DE102007018618A1 - Turbo-supercharger for handling exhaust gas has a turbine casing with a cleaning device for altering the amount of exhaust gas flowing through a turbine - Google Patents

Abstract

A cleaning device alters the amount of exhaust gas that flows through a turbine. A control unit (4) links via a control rod (5) to a guide piece (6) with an active connection to the control rod. An interposed lever (7) links to a control device so as to operate it. An independent claim is also included for a tuned mass damper for a turbo-supercharger.

Description

The The invention relates to a turbocharger according to the preamble of the claim 1.

Such a turbocharger is for example from the DE 197 11 307 A1 known.

at This turbocharger design will adjust the wastegate flap from a control unit via a control rod made. When the door is open, it comes through the vibration influence transmitted by the pulsating gas amplitude to increased Wear and tear deteriorated control quality the adjustment mechanism.

It is in contrast Object of the present invention, a turbocharger according to the preamble of the claim 1, the vibration influence on the Adjusting mechanism of a control device reduced.

The solution This object is achieved by the features of claim 1.

The under claims have advantageous developments of the invention to the content.

Further Details, advantages and features of the invention will become apparent following description of exemplary embodiments with reference to the drawing.

It shows:

1 a partially sectioned perspective view of the turbocharger according to the invention,

2 a partial perspective view of the turbocharger according to the invention according to 1 .

3 3 a perspective partial view of the turbocharger according to the invention with a absorber in the form of an additional weight arranged on the power transmission device,

4 3 is a partial perspective view of the turbocharger according to the invention with a mounted on the control rod absorber,

5 a sectional view of the in 4 Tilgers shown with a spring-mass arrangement with closed wastegate flap,

6 a sectional view of the in 4 Tilgers shown with a spring-mass arrangement with open wastegate flap,

7 a further embodiment of the absorber with a spring-mass arrangement with 2 springs with open wastegate flap,

8th a further embodiment of the absorber with a spring-mass arrangement with 2 springs with closed wastegate flap,

9 a further embodiment of the absorber as an energy absorber with a vibrating mass in a spring system,

10 a further embodiment of the absorber as an energy absorber with a vibrating mass in a liquid,

11 a further embodiment of the absorber as an energy absorber with a vibrating mass in the form of grain or particle mixtures,

12 a sectional view of an embodiment of the absorber according to the invention, which is arranged outside the control unit,

13 a sectional view of an embodiment of the absorber according to the invention, which is arranged within the control unit,

14 a perspective view of another embodiment of the absorber in the form of a clip on the connection between guide piece and lever,

15 an enlarged perspective detail view of the arrangement of the clip at the junction between guide piece and lever,

16 a partially sectioned perspective view of another embodiment of the invention,

17 one of the 16 corresponding representation of a further alternative embodiment,

18A a the 16 and 17 corresponding representation of a further alternative embodiment, and

18B an enlarged view of an in 18A shown illustration with an oval framed detail.

following become the different embodiments the absorber with reference to the drawing described in detail.

1 shows a partially cutaway perspective view of a turbocharger according to the invention 1 , which in the example shown with one on a turbine housing 2 arranged (Waste gate-) control flap 3 is provided as a control device. However, according to the invention, "regulating device" can also be understood to mean a regulating flap for opening and closing a channel which flows around a high-pressure turbine of a two-stage charge. Furthermore, according to the invention, the term "control device" also means a variable turbine geometry (or the guide grid of such a turbine geometry) with rotatably arranged guide vanes, in order to make it possible to change the exhaust gas flow flowing through the turbine. The operation of the control flap 3 to open and close a bypass 14 is done by a control unit 4 via a power transmission device 9 , This has a control rod 5 , an absorber arranged thereon as an intermediate piece 8th , a leader 6 and a lever 7 on. In addition, the turbocharger points 1 all other common components listed in 1 but are not described in detail for the purpose of explaining the present invention.

2 is a partial perspective view of the turbocharger according to the invention 1 according to 1 that the turbine housing 2 and the one with the control rod 5 associated absorbers 8th shows that between the leader 6 that at the lever 7 is attached, and the control unit 4 is arranged. This basic arrangement of the absorber 8th on or on the control rod 5 allows the damping or suppression of the gas amplitudes in the turbine housing with open control valve 3 resulting vibrations in the power transmission 9 and thus up to the control unit 4 be transmitted.

