is respectively provided at least one cam profile group, the different Has cam profiles. By axial displacement of the cam carrier on the Camshaft between the axial positions is one of the Cam profiles of each cam profile group for controlling an assigned cam profile Gas exchange valve of the internal combustion engine selected. The axial displacement of the cam carrier on the camshaft for cam profile selection is done by means of a Umstellvorrichtung, the at least one device for axial Moving the at least one cam carrier has.

To a development of the invention is provided that in the one Position of the cam carrier a cam profile associated with two-stroke operation and in the other Position of the cam carrier a four-stroke mode associated cam profile of the cam profile group with an associated drag lever of the internal combustion engine in abutting contact is brought. Each of the drag levers controls a gas exchange valve of the internal combustion engine. Furthermore, it is provided that the device for axially displacing the at least one cam carrier at least an actuator having at least one engagement element, wherein engage the engagement element with a curve backdrop leaves.

Of the Valve gear according to the invention has at least one rotationally fixed and axially displaceable on the Camshaft guided Cam support, having the at least one cam profile group, wherein the switching device for cam profile selection at least one means for axial Moving the at least one cam carrier between at least one the two-stroke mode associated axial position and at least another, the four-stroke mode associated axial position having. Such a move can be done quickly. For non-rotatable and axially displaceable guide of the cam carrier on the camshaft they are preferably by an axially extending Gearing interconnected, wherein the camshaft has an external toothing and the cam carrier one Have internal teeth.

With Advantage is provided that in one position of the cam carrier a the two-stroke mode associated cam profile and in the other Position of the cam carrier a four-stroke mode associated cam profile of at least a cam profile group with an associated cam follower of Internal combustion engine is in contact with the system. Due to the axial displacement of the cam carrier The camshaft may be one of the cam profiles of each cam profile group their associated rocker arms of the valve gear of the gas exchange valves Internal combustion engine brought into abutting contact. Such Switching guaranteed due to the separate cam profiles for the two-stroke and four-stroke operation a precise one Valve control of the gas exchange valves. In particular, it is envisaged that the two-stroke mode associated cam profile of the cam profile group a cam profile with two cams and that associated with the four-stroke operation Cam profile of the cam profile group a cam profile with only one Nock is. This design of the cam profiles results in two-stroke operation opposite the four-stroke operation doubling the power strokes.

Farther is provided with advantage that the means for axial displacement the at least one cam carrier at least one actuator with at least one engagement element , wherein the engagement element with a curved backdrop in Intervention. It is advantageously provided that the actuator together with the engagement element in a housing part of the internal combustion engine is arranged and the curve backdrop formed on the cam carrier / arranged is. The axial displacement of the cam carrier takes place on the camshaft preferably with the aid of two actuators in the form of actuators, the axially offset in the housing (For example, the cylinder head housing) of the internal combustion engine are arranged and in each case an engagement element in the form of a driving pin exhibit. By operation each one of the actuators can be the driving pin engage with a cam on the cam carrier. The Curve scenery has in one of the two actuators a left-handed helical Groove and the other of the two actuators a clockwise helical Groove on so that the cam carrier for cam profile selection between the shift positions to the right or left is shifted, if one or the other Actuator actuated becomes.

alternative is provided with advantage that the actuator together with the Engagement element is arranged on the cam carrier and the Curve scenery in one in a housing part of the internal combustion engine arranged backdrop element is formed / arranged. The backdrop element let yourself with the help of the associated Actuator move transversely to the camshaft to the engagement element to engage with the cam set and thereby move the cam carrier. In this case, the engagement element is preferably an outwardly projecting beyond the cam carrier, fixed engagement element and the link element preferably laterally from the camshaft in the housing arranged, it is with the aid of the actuator transversely to the camshaft lets move, to bring the engagement element with the curve backdrop in engagement.

in the The invention will be explained below with reference to an embodiment shown in the drawing embodiment explained in more detail. It show the

figure a perspective view of the valve gear according to the invention.

In the valve drive only partially shown in the drawing for a plurality of gas exchange valves 1 . 2 of cylinders of an internal combustion engine having an overhead, rotatably mounted in a cylinder head housing of the internal combustion engine camshaft 3 can be seen the valve timing of the two, from the camshaft 3 actuated gas exchange valves of the internal combustion engine by means of a changeover between a two-stroke and a four-stroke change operation. For this purpose, the valve gear for the two gas exchange valves 1 . 2 a rotationally fixed and axially displaceable on the camshaft 3 mounted cam carrier 4 on. The cam carrier 4 has two axially spaced cam profile groups 5 . 6 where each cam profile group 5 . 6 with a pivotally mounted rocker arm 7 one of the gas exchange valves 1 . 2 interacts. For this purpose, each of the drag levers 7 a role 8th on, in abutting contact with one of the cam profiles 13 . 14 one cam profile group each 5 . 6 stands. About the roles 8th and the rocker arms (roller rocker) 7 is ever a valve member 9 operated, which is to open the respective gas exchange valve 1 . 2 can be pushed down against the force of a valve spring, not shown. The valve train also includes for each of the gas exchange valves 1 . 2 a hydraulic valve clearance compensation element 10 , The cam carrier 4 is in each case between two gas exchange valves 1 . 2 by means of rolling or sliding bearings 11 in cylinder head fixed bearing blocks 12 stored, of which only one half is shown.

