DE10323665B4 - Variable valve lifting device for stroke adjustment of the gas exchange valves of an internal combustion engine - Google Patents

Abstract

Variable valve lifting device (1) for the stroke adjustment of the gas exchange valves (2) of an internal combustion engine, which comprises the following elements per gas exchange valve (2):
a rocker arm (9, 10) having a working curve (13) which, actuated by means of a camshaft (8), runs in a link (11),
a valve actuating means and a spring which presses the rocker arm (9, 10) against a cam of the camshaft (8),
an eccentric (4, 5) on a rotatable eccentric shaft (3),
wherein all possible contours of the eccentric (4, 5) are within a circle, which is formed by the outer diameter of a bearing (6, 7) of the eccentric shaft (3), and the pivot point of the rocker arm (9, 10) by the eccentric (4, 5) is determined
and a further, designed as a torsion spring and the eccentric shaft (3) wrapped around spring is provided with an angled leg end a cylindrical projection of the rocker arm (9, 10) engages around the rocker arm (9, 10) against the eccentric (4, 5 ) to the plant.

Description

The The invention relates to a variable Ventilhubvorrichtung for stroke adjustment the gas exchange valves of an internal combustion engine according to the preamble of claim 1.

State of the art

From the DE 195 48 389 A1 and the DE 101 23 186 A1 are an adjusting device for stroke adjustment of a gas exchange valve of an internal combustion engine, wherein the adjusting device in the DE 195 48 389 A1 for setting or for adjusting the valve lift of a gas exchange valve has a rotatably mounted in a cylinder head eccentric shaft with a worm gear driven electric motor having a motor shaft, which are positively connected via the gear with the eccentric shaft and a control unit that controls the electric motor. The adjustment of an adjustment with an eccentric is also known from the prior art. The necessary forces for rotating the eccentric and holding an eccentric in a regulated valve lift division go directly into the energy consumption and thus in the consumption of a variable-displacement internal combustion engine. Furthermore, it is known to adjust an eccentric shaft with an electro-hydraulic drive, which, however, is expensive and can not adjust the eccentric shaft fast enough in all operating states of the internal combustion engine. The adjustment or the Einregelung the valve lift of a fully variable valve train with a parallelogram is from the DE 101 40 635 A1 , which shows the closest prior art, known. However, a parallelogram is made up of many individual components, an adjustment bar, several handlebars and a pull bar with multiple joints. This results in high cost requirements due to the component tolerances and the necessary joint tolerances.

Other variable valve trains are from the DE 43 26 331 A1 and the DE 42 23 173 A1 known. From the DE 80 29 475 U1 the idea is known to set up a preassembled valve train on the gas exchange valves. The two valve gears from the DE 42 23 173 A1 and DE 43 26 331 A1 work with intermediate levers or other scenes that are fixed.

Generally For a fully variable valve train, the valve lift is used for adjustment the load is regulated. In multi-cylinder internal combustion engines is the valve lift to control the idle speed in the range of a few Adjusted tenths of a millimeter. The valve lift may be between differentiate the cylinders only by about 10% in this load point, otherwise due to the different load on the cylinder, the Total engine to invalid shake what is excited in a vehicle is unacceptable loss of comfort leads.

task

It Object of the present invention, a valve lift for stroke adjustment of the gas exchange valves of an internal combustion engine with as possible to create low adjustment and holding forces, independently of whether these holding and adjusting mechanical, hydraulic or be applied electrically, with a cost-effective as possible Adjustment of the valve lift and with highest accuracy between the individual cylinders of a multi-cylinder internal combustion engine to be made setting or adjustment of the valve lift and about that addition, the regulation possibility the valve lift of the valves of an internal combustion engine with several cylinders within the smallest tolerance.

These Task is solved by the features of claim 1.

Advantageous It is envisaged that the eccentric shaft into a through hole in the cylinder head material push-through and in the through hole is mounted directly in the cylinder head and that the eccentric shaft of one of the end faces of the cylinder head as a plug-in eccentric shaft can be mounted.

A advantageous variant is seen in that the eccentric shaft in a separate housing is mounted, which is connected to the cylinder head, wherein in the casing Also, a camshaft is mounted, or that in the housing as preassembled unit the eccentric shaft, the rocker arm, the camshaft and a backdrop are stored.

Prefers is the eccentric shaft by means of rolling bearings stored in the cylinder head.

Prefers is also in addition to a mechanical adjustment of the valve the valves provided as a variant that the eccentric shaft hydraulically is adjustable, or that the eccentric shaft by means of an electric motor adjustable, which is aligned with the camshaft or the eccentric shaft is provided, wherein the axis of the electric motor parallel to the camshaft axis or is provided parallel to the eccentric shaft axis.

