序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 使用发动机不发火的气门机构故障指示系统和方法 | CN201310365918.1 | 2013-08-21 | CN103628993A | 2014-03-12 | B.E.贝茨; H.W.米勒 |
本发明涉及使用发动机不发火的气门机构故障指示系统和方法。用于车辆的系统包括不发火指示模块、气门控制模块和故障指示模块。不发火指示模块选择性地指示出在发动机的汽缸内发生不发火。气门控制模块控制发动机的汽缸的气门的提升,并且响应于不发火指示模块指示出该汽缸内发生不发火,将气门的提升从低升程状态和高升程状态中的一个转变成低升程状态和高升程状态中的另一个。故障指示模块基于不发火指示模块是否指示出在转变到所述低升程状态和所述高升程状态中的另一个之后汽缸内发生不发火而选择性地指示出故障存在于汽缸的可变气门升程(VVL)机构中。 | ||||||
2 | 使用发动机不发火的气门机构故障指示系统和方法 | CN201310365918.1 | 2013-08-21 | CN103628993B | 2017-08-25 | B.E.贝茨; H.W.米勒 |
本发明涉及使用发动机不发火的气门机构故障指示系统和方法。用于车辆的系统包括不发火指示模块、气门控制模块和故障指示模块。不发火指示模块选择性地指示出在发动机的汽缸内发生不发火。气门控制模块控制发动机的汽缸的气门的提升,并且响应于不发火指示模块指示出该汽缸内发生不发火,将气门的提升从低升程状态和高升程状态中的一个转变成低升程状态和高升程状态中的另一个。故障指示模块基于不发火指示模块是否指示出在转变到所述低升程状态和所述高升程状态中的另一个之后汽缸内发生不发火而选择性地指示出故障存在于汽缸的可变气门升程(VVL)机构中。 | ||||||
3 | Cut-off-valve gear | US391040D | US391040A | 1888-10-16 | ||
4 | Valvetrain fault indication systems and methods using engine misfire | US13590369 | 2012-08-21 | US09133775B2 | 2015-09-15 | Brian E. Betz; Hugh William Miller |
A system for a vehicle includes a misfire indication module, a valve control module, and a fault indication module. The misfire indication module selectively indicates that misfire occurred within a cylinder of an engine. The valve control module controls lifting of a valve of a cylinder of the engine and, in response to the misfire indication module indicating that misfire occurred within the cylinder, transitions lifting of the valve from one of a low lift state and a high lift state to the other one of the low lift state and the high lift state. The fault indication module selectively indicates that a fault is present in a variable valve lift (VVL) mechanism of the cylinder based on whether the misfire indication module indicates that misfire occurred within the cylinder after the transition to the other one of the low lift state and the high lift state. | ||||||
5 | Pulse-width-regulating valve | US14420694 | 2013-08-21 | US20150219227A1 | 2015-08-06 | Harald Nes Risla |
A pulse-width-regulating valve is for the regulation of a fluid flow or a fluid pressure. The pulse-width-regulating valve comprises a cut-off valve connected in series with an inflow valve, at least one of the cut-off valve and the inflow valve being provided with an axially displaceable or rotatable valve element which has an opening position or a closing position at a distance from a starting position of the valve element. A method of operating a pulse-width-regulating valve comprises: regulating a valve gear device by a valve synchronizer, in accordance with at least two displacement curves; and by one or more valve actuators, displacing or rotating corresponding valve elements arranged in the pulse-width-regulating valve. | ||||||
6 | VALVETRAIN FAULT INDICATION SYSTEMS AND METHODS USING ENGINE MISFIRE | US13590369 | 2012-08-21 | US20140053809A1 | 2014-02-27 | Brian E. Betz; Hugh William Miller |
A system for a vehicle includes a misfire indication module, a valve control module, and a fault indication module. The misfire indication module selectively indicates that misfire occurred within a cylinder of an engine. The valve control module controls lifting of a valve of a cylinder of the engine and, in response to the misfire indication module indicating that misfire occurred within the cylinder, transitions lifting of the valve from one of a low lift state and a high lift state to the other one of the low lift state and the high lift state. The fault indication module selectively indicates that a fault is present in a variable valve lift (VVL) mechanism of the cylinder based on whether the misfire indication module indicates that misfire occurred within the cylinder after the transition to the other one of the low lift state and the high lift state. | ||||||
