Turbocharger with bypass valve providing complete bypass of the turbine for improved catalyst light-off
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-023/00
F16K-003/08
F16K-047/08
F02B-047/08
F01N-003/20
F02B-037/18
F02B-039/00
F01D-025/24
F01D-025/30
출원번호
US-0928034
(2013-06-26)
등록번호
US-9322327
(2016-04-26)
발명자
/ 주소
Lombard, Alain
Kurtzmann, Johann
Ladonnet, Michael
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
James, John C.
인용정보
피인용 횟수 :
0인용 특허 :
21
초록▼
A turbocharger includes a turbine housing defining an exhaust gas inlet, and an exhaust gas exit. The turbine housing is integrated with a housing for a 3-way valve defining a primary through-passage that supplies exhaust gas directly to a catalyst. The exhaust gas inlet is connected to a bypass pas
A turbocharger includes a turbine housing defining an exhaust gas inlet, and an exhaust gas exit. The turbine housing is integrated with a housing for a 3-way valve defining a primary through-passage that supplies exhaust gas directly to a catalyst. The exhaust gas inlet is connected to a bypass passage of the valve that allows exhaust gases to flow to the turbine before going to the catalyst. The valve includes a rotary element whose position is controllable to regulate flow through each of the primary through-passage and the bypass passage of the valve. The rotary element is rotatable over a first range of movement and a further second range of movement, the first range including a position in which the bypass passage is substantially fully closed. Over the second range the bypass passage is fully open regardless of the degree of opening or closing of the primary through-passage.
대표청구항▼
1. A single-stage turbocharger assembly, comprising: a catalytic exhaust gas treatment device that requires heating to at least a minimum temperature in order to become effective for treating exhaust gases to reduce emissions;an exhaust line arranged for conveying exhaust gases from an engine to the
1. A single-stage turbocharger assembly, comprising: a catalytic exhaust gas treatment device that requires heating to at least a minimum temperature in order to become effective for treating exhaust gases to reduce emissions;an exhaust line arranged for conveying exhaust gases from an engine to the catalytic exhaust gas treatment device;a 3-way valve disposed in the exhaust line, the valve defining a primary through-passage that, when open, conveys exhaust gases from the exhaust line directly to the catalytic exhaust gas treatment device, the valve further defining a bypass passage that, when open, diverts a bypass flow of exhaust gases away from the primary through-passage; anda single-stage turbocharger comprising a compressor wheel mounted within a compressor housing and a turbine wheel mounted within a turbine housing and connected to the compressor wheel by a shaft, the turbine housing defining an exhaust gas net connected to a turbine volute that surrounds the turbine wheel, the turbine housing further defining an exhaust gas exit for discharging exhaust gases that have passed through the turbine wheel; wherein the exhaust gas inlet of the turbine housing is connected to the bypass passage of the valve, and the exhaust gas exit of the turbine housing is connected to the exhaust line at a point spaced downstream from the valve and upstream from the catalytic exhaust gas treatment device;wherein the valve includes a valve housing that is integral with the turbine housing, wherein the valve housing comprises a Y-member having a first leg and having second and third legs that branch off from the first leg, the first leg being connected to the exhaust line, the second leg being connected to the primary through-passage, and the third leg being connected to the bypass passage,wherein the valve includes a rotary element whose position is controllable to selectively open or dose, and to vary a degree of opening or closing of, each of the primary through-passage and the bypass passage of the valve, wherein the valve is constructed such that the rotary element is rotatable over a first range of rotary movement and over a further second range of rotary movement, the first range including a position of the rotary element in which the bypass passage is fully closed, andwherein over the second range the bypass passage is fully open regardless of changes in the degree of opening or closing of the primary through-passage,wherein the valve comprises a fixed valve seat defining at least one orifice, andwherein the rotary element of the valve comprises a rotary valve member defining at least one orifice, the rotary valve member and the fixed valve seat being disposed in the second leg of the Y-member, the rotary valve member being disposed against the fixed valve seat and being rotatable about an axis for selectively varying a degree of alignment between the respective orifices defined through each of the fixed valve seat and the rotary valve member, and wherein the rotary valve member includes a blocker extending therefrom, the blocker being movable into and out of the third leg of the Y-member with rotation of the rotary valve member in one direction or an opposite direction. 2. The single-stage turbocharger assembly of claim 1, wherein the turbine housing defines a slot through which the blocker is movable. 3. The single-stage turbocharger assembly of claim 2, wherein the slot is downstream of the point where the second leg of the Y-member branches off from the first leg of the Y-member. 4. The single-stage turbocharger assembly of claim 3, wherein the valve member comprises a generally flat disk and the blocker extends from the disk generally parallel to the axis about which the valve member is rotatable and has a generally circular-arc shape about the axis, and the slot in the turbine housing similarly has a generally circular-arc shape about the axis. 5. The single-stage turbocharger assembly of claim 1, wherein the rotary element is movable to a plurality of different positions, including at least: a phase 1 position, constituting an exhaust line-open/turbine-closed position allowing flow through the primary through-passage and preventing flow through the bypass passage into the turbine volute; anda phase 2 position, constituting an exhaust line-closed/turbine-open position preventing flow through the primary through-passage and allowing flow through the bypass passage into the turbine volute. 