EP0909882A2 - Variable valve control for internal combustion piston engines - Google Patents

Abstract

One (14) of the inlet camshafts (14, 15) act as a combined inlet-exhaust camshaft and carries inlet (19) and exhaust (18) cams. Inlet and exhaust-side valve actuating levers (4,7) are carried on a common spindle (6) which is located under the camshafts. Preferably the combined camshaft is near the longitudinal axis of the engine and has an inlet opening function, while the other inlet camshaft has a closing function.

Description

The invention relates to a variable valve control for reciprocating internal combustion engines according to the preamble of claim 1.

Valve actuation devices for reciprocating piston internal combustion engines are diverse Design forms already known and there are also solutions used in practice therein, the intake valves and the exhaust valves via a common or one each to operate a separate camshaft, this by directly acting on the valves via the cams of the respective camshaft or via intermediate Valve actuation lever can take place.

Furthermore, there are also variable valve controls, in particular for the inlet valves of Reciprocating internal combustion engines are known, for example, from DE 43 22 480 C2, in which the intake valves are controlled together via two camshafts, one of which controls the open function and the other the close function for the respective valves, and that via an intermediate variable gear depending on Operating parameters of the internal combustion engine are mutually changeable in their phase relationship. The cams of the two camshafts controlling the intake valves act upon it common tap that is in a perpendicular to the axes of the camshafts lying level is supported on a valve actuation lever, via which the or respective inlet valves associated with a cylinder of an internal combustion engine are.

A variable valve control for reciprocating internal combustion engines with exhaust valves controlled by camshafts and actuated via valve actuation levers on the one hand and with more than two, the opening and closing functions for the inlet valves variable and jointly controlling intake camshafts on the other hand is also already there have been proposed (DE 197 01 203.5-13). This results in a relatively wide range building cylinder head and due to the large number of parts also a relative high effort for the valve actuation devices.

In contrast, the invention is intended to provide a variable valve control for reciprocating piston internal combustion engines of the aforementioned type are designed so that the Valve actuation device overall in terms of their construction costs and their Space requirement is reduced.

This is achieved with variable valve control of the type mentioned at the outset by that one of the intake camshafts as the combined intake-exhaust camshaft additionally the Exhaust cam carries and the intake and exhaust valve actuators on one Common axis are stored, which, in plan view, in the overlap area Inlet-outlet bone shaft is arranged below the same. Through this type of Design is not only reduced the number of camshafts, but also that Storage for the valve actuation lever is simplified, and it is through these measures possible to get a leaner and cheaper overall structure. In particular is thereby also greater freedom of movement with regard to the placement of the camshafts Above the row of cylinders allows a particularly simple and space-saving Solution is that the intake-exhaust camshaft in the area of the longitudinal central axis of the internal combustion engines, that is to say about the middle of the cylinders. This can and preferably offset in the direction of the intake valves, the second camshaft to be placed over the intake valves to save space and it's on the other side, so opposite, with respect to the combined intake-exhaust camshaft, there is a free space created that the placement of spark plugs and / or Injection elements allows. Furthermore, a largely symmetrical structure of the Valve actuator also in terms of storage and length of the Reach valve actuation lever.

In the context of the invention it is furthermore expedient that the intake-exhaust camshaft determines the inlet-open function for the inlet valves, the Drive for the intake camshaft that determines the closing function via Adjustment gear is branched from the drive of the intake-exhaust camshaft and is preferred via the intake-exhaust camshaft. The intake-exhaust camshaft in turn will expediently driven from the crankshaft, a solution such as that was addressed above, in which the closing function determining Intake camshaft in its drive branched from the drive of the intake-exhaust camshaft is, it also enables, if necessary, the intake-exhaust camshaft in its phase position To make the crankshaft adjustable, if necessary separately for its inlet and their exhaust cams.

According to the arrangement of the intake-exhaust camshaft essentially longitudinally Above the internal combustion engine, it proves expedient to swivel the on and off exhaust-side actuating lever in the area of the longitudinal central axis of the internal combustion engine to be arranged, preferably such that the axis of the intake-exhaust camshaft and the Pivot axis of the valve actuation levers on the inlet and outlet sides is approximately the same Longitudinal plane of the internal combustion engines are.

Such a solution advantageously makes it possible for the inlet cams to do so acted upon and supported on the valve actuation levers of the intake valves Tapping element and the outlet-side valve actuation lever in the area of the application through the outlet cam are at approximately the same height, based on the Longitudinal median plane of the intake-exhaust camshaft with a relatively small lateral offset opposite each other, so that the forces acting on the intake-exhaust camshaft favorable is and relatively low bearing forces occur.

