DE19818587C1 - Arrangement for operating a gas changeover valve with an electromagnetic actuator - Google Patents

Abstract

The arrangement has an electromagnetic actuator (2) mounted to float in a cylinder head and supported on the cylinder head by a play compensation element (6). An armature between the pole faces of opening and closing magnets moves coaxially wrt. the valve and acts on the valve shaft. There are opening and closing springs (16,17). The valve spring acting in the closing direction has its free end directly or indirectly in contact with the actuator. The play compensation element is a controllable positioning unit that moves the actuator in the direction of motion of the valve against a restoring spring (3) force

Description

The invention relates to a device for actuating a Gas exchange valve with an electromagnetic actuator the preamble of claim 1.

Electromagnetic actuators for actuating gas exchange valves tilen usually have two switching magnets, one opening magnets and a closing magnet between their pole faces an armature arranged coaxially to a valve axis is. The anchor acts directly or via an anchor plunger a valve stem of the gas exchange valve. For actuators after The principle of the mass oscillator is a prestressed one Spring mechanism on the anchor. Serve as a spring mechanism usually two preloaded compression springs, one of which is upper Valve spring the gas exchange valve in the opening direction and a lower valve spring loaded in the closing direction. With not the magnet is excited by the valve springs in the armature kept an equilibrium position between the magnets.

If the actuator is activated at start, either the Closing magnet or the opening magnet temporarily overexcited or the anchor with a start-up routine with its resonance frequency stimulated to be attracted from the equilibrium position become. In the closed position of the gas exchange valve the armature on the pole face of the energized closing magnet and is held by this. The closing magnet clamps the in Valve spring acting in the opening direction further forward. To do that To open the gas exchange valve, the closing magnet is stripped  tet and the opening magnet switched on. The in opening direction tion acting valve spring accelerates the armature over the Equilibrium position, so that this from the opening mag ten is attracted. The anchor hits the pole face of the Opening magnet and is held by this. To do that To close the gas exchange valve again, the opening magnet switched off and the closing magnet switched on. In the Valve spring acting in the closing direction accelerates the armature beyond the equilibrium position to the closing magnet. Of the Anchor is attracted by the closing magnet, strikes the Pole surface of the closing magnet and is festge by this hold.

Not considered from the beginning or over time changing sizes, such as manufacturing tolerances individual components, thermal expansion of different materials different spring stiffnesses of the upper and lower Valve spring and signs of settling due to aging of the valve springs, etc., can cause the valve springs certain equilibrium with an energetic Center position between the pole faces matches or not has a certain position. Furthermore, such Sizes and wear on the valve seats cause the Anchor rests on the pole face of the closing magnet before that Gas exchange valve closes completely. Hot fuel gases that Flowing out through non-tightly closing valves destroy the Valve seats. On the other hand, it is due to different heat stretches possible that the anchor with closed gas exchange valve no longer completely on the pole face of the closing magnet neten comes to the concern, so that the energy requirement of the closing magnet increases rapidly. Furthermore, with this process in the Usually a reduced opening stroke of the gas exchange valve verbun the, so that the throttle losses increase when changing the charge and the efficiency deteriorates.

DE 196 47 305 C1 is a game same element shown, in which an actuator floating in  a cylinder head is mounted. The actuator opens and closes via an anchor and two on both sides in the direction of movement device of the armature arranged electromagnets a gas exchange til. The spring mechanism is between the actuator and the Valve plate of the gas exchange valve arranged, the upper opening spring on the actuator and the lower closing spring on Support the cylinder head. On the gas exchange valve facing away th side is between a cover plate and the Actuator a game compensation element that is both positive and also compensates for negative valve clearance.

The play compensation element has a first hydraulic one Element with a lash adjuster piston in a cylinder. The lash adjuster is between a first, the Gas exchange valve facing away, depending on the internal combustion engine controlled and a second, facing the gas exchange valve Pressure room. There is a check valve in the piston is held in the closed position by a retaining spring. The Check valve opens in case of overpressure in the first pressure chamber Direction to the second pressure room. The retention spring is like this designed that the check valve does not open if none Game is present, and thus disconnects between the two pressure rooms.

There is a gap between the lash adjuster piston and the cylinder defined game as throttle connection, by the pressure medium can escape to the outside from the second pressure chamber. The Backlash compensation element is supported on the upper cover plate, which is firmly connected to the cylinder head. The game out the same element can either only be a compressive force or in one other execution during the closing process pressure and Transfer tensile forces.

The gas exchange valve does not close completely because of the Actuator moved too far in the direction of the gas exchange valve is, d. H. there is a negative game Pressure increase in the second pressure chamber through a closing  directional valve spring of the gas exchange valve. The Pressure medium escapes from the second due to the pressure increase Pressure space over the throttle connection, and that until that The gas exchange valve closes completely again.

