EXHAUST GAS TURBOCHARGER

Abstract

An exhaust gas turbocharger may include a turbine and a compressor for compression of charge air for an internal combustion engine, and a controllable actuator and a component mechanically adjustable via the actuator. The compressor may include a compressor casing through which charge air is flowable. A holding device may be integrally disposed on the compressor casing. The actuator may be coupled to the holding device, and may be secured to the compressor casing via the holding device. The holding device may have at least one integrally formed protective contour that may extend around the actuator in certain regions at a separation distance from the actuator, and may enclose the actuator in certain regions, such that the actuator is shielded in certain regions from external influences via the at least one protective contour.

Claims

1. An exhaust gas turbocharger, comprising: a turbine and a compressor for compression of charge air for an internal combustion engine; the compressor including a compressor casing through which charge air is flowable; a controllable actuator and a component, the component mechanically adjustable via the actuator; a holding device integrally disposed on the compressor casing; the actuator coupled to the holding device, and secured to the compressor casing via the holding device; and wherein the holding device has at least one integrally formed protective contour that extends around the actuator in certain regions at a separation distance from the actuator, and encloses the actuator in certain regions, such that the actuator is shielded in certain regions from external influences via the at least one protective contour.

2. The exhaust gas turbocharger according to claim 1, wherein the at least one protective contour surrounds the actuator and faces at least one of the turbine and the compressor, such that the actuator is shielded in certain regions via the at least one protective contour from the at least one of the turbine and the compressor.

3. The exhaust gas turbocharger according to claim 1, wherein: the actuator includes at least one of a plurality of electrical components and a plurality of electronic components; and the at least one protective contour surrounds the at least one of the plurality of electrical components and the plurality of electronic components of the actuator, such that the at least one of the plurality of electrical components and the plurality of electronic components are shielded from external influences.

4. The exhaust gas turbocharger according to claim 1, wherein: the actuator includes an adjustment shaft including at least one of a bearing and a position sensor; and the at least one protective contour surrounds the adjustment shaft and the at least one of the bearing and the position sensor, such that the adjustment shaft and the at least one of the bearing and the position sensor are shielded from external influences.

5. The exhaust gas turbocharger according to claim 4, wherein the at least one protective contour surrounds the adjustment shaft of the actuator at least one of (i) circumferentially around a longitudinal axis of the adjustment shaft and (ii) on an end face of the adjustment shaft.

6. The exhaust gas turbocharger according to claim 1, wherein: the actuator includes a transmission shaft; and the at least one protective contour surrounds the transmission shaft such that the transmission shaft is shielded from external influences.

7. The exhaust gas turbocharger according to claim 6, wherein the at least one protective contour surrounds the transmission shaft of the actuator in certain regions at least one of (i) circumferentially around a longitudinal axis of the transmission shaft and (ii) on an end face of the transmission shaft.

8. The exhaust gas turbocharger according to claim 1, wherein the compressor casing and the holding device are metallic.

9. The exhaust gas turbocharger according to claim 1, wherein the at least one protective contour is self-supporting and stiff.

10. The exhaust gas turbocharger according to claim 1, wherein the at least one protective contour is structured as a protective heat shield.

11. The exhaust gas turbocharger according to claim 1, wherein: the compressor casing is structured as a cast metal compressor casing; and the holding device is configured as a cast metal holding device.

12. The exhaust gas turbocharger according to claim 1, wherein the at least one protective contour is structured and arranged as a stiffener of the holding device.

13. The exhaust gas turbocharger according to claim 4, wherein a portion of the at least one protective contour at least partially circumferentially surrounds the adjustment shaft and another portion of the at least one protective contour extends in a complimentary manner to an axial end face of the adjustment shaft.

14. The exhaust gas turbocharger according to claim 6, wherein a portion of the at least one protective contour at least partially circumferentially surrounds the transmission shaft and another portion of the at least one protective contour extends in a complimentary manner to an axial end face of the transmission shaft.

