Turbocharger turbine stage valves controlled by a single actuator
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-037/02
F16K-003/08
F02B-037/18
출원번호
US-0533474
(2015-12-08)
등록번호
US-10151237
(2018-12-11)
국제출원번호
PCT/US2015/064407
(2015-12-08)
국제공개번호
WO2016/094360
(2016-06-16)
발명자
/ 주소
McGahey, Michael E.
Chamberlain, Brent
Ventimiglia, Mark
출원인 / 주소
BorgWarner Inc.
대리인 / 주소
Doyle, Eric L.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A turbocharger (1) including a twin scroll turbine and a valve assembly (40, 140) disposed in the exhaust gas inlet (24, 124) that is configured to control the flow exhaust gas through the turbine. The valve assembly (40, 140) includes two rotary valves (60, 160, 80, 180) actuated by a common valve
A turbocharger (1) including a twin scroll turbine and a valve assembly (40, 140) disposed in the exhaust gas inlet (24, 124) that is configured to control the flow exhaust gas through the turbine. The valve assembly (40, 140) includes two rotary valves (60, 160, 80, 180) actuated by a common valve shaft (44, 144). One of the valves (60, 180) may control exhaust gas flow to a volute or between volutes, and the other (80, 160) may control wastegate exhaust gas flow. The valve shaft (44, 144) is driven by an actuator to rotate about the valve shaft rotational axis (46, 146) such that the first valve (60, 160) and the second valve (80, 180) can each be selectively moved between a closed position and an open position, and the time sequence order of opening of the first valve (60, 160) and the second valve (80, 180) is selectable.
대표청구항▼
1. A turbocharger (1) configured to be connected to an engine, the turbocharger (1) comprising a turbine section (20, 20′) including a turbine wheel (30);a turbine housing (22) that encloses the turbine wheel (30) and defines an exhaust gas inlet (24, 124),an exhaust gas outlet (28),a first turbine
1. A turbocharger (1) configured to be connected to an engine, the turbocharger (1) comprising a turbine section (20, 20′) including a turbine wheel (30);a turbine housing (22) that encloses the turbine wheel (30) and defines an exhaust gas inlet (24, 124),an exhaust gas outlet (28),a first turbine volute (26a) extending between the exhaust gas inlet (24, 124) and the turbine wheel (30),a second turbine volute (26b) extending between the exhaust gas inlet (24, 124) and the turbine wheel (30), the first and second turbine volutes (26a, 26b) separated by a dividing wall (34),a bypass passage (56, 156) that permits communication between the exhaust gas inlet (124) and the exhaust gas outlet (28) and bypasses the turbine wheel (30),a first valve (60, 180) configured to control flow through a first port (50, 152) that permits communication between the exhaust gas inlet (124) and the second turbine volute (26b);a second valve (80, 160) configured to control flow through a second port (54, 153) that that permits communication between the exhaust gas inlet (124) and the bypass passage (156);a valve shaft (44, 144) including a rotational axis (46, 146), the valve shaft (44, 144) connected to both the first valve (60, 180) and the second valve (80, 160),wherein the valve shaft (44, 144) is driven by an actuator to rotate about the rotational axis (46, 146), such thatwhen the first valve (60) and the second valve (80) are in a closed position, all gas flowing through the exhaust gas inlet (24, 124) is directed to the first turbine volute (26a);when the first valve (60) is in an open position and the second valve (80) is in closed position, gas flowing through the exhaust gas inlet (24, 124) is directed to the first turbine volute (26a) and the second turbine volute (26b); andwhen the first valve (60) is in an open position and the second valve (80) is in an open position, gas flowing through the exhaust gas inlet (24, 124) is directed to the first turbine volute (26a), and the second turbine volute (26b), and the bypass passage (56, 156). 2. The turbocharger (1) of claim 1, wherein the first valve (60, 180), the second valve (80, 160) and the valve shaft (44, 144) form a three-position valve. 3. The turbocharger (1) of claim 1, wherein the first valve (60, 180) and the second valve (80, 160) are rotary valves. 