6. The single-stage turbocharger assembly of claim 5, wherein the rotary element is further movable to a phase 3 position, constituting an exhaust line-open/turbine-open position allowing a relatively low rate of flow through the primary through-passage and allowing flow through the bypass passage into the turbine volute. 7. The single-stage turbocharger assembly of claim 6, wherein the rotary element is further movable to a phase 4 position, constituting an exhaust line-open/turbine-open position allowing a relatively higher rate of flow through the primary through-passage than that of the phase 3 position, and allowing flow through the bypass passage into the turbine volute. 8. The single-stage turbocharger assembly of claim 5, wherein the rotary element in the phase 1 position does not completely block flow into the turbine volute but allows a trickle flow sufficient to keep the turbine wheel rotating. 9. An assembly for use in a turbocharger, the assembly comprising: a 3-way valve defining a primary through-passage and further defining a bypass passage that, when open, diverts a bypass flow of exhaust gases away from the primary through-passage; anda turbine housing for housing a turbine wheel, the turbine housing defining an exhaust gas net connected to a turbine volute configured to surround the turbine wheel, the turbine housing further defining an exhaust gas exit for discharging exhaust gases that have passed through the turbine wheel; wherein the valve includes a valve housing that is integral with the turbine housing, the valve housing comprising a Y-member having a first leg and having second and third legs that branch off from the first leg, the first leg being configured to be connected to an exhaust line through which exhaust gases are received from an engine, the second leg being connected to the primary through-passage of the valve, and the third leg being connected to the bypass passage of the valve;wherein the valve includes a rotary element whose position is controllable to selectively open or close, and to vary a degree of opening or closing of, each of the primary through-passage and the bypass passage of the valve, wherein the valve is constructed such that the rotary element is rotatable over a first range of rotary movement and over a further second range of rotary movement, the first range including a position of the rotary element in which the bypass passage is fully closed, andwherein over the second range the bypass passage is fully open regardless of changes in the degree of opening or closing of the primary through-passage, andwherein the valve comprises a fixed valve seat defining at least one orifice, wherein the rotary element comprises a rotary valve member defining at least one orifice, the rotary valve member and the fixed valve seat being disposed in the second leg of the Y-member, the rotary valve member being disposed against the fixed valve seat and being rotatable about an axis for selectively varying a degree of alignment between the respective orifices defined through each of the fixed valve seat and the rotary valve member in order to regulate flow through the primary through-passage of the valve, andwherein the rotary, valve member includes a blacker extending therefrom, the blacker being movable into and out of the third leg of the Y-member with rotation of the valve member in one direction or an opposite direction. 10. The assembly of claim 9, the rotary valve member being rotatable to a plurality of different positions, including at least; a phase 1 position, constituting an exhaust line-open/turbine-closed position in which the orifices in the fixed valve seat and the rotary valve member are fully aligned thereby allowing flow through the primary through-passage, and in which the blocker is positioned to prevent flow through the bypass passage into the turbine volute; anda phase 2 position, constituting an exhaust line-closed/turbine-open position in which the orifices in the fixed valve seat and the rotary valve member are misaligned thereby preventing flow through the primary through-passage, and in which the blocker is positioned to allow flow through the bypass passage into the turbine volute. 11. The assembly of claim 10, wherein the rotary, valve member is further rotatable to a phase 3 position, constituting an exhaust line-open/turbine-open position in which the orifices in the fixed valve seat and the rotary valve member are partially aligned thereby allowing some flow through the primary through-passage, and in which the blocker is positioned to allow flow through the bypass passage into the turbine volute. 12. The assembly of claim 11, wherein the rotary valve member is further rotatable to a phase 4 position, constituting an exhaust line-open turbine-open position in which the orifices in the valve seat and the rotary valve member are fully aligned thereby allowing flow through the primary through-passage, and in which the blocker is positioned to allow flow through the bypass passage into the turbine volute. 13. The assembly of claim 10, wherein the blocker in the phase 1 position does not completely block flow into the turbine volute but allows a trickle flow sufficient to keep the turbine wheel rotating. 14. The assembly of claim 10, wherein the turbine housing defines a slot through which the blacker is movable between the blocking and unblocking positions. 15. The assembly of claim 14, wherein the slot is downstream of the point where the second leg of the Y-member branches off from the first leg of the Y-member.
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이 특허에 인용된 특허 (21)
Hauri, Philipp; Friedl, Markus; Schlegel, Andreas; Voser, Alexandre; Lehmann, Markus, Actively controlled valve and method for operating an actively controlled valve.
Tadokoro Tomoo (Hiroshima JPX) Iwaki Masato (Hiroshima JPX) Okimoto Haruo (Hiroshima JPX), Internal combustion engine having a turbo-supercharger and a catalytic exhaust gas purifying device.
Lane Jeff K. (11313 Main Rd. Fenton MI 48430) Negri Joseph M. (10435 Rustic Ridge Fenton MI 48430) Harrod Donald J. (821 Milford Rd. Holly MI 48442), Vehicle engine with turbine bypass for exhaust treatment device warm-up.
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