Fuel supply controlling device for divided-chamber gas engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-043/00
F02D-041/00
F02D-041/30
F02B-019/12
F02M-021/02
F02B-019/10
F02D-019/02
F02M-043/04
출원번호
US-0431086
(2014-03-03)
등록번호
US-9816449
(2017-11-14)
우선권정보
JP-2013-060683 (2013-03-22)
국제출원번호
PCT/JP2014/001139
(2014-03-03)
국제공개번호
WO2014/147978
(2014-09-25)
발명자
/ 주소
Miyamoto, Sekai
Iwasaki, Hidekazu
Nishimura, Motohiko
Nonaka, Yosuke
출원인 / 주소
KAWASAKI JUKOGYO KABUSHIKI KAISHA
대리인 / 주소
Oliff PLC
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
A fuel supply controlling device includes: an auxiliary chamber fuel supply valve that supplies a gaseous fuel to an auxiliary chamber; a non-return valve between the auxiliary chamber fuel supply valve and the auxiliary chamber, the non-return valve blocking a reverse flow from the auxiliary chambe
A fuel supply controlling device includes: an auxiliary chamber fuel supply valve that supplies a gaseous fuel to an auxiliary chamber; a non-return valve between the auxiliary chamber fuel supply valve and the auxiliary chamber, the non-return valve blocking a reverse flow from the auxiliary chamber; a valve state detector that detects an operating state of the non-return valve; a rotation angle detector that detects a rotation angle within an engine cycle; and a controller that determines an operation command value of the auxiliary chamber fuel supply valve. The controller measures an actual operating state of the non-return valve based on signals from the valve state detector and the rotation angle detector in association with the detected rotation angle, and corrects the operation command value of the auxiliary chamber fuel supply valve such that the measured actual operating state is brought close to a target operating state.
대표청구항▼
1. A fuel supply controlling device for use in a divided-chamber gas engine, comprising: an auxiliary chamber fuel supply valve configured to supply a gaseous fuel to an auxiliary chamber;a non-return valve interposed between the auxiliary chamber fuel supply valve and the auxiliary chamber, the non
1. A fuel supply controlling device for use in a divided-chamber gas engine, comprising: an auxiliary chamber fuel supply valve configured to supply a gaseous fuel to an auxiliary chamber;a non-return valve interposed between the auxiliary chamber fuel supply valve and the auxiliary chamber, the non-return valve being configured to block a reverse flow from the auxiliary chamber in a valve-closed state, become a valve-opened state as a result of a valving element of the non-return valve being moved by pressure of the gaseous fuel when the auxiliary chamber fuel supply valve is opened, and in the valve-opened state, allow a flow of the gaseous fuel from the auxiliary chamber fuel supply valve into the auxiliary chamber;a valve state detector configured to detect an operating state of the non-return valve, the detected operating state including the valve-opened state or the valve-closed state of the non-return valve, or a lift amount of the non-return valve;a rotation angle detector configured to detect at least one of a rotation angle of a crank shaft or a rotation angle of a earn shaft; anda controller configured to determine an operation command value of the auxiliary chamber fuel supply valve, whereinthe controller measures an actual operating state of the non-return valve based on signals from the valve state detector and the rotation angle detector, the actual operating state being associated with the detected rotation angle, and corrects the operation command value of the auxiliary chamber fuel supply valve such that the actual operating state is brought close to a target operating state. 2. The fuel supply controlling device for use in a divided-chamber gas engine, according to claim 1, comprising an operating condition detector configured to detect an operating condition of the gas engine, wherein the controller sets the target operating state in accordance with a signal from the operating condition detector. 3. The fuel supply controlling device for use in a divided-chamber gas engine, according to claim 1, wherein the actual operating state of the non-return valve includes a valve-opening timing of the non-return valve, andthe controller measures an actual valve-opening timing of the non-return valve based on signals from the valve state detector and the rotation angle detector, the actual valve-opening timing being associated with the detected rotation angle, and corrects the operation command value of the auxiliary chamber fuel supply valve such that the actual valve-opening timing is brought close to a target valve-opening timing. 4. The fuel supply controlling device for use in a divided-chamber gas engine, according to claim 3, wherein in a case where the actual valve-opening timing is advanced from the target valve-opening timing beyond an allowable advance amount, the controller performs retard correction of a valve-opening timing of the auxiliary chamber fuel supply valve, andin a case where the actual valve-opening timing is retarded from the target valve-opening timing beyond an allowable retard amount, the controller performs advance correction of the valve-opening timing of the auxiliary chamber fuel supply valve. 5. The fuel supply controlling device for use in a divided-chamber gas engine, according to claim 1, wherein the actual operating state of the non-return valve includes a valve-closing timing of the non-return valve, andthe controller measures an actual valve-closing timing of the non-return valve based on signals from the valve state detector and the rotation angle detector, the actual valve-closing timing being associated with the detected rotation angle, and corrects the operation command value of the auxiliary chamber fuel supply valve such that the actual valve-closing timing is brought close to a target valve-closing timing. 6. The fuel supply controlling device for use in a divided-chamber gas engine, according to claim 1, wherein the non-return valve includes a valving element configured to move between a closing position, at which the valving element closes a fuel port open to the auxiliary chamber, and a fully open position, which is away from the closing position,the non-return valve opens when the fuel port is opened as a result of the valving element moving from the closing position toward the fully open position,the valve state detector is configured to detect a moving distance of the valving element, andthe controller measures an actual integral value of a moving distance transition regarding the moving distance of the valving element, the moving distance being associated with the detected rotation angle, based on signals from the valve state detector and the rotation angle detector, and determines whether or not the non-return valve is operating normally based on a result of comparison of the actual integral value with a target integral value of the moving distance transition.
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이 특허에 인용된 특허 (10)
Black Art ; Riggs Tom, Check valve for the pre-combustion chamber of an internal combustion engine.
Oshima Yujiro (Ichinomiya JPX), Stratified charge type combustion process for internal combustion engine and internal combustion engine utilizing same.
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