EP0585568B1 - Valve operating system for an internal combustion engine - Google Patents

Description

The invention relates to a valve drive arrangement for an internal combustion engine according to the preamble of patent claim 1.

It is known to operate gas exchange valves of an internal combustion engine variably, ie with different control times and / or strokes. EP-0 267 687 B1 discloses a valve drive in which two inlet valves are actuated by a camshaft provided with different cams with the interposition of transmission elements designed as rocker arms. Axially displaceable pistons are mounted within the rocker arms and, depending on their position, couple the rocker arms to one another in a form-fitting manner. When the piston is extended, a cam with a large valve lift actuates the valves via two outer rocker arms, which are coupled to a central one. When the piston is retracted, the middle rocker arm is uncoupled and the valves are actuated by cams with a smaller valve lift via the outer rocker arms.
Such an arrangement takes up a large amount of space and is heavy, since in addition to the camshaft, further axes for rocker arm mounting are arranged.

The invention has for its object to simplify a generic arrangement to save space.

This object is achieved with the features of claim 1. If the cams are designed as transmission elements in a valve drive, one cam being arranged in a rotationally fixed manner and another rotatably on the camshaft, then a compact design in which the cams are directly connected to the Actuate the valves, depending on the position of the pistons, the rotatably arranged cam or the positively coupled, rotatable cam act on the valves.
Due to the design of the cams, which also serve as transmission elements, no rocker arm shafts and the like are required. Of the Installation space corresponds to a conventional valve drive, in which the cams act directly on the valves.

Further advantages result from the configurations characterized in the subclaims.
The arrangement of three cams lying side by side on the camshaft, of which the middle one or the two outer ones add or remove. can be switched off, the gas exchange valves can be operated with different cam profiles.
If the middle cam can be activated and provided with a larger stroke, two valves operated via a common tappet are operated in the upper load range of the internal combustion engine in such a way that an improved gas exchange takes place.

An arrangement of three cams with an identical stroke, but different profile profiles, makes it possible, for example, to provide a switching cam arranged in the center with an optimal valve stroke profile for the partial load range. To reduce the friction losses that occur, the switch cam can run onto a roller integrated in the tappet. The central arrangement of a fixed cam with a smaller stroke enables a position of the switch cams that are activated at high speeds, which is advantageous for the tappet.

Fig.1

schematisch einen Schnitt durch eine erste Ausführungsform,

Fig.2

schematisch einen Schnitt durch eine zweite Ausführungsform,

Fig.3

schematisch einen Schnitt durch eine dritte Ausführungsform,

Fig.4

einen Schnitt entlang der Linie IV-IV gemäß Fig.3,

Fig.5

einen Schnitt entlang der Linie V-V gemäß Fig.2,

Fig.6

einen Schnitt entlang der Linie VI-VI gemäß Fig.1 mit festgelegter Schaltnocke,

Fig.7

einen Schnitt entlang der Linie VII-VII gemäß Fig.2 und

Fig.8

einen Schnitt entlang der Linie VIII-VIII gemäß Fig.7

The invention is explained in more detail below with reference to a drawing.
Show it:

Fig. 1

schematically a section through a first embodiment,

Fig. 2

schematically a section through a second embodiment,

Fig. 3

schematically a section through a third embodiment,

Fig. 4

4 shows a section along the line IV-IV according to FIG. 3,

Fig. 5

3 shows a section along the line VV according to FIG. 2,

Fig. 6

2 shows a section along the line VI-VI according to FIG. 1 with a fixed control cam,

Fig. 7

a section along the line VII-VII of Figure 2 and

Fig. 8

a section along the line VIII-VIII of Figure 7

In a cylinder head, not shown, of an internal combustion engine, a camshaft 1 is held in bearings 2 and driven by a crankshaft, not shown, via a chain wheel 3.
The camshaft 1 carries a plurality of cams, which serve as transmission elements between the camshaft 1 and intake valves 4 with the interposition of a tappet 5.
The camshaft 1 has a central bore 6, in which a section 8 is delimited by plugs 7.
A groove 9 is inserted into a bearing 2 located within section 8, which is fed via a pressure oil line 11 and is connected to the central bore 6 via a radial bore 10. In the area of the cams, a radial bore 12 is arranged which intersects the central bore 6 and opens into a cylindrical hydraulic chamber 13 of a cam.

