DE3534412C2 - Device for load and speed-dependent adjustment of the timing of a gas exchange valve of an internal combustion engine - Google Patents

Description

The invention relates to a device for load and speed dependent current adjustment of the timing of a gas exchange valve of an internal combustion engine Machine according to the preamble of claim 1.

From DE-OS 32 10 914 is a camshaft control device for speed and lastab dependent angular adjustment of a camshaft by means of an adjustment in the axial direction ble sleeve known, on which a displaceable in the axial direction of the camshaft helical gear is rotatably mounted. The adjustment is hydraulic via pressure pistons arranged on both sides, the supply lines of which are valve-controlled, the control is carried out by an electronic control device. As a disadvantage this solution can be seen that the actuating energy by an external hydraulic pump must be made available. For reasons of functional safety, the necessary operating pressure must always be given at a level that at the usual Double function of the pump for the adjustment device and the lubricating oil circuit of the Internal combustion engine for the latter is not required in wide operating areas. The adjustment device therefore requires a pump with increased output, which leads to a increased power loss of the motor and a larger construction costs.

The object underlying the invention is a device for load and speed-dependent adjustment of the timing of a gas change Selventils an internal combustion engine according to the preamble of claim 1 to create, which gets by with relatively little construction and for which No additional energy dispenser is required.  

The solution to this problem is given by the claim 1 Characteristics achieved.

According to the invention are therefore used to adjust the Cam device immediately during the from the internal combustion engine of the drive generated alternating torques used, on which the Relative rotation of the engaging point causing the cam device, for example, on the helical gearing, on the pinion generating axial force components that produce the axial adjustment effect. The control device is used for load-free Setting a load and speed-dependent position of the pinion and the associated relative rotation of the cam device, for the implementation of the principle of the feedback regulation be is particularly advantageous.

Further expedient embodiments of the invention result in ge according to the subclaims.

In the drawing, two embodiments of the invention are Darge provides, which are explained in more detail below. Show

Fig. 1 a longitudinal section of an inventive device for adjusting the valve timing of an internal combustion engine, in which the each position determining tax advantage direction is integrated into the cam device,

Fig. 2 is a partially sectioned plan view of part of the device according to Fig. 1 and

Fig. 3 shows a longitudinal section through an inventive device for adjusting the valve timing of an internal combustion engine, in which the position control device is formed separately from the cam device and as a closed hydrau Lich system.

In the two, in particular in FIGS. 1 and 3 exemplary embodiments shown, the same or comparable components with the same, optionally provided with a prime reference characters have been identified. In both cases, a device for adjusting the timing of an intake valve of an internal combustion engine is shown, it may be useful for the load control of the internal combustion engine if the internal combustion engine has two intake valves per cylinder, one of which has a fixed control time and only the second one has variable control time depending on load and speed. In this way, a charge control can be achieved, for example, for gasoline engines by de change of the control time of the second intake valve, preferably up to the compression stroke of the associated cylinder, which essentially does not require a throttle valve and therefore works with lower losses. In this principle known as push-back control, a part of the mixture charge sucked into the cylinder during the intake stroke via the first and possibly also the second intake valve is pushed out again during the first part of the compression stroke by the still open second intake valve, causing a throttle - and thus low loss charge control is achieved. With increasing load on the internal combustion engine, the closing time of the second inlet valve is increasingly moved earlier, that is, towards bottom dead center, until the two valves open at full load so that a maximum mixture charge is sucked into the cylinders.

Instead of providing two separate intake valves, the Control time of a single valve can be changed so that at im the essential fixed opening time is the closing time is changed depending on load and speed. This would then be a Valve closing time determining cams compared to a valve opening time-determining cam by the inventive device rela need to be adjusted.

Finally, the device is also suitable, the valve opening time ver a single valve by twisting a cam to change.

