KR101319807B1 - Exhaust turbo supercharger for an internal combustion engine - Google Patents

Abstract

The present invention relates to an exhaust turbocharger for an internal combustion engine, comprising a turbine for expansion of an exhaust flow outside an engine of an internal combustion engine, and a compressor for compression of a combustion air stream to be supplied to an engine of an internal combustion engine, the turbine of the turbine; An inlet housing 10, a nozzle ring 11, a turbine rotor 12, and a diffuser 13 defining an exhaust flow channel, wherein the inlet housing 10, the nozzle ring 11, and the diffuser Reference numeral 13 relates to an exhaust turbocharger for an internal combustion engine, which defines one ring-shaped channel 20. According to the invention, one or more channels 21 are integrated in the inlet housing 11, which connects the ring-shaped channel 20 with the periphery of the turbine and in the diffuser 13. Or one or more channels 22 are integrated into the cover ring 15 defining the outside of the turbine rotor 12, which channels the ringed channel 20 by the diffuser 13. In connection with a portion 19 of the exhaust flow channel provided.

Turbine, compressor, inlet housing, nozzle ring, turbine rotor, diffuser, ring channel, channel.

Description

EXHAUST TURBO SUPERCHARGER FOR AN INTERNAL COMBUSTION ENGINE}

1 is a schematic cross-sectional view of a turbine of an exhaust turbocharger for an internal combustion engine, according to the present invention;

<Explanation of symbols for the main parts of the drawings>

10: inlet housing 11: nozzle ring

12: turbine rotor 13: diffuser

14: working blade 15: cover ring

16, 17, 18, 18: exhaust flow channel portion 20: ring channel

21, 22: channel

The present invention relates to an exhaust turbocharger for an internal combustion engine according to the preamble of claim 1.

In order to increase the efficiency of the internal combustion engine, it is already known to equip the internal combustion engine with an exhaust supercharger. In the case of exhaust charging or turbo charging, the exhaust gas derived from the engine is expanded in the turbine of the exhaust turbocharger, which drives the compressor of the exhaust turbocharger, in which the combustion air to be supplied to the engine is compressed. By this exhaust charging or turbo charging, the efficiency of the internal combustion engine can be increased.

In DE 101 25 250 C1 a turbine of an exhaust turbocharger of an internal combustion engine is known, comprising an inlet housing, a diffuser, a nozzle ring and a turbine rotor, which define the exhaust flow channel of the turbine. The nozzle ring is disposed downstream of the inlet housing, the turbine rotor is downstream of the nozzle ring, and the diffuser is downstream of the turbine rotor, the turbine rotor is defined radially outward by the cover ring, the cover ring being nozzle It forms a radially outer wall of the exhaust flow channel between the ring and the diffuser. The inlet housing and the diffuser, together with the nozzle ring and the cover ring, define a ring-shaped channel, which is separated from the exhaust flow channel, surrounding the exhaust flow channel radially outward in its axial region.

During operation of the exhaust turbocharger, in particular the parts of the subassembly or subassemblies defining the exhaust flow channel are exposed to high temperatures, so cooling or insulating the subassembly or subassembly parts is already known in the prior art. To date, a cooling device formed as a separate device has been used for this purpose, resulting in a relatively complex configuration of the turbine of the exhaust turbocharger.

The object of the present invention is to provide a new exhaust turbocharger for an internal combustion engine.

The problem is solved by an exhaust turbocharger for an internal combustion engine according to claim 1. In accordance with the invention one or more channels are integrated in the inlet housing, which connects the ring-shaped channels with the periphery of the turbine, and incorporates one or more channels in the diffuser or in a cover ring defining the radially outer side of the turbine rotor. This channel connects the ring-shaped channel with a portion of the exhaust flow channel provided by the diffuser.

By means of channels integrated in the inlet housing and the diffuser, effective cooling of the hot part of the exhaust turbocharger or the hot part of the turbine can be achieved by very simple structural means. When leakage occurs in the turbine or in the region of the exhaust turbocharger, the exhaust gas gathered around the turbine is sucked in some cases and supplied to the diffuser of the exhaust turbocharger.

