DE3115424C2 - - Google Patents

Description

The invention relates to a hydraulic device for actuating a gas exchange valve for internal combustion engines, Reciprocating compressors or the like that have an encoder cylinder, in the cylinder chamber one with a cam of Camshaft arranged in operative connection with the master piston is, and an actuating cylinder in the cylinder space Piston actuating gas exchange valve is arranged, the master cylinder and the actuating cylinder having an intermediate one lying transmission link are coupled, in the upper Point means for degassing the working fluid attached are.

In internal combustion engines, motor compressors or the like it is known the movement of the lifting member on the cam drive with the interposition of a transmission element, for example also using a rocker arm on the valve transferred to. The movement of the lifting member on Cam drive mechanically or via the rocker arm hydraulically operating links are pressed on.

From DE-OS 28 40 455 it is known to achieve the same moderate stroke movements of the valve as a hydraulic linkage Acting unit from a master piston  an actuating piston and one of the cylinders of these pistons connecting control line at its highest point vent. The opening stroke of the engine valve can be there described "hydraulic linkage" can be adjusted that with the help of a hydraulic transmission arranged throttle the pressure to be transmitted to the valve and thus the valve deflection is more or less limited becomes.

By reducing the valve stroke, the start and Part load behavior of the engine can be influenced favorably. The in the embodiment according to the prior art necessary adjustment of the throttle naturally only allows a more or less sluggish adjustment of the valve lift to the respective circumstances. A precise influence on the Valve movement via the throttle setting is anyway not possible.

From US-PS 42 24 906 it is also known one of the Movement of a camshaft derived via a rocker arm To additionally influence valve movement in that the Pivot point of the rocker arm by means of a hydraulic piston is adjustable in height. With such a facility it is not possible to influence the valve stroke within wide limits flow because of the mechanical actuation of the Valve stroke inevitably due to the geometry of the cam is specified.

Starting from a facility according to the generic term is the object of the invention, the valve lift rhythmically and in time, and adjustable with great precision to make, with a clockwise valve stroke also additionally at normal valve lift should be possible.  

This task is carried out with a facility according to the Drawing features of claim 1 solved. In the Device according to the invention is the measure of transmission the deflection of the lifting member on the cam drive on the Valve itself controllably influenced.

This change in the transmission dimension can be advantageous fundamentally further development of the inventive concept take place in two ways, namely once when available a mechanical transmission member, such as a rocker arm, mechanically by influencing the linkage point and / or lever arm or directly by leg flow of the hydraulic linkage.

In both cases, the influencing becomes dependent on one Cam drive take place, the phase locked with the cam drive is coupled for the usual valve stroke, whereby according to one advantageous embodiment of the cam drive for the legs flow of the transmission dimension with on the camshaft is arranged.

Details of a device according to the invention are in following using two exemplary embodiments in conjunction explained with the accompanying drawings.

It shows:

Fig. 1 is a combination of a hydraulic linkage to a rocker arm for controlling the valve stroke,

Fig. 1a shows a modification of the embodiment of FIG. 1 with a single-acting piston and

Fig. 2 shows an embodiment with a hydraulic linkage and hydraulic superimposition of the control.

In both embodiments, 1 is the cam, depending on which, depending on a master piston 2 , a cylinder 3 , the line 4 with permanent ventilation 5 , actuating piston 6 and valve cylinder 7, the valve 12 is actuated. The hydraulic linkage realized in this way is refilled with oil via a check valve 8 from a pump 9 with pressure holding valve 10 and accumulator 11 .

In the embodiment according to FIG. 1, the actuating piston 6 does not act directly on the valve 12 as in the embodiment according to FIG. 2, but rather actuates a rocker arm 13 which is mounted in the pivot point 14 .

In order to influence the stroke of the valve 12 , the articulation point 14 can be adjusted in time, whereby the movement of the articulation point 14 together with the movement of the actuating piston 6 has the effect of changing the deflection of the valve 12 .