In Fig. 1 of the drawing, 1 is a total of the device according to the invention for adjusting the valve timing, in which, on a first camshaft 2, in addition to cams held firmly thereon for actuating, for example, a first inlet valve and the outlet valve, a drive gear 5 for driving a Two camshaft 6 is present via a pinion arrangement 7 held axially displaceably on this second camshaft 6 . With 3 and 4 are arranged on the camshaft 2 journals. The one grip of the drive gear 5 on the pinion arrangement 7 takes place here via a helical toothing, so that with an axial adjustment of the pinion arrangement 7 a relative rotation of the second camshaft 6 relative to the first camshaft 2 takes place. On the second camshaft 6 , cams for actuating the second inlet valves of each cylinder of the internal combustion engine are arranged.

With 8 is a hydraulically acting control device for load and speed-dependent determination of the axial position of the pinion arrangement 7 with respect to the drive gear 5 and thus the relative angular position of the second camshaft 6 with respect to the first camshaft 2 be. This control device 8 comprises an adjusting piston 14, which is held in a central longitudinal bore 10 of the second cam shaft 6 is axially displaceable and a hollow cylindrical connection member 13 having a first to a gear 7a of the pinion assembly 7 rigidly held, web-like actuating arm 12 connected . In addition to this first gear 7 a, the pinion arrangement 7 has a two-th gear 7 b, both of which are adjacent to the drive gear 5 in engagement and on their inner circumference on the end provided with a spline 11 of the second camshaft 6 non-rotatably, but axially are kept slidable.

The actuating piston 14 includes a pressure chamber 15 and 16 on both sides with respect to the plugs 17 and 18 closing the longitudinal bore 10 of the second camshaft 6 . These pressure chambers are each connected to the control piston 14 arranged longitudinal grooves 26 and 28 and transverse bores 25 and 38 or 27 and 39 with a pressure medium system under a predetermined low pressure for pressure medium supply and discharge.

For this purpose, a control piston 20 is held axially displaceably in the adjusting piston 14 which is provided with a longitudinal bore 22 . On the control piston 20 , a connecting rod 21 is fastened to the right end in the drawing, which is guided with play through the hollow connecting element 13 of the actuating piston 14 and is connected at its free end via a thrust bearing 54 to an actuating linkage, not shown here. This actuating linkage leads to a power actuator of the internal combustion engine, preferably the accelerator pedal, so that the adjustment of the control piston takes place depending on the load of the internal combustion engine. Appropriately, a force limiting member is preferably contained in the actuating linkage, preferably in the form of an interposed spring arrangement, which enables the accelerator pedal to be depressed even with a limited adjustment movement of the control piston.

The control piston 20 has two control edges 23 and 24 which cooperate with the transverse bores 25 and 27 arranged on the actuating piston 14 for controlling the pressure medium discharge from the pressure chambers 15 and 16 . For this purpose, the piston pocket lying between the two control edges 23 and 24 is connected via a transverse bore 29 , a longitudinal recess 30 , a transverse bore 31 and a longitudinal bore 32 to a longitudinal bore 33 of the second camshaft 6 , which is at a pressure medium space which is preferably at a low, fixed pressure level connected.

The pressure medium is supplied to the pressure chambers 15 and 16 from the transverse bore 29 of the control piston 20 via a longitudinal bore 34 and via transverse bores 36 and 37 to the transverse bore 38 and 39 of the actuating piston 14 , which are connected to the pressure chambers 15 and 16 , respectively. In this pressure medium supply path between the longitudinal bore 34 and the transverse bores 36 and 37 in the control piston ben 20 , a spring-loaded check valve 35 is arranged in each case, which only permits pressure medium supply if spaces 15 , 16 and the transverse bore 29 have a negative pressure difference is.