In a first embodiment according to FIG. 1, a first middle cam designed as a switching cam 14 is rotatably mounted on the camshaft 1, while on both sides a second or third cam designed as a fixed cam 15 or 16 is arranged in a rotationally fixed manner.
The switching cam 14 has in the area of its maximum elevation a through hole 17 in which a piston 18 is axially displaceably mounted. Both fixed cams 15, 16 have bores 19, 20 corresponding to the through bore 17. The radial bore 12 opens into bore 19 and a further, displaceable piston 21 is supported in it.
Bore 20 has a spring-loaded hollow piston 22, the spring 23 of which is supported on a bottom 24 of the bore 20.

The bores 19 and 20 and the through bore 17 are at the same distance H from the longitudinal axis AA of the camshaft 1 and the pistons 18, 21 and the hollow piston 22 have an identical diameter D. The maximum stroke of the fixed cams 15, 16 is less than that of the switching cam 14.

All cams act on the tappet 5, which, in one piece, actuates both valves 4 simultaneously. Each valve 4 is assigned a conventional valve spring 25 and a hydraulic valve lash compensation element 26 integrated in the tappet 5.

A check valve 29 is arranged in the pressure oil line 11 and is opened or blocked by an electronic control 31 via a line 30. This control 31 takes, inter alia, Signals corresponding to the current values of the oil temperature T and the engine speed N. The pressure oil line 11 is connected to a distributor line 32 which is connected to all cylinders of the internal combustion engine via further pressure oil lines 11 and is supplied with pressure oil via an inlet 33.

In the part-load operation of the internal combustion engine, the shut-off valve 29 is closed, and there is no oil pressure in the hydraulic chamber 13. Because of this, the spring 23 of the hollow piston 22 pushes the pistons 18 and 21 completely into the associated switching cam 14 or fixed cam 15. The switching cam 14 is decoupled and the camshaft 1 rotates freely in this cam 14. The fixed cams 15 and 16 run synchronously on the plunger 5 and actuate the inlet valves 4 with a relatively small stroke.
When a certain load state of the internal combustion engine is exceeded, the shut-off valve 29 is opened and the annular groove 9 is continuously fed from the pressure oil line 11 via the bore 10. The oil pressure acting on the piston 21 pushes it against the switching cam 14. When an inlet ramp 34 lying in the direction of rotation in front of the through bore 17 passes over, the piston 21 is partially pressed into this bore 17 and thereby pushes piston 18 partially into bore 20, the hollow piston countering it the spring 23 is moved to the plant with floor 24. The positively coupled switching cam 14 rotates synchronously with the fixed cams 15, 16 and actuates the plunger 5 due to the larger stroke.

In a second embodiment of the invention according to FIG. 2, the switching cam is only coupled via a fixed cam 15 by means of the piston 21.
The plunger 5 is designed as a roller plunger and is not explained in detail here, since it is described in DE-40 39 256 A1. The middle cam is provided for the part-load range of the internal combustion engine with a different profile than the fixed cams 15, 16 and actuates the plunger 5 with low friction via a roller 35, with the check valve 29 being open. All cams have an identical stroke.

When the internal combustion engine is under high load, the shut-off valve 29 closes, so that the switching cam 14 is uncoupled and tappet 5 is actuated by the fixed cams 15, 16. With regard to all other parts, this embodiment corresponds to that shown in FIG.

A third embodiment of the invention according to FIG. 3 has a central cam designed as a fixed cam 40 and on both sides thereof a cam designed as a switching cam 41 or 42. The radial bore 12 extends centrally in the fixed cam 40 and opens centrally into the hydraulic chamber 13 formed between two opposed pistons 43 and the through bore 19. The switching cams 41 and 42 each have a spring-loaded hollow piston 22.

In bearing 2, groove 9 is formed in the shape of a segment of a circle and all cylinders are assigned only one common check valve 29 in inlet 33.

The middle cam is provided with a smaller stroke and assigned to the part-load range, while with increased load and open shut-off valve 29, the switching cams 41, 42, which are coupled with a larger stroke, actuate the plunger 5 in a form-fitting manner.
Here, both switching cams 41, 42 have an entry ramp 34. The controller 31 additionally processes a signal corresponding to the current throttle valve angle K.