When storing the camshafts and the axis of the valve actuation lever in between successive cylinders lying bearing blocks, it is also advantageous that the Axle carrying valve actuation lever additionally between successive ones To store pedestals, preferably on one between the pedestals Exhaust valve side shaft, which is used to hold the spark plug and / or Recording injection elements can serve.

Fig. 1

einen schematisierten Schnitt gemäß Linie I-I in Figur 2 durch den Zylinderkopf einer Brennkraftmaschine, die mit einer variablen Ventilsteuerung ausgerüstet ist,

Fig. 2

eine Draufsicht auf den Zylinderkopf gemäß Figur 1, teilweise wesentlich vereinfacht dargestellt,

Fig. 3

einen Schnitt gemäß Linie III-III in Figur 2, in stark vereinfachter Darstellung.

Fig. 4

eine der Figur 3 entsprechende Schnittdarstellung einer weiteren Ausgestaltungsform, und

Fig. 5

einen Schnitt gemäß Linie V-V in Figur 2, in stark vereinfachter Darstellung.

Further details and features of the invention emerge from the claims. Furthermore, the invention is explained in more detail below with reference to drawings. Show it:

Fig. 1

3 shows a schematic section according to line II in FIG. 2 through the cylinder head of an internal combustion engine which is equipped with a variable valve control,

Fig. 2

2 shows a plan view of the cylinder head according to FIG. 1, shown in a partially simplified manner,

Fig. 3

a section along line III-III in Figure 2, in a highly simplified representation.

Fig. 4

3 shows a sectional illustration corresponding to a further embodiment, and

Fig. 5

a section along line VV in Figure 2, in a highly simplified representation.

In the internal combustion engine partially shown in the figures as an exemplary embodiment it is one with four valves per cylinder, namely two one and two Exhaust valves, of which only one exhaust valve 1 and one in section according to Figure 1 Inlet valve 2 are shown and the each other with respect to the longitudinal median plane 3 of the Internal combustion engines in which the central axes of the cylinders not shown here lying, facing each other. The exhaust valves 1 are used as rocker arms trained valve actuating elements 4, which is pivotable about an axis 5 and are guided on an axle tube as a bearing axis 6 concentric to the pivot axis 5. The Inlet valves 2 are also acted on by valve actuators 7, which as Rocker arms are pivotally guided about the axis 5 on the bearing axis 6. Between Valves 1,2 and the valve actuators 4,7 are hydraulic Game compensation elements 38 arranged in a known manner. According to the arrangement of the Inlet valves 2 and exhaust valves 1 each on one side of the longitudinal median plane 3 the valve actuation levers each extend approximately from the common, near the Longitudinal center plane 3 lying pivot axis 5 each in the direction of the associated Valves. As FIG. 2 shows, the valve actuation levers 4 and 7 are each for one Cylinders between bearing blocks 8.9, which in turn between successive cylinders, in the illustration according to Figure 2 four cylinders and at the ends of the corresponding Row of cylinders are provided. The bearing blocks 8.9 can, which is not shown here, Form components of a common bearing housing that on part 10 of Cylinder head, which is generally designated 11, can be placed and the guides for the Valves 1 and 2 and the corresponding channels, namely the outlet channel 12 and the inlet duct 13. The bearing blocks 8.9 are shown as the lower and upper bearing block, the are screwed together on part 10 of the cylinder head. Is possible within the Invention also a division of the cylinder head into a lower and an upper Cylinder head part, the one corresponding to the lower and the upper bearing block Bearing halves are assigned so that separate bearing blocks can be dispensed with. Of the Cylinder head 11 extends continuously over the length of the internal combustion engine. In the Bearing blocks 8, 9 support the camshafts 14 and 15, of which the camshaft 14 lies above the bearing designed as an axle tube for the valve actuation levers 4 and 7, the axis of rotation 16 of the camshaft 14 also close to the longitudinal center plane 3 and runs parallel to this. Parallel and at the same height to the axis of rotation 16 of the camshaft 14 is the axis of rotation 17 of the camshaft 15, the camshaft 15 in the direction of the Inlet side to the camshaft 14 is laterally offset and with the axis of rotation 16 Camshaft 14 and the pivot axis 5 of the valve actuating lever 4 and 7 on the same Side of the longitudinal central plane 3, the offset of the pivot axis 5 to the longitudinal central plane is small, and in particular is even smaller than the offset of the axis of rotation 16 of the camshaft 14.

