Device for actuating the wastegate flap of an exhaust gas turbocharger

Abstract

A device actuates a waste gate flap of an exhaust gas turbocharger of an internal combustion engine. The device has an actuator which has an actuator rod, a lever which is connected to the actuator rod and a spindle which is connected to the lever and to which the waste gate flap is secured. A resiliently mounted ball head rod is provided between the actuator rod and the lever.

Claims

1. A device for actuating a waste gate flap of an exhaust gas turbocharger of an internal combustion engine, the device comprising: an actuator having an actuator rod; a lever connected to said actuator rod; a spindle connected to said lever and the waste gate flap being fastened to said spindle; a spring-mounted ball head rod disposed between said actuator rod and said lever; and an extension nut, said spring-mounted ball head rod having an end area facing said actuator rod and connected via said extension nut to said actuator rod; said extension nut having a side surface, an end surface, and a slot formed in said side surface and said end surface, said slot extending from said side surface into said end surface; and said end area of said spring-mounted ball head rod facing said actuator rod being inserted through said slot into said extension nut.

2. The device according to claim 1, further comprising a bearing bolt connected to said lever, said spring-mounted ball head rod having an end area distant from said actuator rod and said end area having a ball head which is mounted in said bearing bolt.

3. The device according to claim 2, wherein said bearing bolt has a conical seat and said ball head is mounted in said conical seat of said bearing bolt.

4. The device according to claim 2, wherein said bearing bolt has a slot formed therein and through said slot said end area of said spring-mounted ball head rod distant from said actuator rod can be inserted into said bearing bolt.

5. The device according to claim 2, wherein said end area of said ball head distant from said actuator rod has a projection beyond an end area of said bearing bolt distant from said actuator rod.

6. The device according to claim 5, further comprising a cap covering said bearing bolt.

7. The device according to claim 6, wherein said projection is configured such that a pressure can be exerted by means of said ball head via said cap in a direction running away from said actuator rod.

8. The device according to claim 1, further comprising a lock nut, said extension nut being securely connected to said actuator rod via said lock nut.

9. The device according to claim 1, wherein said end area of said spring-mounted ball head rod facing said actuator rod is mounted in said extension nut.

10. The device according to claim 9, wherein said end area of said spring-mounted ball head rod facing said actuator rod has a ball joint which is mounted in said extension nut.

11. The device according to claim 10, wherein said extension nut has a conical seat, said ball joint is mounted by means of said conical seat in said extension nut.

12. The device according to claim 9, wherein said end area of said spring-mounted ball head rod facing said actuator rod is resiliently mounted in said extension nut.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

(1) Additional advantageous features of the invention can be found in the following exemplary explanation with reference to FIGS. 2-7. In the figures:

(2) FIG. 1 depicts an exhaust gas turbocharger of the prior art which has a wastegate.

(3) FIG. 2 shows a sketch to illustrate an exemplary embodiment of a device as claimed in the invention,

(4) FIG. 3 shows a more detailed representation of the ball head rod and its bearing,

(5) FIG. 4 shows an enlarged representation of the bearing bolt shown in FIG. 3,

(6) FIG. 5 shows an enlarged representation of the extension nut shown in FIG. 3,

(7) FIG. 6 shows additional representations to clarify the bearing of the ball head rod, and

(8) FIG. 7 shows enlarged representations of details from FIG. 6.

DESCRIPTION OF THE INVENTION

(9) A device as claimed in the invention for actuating the wastegate flap of the exhaust gas turbocharger of an internal combustion engine contains an actuator having an actuator rod, a lever connected to the actuator rod, a spindle connected to the lever, a wastegate flap which is fastened to the spindle, and a resiliently mounted ball head rod between the actuator rod and the lever.

(10) FIG. 2 shows a sketch to illustrate an exemplary embodiment of such a device as claimed in the invention. In this exemplary embodiment, an actuator 8 is provided that is fastened, for example, to a compressor housing and has an actuator rod 7. This actuator rod is movable in its axial direction in order to open or close a wastegate flap 5 provided in the turbine housing 2 as needed. To this end, the actuator rod 7 is connected to the waste gate flap 5 via a ball head rod 16, a lever 14 and a spindle 15 guided through a sleeve 27.

(11) The end area of the ball head rod 16 facing the actuator rod 7 is resiliently mounted in an extension nut 22 using a spring 25. The extension nut 22 has a slot 24 which, in its end area facing the actuator rod 7, is provided with a round cut-out 28 (see FIG. 5). By means of this slot 24 provided with the round cut out 28, the end area of the ball head rod 16 facing the actuator rod 7 can be inserted in the extension nut 22. The extension nut 22 is securely connected to the actuator rod 7 using a locknut 30.

(12) The end area of the ball head rod 16 facing away from the actuator rod 7 is mounted in a bearing bolt 18 (see FIG. 3) that is connected to the lever 14. The bearing bolt 18 is covered by a cap 21 which is placed from above on the bearing bolt. The lever 14 has a seat in which the top end area of the spindle 15 is inserted. The wastegate flap 5 is fastened to the bottom end area of the spindle 15 which is guided through the sleeve 27.

