EP1777417A1 - Turbocharger - Google Patents

Abstract

The turbocharger, with a sealing unit (2) for sealing the bearing housing oil chamber (13) in relation to the compressor chamber (14), has a sealing ring (1) included in the sealing unit which is located with an axial clearance on the rotor shaft (12) between a disc (9) and sealing bush (16) which are fastened on the rotor shaft. Oppositely orientated air feed devices are arranged in or on the end faces (17,17') of the sealing ring. The disc and the sealing bush define a slot in which the sealing ring is located. An independent claim is included for a sealing unit for a turbocharger including a sealing ring.

Description

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

Such a turbocharger is for example from the US 4,420,160 known.

This turbocharger has a sealing device for sealing a bearing housing oil space with respect to a compressor chamber, which is provided with a sealing ring which is fixedly mounted in the bearing housing. The sealing ring has frontal sealing surfaces, which bear against rotating mating surfaces to build up the sealing effect. Since a mechanical contact between the end faces of the sealing ring and the opposite with the compressor shaft rotating counter surfaces is thus required to build a sealing effect, mechanical wear and thus deterioration of the sealing effect, at least after a certain period of turbocharger inevitable.

It is therefore an object of the present invention to provide a turbocharger specified in the preamble of claim 1 way, which is provided with a sealing device which makes a longer life due to at least significantly reduced wear of the sealing surfaces and thus a better sealing effect possible.

The solution of this object is achieved by the features of claim 1 and of claim 10.

The turbocharger according to the invention has in detail a sealing device, which has a sealing ring for sealing the bearing housing oil space with respect to the compressor chamber. This sealing ring is arranged in the bearing housing and is provided with two end faces, which are used to construct the Sealing effect are provided with associated end faces of a disc on one side and a sealing bushing on another side, wherein the disc and the sealing bushing are mounted on the rotor shaft.

Characterized in that the sealing ring is arranged with axial clearance on the rotor shaft between the disc and the sealing bush, the sealing ring usually places during assembly on one of the two end faces (ie either to the end face of the disc or to that of the sealing bushing). During operation of the turbocharger, the sealing ring separates from the contact position and forms depending on the existing pressure difference between the compressor and bearing housing side with the respective associated end face a conveying gap. It arises mainly through the conveyor, which forms the conveying gap with the respectively associated end face of the sealing ring, an air flow, which leads to the construction of air cushions between each of the non-rotating fixed end faces of the sealing ring and the associated rotating end faces of the disc or the sealing bushing. On the one hand, this air flow prevents oil from flowing out of the bearing housing in the direction of the compressor and, on the other hand, direct mechanical contact between the end surfaces causing the seal is avoided, which at least considerably reduces the wear of the turbocharger according to the invention.

The mentioned air flow is achieved by the disposed in the two end faces of the sealing ring conveyors or conveyor structures which are oppositely oriented, which means that substantially either the compressor side conveyor promotes air from the outer periphery to the inner circumference, or the bearing housing side conveyor an air delivery from inner circumference to the outer periphery causes. In detail, this means that the compressor-side conveyor with decreasing Gap pumps the air from the compressor housing from radially outside to radially inside or the bearing housing side conveyor with decreasing gap passes the air from the inside to the outside radially. In both cases, the air is directed into an axial gap between the inner circumference of the sealing ring and the sealing bush and can thus reach the bearing housing side from the compressor side. This creates an approximately U-shaped forced air flow, which, as said, the sealing effect and the avoidance of mechanical contact between the opposing fixed and rotating faces achieved.

The dependent claims 2 to 9 have advantageous developments of the turbocharger invention to the content.

In claims 10 and 11, the sealing device according to the invention is defined as an independently tradeable object.

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

Fig. 1

eine schematisch vereinfachte Darstellung eines erfindungsgemäßen Turboladers,

Fig. 2

eine Draufsicht auf den Dichtring von der Lagergehäuseseite her, und

Fig. 3

eine der Fig. 2 entsprechende Darstellung des Dichtrings der erfindungsgemäßen Dichtungseinrichtung von der Verdichterseite her.