4. The turbocharger (1) of claim 1, wherein the exhaust gas inlet (124) includes an inlet flange (125) including a first flange opening (127a) and a second flange opening (127b),a first passage (124a) that extends between the first flange opening (127a) and the first turbine volute (26a),a second passage (124b) that extends between the second flange opening (127b) and the second turbine volute (26),a valve housing (142) disposed in the exhaust gas inlet (124) between the inlet flange (125) and the first and second turbine volutes (26a, 26b), the valve housing (142) including a connecting chamber (158) including the first port (152) and a third port (151), the first port (152) connecting the connecting chamber (158) and the second passageway (124b), and the third port (151) connecting the connecting chamber (158) and the first passageway (124a), anda wastegate chamber (159) that communicates with the bypass passage (156), the wastegate chamber (159) including the second port (153) and a fourth port (154), the second port (153) connecting the wastegate chamber (159) and the first passage (124a), and the fourth port (154) connecting the wastegate chamber (159) and the second passage (124b), whereinthe first valve (180) is configured to control flow through the first port (152) and the third port (151), andthe second valve (160) is configured to control flow through the second port (153) and the fourth port (154). 5. The turbocharger (1) of claim 4, wherein the connecting chamber (158) and the wastegate chamber (159) are disposed on opposed sides of the exhaust gas inlet (124). 6. The turbocharger (1) of claim 4, wherein when the first valve (180) is in an open position, the first passage (124a) communicates with the second passage (124b) via the connecting chamber (158). 7. The turbocharger (1) of claim 1, wherein the exhaust gas inlet (24) includes an inlet flange (25) including a flange opening (27),a first passage (24a, 24b) that extends between the flange opening (27) and the first turbine volute (26a),a second passage (24a, 24c) that communicates with the second turbine volute (26b),a valve housing (42) disposed in the exhaust gas inlet (24) between the inlet flange (25) and the first and second turbine volutes (26a, 26b), the valve housing (42) including a connecting chamber (58) that communicates with the second passage (24a, 24c), the connecting chamber (58) including the first port (50) that connects the connecting chamber (58) and the flange opening (27),a wastegate chamber (59) that communicates with the bypass passage (56), the wastegate chamber (59) communicating with the connecting chamber (58) via valve openings (85, 95) of the second valve (80). 8. A turbocharger (1) configured to be connected to an engine, the turbocharger (1) comprising a turbine section (20′) includinga turbine wheel (30);a turbine housing (122) that encloses the turbine wheel (30) and defines an exhaust gas inlet (124),an exhaust gas outlet (28),a first turbine volute (26a) disposed between the exhaust gas inlet (124) and the turbine wheel (30),a second turbine volute (26b) disposed between the exhaust gas inlet (124) and the turbine wheel (30), the first and second turbine volutes (26a, 26b) separated by a dividing wall (34), the exhaust gas inlet (124) including an inlet flange (125) including a first flange opening (127a) and a second flange opening (127b),a first passage (124a) that extends between the first flange opening (127a) and the first turbine volute (26a),a second passage (124b) that extends between the second flange opening (127b) and the second turbine volute (26b),a valve housing (142) disposed in the exhaust gas inlet (124) between the inlet flange (125) and the first and second turbine volutes (26a, 26b), the valve housing (142) including a connecting chamber (158) having a first connecting port (151) that communicates with the first passage (124a) and a second connecting port (152) that communicates with the second passage (124b),a wastegate chamber (159) having a first wastegate port (153) that communicates with the first passage (124a) and a second wastegate port (154) that communicates with the second passage (124b),a first valve (180) configured to control flow through the first connecting port (151) and the second connecting port (152),a second valve (160) configured to control flow through the first wastegate port (153) and the second wastegate port (154), anda valve shaft (144) including a rotational axis (146), the valve shaft (144) connected to both the first valve (180) and the second valve (160),wherein the valve shaft (144) is driven by an actuator to rotate about the rotational axis (146) such that the first valve (180) and the second valve (160) can each be selectively moved between a closed position and an open position, andthe time sequence order of opening of the first valve (180) and the second valve (160) is selectable. 9. The turbocharger (1) of claim 8, wherein the wastegate chamber (159) includes a third wastegate port (155) that communicates with the exhaust gas outlet (28). 10. The turbocharger (1) of claim 8, wherein the connecting chamber (158) and the wastegate chamber (159) are disposed on opposed sides of the exhaust gas inlet (124). 11. The turbocharger (1) of claim 8, wherein when the first valve (180) is in an open position, the first passage (124a) communicates with the second passage (124b) via the connecting chamber (158).
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Frankenstein,Dirk; McKinley,Steve, Controlled turbocharger with integrated bypass.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.