15. An exhaust gas turbocharger, comprising: a turbine and a compressor for compression of charge air for an internal combustion engine, the compressor including a compressor casing through which charge air is flowable and a holding device integrally coupled to the compressor casing; a controllable actuator configured to mechanically adjust at least one component; the holding device coupled to the actuator securing the actuator to the compressor casing; and wherein the holding device has at least one integrally formed protective contour that extends around at least a portion of the actuator at a separation distance from the actuator, and encloses at least one region of the actuator, such that at least one protective contour shields the at least one region of the actuator from external influences.

16. The exhaust gas turbocharger according to claim 15, wherein: the actuator includes a housing, an adjustment shaft, and at least one transmission shaft; the at least one transmission shaft is mounted within the housing; and the adjustment shaft includes at least one position sensor.

17. The exhaust gas turbocharger according to claim 16, wherein the at least one protective contour faces the turbine and shields the at least one region of the actuator from heat radiating from a turbine casing of the turbine.

18. The exhaust gas turbocharger according to claim 16, wherein: a portion of the at least one protective contour at least partially circumferentially surrounds the transmission shaft and the at least one transmission shaft; and another portion of the at least one protective contour extends in a complimentary manner to an axial end face of the transmission shaft and an axial end face of the at least one transmission shaft.

19. The exhaust gas turbocharger according to claim 15, wherein the at least one protective contour is self-supporting and configured to stiffen the holding device.

20. An exhaust gas turbocharger, comprising: a turbine and a compressor for compression of charge air for an internal combustion engine, the turbine including a turbine casing, and the compressor including a compressor casing through which charge air is flowable and a holding device integrally coupled to the compressor casing; a controllable actuator configured to mechanically adjust at least one of a through-flow cross-section of the compressor and a through-flow cross-section of the turbine; the holding device coupled to the actuator securing the actuator to the compressor casing; and wherein the holding device has at least one integrally formed protective contour that extends around at least a portion of the actuator at a separation distance from the actuator, and encloses at least one region of the actuator, such that at least one protective contour shields the at least one region of the actuator from external influences and heat radiating from the turbine casing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] Here, in schematic form in each case:

[0014] FIG. 1 shows a partial view of an inventive exhaust gas turbocharger with a holding device with a protective contour;

[0015] FIG. 2 shows another partial view of the exhaust gas turbocharger shown in FIG. 1.

DETAILED DESCRIPTION

[0016] FIG. 1 and FIG. 2 show partial views of an inventive exhaust gas turbocharger 1. The exhaust gas turbocharger 1 has a turbine (not shown here), and a compressor 2, for an internal combustion engine. Here the compressor 2 comprises a compressor casing 3, on which a holding device 4 is integrally formed. The holding device 4 accommodates an actuator 5, and fixes the latter to the compressor casing 3. Here the actuator 5 comprises an electrical actuator 6, an adjustment shaft 7 with a position sensor, and at least one transmission shaft 8. The transmission shaft 8 is mounted in a housing of the actuator 5. The actuator 5 can be controlled such that a component of the exhaust gas turbocharger 1for example, a through-flow cross-section of the compressor 2 or the turbinecan be influenced. A protective contour 9 is integrally formed on the holding device 4, which surrounds the actuator 5 in certain regions. Here the protective contour 9 surrounds the adjustment shaft 7 and the transmission shaft 8, at a separation distance and in certain regions, both circumferentially, and also on the end faces. The compressor casing 3 is metallic, such that the holding device 4 and the protective contour 9 are metallic. In this manner, the protective contour 9 represents a protective heat shield for the actuator 5. The protective heat shield serves in particular to provide direct prevention of heat radiation from a turbine casing of the turbine, which acts on the adjustment shaft 7, the transmission shaft 8, and the immediate surroundings of the position sensor. The compressor casing 3 and the protective contour 9 of the holding device 4 can be produced in one step in a casting process. Advantageously, the actuator 5 in the inventive exhaust gas turbocharger 1 is efficiently protected from external influences, and in particular from heat, wherein the manufacturing costs and material consumption are significantly reduced compared to conventional solutions. In addition, the stiffness of the holding device 4 is advantageously increased. Furthermore, the production of the compressor casing 3 with the protective shield contour 9 is considerably simplified.