DE102021119780B4 - Guide mechanism of a turbocharger and turbocharger - Google Patents

Abstract

Guide mechanism (10) of a turbocharger, with a plurality of guide vanes (12), each guide vane (12) having a blade leaf (13) and a blade root (14), with a carrier (11) for the guide vanes (12), each guide vane ( 12) is mounted on the carrier (11) via its blade root (14), the carrier (11) having a groove-like or pocket-like recess (19) with a bottom wall (20) and a peripheral side wall (21) for each guide vane (12). , each guide vane (12) being inserted via its vane root (14) into a respective recess (19) in such a way that a wall (22) of the vane root (14) facing away from the blade leaf (13) rests against the bottom wall (20) of the respective recess (19), and wherein each guide vane (12) is attached to the support (11) by means of attachment means (24) associated with the vane root (14).

Description

The invention relates to a guide mechanism of a turbocharger. Furthermore, the invention relates to a turbocharger with a diffuser.

From the DE 10 2017 215 874 A1 a guide vane of a turbomachine designed as a compressor or turbine is known. The diffuser has a guide vane carrier and several guide vanes. The vanes have a blade root and a blade. The guide vanes are mounted on the guide vane carrier with their blade root, with each guide vane being inserted into a recess of the guide vane carrier. The vane base is accommodated in the recess of the vane carrier. The respective vane completely penetrates the vane carrier.

Furthermore, on the U.S. 8,616,836 B2 and the EP 0 943 785 A1 referenced which disclose various attachment mechanisms for attaching blades to turbomachinery.

Proceeding from this, the present invention is based on the object of creating a new type of guide mechanism for a turbocharger and a turbocharger with such a guide mechanism.

According to the invention, the object is achieved by a guide mechanism of a turbocharger according to claim 1. According to the invention, the carrier for each guide blade has a groove-like or pocket-like recess with a bottom wall and a peripheral side wall, each guide blade being inserted into a respective recess via its blade root in such a way that a wall of the blade root facing away from the blade leaf rests against the bottom wall of the respective recess , each guide vane being fastened to the carrier via a fastening means assigned to the blade root of the same, the respective fastening means being a pressure piece which is inserted in a recess in the blade root of the respective guide vane and a latching body of the respective pressure piece when the blade root of the respective guide vane is inserted into the respective groove-like or pocket-like recess of the carrier is displaceable parallel to the bottom wall of the respective recess of the carrier.

In the diffuser according to the invention, the guide vanes are designed as individual or individually manufactured assemblies. The guide vanes are attached to the support of the nozzle by their blade roots, which are inserted into the groove-like or pocket-like recesses of the support. Fastening means assigned to the guide vane foot of the guide vanes serve to fasten the guide vanes via their guide vane foot to the carrier. The diffuser according to the invention can be manufactured simply and inexpensively. In the event of wear, individual blades can be replaced.

The respective fastening means is preferably a pressure piece which is inserted in a recess in the blade root of the respective guide blade. When the blade root of the respective guide vane is inserted into the respective groove-like or pocket-like recess of the carrier, a latching body of the respective pressure piece can be displaced parallel to the bottom wall of the respective recess of the carrier, with the latching body of the respective pressure piece fitting into a groove or notch in the circumferential side wall of the respective recess of the wearer intervenes. The attachment of the respective guide vane via a pressure piece is particularly preferred. There is no risk of the pressure piece getting into a flow channel and damaging other components of the turbocharger.

The turbocharger according to the invention is defined in claim 4.

Preferably, the carrier of the diffuser is functionally integrated into an assembly of the turbocharger, in particular into an insert or a bearing housing or a sealing cover of the turbocharger. The integration of the support of the diffuser into another subassembly of the turbocharger means that a separate support can be dispensed with. As a result, the number of individual assemblies and the weight of the turbocharger can be reduced.

Preferred developments of the invention result from the dependent claims and the following description.

• 1 einen perspektivischen Ausschnitt aus einem ersten erfindungsgemäßen Leitapparat eines Turboladers;
• 2 eine perspektivische Ansicht einer Leitschaufel des Leitapparats der 1,
• 3 einen ausschnittsweisen Querschnitt des Leitapparats der 1 im Bereich einer Leitschaufel.

Exemplary embodiments of the invention are explained in more detail with reference to the drawing, without being limited thereto. It shows:

• 1 a perspective detail of a first guide mechanism according to the invention of a turbocharger;
• 2 a perspective view of a vane of the nozzle of FIG 1 ,
• 3 a partial cross-section of the diffuser of 1 in the area of a vane.

The invention relates to a guide mechanism of a turbocharger. The diffuser can be a diffuser of a compressor of the turbocharger or a diffuser of a turbine of the turbocharger. Typically, a Leitap ready of a compressor downstream of an impeller of the same on the flow side. A guide vane of a turbine of the turbocharger is typically upstream of an impeller of the turbine, viewed in the direction of flow.

1 until 3 show different views and details of a first guide mechanism 10 of a turbocharger according to the invention. The diffuser 10 has a carrier 11 and several vanes 12, wherein in 1 two vanes 12 are shown as an example. 2 shows a vane 12 on its own.