A preferred development is seen in that the eccentric in an arrangement with two or more inlet or outlet valves rotated against each other by an angle α are arranged so that in a rotational position of the eccentric shaft for the Valves different valve lifts result.

A Particularly preferred development is seen in that in one Cylinder head for the activity inlet and outlet valves are provided with several eccentric shafts, where the eccentric shafts of several inlet or outlet valves differ in the contour of the eccentric.

Advantageous is further provided that the valves of adjacent cylinders are to operate with different eccentric contours on the rocker arms and that camshaft contours for the valves, which are associated with a cylinder, are designed differently.

A preferred embodiment is seen in that working contours of the rocker arm, with the eccentric shaft are in contact, form a flat surface or that the working contours the rocker arm, which are in contact with the eccentric shaft, a concave or convex surface form.

A in certain circumstances preferred development is then seen that the eccentric with a stored role of the rocker arms are in contact.

In addition, can be provided that the working contour of the rocker arm of the working contour of the second rocker arm, by means of an axis directly are connected to each other, executed differently.

Essential is on the new training of the eccentric shaft, that thus a regulation possibility the valve lift of the valves of an internal combustion engine with one or more inlet or outlet valves within smallest Tolerances is obtained at low adjustment and holding forces, regardless of whether these holding and adjusting forces be applied mechanically, hydraulically or electrically and with highest Accuracy of between the individual cylinders of a multi-cylinder Internal combustion engine to be made setting or adjustment the valve lift.

embodiment

The Invention will be described below with reference to a preferred embodiment explained in more detail.

It demonstrate:

1 a perspective view of a Ventilhubsystems invention;

2 an eccentric shaft in section;

3 an eccentric shaft with twisted eccentrics arranged in section.

1 shows a valve lift system for variable stroke adjustment of a gas exchange valve 2 a valve lift 1 that has a rotatable eccentric shaft 3 comprising a plurality of eccentrics ( 4 . 5 ), in which all possible contours of the eccentric 4 . 5 lie within a circle passing through the outside diameter of a bearing 6 . 7 the eccentric shaft 3 is formed ( 2 ). The eccentric shaft 3 is durchsteckbar in a through hole, not shown, in the cylinder head material and stored directly in the through hole in the cylinder head. Thus, the eccentric shaft 3 from one of the end faces of the cylinder head as a plug-in eccentric shaft 3 to be assembled. The eccentric shaft 3 is stored in a separate housing, which is connected to the cylinder head. In the housing are as preassembled unit the eccentric shaft 3 , Rocker arm 9 . 10 , a camshaft 8th and a backdrop 11 stored. There is also the possibility of the eccentric shaft 3 to store by rolling bearings in the cylinder head.

The contours of the eccentric 4 . 5 are circles and are due to the outer diameter of the bearing 6 . 7 the eccentric shaft 3 limited. The largest diameter of the eccentric shaft 3 is to support the eccentric shaft 3 provided in particular in the cylinder head and at the shortest distance to the tilting and set point of the rocker arm 9 . 10 stored. The eccentric shaft 3 is parallel to the camshaft 8th arranged. The eccentric shaft 3 is hydraulic or by means of an electric motor, which is aligned with the camshaft 7 or to the eccentric shaft 3 is provided, adjustable. The axis of the electric motor is also provided parallel to the camshaft axis or parallel to the eccentric shaft axis. Because of the eccentric 4 . 5 are arranged in an arrangement with two or more inlet or outlet valves against each other rotated by an angle α ( 3 ), results in a rotational position of the eccentric shaft 3 for the valves 2 a different valve lift. Are in a cylinder head for the operation of intake and exhaust valves several eccentric shafts 3 provided, the eccentric shafts can 3 of several inlet or outlet valves in the contour of the eccentric 4 . 5 differ. The valves 2 adjacent cylinders may have different eccentric contours over the rocker arms 9 . 10 be operated. The camshaft contours for the valves 2 , which are associated with a cylinder, can be designed differently.

The working contours of the rocker arms 9 . 10 that with the eccentric shaft 3 In contact, may form a flat surface or a concave or convex surface. But it is also possible that the eccentric 4 . 5 with a roller that is sliding or roller bearings, in contact to reduce friction and wear. For both bearings but minimum clearance is required. A working contour 13 of the rocker arm 9 is from a working contour 12 of the second rocker arm 10 that by means of an axis 14 directly connected to each other, executed differently.

