Integrated pressure control actuator assembly of hydrogen supply system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-001/00
G05D-016/20
H01M-008/04
출원번호
US-0284322
(2008-09-19)
등록번호
US-8997771
(2015-04-07)
우선권정보
KR-10-2008-0060970 (2008-06-26)
발명자
/ 주소
Lee, Hyun Joon
Noh, Yong Gyu
출원인 / 주소
Hyundai Motor Company
대리인 / 주소
Mintz Levin Cohn Ferris Glovsky and Popeo, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
An integrated pressure control actuator assembly of a hydrogen supply system includes: a start/stop solenoid valve, a bypass valve, and a pressure control actuator, which are integrally formed in a single body; a normal flow path formed on the body, through which hydrogen gas is transferred from the
An integrated pressure control actuator assembly of a hydrogen supply system includes: a start/stop solenoid valve, a bypass valve, and a pressure control actuator, which are integrally formed in a single body; a normal flow path formed on the body, through which hydrogen gas is transferred from the start/stop solenoid valve to the pressure control actuator; an auxiliary flow path formed on the body, through which hydrogen gas is transferred according to opening and closing of the bypass valve connected to the normal flow path; and a control means for controlling the opening and closing of the bypass valve by detecting a failure of the pressure control actuator. The assembly enables the fuel cell vehicle to be driven in a limp home mode in the event of an emergency by adjustment of the pressure of hydrogen.
대표청구항▼
1. An integrated pressure control actuator assembly of a hydrogen supply system in a fuel cell system of a vehicle, the integrated pressure control actuator assembly comprising: a start/stop solenoid valve, a bypass valve, and a pressure control actuator, which are integrally formed in a single body
1. An integrated pressure control actuator assembly of a hydrogen supply system in a fuel cell system of a vehicle, the integrated pressure control actuator assembly comprising: a start/stop solenoid valve, a bypass valve, and a pressure control actuator, which are integrally formed in a single body;a normal flow path formed on the body, through which hydrogen gas is transferred from the start/stop solenoid valve to the pressure control actuator;an auxiliary flow path formed on the body, through which hydrogen gas is transferred according to opening and closing of the bypass valve connected to the normal flow path; anda control means for controlling the opening and closing of the bypass valve by detecting a failure of the pressure control actuator,wherein the auxiliary flow path is connected to an ejector through a flow path separated from the normal flow path, andwherein the bypass valve is a solenoid valve that maintains pressure and flow of hydrogen gas supplied through the auxiliary flow path by solenoid force and the size of an orifice formed in the bypass valve, andwherein the bypass valve is connected in the middle portion of the normal flow path in order to open and close the flow of hydrogen gas to the auxiliary flow path formed on the body,wherein the control means compares a difference between a target pressure according to a load and a stack inlet pressure supplied through the pressure control actuator with a predetermined reference value to detect a failure of the pressure control actuator and, if a failure is detected, opens the bypass valve so that fuel is supplied through the auxiliary flow path. 2. The integrated pressure control actuator assembly of claim 1, wherein the start/stop solenoid valve and the bypass valve are normally closed valves. 3. The integrated pressure control actuator assembly of claim 1, wherein the control means opens the bypass valve when a high power exceeding a predetermined maximum flow of the pressure control actuator is required even in a case where no failure is detected. 4. A method of controlling the integrated pressure control actuator assembly of claim 1, the method comprising: (a) determining a value (Error) by subtracting a stack inlet pressure (Pstat) supplied through the pressure control actuator from a target pressure (Ptarg) according to a load;(b) comparing the value (Error) with a predetermined reference value (Error-1);(c) operating the bypass valve, if the reference value (Error-1) is greater than the value (Error). 5. The method of claim 4, further comprising: (a) comparing the value (Error) with the reference value (Error-1) after the bypass valve is operated;(b) if the value (Error) is greater than the reference value (Error-1), comparing the value (Error) with another reference value (Error-2) which is greater than the reference value (Error-1); and(c) if the reference value (Error-2) is greater than or equal to the value (Error), initiating a limp home mode by restricting a current and power of the integrated pressure control actuator assembly, and if the value (Error) is greater than the reference value (Error-2), shutting down the fuel cell system. 6. An integrated pressure control actuator assembly of a hydrogen supply system in a fuel cell system of a vehicle, the integrated pressure control actuator assembly comprising: a pressure control actuator formed on a body, which actively controls pressure and flow of hydrogen gas;a bypass valve formed on the body, which becomes open in the event of a failure of the pressure control actuator so as to enable hydrogen to flow toward a fuel stack of the vehicle,a normal flow path formed on the body, through which hydrogen gas is transferred from a start/stop solenoid valve to the pressure control actuator;an auxiliary flow path formed on the body, through which hydrogen gas is transferred according to opening and closing of the bypass valve connected to the normal flow path,wherein the bypass valve is a solenoid valve that maintains pressure and flow of hydrogen gas supplied through the auxiliary flow path by solenoid force and the size of an orifice formed in the bypass valve, andwherein the bypass valve is connected in the middle portion of the normal flow path in order to open and close the flow of hydrogen gas to the auxiliary flow path formed on the body; anda control means for controlling the opening and closing of the bypass valve by detecting a failure of the pressure control actuatorwherein the control means compares a difference between a target pressure according to a load and a stack inlet pressure supplied through the pressure control actuator with a predetermined reference value to detect a failure of the pressure control actuator and, if a failure is detected, opens the bypass valve so that fuel is supplied through the auxiliary flow path. 7. The integrated pressure control actuator assembly of claim 6, wherein the control means opens the bypass valve when a high power exceeding a predetermined maximum flow of the pressure control actuator is required even in a case where no failure is detected. 8. A method of controlling the integrated pressure control actuator assembly of claim 6, the method comprising: (a) determining a value (Error) by subtracting a stack inlet pressure (Pstat) supplied through the pressure control actuator from a target pressure (Ptarg) according to a load;(b) comparing the value (Error) with a predetermined reference value (Error-1);(c) operating the bypass valve, if the reference value (Error-1) is greater than the value (Error). 9. The method of claim 8, further comprising: (a) comparing the value (Error) with the reference value (Error-1) after the bypass valve is operated;(b) if the value (Error) is greater than the reference value (Error-1), comparing the value (Error) with another reference value (Error-2) which is greater than the reference value (Error-1); and(c) if the reference value (Error-2) is greater than or equal to the value (Error), initiating a limp home mode by restricting a current and power of the integrated pressure control actuator assembly, and if the value (Error) is greater than the reference value (Error-2), shutting down the fuel cell system.
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