Each guide blade 12 has a blade leaf 13 and a blade root 14. The blade leaf 13 comprises a flow inlet edge 15, a flow outlet edge 16 and flow-guiding surfaces 17, 18 extending between the flow inlet edge 15 and the flow outlet edge 16, which are typically used as the suction side and pressure side of the Blade 13 are executed.

The carrier 11 of the diffuser 10 has a groove-like or pocket-like recess 19 with a bottom wall 20 and a circumferential side wall 21 for each guide vane 12. Each guide vane 12 is inserted into the respective recess 19 via its blade root 14 in such a way that a Wall 22 of the blade root 14 of the respective vane 12 rests against the bottom wall 20 of the respective recess 19 of the carrier 11 . Furthermore, a peripheral edge 23 of the blade root 14 of the respective guide blade 12 rests against the peripheral side wall 21 of the respective recess 19 of the carrier 11 .

When the respective guide blade 12 is inserted via its respective blade root 14 into the respective groove-like or pocket-like recess 19 of the carrier 11, the respective guide blade 12 is fastened to the carrier 11 via a fastening means 24 assigned to the blade root 14 of the same.

In the embodiment of 1 until 3 the respective fastening means 24 is a pressure piece which is inserted in a recess 25 of the blade root 14 of the respective guide blade 12. This pressure piece 24 is a spring pressure piece with a latching element 26 which can be displaced against the spring force of a spring element 27, specifically parallel to the bottom wall 20 of the respective recess 19 into which the respective vane 12 is inserted.

If a respective guide vane 12 is to be inserted into a respective recess 19 of the carrier 11 via its vane root 14, the latching element 26 of the pressure piece 24 is pressed parallel to the base wall 20 into the vane root 14 against the spring force of the spring element 27 and then engages when the wall 22 of the blade root 14 of the respective guide blade 12 rests against the bottom wall 20 of the recess 19 over its entire surface, into a notch or groove 28 in the peripheral side wall 21 of the respective recess 19 .

The respective guide vane 12 can be inserted into a respective recess 19 of the carrier 11 of the diffuser 10 in the sense of a latching connection or clip connection and fastened to the carrier 11 via such a spring pressure piece.

The invention relates not only to the diffuser 10 as such, but also to a turbocharger with such a diffuser 10.

The carrier 11 is either a functionally separate assembly of the turbocharger or an assembly that is functionally integrated into another assembly of the turbocharger. It is preferably provided that the carrier 11 is provided by an insert or a bearing housing or a sealing cover of the turbocharger.

The diffuser 10 can be a diffuser of a compressor or a diffuser of a turbine of the turbocharger.

The guide vanes 12 are manufactured separately, for example by casting, additive manufacturing processes or in a hybrid construction. Furthermore, the carrier 11 is manufactured separately. The guide vanes 12 are inserted into the recesses 19 of the carrier 11 and fastened to the carrier 11 via a respective fastening means 24 .

Reference List

10

diffuser

11

carrier

12

vane

13

shovel blade

14

blade root

15

flow leading edge

16

trailing edge

17

flow-carrying surface

18

flow-carrying surface

19

recess

20

bottom wall

21

Side wall

22

wall

23

edge

24

fastener

25

recess

26

locking means

27

spring element

28

groove

Claims (8)

Guide mechanism (10) of a turbocharger, with a plurality of guide vanes (12), each guide vane (12) having a blade leaf (13) and a blade root (14), with a carrier (11) for the guide vanes (12), each guide vane ( 12) is mounted on the carrier (11) via its blade root (14), characterized in that the carrier (11) for each guide blade (12) has a groove-like or pocket-like recess (19) with a bottom wall (20) and a peripheral side wall ( 21). respective recess (19), each guide vane (12) is fastened to the carrier (11) via a fastening means (24) assigned to the blade root (14) of the same, the respective fastening means (24) being a pressure piece which is mounted in a recess (25 ) of the blade root (14) of the respective Gene guide vane (11) is inserted and a locking body (26) of the respective pressure piece when inserting the blade root (14) of the respective guide vane (12) in the respective groove-like or pocket-like recess (19) of the carrier (11) parallel to the bottom wall (20) of the respective recess (19) of the carrier (11) is displaceable. Guide vane (10) after claim 1 , characterized in that the locking body (26) of the respective pressure piece engages in a groove or notch (28) in the peripheral side wall (21) of the respective recess (19) of the carrier (11). Guide vane (10) according to one of Claims 1 until 2 , characterized in that the pressure piece is a spring pressure piece. Turbocharger with a diffuser (10) according to one of Claims 1 until 3 . turbocharger after claim 4 , characterized in that the carrier (11) of the diffuser (10) is a functionally separate assembly of the turbocharger. turbocharger after claim 5 , characterized in that the carrier (11) of the diffuser (10) is functionally integrated into an assembly of the turbocharger. turbocharger after claim 6 , characterized in that the carrier (11) of the diffuser (10) is functionally integrated into an insert or a bearing housing or a sealing cover of the turbocharger. Turbocharger after one of Claims 4 until 7 , characterized in that the diffuser (10) is a diffuser of a turbine or a compressor of the turbocharger.

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