DE102017120506A1 - turbocharger - Google Patents

Abstract

Turbocharger (1), comprising a turbine (2) for relaxing a first medium, wherein the turbine (2) comprises a turbine rotor (5) and a turbine housing (4) comprising an inlet housing (11) and a discharge housing (12) Compressor (3) for compressing a second medium using energy recovered in the turbine (2) upon expansion of the first medium, the compressor (3) having a compressor rotor (7) coupled to the turbine rotor (5) via a shaft (8). , a compressor housing (6) and an intake / insert piece (17), with a bearing housing (9) in which the turbine rotor (5) and the compressor rotor (7) coupling shaft (8) is mounted, with screw, over the the inlet housing (11) and the outflow housing (12) of the turbine, the compressor housing (6) and the intake manifold (17), and the bearing housing (9) with the turbine housing (4) and the compressor housing (6) are connected. Turbine-side screws (18, 19, 23) and compressor-side screws (20, 21) are identical to form corresponding screw connections.

Description

The invention relates to a turbocharger.

A turbocharger has a turbine for relaxing a first medium and a compressor for compressing a second medium. The turbine of the turbocharger has a turbine housing and a turbine rotor. The compressor of the turbocharger has a compressor housing and a compressor rotor. The turbine rotor and the compressor rotor are connected to each other via a shaft which is rotatably mounted in a bearing housing of the turbocharger. The bearing housing of the turbocharger is connected to both the turbine housing and the compressor housing. The turbine of a turbocharger can be designed as an axial turbine or as a radial turbine. Likewise, the compressor of a turbocharger may be designed as an axial compressor or as a centrifugal compressor.

The turbine housing of the turbine of a turbocharger has an inlet housing and a discharge housing. The inlet housing of the turbine housing and the outflow housing of the turbine housing of the turbine are connected to one another via screws.

Then, when the turbine is designed as a radial turbine, the Zuströmgehäuse the turbine housing between the outflow housing of the turbine housing and the bearing housing is arranged so that then the bearing housing is connected to the Zuströmgehäuse the turbine housing via other screws.

Then, when the turbine is designed as an axial turbine, the outflow housing of the turbine housing is positioned between the bearing housing and the inlet housing of the turbine housing, so that then the outflow housing of the turbine housing is connected to the bearing housing via screws.

An intake manifold or an insert of the compressor is connected via further screws to the compressor housing, wherein air is sucked from the compressor for compression via the intake manifold or the insert.

Further, it is known to mount a turbocharger on Aufstellfüße on a machine foundation or on an internal combustion engine. This Aufstellfüße can be connected to the turbine housing and / or the bearing housing and / or the compressor housing via screws.

In turbochargers known from practice, individually adapted screws are used in the area of each of the abovementioned screw connections. Since these screws are safety-relevant components which are intended to prevent the escape of components from the turbocharger in the event of a damage, the screws used are in each case so-called design bolts with increased requirements, complex tests and the like, which increases the cost of the turbocharger.

On this basis, the present invention seeks to provide a novel turbocharger.

This object is achieved by a turbocharger according to claim 1. Turbine-side screws and compressor-side screws for the formation of corresponding screw connections are identical.

With the present invention, it is proposed for the first time to use identical screws on a compressor and on a turbine of a turbocharger, in order to form corresponding screw connections in the region of the compressor and of the turbine. This increases the number of identical parts of the turbocharger. Corresponding screws can then be manufactured in higher quantities, which costs can be reduced.

Preferably, screws for connecting the Turbinenzuströmgehäuses and Turbinenabströmgehäuses and screws for connecting the compressor housing and the intake manifold or the insert are made identical. This is particularly preferred for using the largest possible number of identical screws and for reducing costs.

Preferably also screws for mounting the bearing housing on the turbine housing and / or screws for mounting the bearing housing on the compressor housing and / or screws for mounting Aufstellfüßen the turbocharger on the turbine housing and / or bearing housing and / or compressor housing are made identical. Hereby, the number of identical screws and thus the number of identical parts can be further increased. Costs can be further reduced.