If the gas exchange valve closes correctly, but there is play between the armature tappet and the gas exchange valve, it acts Valve spring of the gas exchange valve no longer on the second one Pressure room. This reduces the pressure in the second pressure chamber that of the first pressure chamber, so that the check valve against the retaining spring opens. The print medium flows from first into the second pressure room until the game equalized is. This process can take several working cycles of the valve last. Because the position of the actuator changes, so does the equilibrium of the Valve springs so that they are no longer with the energetic Center position matches. This changes the vibration behavior the spring mechanism, the energy requirements of the magnets and the Opening and closing process of the gas exchange valves.

DE 196 31 909 A1 describes a method for adjusting the Rest position of the armature on an electromagnetic actuator known, such as on piston internal combustion engines is used to operate gas exchange valves. The Ruhela ge corresponds to an equilibrium position, which occurs in the absence of current Magnets from the preload of the valve springs. In which The inductance of the two electromagnets is moved measured in each case and from the comparison of the two measured Inductance values the position of the armature in the equilibrium weight position in relation to the pole faces of the electromagnets derived. During the measurement, the anchor is in the Equilibrium; but it is also possible to use inductance of the respective electromagnet with the armature applied and the measured value and / or the difference between the two measured values to compare a given value and thereby one Derive correction value for a control signal. The anchor can during the measurement via mechanical means and / or via a  Holding current applied to the electromagnet in question being held. The method is therefore unsuitable Middle position or the equilibrium position of the anchor during the Correct operating.

The object of the invention is a device for Actuation of gas exchange valves with a lash adjuster ment to create the equilibrium of the Federme mechanism of a displacement of the spring mechanism and thus is independent of the game compensation element and the game balance has a short response time.

The task is invented accordingly solved by the features of claim 1, while advantageous refinements and developments of the invention can be found in the subclaims.

According to the invention, the one acting in the closing direction is supported Valve spring with its free end directly or indirectly on Actuator from, and expediently, by the actuator one between the opening magnet and the gas exchange valve Forms spring space in which the valve springs are housed and through which the valve stem or the armature tappet extends. Thus, the spring mechanism with the actuator is one Unit connected, the equilibrium position of the valve springs regardless of the position of this unit relative to Cylinder head is. The actuator can be outside the cylinder head assembled, adjusted and checked.

If there is a valve lash, this is detected by sensors and an adjustable actuator adjusts the actuator in Direction of movement of the gas exchange valve depending on the Controlled variable. The signal can expediently be used as a controlled variable a displacement sensor can be used, the position and / or Movement of the gas exchange valve is detected. In many cases it is enough it, as a controlled variable the course of a parameter of the Schaltmag to use, e.g. B. a current curve of the closing mag neten and / or the opening magnet, which in an electronic  evaluation device using a reference curve can be evaluated.

The actuator counteracts the actuator in one direction the force of a return spring acting on the actuator, the the actuator when the actuating force of the actuating unit decreases defers. The return spring expediently has one very high spring stiffness and is preloaded accordingly that the system can be viewed as quasi static. With With the help of the adjustable control device, negative and positive valve clearance very precisely and quickly balanced become.

Further advantages result from the following drawing spelling. In the drawing, an embodiment of the Invention shown. The description and the claims contain numerous features in combination. The specialist will expediently also consider and consider the features individually summarize other useful combinations.

The single figure shows a schematic partial section through a gas exchange sel valve.

An electromagnetic actuator 2 actuates a Gaswechselven valve 1 , which is guided with its valve stem 11 by means of a valve guide 15 in the cylinder head 5 . The actuator 2 has two switching magnets, namely a closing magnet 8 at the top and an opening magnet 7 at the bottom, which are connected to one another by a connecting part 22 . An armature 9 moves between the pole faces of the magnets 7 and 8 and acts on the gas exchange valve 1 via an armature tappet 10 formed in one piece with the valve stem 11 . The armature plunger 10 may be out of the valve stem 11 for manufacturing reasons.

Between the opening magnet 7 and the gas exchange valve 1 , the actuator 2 has a spring chamber 19 formed by a housing 20 , in which a spring mechanism consisting of two valve springs 16 and 17 is accommodated. The Ventilfe countries 16 , 17 are supported at one end on a common spring plate 18 which is attached to the armature plunger 10 . The upper, preloaded valve spring 16 acts in the opening direction 24 by being supported with its free end on the opening magnet 7 , while the lower, preloaded valve spring 17 acts in the closing direction 25 by being supported on an end wall of the spring chamber 19 , which the gas exchange valve 1 is facing. The position of the armature 9 is determined by the equilibrium position of the valve springs 16 , 17 when the magnets 7 , 8 are switched off. This position should suitably correspond to an energetic middle position.

