EP1111227A2 - Exhaust gas recirculation valve - Google Patents

Abstract

The exhaust gas feedback valve has a linearly displaced valve element, e.g. a valve plate (18), which is rotated about its axis, at least at the beginning of its movement, via the valve element operating mechanism, e.g. a spindle-and-nut operating mechanism (22,24).

Description

Technical field

The invention relates to an exhaust gas recirculation valve.

In the field of automotive engineering and here in particular in connection with the improvement of the emission values of a Internal combustion engine, as well as lowering it Fuel consumption, it is known to exhaust gas recirculation to provide the air supply to the internal combustion engine.

State of the art

The associated electrical exhaust gas recirculation valves are usually controlled as solenoid valves so that they move translationally so that a valve element, for example a valve disk, from its associated one Valve seat is removed, and a passage of exhaust gas is made possible.

DE 197 33 964 A1 discloses in this context Exhaust gas recirculation valve, which can selectively flow the exhaust gas through a Cooler or bypass. This is where the movement takes place of one or the other valve plate also in translational direction.

Due to the flow of exhaust gas through the exhaust gas recirculation valve occurs when the area of contact between the Valve plate and the valve seat is contaminated, and thereby glued or lacquered. This contamination can be so be comprehensive that the usual actuation mechanisms are no longer able to remove the valve head from its seat to raise. Accordingly, strong Actuating mechanisms are provided to raise the Valve plates closed even if the valve seat is dirty guarantee.

Presentation of the invention

The invention is based on the object Exhaust gas recirculation valve to create a reliable Open the valve even if the Contact area between valve seat and valve plate with one compact actuation mechanism can be guaranteed.

This object is achieved by the in claim 1 Exhaust gas recirculation valve described.

Accordingly, the exhaust gas recirculation valve according to the invention an actuating mechanism on the valve element, the interacts with the valve seat, usually the Valve plate, at least at the beginning of the opening process Rotational movement granted about its axis. In other words the valve disc as it were at the beginning of the Opening process at least slightly around the axis of the associated valve lifter rotated. This movement is therefore extremely reliable for opening with little force effective because the adhering contaminants between Valve element and valve seat forces acting as shear forces withstand worse than normal forces. As a result, the valve element requires a higher force usually from the valve seat with which it is under Circumstances due to contamination is stuck through subtract linear displacement than the force required is used to loosen the valve element on the valve seat due to the impurities bonded around the Turn the valve tappet axis.

According to the invention, this can be advantageous, the gluing loosening rotary movement at the beginning of the opening process alone be carried out, and the translational movement to actual opening of the valve can subsequently be applied become. Alternatively, it is conceivable for the rotating and lifting movement to combine with each other, i.e. to carry out simultaneously, so that the valve element at the beginning of the opening process is not "straight" raised from the valve seat, but this lifting takes place to a certain extent in a rotating manner. Through the The measure according to the invention can thus be taken when opening required force can be reduced and it is ensures that even with a compact Operating mechanism over a long life of the Valve easy opening is possible. Furthermore leads the rotary movement according to the invention, at least The opening process begins at a Self-cleaning effect of the contact surface between Valve element and valve seat, so that the described This also alleviates problems with sticking become. At the same time, the sealing effect is closed Condition improved.

Preferred developments of the inventions are in the further claims described.

One embodiment has been developed for the actuating mechanism turned out to be particularly advantageous, the mother-spindle system having. This can in particular simple and effective way of rotating a Drive motor in a combined rotation and stroke movement of the Valve element are converted.

Here it offers advantages if the spindle as ball bearing spindle is executed. The ball track can be designed in an advantageous manner so that the Valve element initially only issued a rotary movement and, at some point, a combined rotation and lifting motion. For this, the ball track is first planar and spiraling from a certain point.

Alternatively, an embodiment of the invention is preferred in which the actuating mechanism is a rotary element has, which has a contour or cam surface, the an element attached to the valve housing expires. This can be achieved through the interaction between the Contoured rotating element and on the valve housing attached elements such a movement of the rotating element achieved that this is rotated and trained by the corresponding contour from a certain point in time is raised. Through a firm connection between this Rotary element and the valve element, for example the Valve tappet with the valve disk formed thereon, can the combined or sequential turning and Lifting motion can be transferred to the valve element.

For the transmission of the rotary motion of a drive motor Elements that are firmly translatable Valve element are connected and therefore in turn have to be movable, it has proven to be favorable Gear wheels which can be displaced in translation to provide.

Alternatively, an embodiment is conceivable in which the entire operating mechanism including the drive is slidably attached to the valve housing. Hence not only does the actuation and drive mechanism in addition to the rotary movement according to the invention at least at the beginning the opening process to open the valve required translatory movement, but assumes this part.

