Method and device for adjusting a charging pressure in an internal combustion engine by means of a pressure-wave supercharger
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/42
F02D-041/18
F02D-041/00
F02B-039/10
F02D-023/00
F04F-013/00
출원번호
US-0518359
(2015-10-13)
등록번호
US-10227913
(2019-03-12)
우선권정보
EP-14188661 (2014-10-13)
국제출원번호
PCT/EP2015/073644
(2015-10-13)
국제공개번호
WO2016/059034
(2016-04-21)
발명자
/ 주소
Skopil, Mario
출원인 / 주소
Antrova AG
대리인 / 주소
Harness, Dickey & Pierce, P.L.C.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
The invention relates to a method and to a device for adjusting a charging pressure in an internal combustion engine by means of a pressure-wave supercharger, wherein the pressure-wave supercharger has a cell rotor, which passes through at least two compression cycles per revolution, wherein a high-
The invention relates to a method and to a device for adjusting a charging pressure in an internal combustion engine by means of a pressure-wave supercharger, wherein the pressure-wave supercharger has a cell rotor, which passes through at least two compression cycles per revolution, wherein a high-pressure exhaust-gas flow is divided into a first and a second high-pressure exhaust-gas partial flow, wherein a fresh-air flow and the first high-pressure exhaust-gas partial flow are fed to the cell rotor and a first compressed fresh-air flow and a low-pressure exhaust-gas flow are led away from the cell rotor in the first compression cycle, and wherein the fresh-air flow and the second high-pressure exhaust-gas partial flow are fed to the cell rotor and a second compressed fresh-air flow and the low-pressure exhaust-gas flow are led away from the cell rotor in the second compression cycle, wherein the first and the second compressed fresh-air flow are combined into a charge air, and wherein the charge air is fed to the internal combustion engine, wherein the second high-pressure exhaust-gas partial flow is controlled in order to control the charging pressure of the charge air in such a way, and wherein the second compressed fresh-air flow is led through a check valve before the first and the second compressed fresh-air flow are combined into the charge air.
대표청구항▼
1. A method for adjusting a charging pressure in an internal combustion engine having a pressure-wave supercharger, the pressure-wave supercharger has a cell rotor that passes through at least two compression cycles per revolution,a high-pressure exhaust-gas flow is divided into a first and a second
1. A method for adjusting a charging pressure in an internal combustion engine having a pressure-wave supercharger, the pressure-wave supercharger has a cell rotor that passes through at least two compression cycles per revolution,a high-pressure exhaust-gas flow is divided into a first and a second high-pressure exhaust-gas partial flow,a fresh-air flow and the first high-pressure exhaust-gas partial flow are fed to the cell rotor and a first compressed fresh-air flow and a low-pressure exhaust-gas flow are led away from the cell rotor in the first compression cycle, andthe fresh-air flow and the second high-pressure exhaust-gas partial flow are fed to the cell rotor and a second compressed fresh-air flow and the low-pressure exhaust-gas flow are led away from the cell rotor in the second compression cycle,the first and the second compressed fresh-air flow are combined into a charging air, and the charging air is fed to the internal combustion engine,the method comprising controlling the second high-pressure exhaust-gas partial flow to control the charging pressure of the charging air, the second compressed fresh-air flow is led through a check valve before the first and the second compressed fresh-air flow is combined into the charging air. 2. The method as claimed in claim 1, wherein the pressure-wave supercharger is operated in a first operating state, in which the first high-pressure exhaust-gas partial flow is fed to the cell rotor during the first compression cycle and no second high-pressure exhaust-gas partial flow is fed to the cell rotor during the second compression cycle, the pressure-wave supercharger is operated in a second operating state, in which both the first high-pressure exhaust-gas partial flow is fed to the cell rotor during the first compression cycle and the second high-pressure exhaust-gas partial flow is fed to the cell rotor during the second compression cycle, anda switch is made between the first and the second operating state, depending on a measured operating state value and a predetermined setpoint switchover value;wherein the operating state value is the value of the supplied quantity of charging air or of the charging air pressure or of the engine speed, andwherein the setpoint switchover value is a predetermined reference value corresponding to the operating state value. 