The figure shows the actuator 2 in the de-energized state, so that the armature 9 is in a central position. If the closing magnet 8 is energized, the gas exchange valve 1 moves in the closing direction 25 until the armature 9 bears against the pole face of the closing magnet 8 . At the same time, the gas exchange valve 1 closes by placing its valve disk 12 on a valve seat ring 13 , which is let into the cylinder head 5 and forms the opening of a gas exchange channel, not shown. If the closing magnet 8 is de-energized and the opening magnet 7 is energized, the gas exchange valve 1 opens in the opening direction 24 until the armature 9 bears against the pole face of the opening magnet 7 . The maximum opening stroke is reached.

The maximum opening stroke decreases when the actuator 2 shifts in the closing direction 25 , whereby the gas exchange selventil 1 closes securely, but the armature 9 no longer bears in the closed state on the pole face of the closing magnet 8 , so that the closing magnet 8 has a higher one Has energy requirement to keep the armature 9 in the closed position. In order to avoid the disadvantages, a negative or positive play of the gas exchange valve 1 must be compensated for.

An actuator 6 acts on the actuator 2 as a play compensation element, which is supported on a cylinder head cover 4 and axially adjusts the actuator 2 floating in the cylinder head 5 counter to the force of a return spring 3 as soon as a negative or positive play occurs in the closed state of the gas exchange valve 1 . Since the Ventilfe countries 16 and 17 are in a spring chamber 19 of the actuator 2 and thus the spring system forms a unit with this, the equilibrium position and the central position of the adjustment of the actuator 2 is not influenced by the actuator 6 .

The return spring 3 has a high spring stiffness and is preloaded. It is arranged between the cylinder head 5 and an end face 14 of the opening magnet 7 , which faces the gas exchange valve 1 . In principle, the arrangement of the actuating unit 6 can be interchanged with that of the return spring 3 . The actuating unit 6 is connected to an electronic evaluation device 23 via signal lines 21 . The electronic evaluation device 23 is usually carried out in microprocessor technology and can be integrated in the engine electronics. It receives signals from sensors via signal lines 21 , which are representative of the position of the valve plate 12 to the valve seat ring 13 and the armature 9 to the pole faces of the magnets 7 and 8 . A displacement sensor (not shown in more detail) is expediently used for this, or suitable parameters of the magnets 7 and 8 are used in order to generate a suitable controlled variable for the actuating unit 6 .

Claims (7)

1.Device for actuating a gas exchange valve for internal combustion engines, with an electromagnetic actuator ( 2 ) which is floating in a cylinder head ( 5 ) and which is supported on the side facing away from the gas exchange valve ( 1 ) via a play compensation element ( 6 ) on the cylinder head and the has an opening magnet ( 7 ) and a closing magnet ( 8 ), between the pole faces of which an armature ( 9 ) is arranged coaxially to the gas exchange valve and which acts directly or via an armature tappet ( 10 ) on a valve stem ( 11 ), two preloaded valve springs ( 16 , 17 ), one of which acts in the opening direction and one in the closing direction on the gas exchange valve, are arranged between the actuator and the gas exchange valve and each have one end via a spring plate ( 18 ) on the valve stem ( 11 ) or armature tappet ( 10 ) Support and the valve spring ( 16 ) acting in the opening direction with its free End supported on the actuator ( 2 ), characterized in that the valve spring ( 17 ) acting in the closing direction ( 25 ) is also directly or indirectly supported on the actuator ( 2 ) with its free end, and the play compensation element ( 6 ) has an adjustable ( 21 , 23 ) Actuating unit ( 6 ) which adjusts the actuator ( 2 ) in the direction of movement of the gas exchange valve ( 1 ) against a return spring ( 3 ) acting on the actuator ( 2 ). 2. Device according to claim 1, characterized in that the return spring ( 3 ) has a very high spring stiffness. 3. Apparatus according to claim 1 or 2, characterized in that the return spring ( 3 ) is biased. 4. Device according to one of the preceding claims, characterized in that the return spring ( 3 ) between the Zylin derkopf ( 5 ) and that end face ( 14 ) of the actuator ( 2 ) is arranged which faces the gas exchange valve ( 1 ). 5. Device according to one of the preceding claims, characterized in that the actuator ( 2 ) between the opening dimensions ( 7 ) and the gas exchange valve ( 1 ) forms a spring chamber ( 19 ) in which the valve springs ( 16 , 17 ) are accommodated, and extends through ( 19 ) the valve stem ( 11 ) or the armature tappet ( 10 ). 6. Device according to one of the preceding claims, characterized in that the actuating unit ( 6 ) is controlled as a function of a signal ( 21 ) of a displacement sensor. 7. Device according to one of claims 1 to 3, characterized in that for controlling the actuator (6) a current trajectory of the closing magnet (8) and / or the Publ voltage magnet (7) is evaluated in an electronic evaluation device (23).