It shows:

Fig. 1

a schematically simplified representation of a turbocharger according to the invention,

Fig. 2

a plan view of the sealing ring from the bearing housing side, and

Fig. 3

a representation corresponding to FIG. 2 of the sealing ring of the sealing device according to the invention from the compressor side.

In Fig. 1, a part of a turbocharger 15 according to the invention is shown, which has a bearing housing 7 which supports a rotor shaft 12 and which is connected to a compressor housing, of which only the compressor chamber 14 is visible. Of course, as usual, the turbocharger also has a turbine with a turbine housing, which, however, likewise the complete compressor side, is not shown in FIG. 1, since these parts are not required for the explanation of the present invention.

Fig. 1 further shows a sealing device, which is illustrated in its entirety by the reference numeral 20. The sealing device 20 is used to seal a bearing housing oil chamber 13 with respect to the compressor chamber 14 of the compressor housing of the turbocharger 15, not shown.

The sealing device 20 has for this purpose a sealing ring 1, the fixed, i. not rotating, is arranged in the bearing housing 7 and has two end faces 17 and 17 '. These end faces 17 and 17 'act to build up the sealing effect of the sealing device 20 with end faces 10 and 11 of a disc 9 and a sealing bushing 16 together. Fig. 1 illustrates here that the disc 9 is disposed adjacent to the compressor chamber 14, and that the sealing bush 16 has two flanges 16 A and 16 B, which are arranged according to the selected in Fig. 1 representation right of the sealing ring 1 and spaced from each other.

The flanges 16A and 16B guide a thrust bearing 21. The flange 16A defines together with the disc 9 further has a groove in which the sealing ring 1 is inserted with axial play, so with play in the longitudinal direction of the rotor shaft 12.

Within the limited by the disc 9 and the flange 16A groove of the sealing ring 1 is also used with an annular gap forming radial clearance S.

In the end faces 17 and 17 'of the sealing ring 1 conveyors 2 and 3 are arranged, wherein the conveyor 2 is the compressor side, while on the bearing housing side 3, the conveyor 3 is arranged. These conveyors are shown in FIGS. 2 and 3. They are formed in the example of by webs 18 and 18 'limited grooves 19 and 19', which are oppositely oriented, which means that the compressor-side conveyor 2 promotes air from the outer periphery to the inner periphery, while the bearing housing side conveyor 3 air from inner circumference promotes the outer circumference.

The sealing ring 1 is floatingly mounted in the bearing housing 7 for this purpose. In the particularly preferred embodiment shown in FIG. 1, the sealing ring 1 is connected to an end region 5A of an elastomeric molded part 5, which is fixed in the bearing housing 7 with its other end region 5B.

The connection between the sealing ring and the end region 5 A can be designed positively, non-positively or frictionally. A combination of these types of connections is possible.

Fig. 1 also illustrates that the end portion 5 A is pressed by a first locking ring 4 to the sealing ring 1.

The other end portion 5B of the elastomeric molded part 5 is fixed by a second locking ring 6 in a bore of the bearing housing 7 or in an attachment 8, which is a kind of lid with which the opening of the bearing housing 7 is closed, as can be seen in detail from the graphic representation of Fig. 1 opens.

The above-described sealing device 20 seals the bearing housing oil chamber 13 from the compressor chamber 14. The sealing function is achieved here by the sealing ring 1, which is disposed between the simultaneously rotating end faces 10 and 11 of the disc 9 and the annular flange 16A. During assembly, the sealing ring 1 usually sets to one of the two said end faces 10 and 11 at. During operation of the turbocharger, depending on the pressure difference between compressor and bearing housing side through the flow generated in the conveying gap of the respective conveyor 2 and 3, an air cushion between the fixed end face 17 of the sealing ring 1 and the rotating end face 11 constructed or the air cushion is through the Conveying effect between the fixed end face 17 'and the rotating end face 10 is formed. By the conveyors or conveyor structures 2 and 3, an air flow in the direction of the bearing housing oil space 13, which prevents Ö1 from flowing from the bearing housing 7 in the direction of the compressor.

More precisely, by the conveyor 2, an air flow from the compressor housing 7 from radially outside to radially inside. Thereafter, the air is introduced into the axial gap S and guided in the region of the annular flange 16 a from the inside outward, so that there is a forced air flow, which is approximately U-shaped.