1

Hubventilvorrichtung

2

Valve

3

eccentric shaft

4

eccentric

5

eccentric

6

outer diameter the bearing of the eccentric shaft

7

outer diameter the bearing of the eccentric shaft

8th

camshaft

9

rocker arm

10

rocker arm

11

scenery

12

work contour of the rocker arm

13

work contour of the rocker arm

14

axis the rocker arm

Claims (18)

Variable valve lift device ( 1 ) for stroke adjustment of the gas exchange valves ( 2 ) of an internal combustion engine, the gas exchange valve ( 2 ) comprises the following elements: a rocker arm ( 9 . 10 ) with a working curve ( 13 ), which, by means of a camshaft ( 8th ), in a scenery ( 11 ) runs, a valve actuator and a spring which the rocker arm ( 9 . 10 ) against a cam of the camshaft ( 8th ) presses an eccentric ( 4 . 5 ) on a rotatable eccentric shaft ( 3 ), whereby all possible contours of the eccentric ( 4 . 5 ) are within a circle defined by the outer diameter of a bearing ( 6 . 7 ) of the eccentric shaft ( 3 ) is formed, and the pivot point of the rocker arm ( 9 . 10 ) through the eccentric ( 4 . 5 ) is determined, and another, designed as a torsion spring and the eccentric shaft ( 3 ) is provided, which with an angled leg end a cylindrical projection of the rocker arm ( 9 . 10 ) engages around the rocker arm ( 9 . 10 ) against the eccentric ( 4 . 5 ) to the plant. Valve lifting device according to claim 1, characterized in that the eccentric shaft ( 3 ) is pushed through in a through bore in a cylinder head of the internal combustion engine and directly mounted in the through bore of the cylinder head. Valve lifting device according to claim 1 or 2, characterized in that the eccentric shaft ( 3 ) of one of the end faces of the cylinder head as a plug-in eccentric shaft ( 3 ) is mounted and attached. Valve lifting device according to claim 1, characterized in that the eccentric shaft ( 3 ) is mounted in a separate housing which is connected to the cylinder head. Valve lifting device according to claim 4, characterized in that in the separate housing, the camshaft ( 8th ) is stored. Ventilhubvorrichtung according to claim 4 or 5, characterized in that in the separate housing as a preassembled unit, the eccentric shaft ( 3 ), the rocker arm ( 9 . 10 ), the camshaft ( 8th ) and the scenery ( 11 ) are stored. Valve lifting device according to one of claims 2 to 6, characterized in that the eccentric shaft ( 3 ) is mounted by rolling bearings in the cylinder head or in the separate housing. Valve lifting device according to one of claims 1 to 7, characterized in that the eccentric contour as any Contour, in particular formed as a circle. Valve lifting device according to one of the preceding claims, characterized in that the eccentric shaft ( 3 ) is hydraulically adjustable. Valve lifting device according to one of claims 1 to 7, characterized in that the eccentric shaft ( 3 ) is adjustable by means of an electric motor which is aligned with the camshaft ( 8th ) or to the eccentric shaft ( 3 ) is arranged. Valve lifting device according to one of claims 1 to 10, characterized in that the eccentric ( 4 . 5 ) of adjacent gas exchange valves ( 2 ) are mutually rotated by an angle α, so that in a rotational position of the eccentric shaft ( 3 ) for these gas exchange valves ( 2 ) gives a different valve lift. Valve lifting device according to one of claims 1 to 11, characterized in that in the cylinder head or in the separate housing for the actuation of a plurality of gas exchange valves ( 2 ) several eccentric shafts ( 3 ) are provided. Valve lifting device according to claim 12, characterized in that the plurality of eccentric shafts ( 3 ) in the contour of the eccentric ( 4 . 5 ) differ from each other. Valve lifting device according to one of the preceding claims, characterized in that cam contours for the gas exchange valves ( 2 ) which belong to a cylinder, are designed differently. Valve lifting device according to one of claims 1 to 14, characterized in that the working contour of the rocker arm ( 9 . 10 ), which with the eccentric ( 4 . 5 ) is a plane, concave or convex surface or a roller. Valve lifting device according to one of the preceding claims, characterized in that the working contours ( 12 . 13 ) adjacent rocker arms ( 9 . 10 ), which by means of an axis ( 14 ) are connected directly to each other, are designed differently. Valve lifting device according to one of the preceding claims, characterized in that at least one of the gas exchange valves ( 2 ) is an inlet valve. Valve lifting device according to one of claims 1 to 16, characterized in that at least one of the gas exchange valves ( 2 ) is an exhaust valve.