3 shows an embodiment of the absorber 8th that as extra weight 8th' is trained. This is at a tab 10 holding a plate 11 and a flange attached to this vertically 12 and a reinforcement brace 12a has, for. B. fastened by a screw connection example shown here. The additional weight 8th' can z. B. have a cuboid shape shown here. At the flap 10 are over the lever 7 the leader 6 with the control rod 5 attached. By the lever 7 outside attached additional weight 8th' the amplitude of oscillation is modulated. The shape and mass of the additional weight shall be determined according to the system parameters available.

To complete is that a butterfly valve to bypass the high-pressure turbine a two-stage system, in principle, not by a bypass wastegate flap different, but it must be for a much larger exhaust gas flow be designed and significantly higher forces withstand.

4 shows a partial perspective view of the between the control rod 5 and the guide piece 6 on the lever 7 the control flap 3 attached Tilgers 8th ,

5 is a sectional view of the in 4 Tilgers shown 8th as a spring-mass arrangement 8th'' , This has a housing part 16 on the side of the leader 6 is arranged, and a housing part 16 ' on, on the side of the control unit 4 is arranged. Im out of the parts 16 and 16 ' trained housing is one on the control rod 5 fixed, sliding piston 15 that is about a spring 17 supported on a housing paragraph, arranged. The shown, on block driven piston position results in closed control valve 3 of the wastegate, at which the absorber 8th has no function.

6 shows the sectional view of 5 with the position of the piston 5 with open flap 3 of the wastegate. In this position, the absorber 8th respectively. 8th'' a balance with the exhaust back pressure on the control valve 3 one.

In the 7 and 8th is another embodiment of the absorber 8th as a spring-mass arrangement 8th''' shown the two springs, namely one the guide piece 6 facing spring 17a and one of the control unit 4 facing spring 17b includes. The feather 17a relies on with a paragraph 24 provided rule rod part 5 '' from, which faces the guide piece. The second spring 17b rests on the control rod part 5 ' from. Its end is cup-shaped and has a perpendicular to the control rod part 5 ' arranged bundle 32 on, with a turn vertical to this arranged hollow cylinder 25 is provided. This hollow cylinder 25 who is with the federal government 32 forms a piston, slides with its outer peripheral surface on the inner wall of the housing 26 , In a groove-like depression between the inner wall of the hollow cylinder 25 and the end portion of the control rod 5 ' the spring is supported 17b to that of the control unit 4 facing away from. In 7 is the position of the control rod 5 with open flap 3 shown while 8th the position of the piston with the control flap closed 5 shows.

The 9 shows a further embodiment of the absorber 8th between the control rod parts 5 ' and 5 '' is arranged and in a housing 21 a vibrating mass 18 which is effective as an energy dissipater. This mass 18 is between a spring 27 who are at the mass 18 and a housing part 29 supports, and a spring 28 arranged, attached to the mass 18 and a second housing part 29 ' supported.

10 shows a further embodiment of the absorber 8th , being a vibrating mass 19 , the preferably, but not necessarily in this embodiment by the springs 27 and 28 can be supported in a liquid, with the free spaces 30 in a housing 22 are filled. This liquid can z. As oil. The swinging crowd 19 In addition, with one or more longitudinally of the mass 19 extending overflow channels 31 be formed, which is a fluid exchange between the oil-filled spaces 30 enable.

11 shows a further embodiment of the absorber 8th , where the vibrating mass 20 in the form of a grain or particle mixture that is in a receiving space 32 of the housing 23 is introduced.

The in the 9 to 11 shown forms of energy exterminators destroy by their vibrating masses the vibrational energy.

12 shows the basic arrangement of the absorber 8th as a component between the parts 5 ' 5 '' the control rod 5 is attached and outside the control unit 4 is arranged.

13 shows the basic arrangement of the absorber 8th as a component attached to the one-piece control rod 5 is attached and within the control unit 4 is arranged.