For speed-dependent limitation of the valve closing time adjustment is used in FIG. 1, generally designated 40 device, which consists of a bearing block 41 held on the actuating rod 21 , on the eccentric about a pivot point 43 a cam 42 is pivotally held, the outer contour of which on the stopper 17 attached stop pin 44 cooperates. Since the bearing block 41 is carried along by the actuating arm 12 during the rotation of the pinion arrangement 7 , an adjustment results due to the eccentric arrangement of the cam plate 42 and due to the centrifugal force acting on it. The outer contour of the cam is designed so that it in the speed-dependent position maximum mixture supply, by which the full load of the internal combustion engine is determined, pushes against the stop pin 44 and then prevents further adjustment of the control piston 20 or initiates its re-adjustment. The speed-dependent adjustment of the cam 42 counteracts the action of a torsion spring 45 which is held at its ends by means of pins 46 on the cam 42 or in the bearing block 41 . A damping of the adjustment of the cam plate 42 results from friction of the side surface of the cam plate on a corresponding lateral end face 47 of the connecting part 12 ( FIG. 2).

In the drawing, a possibility for the production of a hydraulic tooth play compensation is indicated, which is generally applicable and which helps to avoid stress impacts and stresses caused by alternations of gearwheels caused by alternating gears. For this purpose, the Ritzelanord voltage 7 consists of two gears 7 a and 7 b, which are hydraulically axially pressed together, so that their teeth each rest on opposite tooth flanks of the drive gear. The clamping voltage is acted upon by a hydraulically actuated annular piston 48 , which is held in a circumferential annular groove 49 of the first gear 7 a and presses with its end face against the first tooth wheel 7 a facing the end face of the other gear 7 b. The annular space 49 is via a longitudinal bore 50 arranged in the actuating arm 12 , a check valve 51 , a transverse bore 52 and an annular gap 53 remaining between the actuating rod 21 and the hollow connecting member 13 with the pressure medium system of the control piston 20 , so that the in this system there is a slight overpressure, there is a constant axial compression of the two gears 7 a and 7 b.

1, the embodiment of the apparatus shown in FIG. 3 to the Ven tilsteuerzeitenverstellung differs from that of FIG. Essentially only in that the hydraulic Stel lung control device 8 'is not as in the embodiment according to Fig. 1 within the second camshaft 6 but is arranged separately from this water. This results in the possibility of performing this position control device as a closed hydraulic system, which is not possible in the embodiment according to FIG. 1. Rather, there is a risk that the pressure spaces 15 and 16 can idle when the engine is stationary, which is why a venting of the pressure medium system may have to be taken before starting the vehicle. With 19 a necessary vent hole is indicated. The venting could then take place in such a way that pressure medium is pumped through the control device 8 immediately before starting the internal combustion engine starter.

In the embodiment according to FIG. 3, the actuating piston 14 is not held axially displaceably in a bore of the second camshaft 6 ', but in a bore 71 of a part 70 fixed to the housing. At the Stel le 73 the connection of an expansion vessel for the pressure medium is provided. The system is expediently placed under a certain excess pressure, for example by means of a prestressed air cushion in the elevated expansion vessel. The hollow cylindrical connecting member 13 'of the actuating piston 14 ' is not directly, but via a joint 69 with an actuating arm 65 and this with the wheel on the first tooth 7 a of the pinion arrangement 7 attached actuating arm 12 '. Since accesses the formed with bearing pockets 67 as axial thrust bearing actuator 65 in a circumferential recess 66th The skilled in the Fig. 3 holilzylindrisch substantially actuator arm 12 'is to improve the longitudinal guide with a in a longitudinal bore 61 of the two ten camshaft 6' is provided protruding guide sleeve 60 on which the 'designated 40 speed-dependent Wegbegrenzungsvorrich is kept processing. The outer contour of the cam 42 'works there with a stop pin 44 ' which is attached to one end of a guide shaft 62 which is rigidly held at its other end in a bore 63 of the second camshaft 6 . The path limiting device 40 'consists in turn of a bearing block 41 ', on which the cam 42 'is held eccentrically pivotable and which in turn by means of a transmission arm 84 with the actuating rod 21 ' of the in the actuating piston 14 'displaceable GE holding control piston 20 ' and with the linkage indicated at 86 , leading to the load actuator of the internal combustion engine. A side cover part 90 enables the assembly of the transmission arm 84 formed here as an axial sliding bearing on the bracket collar 41 '.