3. The method as claimed in claim 2, wherein the charging air fed to the internal combustion engine can have a maximum charging air pressure PMax, and in that the setpoint switchover value is in a range of from 40% to 50% of the maximum charging air pressure PMax. 4. The method as claimed in claim 2, wherein the first high-pressure exhaust-gas partial flow is divided into a first gas-pocket flow and a first high-pressure exhaust-gas partial flow, and the first gas-pocket flow is controlled in accordance with the required pressure of the charging air. 5. The method as claimed in claim 2, wherein the second high-pressure exhaust-gas partial flow is divided into a second gas-pocket flow and a second high-pressure exhaust-gas partial flow, and the second gas-pocket flow and/or the second high-pressure exhaust-gas partial flow is controlled in accordance with the required pressure of the charging air. 6. The method as claimed in claim 2, wherein the speed of the cell rotor is reduced when the pressure-wave supercharger is operated in the second operating state, and the speed of the cell rotor is increased when the pressure-wave supercharger is operated in the first operating state. 7. The method as claimed in claim 1, wherein the pressure-wave supercharger is operated in a first operating state, in which the first high-pressure exhaust-gas partial flow is fed to the cell rotor during the first compression cycle, and the second high-pressure exhaust-gas partial flow is reduced by a valve during the second compression cycle and, as a result, a reduced, second high-pressure exhaust-gas partial flow is supplied, the pressure-wave supercharger is operated in a second operating state, in which both the first high-pressure exhaust-gas partial flow is fed to the cell rotor during the first compression cycle and the unreduced, second high-pressure exhaust-gas partial flow is fed to the cell rotor during the second compression cycle, anda switch is made between the first and the second operating state, depending on a measured operating state value and a predetermined setpoint switchover value,wherein the operating state value is the value of the supplied quantity of charging air, the charging air pressure, or the engine speed, andwherein the setpoint switchover value is a value in a range of from 40% to 50% of a maximum charging air quantity LMax that can be fed to the internal combustion engine. 8. The method as claimed in claim 1, wherein the first high-pressure exhaust-gas partial flow is fed to the cell rotor in an uncontrolled manner during the first compression cycle, and the second high-pressure exhaust-gas partial flow is fed to the cell rotor in a manner controlled by a cell rotor valve during the second compression cycle. 9. A device for adjusting a charging pressure in an internal combustion engine having a pressure-wave supercharger, the pressure-wave supercharger has a cell rotor, an intake-air duct, a charging-air duct, a high-pressure exhaust-gas duct and an outlet duct,the intake-air duct, the high-pressure exhaust-gas duct and the charging-air duct are arranged such that a fresh-air flow can be fed to the cell rotor via the intake-air duct and a high-pressure exhaust-gas flow can be fed to the cell rotor via the high-pressure exhaust-gas duct, and a compressed fresh air can be discharged from the cell rotor via the charging-air duct,the pressure-wave supercharger performs at least one first and one second compression cycle during one revolution as the intake-air duct branches into a first and a second intake-air subduct, as the high-pressure exhaust-gas duct branches into a first and a second high-pressure exhaust-gas subduct, and as the charging-air duct is supplied by a first and a second charging-air subduct,the device comprises a controllable valve arranged in the second high-pressure exhaust-gas subduct to control the quantity of the high-pressure exhaust-gas flow flowing through the second high-pressure exhaust-gas subduct,a check valve is arranged in the second air-guiding duct, andan open-loop and closed-loop control device is provided, which actuates the controllable valve in accordance with a load input to control the pressure of the charging air fed to the internal combustion engine. 10. The device as claimed in claim 9 wherein the controllable valve is a rotary slide valve. 11. The device as claimed in claim 10, wherein the rotary slide valve comprises two partial valves, a first partial valve, the downstream fluid-guiding duct of which opens into a gas pocket, and a second partial valve, the downstream fluid-guiding duct of which opens into a main duct of the cell rotor.
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이 특허에 인용된 특허 (4)
Wenger,Urs; Martin,Roger, Method for the control of an internal combustion engine combined with a gas-dynamic pressure wave machine.
Altmann Karel (Nussbaumen CHX) Mayer Andreas (Niederrohrdorf CHX) Perevuznik Josef (Fislisbach CHX), Pressure wave supercharger for an internal combustion engine with a device for controlling the high pressure exhaust gas.
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