For this purpose, the articulation point 14 is mounted on a bracket 15 which can be lifted from a stop 18 by a piston 16 with cylinder 17 and moved against the force of a spring 19 .

The piston 16 is actuated by the pressure of the oil in the cylinder 17, which is in turn connected via a line 20 and a filling valve 21 After maintained against oil leaks, the refill valve 21 can connect the existing memory. 11 This hydraulic system also has a permanent vent 22 .

The additional hydraulic linkage constructed in this way enables light, as mentioned, to superimpose an additional movement on the valve movement. This can be advantageous both during the compression stroke for the purpose of exhaust braking, to change the valve timing and to reduce the valve stroke during a cold start, whereby it must be taken into account that through a stroke of the actuating piston 6 opposite movement of the piston 16 with a corresponding arrangement of the stop 18 by the opening stroke of the valve 12 generated in the actuating piston 6 can be compensated for in whole or in part, and thus smaller valve lifts can also be effected than the actuating piston 6 generates on its own.

The additional clockwise control can also be used Advantage can be used to intake and / or exhaust valves certain times, preferably to be determined in the experiment to open briefly, for example, to suck back exhaust gas achieve what for the improvement of exhaust gas quality and Achieving better cold start properties is advantageous.

In any case, the piston 16 must be moved in time and periodically in a very precisely metered and precisely timed manner and this additional movement must be able to be switched on and off as desired.

According to the proposal according to the invention, this takes place via an additional first master cylinder 26 , in which a first piston 24 is actuated as a function of a first cam 23 . The first master cylinder 26 can be switched on and off in accordance with the proposal according to the invention in that the first piston 24 rod 25 is double-acting by means of a continuous piston. Furthermore, a shut-off valve 27 is provided which connects the two cylinder spaces to one another, it being sufficient for the control to open or close the shut-off valve 27 in order to make the first master cylinder 26 effective or ineffective with the slightest impact.

The first cam 23 for the additional superimposed actuation of the valve 12 in the manner described is, as shown schematically, also arranged on the shaft of the cam 1 , so that the master piston 2 and the first piston 24 are actuated in an absolutely clocked manner with respect to one another. It is easy to see that this can be done simultaneously or phasenver pushed to each other. It is also apparent to the person skilled in the art that the first cam 23 can of course also be arranged on a shaft separate from the cam 1 , it only being necessary to ensure that both cams are actuated at the same rotational speed. The mutual phase position can be made rigid or adjustable.

FIG. 1 a shows a detail of a modification for controllably influencing the articulation point 14 via a hydraulic linkage, in which case a single-acting first piston 28 is provided instead of the double-acting first piston 24 . This piston 28 , which works as a lifting member with the first cam 23 , is guided in a first master cylinder 29 . By the example, electrically actuated shut-off valve 30 , the action of the cylinder 29 may be rendered ineffective. In this case, the first piston 28 pumps oil continuously from the refill device 20 via the pressure control valve 31 , which must be set to the highest working pressure.

In this embodiment too, a movement can be superimposed by changing the articulation point 14 in the sense of reducing the valve lift, namely by opening the shut-off valve 30 of the movement of the valve 12 caused by the actuating piston 6 .

In Fig. 2, a possible embodiment of Einrich device according to the invention is shown in a likewise schematic representation, in which the hydraulic linkage works directly on the valve 12 , that is, without the intermediary of a rocker arm. In the embodiment according to FIG. 2, the parts of the hydraulic linkage corresponding to the functional parts of the hydraulic linkage in FIG. 1 are designated with the same reference numerals as in FIG. 1.

The overlapping for triggering additional valve lift functions, however, take place in the embodiment shown in FIG. 2 by purely hydraulic addition. For this purpose, second and third cams 32 and 33 are provided, which also sit on the same axis as cam 1 in this embodiment.