The camshaft 14 carries inlet and outlet cams, namely between two bearing blocks 8 two outlet cams 18 adjacent to the bearing blocks 8 and one in the middle between them Inlet cam 19. On gap to the inlet cam 19 and the outlet cam 18 carries the Camshaft 15 intake cam 20.

The inlet cams 19 and 20 act together on the rollers 27 and 28 one Tap member 21, which is displaceable on the inlet-side valve operating lever 7 is supported. The exhaust cams 18 act on the exhaust-side valve operating levers 4 via support rolls 22 mounted thereon.

Of the cams 19 and 20 which jointly determine the timing of the intake valves 2 or camshafts 14 and 15, the camshaft 14 is in a manner not shown with the crankshaft is connected to the drive and in turn drives via an adjustment gear which is in known type, for example, is designed as a four-wheel coupling gear, the camshaft 15, so that the phase position of the two camshafts 14 and 15 is mutually variable, and with the change in the phase position of these camshafts 14 and 15 I the timing of the intake valves 2. Here, the camshaft 14 the intake-open function, while the camshaft 15 the intake-close function controls.

The valve actuating lever 7 of the intake valves 2 are in the construction described in known manner for the two intake valves 2 each assigned to a cylinder a two-armed lever with two lever arms 23 connected via a cross member 24 joined together, the lever arms 23 sliding guides for the tap 21 with the Form bridge 25, which carries an axis 26 extending perpendicular to the lever arms 23, on the middle support roller 27 and the side support rollers 28 are mounted. Of the Support rollers 27 and 28 act on the central support roller 27 with the cam 19 of the camshaft 14 together, while the laterally outer support rollers 28 via the cams 20 of the Camshaft 15 are acted upon. The bridge 25 is also still, as not in detail shown, via springs 29 which between the bridge 25 and the stops not shown Lever arms 23 are clamped in the direction of the camshaft 15, so that a The support rollers 27, 28 bear against at least one of the cams 19 and 20, respectively is ensured.

The use of one of the camshafts, namely camshaft 14, as intake cam 19th and exhaust cam 18 supporting camshaft forms a within the scope of the invention A prerequisite for the most compact possible construction. In this sense there is also one as slim and light as possible design of the valve actuating levers 4 and 7 Axle tube 6 of interest. In order to achieve this, one is between the bearing blocks 8.9 additional support for the axle tube 6 serving as the bearing for the valve actuation levers 4,7 provided, and this support (see Figure 5) is a shaft 30 in the form of a Bearing eye 31 assigned to the at approximately the same inclination as the exhaust valves 1 in Side view between these lies and between inlet and outlet valves 1,2 with offset in Direction to the longitudinal center plane, approximately centered on the combustion chamber 32 of the cylinder head 10 flows out. The described arrangement of the shaft 30, which serves as a candle shaft, but is also suitable for accommodating injection elements, as the case may be Top view according to Figure 2, a curved design of the outlet side Valve actuation lever 4 such that they run towards each other at their ends, namely essentially following the contour of the shaft 30 and encompassing it.

In particular if the bearing blocks, designated 33 in FIG. 3, form part of a Form a bearing housing, but also with a separate arrangement, an embodiment has proven 3 as appropriate, in which the bearing blocks 33 at the same time recording and holding for the axle tube serving as the bearing 6 for the valve actuation levers 4 and 7. The Bearing blocks 33 are provided with a receiving bore 34 for the axle tube, wherein this receiving bore 34 with a via the screw level 35 of the bearing block 33 the lower, the valve head receiving cylinder head part 10 projecting approach 36 is assigned. In connection with such an embodiment, it proves to be expedient to also assign the corresponding part of the shaft 30 to the bearing housing, what is not shown in the figures, so that the bearing housing as a prefabricated unit all valve actuators are attached to the lower part 10 of the cylinder head can be.

Deviating from this, however, a design according to FIG. 4 is also possible in which the Receiving bore 34 for serving as the bearing 6 of the valve actuating levers 4 and 7 Axle tube is assigned to the lower part 10 of the cylinder head and the bearing blocks 8.9 are preferably screwed onto the lower cylinder head part 10 as single blocks, the Bolting level of the pedestals with the lower cylinder head part 10 in both Embodiments preferred in a plane with the level of the screw connections of the Cylinder head lower part is opposite the cylinder block, not shown, the Screwing the cylinder head part 10 with respect to the cylinder block, not shown Via the cylinder head screws 37, preferably in the transition area between successive cylinders. Correspondingly, in such an embodiment, the Arrangement of the bearing eye 31 associated with the candle shaft on the lower part 10 of the Cylinder head 11 expedient, as shown in Figure 5.