• 1 einen Querschnitt durch einen ersten Turbolader,
• 2 eine schematische Darstellung eines zweiten Turbolader,
• 3 ein Detail des Turboladers der 2;
• 4 ein weiteres Detail des Turboladers der 2; und
• 5 ein weiteres Detail des Turboladers der 2.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

• 1 a cross section through a first turbocharger,
• 2 a schematic representation of a second turbocharger,
• 3 a detail of the turbocharger of the 2 ;
• 4 another detail of the turbocharger of the 2 ; and
• 5 another detail of the turbocharger of the 2 ,

1 shows the basic structure of a first turbocharger 1 , The turbocharger 1 has a turbine 2 for the relaxation of a first medium, in particular for the relaxation of exhaust gas of an internal combustion engine. It also has a turbocharger 1 over a compressor 3 for compressing a second medium, in particular charge air, using in the turbine 2 Energy gained during the relaxation of the first medium. The turbine 2 has a turbine housing 4 and a turbine rotor 5 , The compressor 3 has a compressor housing 6 and a compressor rotor 7 , The compressor rotor 7 is with the turbine rotor 5 over a wave 8th coupled in a bearing housing 9 is stored, wherein the bearing housing 9 between the turbine housing 4 and the compressor housing 5 positioned and with both the turbine housing 4 and the compressor housing 5 connected is. Further shows 1 a compressor-side silencer 10 ,

The turbine housing 4 the turbine 2 includes an inlet housing 11 and a downstream housing 12 , About the inlet housing 11 can that be in the area of the turbine 2 to relaxing first medium the turbine rotor 5 be supplied. About the outflow housing 12 flows in the area of the turbine rotor 5 relaxed first medium from the turbine 2 path.

The turbine housing 4 includes next to the inlet housing 11 and the outflow housing 12 an insert 13 , where the insert piece 13 especially in the area of the inflow housing 11 runs, adjacent to the turbine rotor 5 radially outside adjacent to blades 14 of the turbine rotor 5 , The turbine housing 4 further comprises a nozzle ring 15 , The nozzle ring 15 is also referred to as Turbinenleitapparat. Further shows 1 in the connection area of Zuströmgehäuse 11 and bearing housing 9 a sealing cover 16 , The sealing cover 16 is also referred to as a bearing housing cover or heat shield.

Further shows 1 Compressor side an intake / insert 17 over which the compressor 3 Air from the muffler 10 sucks.

In the turbocharger of 1 is the turbine 2 designed as a radial turbine. In this case, then the Zuströmgehäuse 11 the turbine 2 between the bearing housing 9 and the outflow housing 12 positioned. 1 can be seen that the Zuströmgehäuse 11 the turbine 2 and the outflow housing 12 the same about screws 18 are connected. The bearing housing 9 is with the inlet housing 11 the turbine over screws 19 connected, namely to form a Spannpratzenverbindung. Furthermore, the bearing housing 9 with the compressor housing 6 about screws 20 connected, also with the formation of a Spannpratzenverbindung. Further, the intake manifold / insert is 17 with the compressor housing 6 about screws 21 connected.

Another turbocharger 1 shows 2 , while the turbocharger 1 of the 2 the turbine 2 designed as axial turbine. In this case, then is the outflow housing 12 of the turbine housing 4 the turbine 2 between the bearing housing 9 and the inlet housing 11 arranged. 2 shows screws 18 that the connection of Zuströmgehäuse 11 and outflow housing 12 the axial turbine 2 of the 2 serve. Further shows 2 screw 21 that the connection of the compressor housing 6 with the intake manifold / insert 17 serve. The screws 19 . 20 over which the bearing housing 9 with the compressor housing 6 and the turbine housing 4 connected are in 2 Not shown. 2 but shows feet 22 Setting up the turbocharger 1 of the 2 serve on a machine foundation or on assemblies of an internal combustion engine. Here is a turbine-side Aufstellfuß 22 about screws 23 with the turbine housing 4 connected, namely with the outflow housing 12 of the turbine housing 4 ,

For the purposes of the present invention, turbine-side screws and compressor-side screws for the formation of corresponding screw connections are identical.

This allows the number of identical screws and thus the number of identical parts on a turbocharger 1 increase. Costs can be reduced.