In the 14 and 15 is another embodiment of the absorber 8th in the form of a clasp 8 ^v shown in perspective, to eliminate the game between the leader 6 and the lever 7 on the top of the guide piece 6 is arranged. This clasp 8 ^v has two parallel legs at its open end 34 . 34 ' on, focusing on the leader 6 support. For this purpose, such as. In 14 shown the curved thighs 34 . 34 ' in accordance with the guide piece 6 attached mounting holes are introduced to the clasp 8 ^v to fix and support. The opposite closed end 35 the clasp 8 ^v is shaped to conform to a partial circumference of the connecting bolt 13 support it. Depending on the application and how the control unit works 4 can the clasp 8 ^v also be arranged rotated 180 ° relative to the position shown here.

In 16 is another embodiment of the invention arranged in the control unit Tilgers invention 8th shown as a cross-sectional view. In this illustration is the control unit 4 to see who has an upper housing part 40 and a lower housing part 39 having an opening through which the control rod 5 passed through. Inside the control unit 4 is immediately behind the opening area of the lower housing part 39 a pot-shaped housing 38 arranged, whose peripheral lower edge portion of a compression spring 40a against the lower housing part 39 the control unit 4 is pressed. Inside this case 38 is a guide bush 36 arranged, which passes through the control rod 5 leads or stores. On the outer surface of a Radialtilger nestles, which in the example as a cup-shaped elastomer body 37 is formed, which is the housing 38 together with the guide bush 36 completely fills and that from the upper opening of the housing 38 protrudes. Optionally, the elastomeric body 37 to the guide bush 36 vulcanized and thereby integrally formed with this. The absorber 8th is in the compression direction of the control rod 5 over the elastomeric body 37 arranged. The absorber 8th and the elastomeric body 37 Inner diameter greater than the outer diameter of the control rod 5 are. By this arrangement of the guide bush 36 , the elastomer body 37 and the Tilgers 8th In addition to axial and radial vibrations of the control rod 5 be absorbed or absorbed.

17 shows an alternative embodiment of the control unit 4 from 16 , To simplify the description, similar components to those of 16 correspond, the same reference numerals assigned. In this illustration, an end portion of a guide bushing 36 with a paragraph 36a educated. This forms a stop for the area of the guide bushing 36 arranged with smaller diameter elastomer body 37 , Also in this embodiment, the fills on the outer circumference of the guide bush 35 arranged Radialtilger or elastomer body 37 the pot-shaped housing 38 completely off. However, this includes the remote end portion of the guide bush 36 flush with the upper opening of the housing 38 from. The diameter of this end portion is less than the diameter of the upper opening of the housing 38 , Optionally, the guide bush 36 to the elastomeric body 37 vulcanized and both parts are formed integrally. In addition, it is optionally also possible, this integrally formed composite part of guide bushing 36 and elastomer part 37 on or in the housing 38 to vulcanize and form integrally with this. The inner surface of the guide bush 36 on which the control rod 5 slides in this embodiment with little play, can also by a method of a surface finish such. As nitriding or hard chrome plating, an improved sliding behavior can be imparted. Also in this embodiment, similar to the example described above, radial vibrations are caused by the arrangement of the guide bushing 36 and the elastomer body 37 in the case 38 collected and not on an inventive, in this illustration, not shown Axialtilger transmitted.

18A is a sectional view of another alternative embodiment, in which the elastomeric body 37 for absorbing radial vibrations of the control rod 5 here in cup-shaped housing 38 the control unit 4 is arranged.

18B shows in a perspective partial view of the lower portion of the control unit 4 with a guide element arranged there 41 Being at the control unit 5 facing end with a plate-shaped stop 42 is trained. This guide element 41 is at its the regulatory unit 5 opposite, tapered end with a plurality of flexible tabs 43 formed by an over their outer peripheral surfaces arranged O-ring 44 to the control rod 5 be pressed on and slide on this. The control rod 5 may be wholly or partially provided with a suitable coating to achieve better sliding properties.

In complement to the written revelation is hereby explicitly referred to the graphic Representation of the invention in the attached figures with reference.