However, it should be noted that further cams can also be provided for further functions and that also in this embodiment the cams 32 , 33 can be arranged on a separate phase-locked shaft with the camshaft rotating shaft.

The second and third cams 32 and 33 include second and third master cylinders 34 and 35 with second and third pistons 36 and 37 , which are designed to be double-acting, like the first piston 24 in FIG. 1. Each double-acting cylinder has a shut-off valve 38 and 39 assigned. If the shut-off valves 38 and 39 are closed, in the hydraulic linkage via the feed lines 40 and 41 additional Lich drive medium, for. As oil, pressed and thereby an additional deflection of the actuating piston 6 and thus the valve 12 is reached. In this case, the feed lines 40 and 41 are arranged in an increasing manner, preferably in the sense of pressure transmission, so that the permanent ventilation 5 can also be effective for this area.

An embodiment constructed in this way has the advantage over the embodiment according to FIG. 1 or FIG. 1a that mechanical parts, such as, in particular, a rocker arm can be saved, and that by arranging a plurality of pistons parallel to the second piston 36 and the third piston 37 , which can be controlled and made effective at different times, accordingly any number of additional functions can be introduced.

In addition, the spring-mass system, in which the oil lines are known to be used as springs, is considerably less susceptible to natural vibration in Fig. 2 than an embodiment according to Fig. 1, in which the masses 6 , 13 , 15 , 16 are freely suspended between springs.

Conversely, in one embodiment according to FIG. 2, it is unavoidable that leak oil leaks from the cylinder 7 directly onto the valve 12 and the engine block and cokes there or burns in the combustion chamber.

With the arrangement of a rocker arm 13, however, the entire leak oil can be kept away from the engine block.

When using a rocker arm, the transmission of the movement of the cam-controlled lifting member to the rocker arm can of course be carried out in a different way than shown in Fig. 1, especially if, as is known per se, a two-armed lever is used, and in this case too the articulation point of the lever itself can be controlled in one direction or the other in order to influence the valve clearance. Such modifications are in the area of male skill.

Claims (5)

1. Hydraulic device for actuating a gas exchange valve for internal combustion engines, reciprocating compressors or the like, which has a master cylinder, in the cylinder chamber of which is arranged in operative connection with a cam of the camshaft master piston, and an actuating cylinder, in the cylinder chamber of which a gas exchange valve actuating piston is arranged , has, wherein the master and the actuating cylinder are coupled via an intermediate transmission element, in the upper point of which means for degassing the working liquid are attached, characterized in that - for the sake of greater accuracy of the valve lift setting and for the correct and independent of the regular valve lift Actuation of the gas exchange valve - the device, as known per se, additionally has first, second and third cams ( 23 , 32 , 33 ), that these cams ( 23 , 32 , 33 ) are assigned first, second and third master cylinders ( 26 or 29 and 34 , 35 ) with sliding first, second and third pistons ( 24 or 28 and 36 , 37 ) are provided, the two cylinder spaces separated by the respective piston being connected to one another by a line having a shut-off valve ( 27 , 30 , 38 , 39 ). 2. Hydraulic device according to claim 1, characterized in that the additional first master cylinder ( 26 or 29 ) with a displaceable support ( 14 ) acting on the gas exchange valve ( 12 ) and the actuating piston ( 6 ) actuated lever ( 13 ) is connected via an additional piston ( 16 ) ( Fig. 1, 1a). 3. Hydraulic device according to claim 1, characterized in that the additional second and third master cylinders ( 34 , 35 ) with the interior of the cylinder ( 3 ) via feed lines ( 40 , 41 ) are connected ( Fig. 2). 4. Hydraulic device according to claim 1 or following, characterized in that the pistons ( 24 , 36 , 37 ) of the master cylinder ( 26 , 34 , 35 ) are designed as double-acting pistons. 5. Hydraulic device according to claim 3, characterized in that the feed lines ( 40 , 41 ) are arranged rising.