According to an advantageous development, the screws 18 to connect the Zömömgehäuses 11 and outflow housing 12 of the turbine housing 4 the turbine 2 as well as screws 21 for connecting the compressor housing 6 and the intake manifold 17 identical. To show 3 and 5 Details of the screw connections using the screws 18 and 21 , So on the one hand a screw connection between Zuströmgehäuse 11 and outflow housing 12 of the turbine housing 4 the turbine 2 of the turbocharger 1 of the 2 and on the other hand a screw connection using the screw 21 between the compressor housing 6 and intake manifold / insert 17 , These screws 18 . 21 are identical. They therefore have identical thread diameters, identical thread lengths and are made of identical materials. There are no differences between these screws 18 . 21 ,

Preferably also the screws 23 , the attachment of the feet 22 at the outlet housing 12 of the turbine housing 4 the turbine 2 of the 2 serve, identical as the screws 21 and 18 , 4 shows a detail of this screw between the Abströmgehäuse 12 of the turbine housing 4 and the feet 22 using the screws 23 ,

According to an advantageous development are also the screws 19 , which is the attachment of the bearing housing 9 at the turbine housing 4 serve, as well as the screws 20 that the connection of the bearing housing 9 on the compressor housing 6 serve, identical as the screws 21 . 18 and 23 , So a variety of identical screws can be used to the screw on the turbocharger 1 train. This increases the number of identical parts. Costs are reduced.

Preferably, the identically designed screws are designed as heat-resistant screws.

It is therefore within the meaning of the present invention, to form a variety of screw on a turbocharger 1 to use identical screws, both for the formation of screw in the turbine area 2 as well as for the formation of screw connections in the area of the compressor 3 ,

LIST OF REFERENCE NUMBERS

1

turbocharger

2

turbine

3

compressor

4

turbine housing

5

turbine rotor

6

compressor housing

7

compressor rotor

8th

wave

9

bearing housing

10

silencer

11

inflow housing

12

outflow housing

13

insert

14

blade

15

nozzle ring

16

sealing cover

17

Intake manifold / insert

18

screw

19

screw

20

screw

21

screw

22

up foot

23

screw

Claims (7)

Turbocharger (1), comprising a turbine (2) for relaxing a first medium, wherein the turbine (2) comprises a turbine rotor (5) and a turbine housing (4) comprising an inlet housing (11) and a discharge housing (12) Compressor (3) for compressing a second medium using energy recovered in the turbine (2) upon expansion of the first medium, the compressor (3) having a compressor rotor (7) coupled to the turbine rotor (5) via a shaft (8). , a compressor housing (6) and an intake / insert piece (17), with a bearing housing (9) in which the turbine rotor (5) and the compressor rotor (7) coupling shaft (8) is mounted, with screw, over the the inflow housing (11) and the outflow housing (12) of the turbine, the compressor housing (6) and the intake / insert piece (17), and the bearing housing (9) with the turbine housing (4) and the compressor housing (6) are thereby connected gekennzeich net , that turbine-side screws (18, 19, 23) and compressor-side screws (20, 21) are designed to form identical screw identical. Turbocharger after Claim 1 characterized in that screws (18) for connecting the inflow housing (11) of the turbine housing (4) and the outflow housing (12) of the turbine housing (4) and screws (21) for connecting the compressor housing (6) and the intake / insert piece ( 17) are identical. Turbocharger after Claim 2 , characterized in that further screws (23) for attachment of Aufstellfüßen (22) on the turbine housing (4) and / or bearing housing (9) and / or compressor housing (6) are made identical. Turbocharger after Claim 2 or 3 , characterized in that further screws (19) for fixing the bearing housing (9) on the turbine housing (4) are made identical. Turbocharger after one of Claims 2 to 4 , characterized in that further screws (20) for fixing the bearing housing (9) on the compressor housing (6) are made identical. Turbocharger after one of Claims 1 to 5 , characterized in that identical running screws (18, 19, 20, 21, 23) are designed as heat-resistant screws. Turbocharger after one of Claims 1 to 6 , characterized in that identical running screws (18, 19, 20, 21, 23) have identical thread diameter and identical thread lengths and are made of identical materials.

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