7 | Exhaust valve for a gas expansion system | US728544 | 1991-07-11 | US5211372A | 1993-05-18 | Joseph L. Smith, Jr. |
A exhaust valve for use in a cryogenic gas expansion system which uses a non-metallic valve seat and a metallic valve disk assembly which is moved into and out of contact with the valve seat to close and open the valve, respectively. The valve disk assembly has a valve disk element, a number of spring elements, and a ring element, all of which are integrally formed from a single metallic sheet. The valve disk element moves with a non-linear, snap action movement which movement is controlled by a cryogenic solenoid. When the disk element is moved out of seated contact with the valve seat and reaches a position just past the point at which the snap action has commenced, the movement is limited by a stop element so that the force, and hence the solenoid current, required to hold the valve open at that position is minimized. | ||||||
8 | Single-acting,gas operated pump | EP86102110 | 1986-02-19 | EP0192246A3 | 1988-09-28 | Credle, William S., Jr. |
A single-acting, gas operated, pump method and apparatus including a pump body having a main chamber divided by a reciprocating piston assembly into a gas driving chamber and a liquid pumping chamber, a spring for biasing the piston assembly into one of its two end positions, a reciprocating control valve controlling the flow of driving gas to and from the gas driving chamber, a snap-acting spring mechanically coupling the control valve to the reciprocating movement of the piston assembly, and a counteracting spring for biasing the control valve toward one of its two positions. |
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9 | Pulse-width-regulating valve | US14420694 | 2013-08-21 | US09909674B2 | 2018-03-06 | Harald Nes Risla |
A pulse-width-regulating valve is for the regulation of a fluid flow or a fluid pressure. The pulse-width-regulating valve comprises a cut-off valve connected in series with an inflow valve, at least one of the cut-off valve and the inflow valve being provided with an axially displaceable or rotatable valve element which has an opening position or a closing position at a distance from a starting position of the valve element. A method of operating a pulse-width-regulating valve comprises: regulating a valve gear device by a valve synchronizer, in accordance with at least two displacement curves; and by one or more valve actuators, displacing or rotating corresponding valve elements arranged in the pulse-width-regulating valve. | ||||||
10 | Single-acting, gas-operated pump | US74805 | 1987-07-17 | US4828465A | 1989-05-09 | William S. Credle, Jr. |
A single-acting, gas-operated, pump method and apparatus including a pump body having a main chamber divided by a reciprocating piston assembly into a gas driving chamber and a liquid pumping chamber, a spring for biasing the piston assembly into one of its two end positions, a reciprocating control valve controlling the flow of driving gas to and from the gas driving chamber, a snap-acting spring mechanically coupling the control valve to the reciprocating movement of the piston assembly, and a counteracting spring for biasing the control valve toward one of its two positions. | ||||||
11 | Single-acting, gas operated pump | US811863 | 1985-12-20 | US4681518A | 1987-07-21 | William S. Credle, Jr. |