To supply lubricant to the bearing pockets 92 on the bearing block 41 'and the bearing pockets 67 on the actuating arm 12 ', these are connected via transverse bores 68 or 93 and 94 to an annular gap 96 remaining between the guide shaft 62 and the guide sleeve 60 , which has an in the area of a camshaft bearing 9 provided transverse bore 64 can be supplied with lubricant.

The annular gap 96 is also in the rest with the check valve 51 and the longitudinal bore 50 leading to the annular space 49 leading transverse bore 52 in connection.

The position control device 8 'associated pressure medium system is completely closed to the outside in that an elastic shear bellows 75 is provided, which is held at one end 76 on a recess of the housing-fixed component 70 and with its other end 77 on a recess of the actuating arm 65 is and because of the space 78 outside of the connecting rod 13 'to the outside seals fluid-tight. A second elastic bellows 80 is attached at one end to the actuating arm 65 and at another end to the transmission arm 84 . The space 83 formed between this second elastic bellows 80 and the actuating rod 21 'communicates with the space 78 between the first elastic bellows 75 via the ring gap 85 , while the space 78 in turn has a transverse bore 79 with which to the pressure medium system of the control piston 20 'leading annular space 53 between the actuating rod 21 ' and the United connecting rod 13 'is connected.

A hinge pin 87 is used to attach the operating rod 21 'to the transmission arm 84 . The bore 89 , which is dimensioned so that easy assembly of the system is made possible, is closed to the outside by a cover 88 .

The function and mode of operation of the manufacturing devices shown in the drawing correspond essentially to one another and are to be explained in more detail below with reference to the embodiment shown in FIG. 1. As adjusting forces for rotating the two-th camshaft 6 with respect to the first camshaft 2 , the axial force components which occur at the helical toothing between the drive wheel 5 and the pinion arrangement 7 when driving with changing moments are used according to the invention. These axial forces act in both directions on the axially adjustable held pinion arrangement 7 and try to adjust them accordingly. Due to the helical gear engagement with the drive toothed wheel 5 on the one hand and the axially displaceable but non-rotatable connection with the second camshaft 6 on the other hand, there is a rotation of the second Nockenwel le 6 according to the slope of the helical toothing with an axial displacement. The axial position of the pinion arrangement 7 is, however, controlled by the hydraulic position control device 8 by the control piston ben 20 being adjusted depending on the load and thereby adjusting the piston 14 connected to the pinion arrangement 7 .

For example, assume that the spool 20 is shifted to the left in the drawing by operating the accelerator pedal of the vehicle. Characterized the control edge 23, the Querboh connected via the longitudinal recess 26 with the left pressure chamber 15 tion 25 is opened and connected via the connecting lines 29 , 30 , 31 and 32 to the pressure medium inlet and outlet, while at the same time the second control edge 24 which closes the longitudinal recess 28 leading to the right pressure chamber 16 transverse bore 27 . This has the consequence that by shutting off the right pressure chamber 16 and the simultaneous opening of the left pressure chamber 15 , the control piston 14 connected to the pinion arrangement 7 can be moved to the left in the drawing due to the axial forces acting on it. During this adjustment movement, pressure medium can escape from the left pressure chamber 15 via the longitudinal recess 26 and the open transverse bore 25 into the transverse bore 29 . At the same time, after opening the right-hand check valve 35 in the drawing, the pressure chamber 16 is filled with pressure medium via the lines 34 , 37 , 39 and 28 . The adjustment of the actuating piston 14 is carried out until the control edge 23 blocks the transverse bore 25 again and thus prevents further adjustment of the incompressible pressure medium present in the pressure chambers. An adjustment in the opposite direction is carried out in an analogous manner.