Advantageously, the invention Exhaust gas recirculation valve finally with a reset or Fail-save mechanism combined when opening the Valve on torsion and preferably additionally on pressure is claimed. Such a fail-save function supports this Circumstance account that the valve element according to the invention Rotary motion is given, so that the reset is safe can be done by a twisted reset device that the required rotation of the valve element Guaranteed a closing movement. When trying has been found to make this particularly safe Closing the valve can be achieved.

Brief description of the drawings

Fig. 1

eine Schnittansicht einer ersten Ausführungsform des erfindungsgemäßen Abgasrückführventils;

Fig. 2

eine Schnittansicht einer zweiten Ausführungsform des erfindungsgemäßen Abgasrückführventils; und

Fig. 3

eine Schnittansicht einer dritten Ausführungsform des erfindungsgemäßen Abgasrückführventils.

The invention is explained in more detail below on the basis of exemplary embodiments illustrated in the drawings. Show it:

Fig. 1

a sectional view of a first embodiment of the exhaust gas recirculation valve according to the invention;

Fig. 2

a sectional view of a second embodiment of the exhaust gas recirculation valve according to the invention; and

Fig. 3

a sectional view of a third embodiment of the exhaust gas recirculation valve according to the invention.

Detailed description of preferred embodiments of the invention

As shown in Fig. 1, the invention Exhaust gas recirculation valve 10 on a valve housing 12, which in its lower area through an opening 14 which with a Valve seat 16 is provided, through which exhaust gas flows. The Opening 14 is through a valve element, in the case shown a valve plate 18 closable. The valve plate 18 is attached to a valve lifter 20 shown in FIG Case in its upper area is designed as a spindle 22. The spindle 22 is, as shown, in a fixed in the Valve housing 12 anchored nut 24 with ball bearings. In its upper area is a so-called harmonic drive gear 26 or another compact gearbox provided to the rotational movement of an electric motor 28 to transmit the valve lifter 20. After all, that is Valve housing 12 on the one hand and the upper section of the Valve tappet 20 on the other hand, a return spring 30 fixed anchored, which, as described below, is a safe one Return of the valve to the closed state also at Failure of the electric motor 28 guaranteed. Below the Mother 24 is shown in this Embodiment a seal 32 for sealing the the area through which the exhaust gas flows Operating mechanism.

The operation of the exhaust gas recirculation valve shown with the novel operating mechanism is as follows. In Fig. 1 an open state of the valve is shown. This will in that the electric motor 28 rotates is shifted, and this rotation via the harmonic drive gear 26 or another compact gearbox the valve lifter 20 is transmitted. The fact that the Valve tappet 20 in its upper area as a spindle 22 is formed, the rotary movement of the valve tappet 20 leads in cooperation with the mother 24 to one translational movement of the valve lifter 20 together with the valve plate 18. As a result, the valve plate 18 in the valve seat 16 not only, especially at the beginning of Opening process, twisted, but also by this raised so that the valve opens.

According to the preferred embodiment shown in FIG Invention, the spindle 22 is ball-bearing in the nut 24. This offers the advantage that the ball tracks are such can be designed that the spindle up to one only performs a rotary movement at a certain point. um, as described above, with comparatively little Exertion of force on the valve plate 18 from the valve seat 16 despite To loosen bonds. The ball tracks are also like this designed to be additional from a certain point through a spiral formation of the ball tracks for a translational movement of the valve plate 18, and a corresponding, comparatively quick opening of the Ensure valve plates 18. Since not only the Valve plate 18, but also the valve lifter 20 and the adjoining upward area, which is already part of the harmonic drive gear 26 or another compact building gear is, translationally moved, is Interaction between the individual gears of the Harmonic drive gear 26 or another compact design Gear designed so that the gears involved are mutually displaceable.

When the valve opens, the return spring 30 both twisted, i.e. twisted, as well as because of the axial Displacement, pressurized. The interaction of the in energy stored in the return spring 30 in this manner can reliably close the valve even in the case ensure that the electric motor 28 for some reason should fail.

In the embodiment of the Exhaust gas recirculation valve 10 according to the invention is this fail-save device designed in the form of the return spring 30. The actuation of the valve, in particular the lifting of the Valve plates 18 from the valve seat 16 take place at this However, the embodiment is different from the embodiment of FIG Fig. 1. In this case, a (in Fig. 2 is not closed recognizing) motor is provided, its rotary movement over a Helical gear 34 or another compact design Gear on a rotary element, in particular a gear 36 is transmitted, the .fest connected to the valve lifter 20 is. The coil spring 30 takes over in this case additional function, the gear 36 against so-called Press thrust rollers 38 in the valve housing 12 are rotatably mounted. For this purpose, the valve housing 12 respective axes firmly connected.