1

turbocharger

2

turbine housing

3

control flap (Waste gate valve)

4

control unit

5

control rod

5 '

Control rod part (on the side of the control unit 4 )

5 ''

Control rod part (on the side of the guide piece 6 )

6

guide piece

7

lever

8th

absorber, in particular Axialtilger

8th'

additional weight

8th''

Spring-mass arrangement,

8th'''

Spring-mass arrangement,

8 ^IV

Energievertilger

8 ^v

clasp

9

Power transmission device

10

flap

11

plate

12

Flange for attachment of 8th'

12a

Verstärkungsverstrebung

13

connecting bolts

14

bypass

15

piston

16

Housing part, facing the guide piece

16 '

Housing part, facing the control unit

17

feather

17a

Feather, facing the guide piece

17b

Feather, facing the control unit

18

swinging Dimensions

19

swinging Dimensions

20

swinging Mass in the form of a particle mixture

21

casing

22

casing

23

casing

24

Paragraph on control rod part 5 '

25

Hollow cylinder (piston formed from 25 + 32 )

26

casing

27

feather

28

feather

29 29 '

Housing parts of housing 21

30

free space

31

overflow

32

Federation

33

accommodation space

34 34 '

leg

35

closed end of the clasp 13 (Supporting portion)

36

guide bush

36a

attack

37

Elastomer body / Radialtilger

38

pot-shaped housing

39

lower housing part

40

upper housing part

40a

compression spring

41

guide element

42

attack

43

flap

44

O-ring

Claims (14)

Turbocharger ( 1 ) - with a turbine housing ( 2 ) • having a control device for varying the amount of exhaust gas flowing through the turbine, and • having a control unit ( 4 ) via a control rod ( 5 ) with a guide piece ( 6 ) and an intermediate lever ( 7 ) is connected to the control device for the actuation thereof, characterized by a absorber ( 8th ), which is in the from the control unit ( 4 ), the control rod ( 5 ), the leader ( 6 ) and the lever ( 7 ) formed power transmission device ( 9 ) is arranged. Turbocharger ( 1 ) according to claim 1, wherein the control device comprises a device for opening and closing a bypass channel ( 14 ) arranged wastegate control valve ( 3 ). Turbocharger ( 1 ) according to claim 1, wherein the control device comprises a control flap for opening and closing a high pressure turbine of a two stage charge around the flowing channel. Turbocharger ( 1 ) according to claim 1, wherein the control device is a variable turbine geometry with rotatably arranged guide vanes for changing the exhaust gas mass flow flowing through the turbine. Turbocharger ( 1 ) according to one of claims 1 to 4, characterized in that the absorber ( 8th ) as additional weight ( 8th' ) is trained. Turbocharger ( 1 ) according to claim 5, characterized in that the additional weight ( 8th' ) on a tab ( 10 ) attached to the lever ( 7 ) is attached. Turbocharger ( 1 ) according to one of claims 1 to 4, characterized in that the absorber ( 8th ) a spring-mass arrangement ( 8th'' ), which is a piston ( 15 ) in a housing ( 16 . 16 ' ) is arranged and the one-sided by a spring ( 17 ) is biased. Turbocharger ( 1 ) according to one of claims 1 to 4, characterized in that the absorber ( 8th ) a spring-mass arrangement ( 8th''' ), which has a piston ( 25 . 32 ) in a housing ( 26 ) is arranged and on both sides with a spring ( 17a . 17b ) is biased. Turbocharger ( 1 ) according to one of claims 1 to 4, characterized in that the absorber ( 8th ) as energy dissipater ( 8 ^IV ) is formed, which is a vibrating mass ( 18 ; 19 ; 20 ) housed in a housing ( 21 ; 22 ; 23 ) arranged as an intermediate piece of a split control rod ( 5 ' . 5 '' ) is trained. Turbocharger ( 1 ) according to claim 9, characterized in that the oscillating mass in the form of grain or particle mixtures ( 20 ) is formed in the housing ( 23 ) are introduced. Turbocharger ( 1 ) according to one of claims 7 to 10, characterized in that the absorber ( 8th ) outside the control unit ( 4 ) is arranged. Turbocharger ( 1 ) according to one of claims 7 to 10, characterized in that the absorber ( 8th ) within the control unit ( 4 ) is arranged Turbocharger ( 1 ) according to one of claims 1 to 4, characterized in that the absorber ( 8th ) as a clasp ( 8 ^v ) is formed, which at its free end via legs ( 34 . 34 ' ) on the guide piece ( 6 ) and with its other end ( 35 ) on a connecting bolt ( 13 ) of the lever ( 7 ) supporting a recess of the guide piece ( 6 ). Absorber ( 8th ) for a turbocharger ( 1 ) according to the preamble of claim 1, characterized by at least one of the features of claims 1 to 13.