(13) FIG. 3 shows a more detailed representation of the ball head rod 16 and its bearing. As can be seen from this figure, the end area of the ball head rod 16 mounted in the extension nut 22 has a ball joint 23. This ball joint 23 is mounted in the extension nut 22 by means of a conical seat. The ball joint 23 is pressed into the conical seat of the extension nut 22 and held in this position by the pressure of the spring 25. To give the spring 25 defined contact with the ball joint, the end area of the ball joint 23 facing the actuator rod 7 is equipped with a spring seat 23a. The spring seat can be designed as a simple flattening of the ball joint perpendicular to the longitudinal axis of the ball head rod 16 and, as shown in the above example, can also have a pin 23b arranged in the middle of the flattening which serves to guide the spring 25 as shown enlarged in FIG. 7. The end area of the ball head rod 16 distant from the actuator rod has a ball head 17 which is mounted in a cutout of the bearing bolt 18. The ball head 17 is also mounted in the bearing bolt 18 by means of a conical seat. The bearing bolt is connected to the lever 14. The cap 21 is placed on the bearing bolt 18 from above (with reference to the figure), and the cap overlaps the conical seat of the bearing bolt 18, and hence also the ball head 17 of the ball head rod 16, and thereby secures the ball head 17 in the conical seat of the bearing bolt 18.

(14) FIG. 4 shows an enlarged representation of the bearing bolt 18 shown in FIG. 3. It can be seen that this bearing bolt 18 is provided with a slot 19 through which the end area of the ball head rod 16 facing away from the actuator rod 7 can be inserted into the bearing bolt 18.

(15) FIG. 5 shows an enlarged representation of the extension nut 22 shown in FIG. 3. It can be seen in particular that this extension nut 22 has a slot 24, the end area of which facing the actuator rod 7 is expanded with a round cut out 28. By means of this slot 24 provided with the round cut out 28, the end area of the ball head rod 16 facing the actuator rod 7 that has the ball joint 23 can be inserted in the extension nut 22.

(16) FIG. 6 shows additional representations to clarify the bearing of the ball head rod 16.

(17) From the above discussion of FIG. 6, it follows that an end area of the ball head rod 16 is mounted in the extension nut 22, and the other end area of the ball head rod 16 is connected to the lever 14. If the ball head rod 16 is moved in its axial direction, this causes a rotation of the lever 14 about the middle axis of the spindle 15 which acts via the spindle 15 on the wastegate flap and opens or closes it.

(18) The bottom representation in FIG. 6 shows a section along sectional line B-B of the top representation shown in FIG. 6. It can be seen that the end area of the ball head rod 16 mounted in the extension nut 22 is equipped with a ball joint 23 which is mounted in the extension nut 22 by means of a conical seat, wherein the ball joint 23 is pressed by the spring 25 into the conical seat and held therein. The end area of the ball joint 23 extending toward the actuator rod 7 has a pin 23b around which an end area of the spring 25 is placed. The other end area of the spring 25 abuts the actuator rod 7. Furthermore, it can be seen from FIG. 6 that the end area of the ball head rod 16 distant from the actuator rod 7 is mounted in a bearing bolt 18. This end area of the ball head rod 16 has a ball head 17 which is mounted in a cut out of the bearing bolt.

(19) FIG. 7 shows enlarged representations of the detail areas X and Y shown in FIG. 6.

(20) From the representation on the left in FIG. 7, it can be seen that the end area of the ball head rod 16 having a ball head 17 is mounted in the bearing bolt 18 by means of a conical seat 29. The end area of the ball head 17 distant from the actuator rod 7 has a projection 20 beyond the outer area of the bearing bolt 18 distant from the actuator rod 7. This projection 20 is designed to ensure that the cap 21 can still be placed on the bearing bolt 18 when assembling the device. The cap 21 is produced from a material that, to a certain extent, is elastic such as spring steel and, after being put on, exerts a spring force on the projecting ball head 17 which presses said ball head into the conical seat 29 of the bearing bolt 18 and holds it therein. Furthermore, the cap 21 is designed such that when the device is operating, a desired pressure can be transmitted in the pressing direction from the ball head rod 16 via the flap 21 and the bearing bolt 18 to the lever 14 in order to actuate the wastegate flap 5 in the opening direction.

(21) From the representation on the right in FIG. 7, it can be seen that the end area of the ball head rod 16 having a ball joint 23 is mounted in the extension nut 22 by means of a conical seat 29.

(22) As can be seen from the preceding explanations, a ball head rod is provided in a device as claimed in the invention between the actuator having an actuator rod, and the lever acting via a spindle on the wastegate flap. This end area facing the lever is provided with a ball head which is mounted by means of a conical seat in a bearing bolt connected to the lever. The end area of the ball head rod facing the actuator rod has a spring-loaded ball joint which is also mounted by means of a conical seat in an extension nut securely connected to the actuator rod. By means of such a bearing, an axial offset of the ball head rod actuating the wastegate flap, which is caused by the rotation of the lever 14 about the longitudinal axis of the spindle 15, can be compensated. A variable and compensatable connection of these components is thereby achieved. An adjustment that is made can be secured by means of a locknut.

(23) Easy installation of the ball head rod is enabled by the above-described slots in the bearing bolt, in the extension nut and in the cap 21, wherein the ball joint of the ball head rod is insert able through the round cut-out of the slot into the extension nut.

(24) In conjunction with the described conical seat at both ends of the ball head rod, the resilient bearing of the ball head rod in the conical seat 29 enables a pivoting movement of the ball head rod in the respective conical seat to a specific, although slight degree as indicated in FIG. 7, and hence a compensation of positional variations between the contact point of the ball head rod on the lever and the extension of the longitudinal axis of the actuator rod.

(25) The device can be provided with a desired initial tension by means of the spring. In particular, this initial tension can be adjusted so that, in the state of initial tension, a desired pressure can be transmitted to the lever in order to keep the wastegate flap in the closed state. Furthermore, impacts are dampened by the spring during operation of the device.

(26) The connection of the components of the device is variably adjustable without play.