US 12,247,513 B2
Combustion engine for a motor vehicle, in particular for a car, and motor vehicle
Maroje Matana, Stuttgart (DE); and Nils Brinkert, Ludwigsburg (DE)
Assigned to Mercedes-Benz Group AG, Stuttgart (DE)
Appl. No. 18/255,060
Filed by Mercedes-Benz Group AG, Stuttgart (DE)
PCT Filed Nov. 11, 2021, PCT No. PCT/EP2021/081315
§ 371(c)(1), (2) Date May 30, 2023,
PCT Pub. No. WO2022/117301, PCT Pub. Date Jun. 9, 2022.
Claims priority of application No. 10 2020 007 366.2 (DE), filed on Dec. 3, 2020.
Prior Publication US 2023/0417175 A1, Dec. 28, 2023
Int. Cl. F02B 37/16 (2006.01); F01N 3/22 (2006.01); F01N 3/30 (2006.01); F01N 3/32 (2006.01); F01N 3/34 (2006.01); F02B 37/00 (2006.01)
CPC F02B 37/168 (2013.01) [F01N 3/22 (2013.01); F01N 3/30 (2013.01); F01N 3/32 (2013.01); F01N 3/34 (2013.01); F02B 37/00 (2013.01)] 5 Claims
OG exemplary drawing
 
1. A combustion engine (10) for a motor vehicle, comprising:
an exhaust gas tract (18) through which exhaust gas from a combustion chamber (16a-d) of the combustion engine (10) can flow;
an intake tract (20) through which fresh air can flow and via which fresh air flowing through the intake tract (20) is guided to, and into, the combustion chamber (16a-d);
an exhaust gas turbocharger (22), wherein the exhaust gas turbocharger (22) comprises a compressor (24) which is disposed in the intake tract (20) and which has a compressor wheel (28) for compressing the fresh air, and comprises a turbine (26) which is disposed in the exhaust gas tract (18) and which has a turbine housing (42) and a turbine wheel (30) at least partially received in the turbine housing (42) and driveable by the exhaust gas, wherein via the turbine wheel (30) the compressor wheel (28) is driveable;
a secondary air channel (38) through which secondary air can flow and which opens out into the exhaust gas tract (18), wherein via the secondary air channel (38) secondary air flowing through the secondary air channel (38) can be introduced into exhaust gas flowing through the exhaust gas tract (18), wherein the secondary air channel (38) opens out inside the turbine housing (42) into the exhaust gas tract (18), wherein the secondary air channel (38) has an outlet opening (58) at which the secondary air channel (38) ends and thus opens out into the exhaust gas tract (18), wherein the secondary air flowing through the secondary air channel (38) can be guided out from the secondary air channel (38) via the outlet opening (58) which is disposed at an exhaust gas tract-side end (E1) of the secondary air channel (38) ending at the exhaust gas tract-side end (E1) and thus opening out into the exhaust gas tract (18) and thus can be introduced into the exhaust gas tract (18) and into the exhaust gas flowing through the exhaust gas tract (18);
wherein a wall (62) extending in a circumferential direction (64) of the turbine wheel (30) is disposed inside the turbine housing (42) and is distanced inwardly in a radial direction (60) of the turbine wheel (30) from the outlet opening (58) and from wall regions (W) of the turbine housing (42) adjoining the outlet opening (58) in the circumferential direction (64) of the turbine wheel (30), thus forming a distributor channel (66), which is delimited outwardly in the radial direction (60) of the turbine wheel (30) by the wall regions (W) and inwardly in the radial direction (60) of the turbine wheel (30) by the wall (62) and extends in the circumferential direction (64) of the turbine wheel (30), into which distributor channel the outlet opening (58) opens;
wherein the wall (62), in the circumferential direction (64) of the turbine wheel (30), has successive through-flow openings (68) which are spaced apart from one another and which at one end open out into the distributor channel (66) and at the other end open out into a region (B) which is disposed on an inner side of the wall (62) in the radial direction (60) and which can be passed through by the exhaust gas flowing through the turbine housing (42);
wherein the region (B) is disposed in an outlet region (54) of the turbine (26), with the exhaust gas being able to flow off from impeller blades (56) of the turbine wheel (30) via the outlet region (54) of the turbine;
wherein the outlet region (54) is free of impeller blades (56) of the turbine wheel (30);
wherein the secondary air channel (38) opens out into the exhaust gas tract (18) at an introduction point (E) disposed downstream of at least part of the turbine wheel (30) in a flow direction of the exhaust gas flowing through the turbine housing (42);
wherein the introduction point (E), at which the exhaust gas tract-side end (E1) of the secondary air channel (38) is disposed, is disposed in the outlet region (54) of the turbine (26); and
a valve element (40) via which an amount of the secondary air flowing through the secondary air channel (38) is adjustable;
wherein the secondary air channel (38) is fluidically connected or connectable to the intake tract (20) via the valve element (40) at a branch point (A) disposed downstream of the compressor wheel (28), whereby, at the branch point (A), at least a part of the fresh air from the intake tract (20) can be branched off and can be introduced via the valve element (40) into the secondary air channel (38) and can be introduced as the secondary air by the secondary air channel (38) into the exhaust gas flowing through the exhaust gas tract (18).