Claims (16)

Variable valve control for reciprocating piston internal combustion engines, the cylinders of which are covered by a cylinder head that holds the valves and carries the valve control, with camshaft-controlled exhaust valves actuated by valve actuation levers, and with two camshafts jointly controlling the intake valves, in which the opening and closing functions via the cams of each other of the two camshafts controlling the intake valves and the cams of both camshafts controlling the intake valves each act on a common tapping member which is supported in a plane perpendicular to the central axes of the mutually parallel camshafts on a valve actuating lever for the intake valves, the valve actuation levers being mounted on the housing side,
characterized by
that one of the intake camshafts (14, 15) as a combined intake-exhaust camshaft (14) additionally supports the exhaust cams (18) and the intake and exhaust-side valve actuation levers (4, 7) are mounted on a common axle (6) which, in the Top view, in the overlap area to the intake-exhaust camshaft (14) is arranged below the same. Variable valve control according to claim 1,
characterized by
that the inlet-exhaust camshaft (14) lies in the region of the longitudinal central axis (3) of the internal combustion engine. Variable valve control according to claim 1 or 2,
characterized by
that the intake-exhaust camshaft (14) for the intake valves (2) determines the intake-open function. Variable valve control according to one of the preceding claims,
characterized by
that the drive of the closing cam-determining inlet camshaft (15) is branched off from the drive of the inlet-exhaust camshaft (14) via an adjusting gear. Variable valve control according to claim 4,
characterized by
that the drive of the closing function determining the intake camshaft (15) via the intake-exhaust camshaft (14). Variable valve control according to one of claims 4 or 5,
characterized by
that the intake-exhaust camshaft is located between the crankshaft and the camshaft (15) determining the intake-closing function. Variable valve control according to one of the preceding claims,
characterized by
that the pivot axis (5) of the inlet and outlet-side valve actuation levers (4, 7) lies in the region of the longitudinal center plane (3) of the internal combustion engine. Variable valve control according to claim 7,
characterized by
that the axis (16) of the intake-exhaust camshaft (14) and the pivot axis (5) of the intake and exhaust-side valve actuation levers (4, 7) lie essentially in the same longitudinal plane of the internal combustion engine. Variable valve control according to one of the preceding claims,
characterized by
that the acted upon by the inlet cams (19, 20) and supported on the valve actuating lever (7) of the inlet valves (2), the tapping member (21) and the outlet-side valve actuating lever (4) in the region of the action by the outlet cam (18), based on the Intake-exhaust camshaft (14) are at approximately the same height. Variable valve control according to claim 9,
characterized by
that the outlet-side valve actuating lever (7) carries a support roller (22) which interacts with the outlet cams (18). Variable valve control according to one of the preceding claims,
characterized by
that the camshafts (14, 15) and the bearing axis (6) of the valve actuating lever (4, 7) are mounted in bearing blocks (8) lying between successive cylinders. Variable valve control according to claim 11,
characterized by
that the bearing axis (6) carrying the valve actuating lever (4, 7) is additionally mounted between successive bearing blocks (8, 9). Variable valve control according to claim 12,
characterized by
that the cylinder head (11) is provided with shafts, particularly candle shafts (30), which lie between the bearing blocks (8, 9), in particular approximately centrally between the bearing blocks, and which open out onto the cylinders, and that the candle shafts (30) support the brackets between the bearing blocks (8 , 9) lying bearing eyes (31) of the bearing axis (6) of the valve actuating lever (4,7). Variable valve control according to one of the preceding claims,
characterized by
that the camshafts (14, 15) with the valve actuating levers (4, 7) are arranged in a separate bearing housing (9) which can be placed on the part (10) of the cylinder head (11) containing the valve guides. Variable valve control according to one of the preceding claims,
characterized by
that receiving bores for the bearing axis carrying the valve actuating levers are assigned together with the bearing blocks to a bearing housing which can be placed on the cylinder head. Variable valve control according to one of claims 1 to 14,
characterized by
that receiving bores (34) for the bearing actuating shaft (6) carrying the valve actuating levers (4, 7) are assigned to the part (10) of the cylinder head (11) carrying the camshaft bearing blocks (8).

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