As a result, as previously explained, leakage of oil towards the compressor is prevented and, secondly, a mechanical contact of the stationary end faces 17 or 17 'of the sealing ring 1 against the opposite rotating sealing surfaces of the rotor shaft assembly, that of the rotor shaft 12, the disk 9 and Sealing bush 16 is formed, avoided.

The locking ring 4, which presses the elastomeric molded part 5 to the sealing ring 1, can be additionally used by appropriate design (recesses, tabs, cams, etc.) for the positive torque transmission between the sealing ring 1 and the bearing housing 7.

LIST OF REFERENCE NUMBERS

1

seal

2.3

Conveyors / support structures

4

First circlip

5

Elastomer molding

5A, 5B

end regions

6

Second circlip

7

bearing housing

8th

Attachment / cap

9

disc

10.11

At the same time rotating faces

12

Rotor shaft / stretching bond

13

Bearing housing oil space

14

compressor room

15

Part of a turbocharger

16

sealing bush

16A, 16B

flanges

17, 17 '

End faces of 1

18, 18 '

Stege / air guide bars

19.19 '

Grooves / air conduction

20

seal means

S

Game between 1 and 16

Claims (11)

Turbocharger (15), - With a bearing housing (7) which supports a rotor shaft (12) and has a bearing housing oil space (13); - With a compressor housing, which is connected to the bearing housing (7) and having a compressor chamber (14); and - With one for sealing the Lagegehäuseölraums (13) relative to the compressor chamber (14) provided sealing means (20) having a sealing ring (1) which is arranged in the bearing housing (7) and two end faces (17, 17 ') which with associated end faces (10 or 11) of a disc (9) or a sealing bushing (16) which are mounted on the rotor shaft (12), characterized, - That the sealing ring (1) with axial clearance on the rotor shaft (12) between the disc (9) and the sealing bush (16) is arranged; and - That in or on the end faces (17, 17 ') of the sealing ring (1) oppositely directed air conveying means (2, 3) are arranged. Turbocharger according to claim 1, characterized in that the disc (9) and the sealing bush (16) define a groove in which the sealing ring (1) is arranged. Turbocharger according to claim 1 or 2, characterized in that the sealing ring (1) is mounted floating in the bearing housing (7). Turbocharger according to claim 3, characterized in that the sealing ring (1) is connected to an end region (5A) of an elastomer molding (5) which is fixable with its other end region (5B) in the bearing housing (7). Turbocharger according to claim 4, characterized in that the sealing ring (1) with the one end region (5A) of the elastomeric molded part (5) is positively, positively and frictionally connected or by a combination of these types of connection. Turbocharger according to one of claims 3 to 5, characterized in that one end region (5A) is pressed against the sealing ring (1) by a first securing ring (4). Turbocharger according to one of claims 4 to 6, characterized in that the other end portion (5B) by a second locking ring (6) in a bore of the bearing housing (7) or in an attachment (8) of the bearing housing (7) is fixable. Turbocharger according to one of claims 1 to 7, characterized in that the conveying means (2, 3) as grooves (19) in or on the end faces (17, 17 ') of the sealing ring (1) are formed. Turbocharger according to claim 8, characterized in that the grooves (19, 19 ') of on the end faces (17, 17') of the sealing ring (1) arranged Luftleitstegen (18, 18 ') are limited. Sealing device (20) for a turbocharger (15) of a bearing housing (7), a bearing housing (7) mounted rotor shaft (12) and a housing in the bearing housing (7) located bearing housing oil space (13) and a compressor housing having a compressor chamber (14) wherein the sealing device (20) has a sealing ring (1) with two end faces (17, 17 '),
characterized, - That the sealing ring (17) in or on the end faces (17, 17 ') oppositely directed air conveying means (2, 3); and - That the sealing ring (1) with axial play on the rotor shaft (12) of the turbocharger (15) between a disc (9) and a sealing bushing (16) of the turbocharger (15) is placeable. Sealing device according to claim 10, characterized by at least one of the features of claims 2 to 9.

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