As can be seen in the left area of the gear 36 this in the area in which it is on the thrust rollers 38th rolls, provided with a contour that is in the direction of Axis of the valve lifter 20 extends. This contour causes that the gear 36, and thus the valve lifter 20 Valve plate 18 firmly connected to the gear 36 in a row the rotational movement which engages the contour with the Thrust rollers 38 brings, is raised in a suitable manner. Here, the contour can be set, for example, that the amount of the Thrust rollers 38 is initially not changed, so that Valve plate 18 on the valve seat 16 at the beginning of Opening process only performs a rotary movement. This enables the described easy loosening of any Bonding and cleaning of the valve seat 16.

After this rotation, which may be a slight Lifting movement can be supported by a correspondingly slight slope of the contour can be effected the contour should be formed by a steeper slope, that it opens faster. This means that during the phase of a slight slope of the contour high Opening forces can be transmitted. It should be noted that such a characteristic can also be Corresponding design of the ball raceways in the spindle-nut system the embodiment of Fig. 1 realized can be. As stated, when the valve is opened, the Gear 36 rotated and additionally raised so that the firmly anchored to the gear 36 and, on the valve housing 12 Return spring 30 both on pressure and on torsion is charged. If necessary, this ensures implementation of the the spring stored energy so that the valve is securely closed by turning back the gear 36.

3 is another embodiment of the Exhaust gas recirculation valve according to the invention shown, which is from the embodiment of FIG. 2 by the type of transmission differs with which the rotary motion of the electric motor the valve is transmitted. For this purpose it is similar to in the embodiment of Fig. 1, a harmonic drive gear 26 or another compact gearbox intended. By the return spring 30 is one of the Gears 36, which is fixedly connected to the valve lifter 20, also in this embodiment against thrust rollers 38 pressed, which are rotatably mounted on the valve housing 12. Consequently, the turning movement is converted into a Lifting movement of the valve plate 18 similar to that in the 2 via a gear wheel 36 trained contour that interacts with the thrust rollers. In the central area of the valve lifter 20 there is one Valve tappet guide 40 and a seal 32 can be seen.

A comparison of FIGS. 3 and 1 shows that the closed position (see FIG. 3) to the open position (see Fig. 1) of the valve with the shaft of the electric motor coupled gear and the gear 36 (see FIG. 3) of the Shift the harmonic drive gear 26 against each other.

It should also be noted that the return spring 36 in all three cases shown as a combined compression and torsion spring is. However, it is to ensure the closing required rotation also possible, a pure Torsion spring, for example a so-called original spring, to provide. Furthermore, for the transmission of the Rotary movement of the electric motor, for example one Direct current (DC) motor on the valve also other compact Building gear types than those shown, for example Helical, planetary, bevel gear, etc. can be used. Finally, it should be noted that the use of a Electric motor with rotating output shaft even without the Certain transmission of the rotary movement to the valve disk Offers advantages. For example, this can be done for the Fig. 1 spindle-nut system shown reversed that the nut is rotatable with the electric motor is coupled and the spindle non-rotatable, but translational movable, is guided in the valve housing and on his has the lower end of the valve plate 18. Also one such embodiment provides in terms of Actuation of the valve by means of comparatively little Powers advantages.

Claims (7)

Exhaust gas recirculation valve with a translationally movable Valve element, in particular a valve plate (18), and an actuating mechanism that connects the valve element (18) at least at the beginning of the opening process Axis rotary movement granted. Exhaust gas recirculation valve according to claim 1,
characterized in that
the actuating mechanism has a nut (24) spindle (22) system. Exhaust gas recirculation valve according to claim 2,
characterized in that
the spindle (22) has ball bearings, the ball raceway being designed in such a way that it is planar in sections and spiral in sections. Exhaust gas recirculation valve according to at least one of the preceding claims,
characterized in that
the actuating mechanism has a rotary element (36) with a contour which interacts with at least one element (38) attached to the valve housing (12). Exhaust gas recirculation valve according to at least one of the preceding claims,
characterized in that
the actuating mechanism has gear wheels which can be displaced in translation. Exhaust gas recirculation valve according to at least one of the preceding claims,
characterized in that
the actuating mechanism, preferably together with a drive (28), is slidably attached to the valve housing (12). Exhaust gas recirculation valve according to at least one of the preceding claims,
characterized in that
there is a reset device (30) which twists when the valve is opened and is preferably additionally compressed.

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