Preferred embodiments of the invention are set forth in the dependent claims and the following description. Although the embodiment of the present invention is described in detail with reference to the drawings, the present invention is not limited to this embodiment.

In the following, the invention is described as an embodiment of an exhaust turbocharger comprising a turbine formed as an axial turbine. The basic configuration of the axial turbine of an exhaust turbocharger is known from DE 101 25 250 C1, the disclosure of which can be referred to. Of course, the invention can also be used in radial turbines.

1 shows an exhaust turbo according to the invention at the radially outer end of an axially extending exhaust flow channel formed of an inlet housing 10, a nozzle ring 11, a turbine rotor 12 and a diffuser 13. A part of the turbine of the supercharger is shown. 1 shows the radially outer portion of the working blade 14 of the turbine rotor 12. The turbine rotor 12 or working blade 14 of the exhaust turbocharger has a radially outer end of the exhaust flow channel defined by a cover ring 15, which covers the nozzle ring 11 and the diffuser. Disposed between 13 to form a wall of the exhaust flow channel radially outward.

The exhaust flow channel extending in the axial direction of the turbine consists of four parts as a whole, the first part 16 by the inlet housing 10, the second part 17 by the nozzle ring 11, The three parts 18 are provided by the cover ring 15 and the turbine rotor 12 and the fourth part 19 by the diffuser 13.

As shown in FIG. 1, the inlet housing 10, the diffuser 13, the nozzle ring 11 and the cover ring 15 define a ring channel 20, which ring exhaust channel is known in the prior art. The turbine of the supercharger is completely separated from the exhaust flow channel and surrounds the exhaust flow channel radially outward in its axial region.

In the present invention, one or more channels 21 are integrated in the inlet housing 10, which connects the ring-shaped channel 20 with the periphery of the turbine.

In addition, one or more channels 22 are integrated into the diffuser 13 or the cover ring 15, which connects the ring-shaped channel 20 with the portion 19 of the exhaust flow channel provided by the diffuser 13. .

During operation, the exhaust flow channel portion 19 provided by the diffuser 13 is given a low pressure relative to the ambient pressure of the turbine of the exhaust turbocharger, so that the ambient air is channeled in the direction of the arrow shown in FIG. Through 21 and into the exhaust flow channel portion 19 of the diffuser 13 through the channel 22 and from the ring-shaped channel 20.

Inhaled, relatively cool ambient air can in particular cool the parts of the nozzle ring 11 and the cover ring 15. If the exhaust turbocharger does not have a tightness and exhaust gas is collected around the turbine, the exhaust gas is sucked and supplied to the diffuser 13 of the turbine of the exhaust turbocharger according to the present invention.

According to the present invention, a new exhaust turbocharger for an internal combustion engine is provided.

Claims (4)

An exhaust turbocharger for an internal combustion engine, comprising: a turbine for expansion of the exhaust flow outside the engine of the internal combustion engine, and a compressor for compression of the combustion air stream to be supplied to the engine of the internal combustion engine, the turbine comprising an exhaust flow channel of the turbine; An inlet housing 10, a nozzle ring 11, a turbine rotor 12 and a diffuser 13, defining the inlet housing 10, the nozzle ring 11 and the diffuser 13. In the exhaust turbocharger for an internal combustion engine, which defines one ring-shaped channel (20), One or more channels 21 are integrated in the inlet housing 10, which connects the ring-shaped channel 20 to the periphery of the turbine and in the diffuser 13 or the turbine circuit. In the cover ring 15 defining the radially outer side of the electron 12 one or more channels 22 are integrated which channel the ring-shaped channel 20 by the diffuser 13. In connection with part 19 of the exhaust flow channel, Through the inlet housing 10 and the channels 21, 22 formed in the diffuser 13 or the cover ring 15, ambient air of the turbine is sucked in and through the ring-shaped channel 20 the diffuser ( Exhaust turbocharger for an internal combustion engine, characterized in that it can be introduced into a portion 19 of the exhaust flow channel provided by 13). delete 2. Exhaust turbocharger for internal combustion engine according to claim 1, characterized in that the parts and accessories of the nozzle ring (13) can be cooled. The exhaust turbocharger for an internal combustion engine according to claim 1, wherein the cover ring (15) of the turbine rotor (12) can be cooled.

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