In all embodiments of the invention, the switching cams are coupled or uncoupled at least as a function of the engine speed N. In addition, other parameters, such as the throttle valve angle K, are supplied to the controller 31 as load information. The controller 31 can also be designed adaptively. In this case, according to FIG. 1, for example, a signal about the change in the throttle valve angle K over time is recorded as a measure of the dynamics of the driving operation of a motor vehicle equipped with this valve drive via a further input 43. A consciously calm driving style without dynamic jumps shifts the switching of the cams equipped with a larger stroke into the economic speed ranges of the internal combustion engine. In the case of a decidedly sporty driving style, shifting is shifted to areas that deliver optimum values for power and torque.

In a modification of this, a manually operated switch 44 can be provided, which allows a switchover between an economical and a sporty driving style in accordance with defined characteristic diagrams stored in the controller 31. Values for switching the switching cams as a function of the speed N are read from these characteristic maps.

In all versions, a hydraulically operated locking device 45 with a piston 46 is used to fix the uncoupled switching cams 14 and 41, 42. 6, this is guided in a housing 47 held in the cylinder head and is passed via a pressure line 48 when the switching cam 14; 41, 42 extended. A defined position is thus given when the pistons are retracted into the inlet ramp 34 and there is a sufficiently long period of time for positive connection. The position is chosen so that the switching cam runs with its green circle 49 on the plunger 5 during connection.

Claims (13)

1. A valve-operating device for an internal-combustion engine, with at least one camshaft and at least two cams mounted thereon and having different profiles for actuating gas-change valves, wherein the said valves are optionally actuated by one or other cam, transmission members arranged between the camshaft and the gas-change valves being connected to one another with positive locking by means of axially displaceable pistons mounted therein, characterized in that the transmission members are formed by the cams, wherein at least one cam is connected in a rotationally fixed manner as a fixed cam (15, 16; 40) to the camshaft (1) and the other cam is mounted rotatably as a trip cam (14; 41, 42) on the camshaft (1).
2. A valve-operating device according to Claim 1, characterized in that a fixed cam (15; 40) is mounted directly adjacent to a trip cam (14; 41) on the camshaft (1), wherein a piston (21; 43) mounted in an hydraulic chamber (13) in the fixed cam (15; 40) is movable with positive locking into a through bore (17) in the trip cam (14; 41) by means of oil pressure.
3. A valve-operating device according to Claim 2, characterized in that the trip cam (14; 41) or the fixed cam (15; 40) [actuates] gas-change valves constructed as inlet valves (4) by way of a common tappet (5).
4. A valve-operating device according to Claim 1, characterized in that a trip cam (14) is arranged between two fixed cams (15; 40), the maximum stroke of the trip cam (14) being greater than that of the fixed cams (15; 40).
5. A valve-operating device according to Claim 4, characterized in that a spring-loaded hollow piston (22) is arranged in a bore (20) in one fixed cam (16), the hollow piston (22) displacing a piston (18) in a through bore (17) in the trip cam (14) and the said piston (18) in turn displacing a piston (21) in a bore (19) in the other fixed cam (15) when the oil pressure is switched off.
6. A valve-operating device according to Claim 3, characterized in that the trip cam (14) acts upon the gas-change valves by way of a roller (35) connected to the tappet (5).
7. A valve-operating device according to Claim 2, characterized in that directly adjacent to the trip cam (14) a further fixed cam (16) is mounted on the camshaft (1) in such a way that the trip cam (14) is arranged centrally between the fixed cams (15 and 16).
8. A valve-operating device according to Claim 2, characterized in that directly adjacent to the fixed cam (40) a further trip cam (42) is mounted on the camshaft (1) in such a way that the fixed cam (40) is arranged centrally between the trip cams (41 and 42).
9. A valve-operating device according to Claim 2 or 7, characterized in that all the cams having an identical stroke act upon a common tappet (5).
10. A valve-operating device according to Claim 2 or 8, characterized in that the fixed cam (40) is provided with a shorter stroke than the trip cam (41, 42).
11. A valve-operating device according to one or more of the preceding Claims 2 to 10, characterized in that the hydraulic chamber (13) is connected - by way of a central bore (6) extending in the camshaft (1) - to a pressure-oil line (11) cooperating with a shut-off valve (29) actuated by an electronic control (31).
12. A valve-operating device according to Claim 11, characterized in that a switch (44) to be actuated manually is connected to the control (31), wherein performance graphs stored in the control (31) and controlling the shut-off valve (29) are selectable by the said switch (44).
13. A valve-operating device according to one or more of the preceding Claims 2 to 12, characterized in that when the shut-off valve (29) is blocked the trip cam (14; 41, 42) [is] fixed by means of an hydraulic fixing means (45) having an extensible piston (46).

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