Since the adjustment of the control piston 20 as a result of the actuation by the load control element of the internal combustion engine, preferably therefore the accelerator pedal, is load-dependent, there is inevitably also a load-dependent rotation of the second camshaft 6 with respect to the first camshaft 2 . Since, in the area of full load, a speed-dependent limitation of the control times is expedient, the adjustment of the control piston just described in this load range is limited in a speed-dependent manner by the limiting device. 42 To this end proposes the speed-dependent deflected cam disk depending on the speed sooner or later with its outer contour against the stop pin 44 and so prevents further movement of the Actuate the supply rod 21 and the associated control piston 20th The arranged in the actuating linkage force limiter enables an overpressure of the accelerator pedal despite the adjustment of the control piston reached Verstellbe and thus prevents damage to the speed-dependent travel limitation system 40th

Claims (8)

1. Device for load and speed-dependent adjustment of the Steuerzei th a gas exchange valve of an internal combustion engine with a valve actuating cam device ( 6 ) and a hydraulic position control device ( 8 ) axially displaceably held helical pinion ( 7 ), on the one hand with the cam device ( 6 ) and on the other hand with an axially fixed to the driven gear ( 5 ) driven by the crankshaft of the internal combustion engine, so that with an axial displacement of the pinion ( 7 ) there is a relative rotation of the cam device ( 6 ) relative to the drive wheel ( 5 ), and wherein the pinion ( 7 ) is connected with respect to its axial displacement to a component of the hydraulic position control device ( 8 ) forming the actuating piston ( 14 ) which is held axially adjustable in a cylindrical bore ( 10 ) and has pressure chambers ( 15 , 16 ) limited to which pressure medium supply ngsleitung ( 26 , 28 , 34 , 36 , 37 , 38 , 39 ) are assigned, characterized in that the hydraulic position control device ( 8 ) has an adjustable control piston ( 20 ) with control edges ( 23 , 24 ) for the discharge control of the Pressure chambers ( 15 , 16 ) is provided, so that the displacement of the actuating piston ( 14 ) by axial, on the helical toothing of the pinion ( 7 ) he generated alternating forces is made possible by the alternating torques given during operation of the internal combustion engine to the pinion ( 7 ) are generated, and that the pressure chambers ( 15 , 16 ) are provided with check valves ( 35 ). 2. Device according to claim 1, characterized in that the hydraulic position control device ( 8 ) is integrated in the cam device ( 6 ). 3. Device according to claim 1, characterized in that the hydraulic position control device ( 8 ') is arranged separately from the cam device ( 6 ) and is designed as a closed hydraulic system. 4. Device according to one of claims 1 to 3, characterized in that the control piston ( 20 ) of the hydraulic position control device ( 8 ) via an actuating linkage ( 54 , 86 , 84 ) is connected to a load control element of the internal combustion engine. 5. Device according to claim 4, characterized in that the Actuating linkage a device limiting the transferable force having. 6. Device according to one of claims 1 to 5, characterized in that a device ( 40 ) for speed-dependent limitation of the axial adjustment of the pinion ( 7 ) is provided. 7. Device according to claim 6, characterized in that a against a spring ( 45 ) depending on the speed deflectable cam ( 42 ) is provided, which with a stop ( 44 ) to limit the axial adjustment of the pinion ( 7 ) relative to an axially fixed component ( 6 ) interacts. 8. Device according to one of claims 1 to 7, characterized in that to compensate for the pinion tooth play, the pinion ( 7 ) consists of two axially braced gears ( 7 a, 7 b), the bracing hydraulically by known game compensation elements ( 51 , 52 ) takes place and for this purpose a hydraulically actuated annular piston ( 48 ) is provided, which is held in an annular space ( 49 ) of one gear ( 7 a) and has its end face against the end face of the other gear ( 7 a) Gear ( 7 b) can be pressed.