Each of the cam profile groups 5 . 6 a cam carrier 4 has two different cam contours or cam profiles 13 . 14 on, characterized by axial displacement of the cam carrier 4 on the camshaft 3 optionally in two different positions with the roller 8th of the respective rocker arm 7 the associated gas exchange valves 1 . 2 can be brought into abutting contact. From the two cam profiles 13 . 14 this is on the right hand side set cam profile 14 a cam profile associated with four-stroke operation 14 with a cam and each cam profile shown on the left 13 a two-stroke mode associated cam profile 13 that has two cams. In addition to the different number of cams of the cam profiles 13 . 14 are the cams of the cam profiles 13 and the cam of the cam profiles 14 out of phase with each other, so that shifted for the two-stroke and four-stroke operation times of the gas exchange valves 1 . 2 result in the same camshaft position. The switching of the valve train between two-stroke and four-stroke operation is carried out by axial displacement of the cam carrier 4 on the camshaft 3 along a rotation axis 15 the camshaft 3 , The hollow cylindrical cam carrier 4 has at its inner periphery an inner longitudinal toothing 16 on that with a complementary external toothing 17 the camshaft 3 meshes with the axial displacement of the cam carrier 4 with non-rotating guide on the camshaft 3 to enable.

To the axial displacement of the cam carrier 4 this is at its opposite ends 18 . 19 each with a curve backdrop 20 Mistake. With the help of two actuators designed as actuators 21 . 22 the axial displacement of the cam carrier takes place 4 on the camshaft 3 , Each of a curve backdrop 20 the ends 18 . 19 assigned actuators 21 . 22 a facility 23 for axial displacement of the at least one cam carrier 4 are arranged axially offset in a housing part (cylinder head housing) of the internal combustion engine and each have an engagement element 24 on. The changeover device actuates one of the actuators in each case 21 . 22 the device 23 so that the corresponding engagement element 24 with the respective curve scenery 20 on the ends 18 . 19 of the cam carrier 4 is engaged. The curve backdrop 20 points to one end 18 a clockwise helical groove 25 and at the other end 19 a levorotatory helical groove 26 on, so the cam carrier 4 is moved to the right or left between the two displacement positions, if that is an actuator 21 or the other actuator 22 is pressed.

1

Gas exchange valve

2

Gas exchange valve

3

camshaft

4

cam support

5

Cam profile group

6

Cam profile group

7

cam follower

8th

role

9

valve member

10

Lash adjuster

11

bearings

12

bearing block

13

cam profile

14

cam profile

15

axis of rotation

16

Internal spline

17

external teeth

18

The End

19

The End

20

curve backdrop

21

actuator

22

actuator

23

Facility

24

engaging member

25

groove

26

groove

Claims (8)

A method for switching a valve train of an internal combustion engine between a two-stroke and a four-stroke operation of the internal combustion engine with at least one rotatably mounted camshaft and at least one, a plurality of different cam profiles cam profile group, characterized in that at least one rotatably and axially displaceably guided on the cam shaft cam carrier, the which has at least one cam profile group, is shifted to the cam profile selection between at least one of the two-stroke mode associated axial position and at least one other, the four-stroke mode associated axial position. Method according to claim 1, characterized in that that in one position of the cam carrier a two-stroke operation assigned cam profile and in the other position of the cam carrier a the four-stroke mode associated cam profile with an associated Drag lever of the internal combustion engine is brought into abutting contact. Valve gear of an internal combustion engine with at least one rotatably mounted camshaft, at least one cam profile group having a plurality of different cam profiles and a cam profile selecting switching device for switching between a two-stroke and a four-stroke operation of the internal combustion engine, characterized by at least one rotationally fixed and axially displaceable on the camshaft ( 3 ) guided cam carrier ( 4 ) containing the at least one cam profile group ( 5 . 6 ), wherein the switching device for cam profile selection at least one device ( 23 ) for axially displacing the at least one cam carrier ( 4 ) between at least one of the two-stroke operation associated with the axial position and at least one other, the four-stroke operation associated axial position. Valve gear according to claim 3, characterized in that in the one position of the cam carrier ( 4 ) a two-stroke operation associated cam profile ( 13 ) and in the other position of the cam carrier ( 4 ) a cam profile associated with four-stroke operation ( 14 ) of the at least one cam profile group ( 5 . 6 ) with an associated drag lever ( 7 ) of the internal combustion engine is in abutting contact. Valve gear according to one of the preceding claims, characterized in that the two-stroke operation associated cam profile ( 13 ) of the cam profile group ( 5 . 6 ) a cam profile with two cams and that the four-stroke operation associated cam profile ( 14 ) of the cam profile group ( 5 . 6 ) is a cam profile with only one cam. Valve gear according to one of the preceding claims, characterized in that the device ( 23 ) for axially displacing the at least one cam carrier ( 4 ) at least one actuator ( 21 . 22 ) with at least one engagement element ( 24 ), wherein the engagement element ( 24 ) with a curve scenery ( 20 ). Valve gear according to one of the preceding claims, characterized in that the actuator ( 21 . 22 ) together with the engagement element ( 24 ) is arranged in a housing part of the internal combustion engine and the curve scenery ( 20 ) on the cam carrier ( 4 ) is formed / arranged. Valve gear according to one of claims 3 to 7, characterized in that the actuator ( 21 . 22 ) together with the engagement element ( 24 ) on the cam carrier ( 4 ) is arranged and the curve scenery ( 20 ) is formed / arranged in a arranged in a housing part of the engine crank element.