A single-acting, gas operated, pump method and apparatus including a pump body having a main chamber divided by a reciprocating piston assembly into a gas driving chamber and a liquid pumping chamber, a spring for biasing the piston assembly into one of its two end positions, a reciprocating control valve controlling the flow of driving gas to and from the gas driving chamber, a snap-acting spring mechanically coupling the control valve to the reciprocating movement of the piston assembly, and a counteracting spring for biasing the control valve toward one of its two positions. | ||||||
12 | Air engine | US74675758 | 1958-07-07 | US2982261A | 1961-05-02 | MCCLINTOCK CLEO L |
13 | パルス幅調整弁およびパルス幅調整弁の操作方法 | JP2015528428 | 2013-08-21 | JP2015537165A | 2015-12-24 | ネス リスロ,ハロルド |
流体の流れおよび/または流体の圧力を調整するパルス幅調整弁(1)は、流入弁(1b)と直列に接続された遮断弁(1a)を有し、少なくとも前記遮断弁(1a)および前記流入弁(1b)の一方に、開始位置から離れた開位置および/または閉位置を備え、軸方向に移動可能または回転可能な弁要素(10a,10b)が設けられるものによって定められる。少なくとも2つの変位曲線(9a,9b)に基づく弁同期装置(23)による弁ギア装置(2)の調整は、1つまたは1つ以上の弁アクチュエータ(20,20’)によって、前記パルス幅調整弁(1)に配設された対応する前記弁要素(10a,10b)を変位または回転させる工程を含むパルス幅調整弁(1)の操作方法によって定められる。【選択図】図8 | ||||||
14 | Single acting type gas operation type pump | JP3310586 | 1986-02-19 | JPS61232198A | 1986-10-16 | UIRIAMU ESU KURIIDORU JIYUNIA |
15 | 弁および流体の流れおよび/または流体の圧力の調整弁の操作方法 | JP2015528428 | 2013-08-21 | JP6244360B2 | 2017-12-06 | リスロ,ハロルド ネス |
16 | Exhaust valve | JP17450892 | 1992-07-01 | JP3249186B2 | 2002-01-21 | ジョゼフ・エル・スミス,ジュニアー |
17 | Single-acting gas-operated pump | JP3310586 | 1986-02-19 | JPH07101032B2 | 1995-11-01 | ウイリアム・エス・クリードル・ジユニア |
18 | Exhaust valve | JP17450892 | 1992-07-01 | JPH05187571A | 1993-07-27 | JIYOZEFU ERU SUMISU JIYUNIAA |
PURPOSE: To improve reliability of operation of an exhaust valve which is used for low-temperature gas expansion equipment, and effectively operated at a very low expansion exhaust temperature, by supporting the valve disk with a non-linear spring element, and making the composition actuated by a double-acting low-temperature solenoid. CONSTITUTION: The exhaust valve 17 effectively used for the volume expansion part 12 of equipment using a low-temperature liquid He is composed of a spring element 19 and the outside ring 20, and a valve disk element formed as a body. The volume expansion part 12 is closed in a head assembly 13 having a gas exhaust port 14 connected to a gas exhaust output line 15. Then, a pistons 10 on the volume expansion part 12 is raised so that the gas in the volume expansion part 12 expands and the pressure decreases to a level a little lower than exhaust pressure, and when it reaches the upper limit, the solenoid 28 is excited, and the exhaust valve 17 becomes open. COPYRIGHT: (C)1993,JPO | ||||||
19 | PULSE-WIDTH-REGULATING VALVE | EP13830279 | 2013-08-21 | EP2888513A4 | 2016-04-27 | RISLÅ HARALD NES |
A pulse-width-regulating valve is for the regulation of a fluid flow or a fluid pressure. The pulse-width-regulating valve comprises a cut-off valve connected in series with an inflow valve, at least one of the cut-off valve and the inflow valve being provided with an axially displaceable or rotatable valve element which has an opening position or a closing position at a distance from a starting position of the valve element. A method of operating a pulse-width-regulating valve comprises: regulating a valve gear device by a valve synchronizer, in accordance with at least two displacement curves; and by one or more valve actuators, displacing or rotating corresponding valve elements arranged in the pulse-width-regulating valve. | ||||||
20 | Single-acting,gas operated pump | EP86102110.3 | 1986-02-19 | EP0192246B1 | 1991-06-19 | Credle, William S., Jr. |