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    • 3. 发明授权
    • Valve timing control for internal combustion engines
    • 内燃机气门正时控制
    • US4552112A
    • 1985-11-12
    • US634349
    • 1984-07-25
    • Akihito NagaoKouichi TakahashiShunji MasudaMisao FujimotoToshio Nishikawa
    • Akihito NagaoKouichi TakahashiShunji MasudaMisao FujimotoToshio Nishikawa
    • F01L1/14F01L1/26F01L1/34F01L13/00F02D13/02F02F1/24F02F1/42F02B31/02
    • F02D13/0219F01L1/26F01L1/34F02D13/0257F02D13/0261F02B2275/18F02F1/4214F02F2001/245Y02T10/18
    • An engine intake system includes a combustion chamber, a first intake port opening to the combustion chamber, and a second intake port opening to the combustion chamber. A shut-off valve is provided for blocking intake gas flow to the combustion chamber through the second intake port in a first engine operating region wherein engine load is relatively small, and allowing the intake gas to flow to the combustion chamber through the second intake port in a second engine operating region wherein the engine load is relatively large. A first valve actuating mechanism is provided for opening the first intake valve at a first timing, and a second valve actuating mechanism is provided for opening the second intake valve at a second timing. A valve timing changing device is provided for changing the first timing with respect to the second timing so that the first intake valve is closed later than the second intake valve in the second engine operating region, and so that the first intake valve is closed at least in a certain engine operating zone in the first engine operating region at a timing which is more advanced than the timing at which the first intake valve is closed in the second engine operating region.
    • 发动机进气系统包括燃烧室,通向燃烧室的第一进气口和通向燃烧室的第二进气口。 提供了一种截止阀,用于在第一发动机运转区域中阻止通过第二进气口进入燃烧室的进气流,其中发动机负荷相对较小,并允许进气通过第二进气口流入燃烧室 在第二发动机操作区域中,其中发动机负载相对较大。 提供第一阀致动机构,用于在第一时间打开第一进气阀,并且提供第二阀致动机构,用于在第二定时打开第二进气门。 提供了一种气门正时改变装置,用于相对于第二定时改变第一定时,使得第一进气门比第二发动机运转区域中的第二进气门稍晚闭合,并且使得第一进气门至少关闭 在比第一进气门在第二发动机运转区域中关闭的时间更先进的时刻,在第一发动机运转区域的某一发动机运转区域内。
    • 6. 发明授权
    • Intake system for rotary piston engine
    • 旋转活塞发动机进气系统
    • US4750458A
    • 1988-06-14
    • US946011
    • 1986-12-24
    • Sadashichi YoshiokaSiso KariyamaAkihito Nagao
    • Sadashichi YoshiokaSiso KariyamaAkihito Nagao
    • F02B1/04F02B53/04F02B53/06
    • F02B53/04F02B1/04F02B2053/005Y02T10/17
    • An intake system for a rotary piston engine having a plurality of engine sections, each engine section being separated by an intermediate housing. In the intake system, there are provided communicating passages for communicating the engine sections so that intake air can be transferred between working chambers formed in the engine sections in accordance with a difference in rotor phase between the engine sections. The communicating passage is located so as to be closed after an intake port is closed in each engine section and positioned so that there remains a larger amount of intake air in each of the working chambers than the minimum amount of intake air required for ensuring idling rotation speed under idling engine operating condition when the communicating passage is closed. This intake system makes it possible to obtain a rotary piston engine which can remarkably reduce pumping loss and desirably control the amount of intake air in accordance with an engine operating condition.
    • 一种用于具有多个发动机部分的旋转活塞发动机的进气系统,每个发动机部分由中间壳体分隔开。 在进气系统中,设置有用于连通发动机部分的连通通道,使得可以根据发动机部分之间的转子相位的差异,在形成于发动机部分的工作室之间传送进气。 连通通道被定位成在每个发动机部分中的进气口关闭之后被关闭,并且定位成使得每个工作室中的进气量比确保空转所需的最小进气量保持更大量 当连通通道关闭时,在空转引擎运行状态下的速度。 该进气系统使得可以获得能够显着地减少泵送损失的旋转活塞式发动机,并且根据发动机工作条件期望地控制进气量。
    • 7. 发明授权
    • Intake system for an internal combustion engine
    • 内燃机进气系统
    • US4519350A
    • 1985-05-28
    • US488618
    • 1983-04-25
    • Hiroyuki OdaYasuyuki MoritaAkihito Nagao
    • Hiroyuki OdaYasuyuki MoritaAkihito Nagao
    • F02B1/04F02B31/00F02F1/24F02F1/42F02M35/10F02M35/108
    • F02F1/4242F02B31/00F02M35/10078F02M35/10118F02M35/10262F02M35/108F02B1/04F02B2275/20F02F2001/245Y02T10/146
    • A dual induction type intake system for an internal combustion engine has a primary intake passageway for light load operation of the engine and a secondary intake passageway for heavy load operation of the engine. The downstream side open end of each intake passageway opens toward the intake port of the cylinder of the engine. The secondary intake passageway is provided with a controllable valve therein. The load on the engine is detected and the controllable valve is opened when the load on the engine is heavier than a predetermined value so that the intake gas is introduced into the combustion chamber through both the primary and secondary intake passageways, while otherwise the controllable valve is closed so that the intake gas is introduced into the combustion chamber only through the primary intake passageway. The primary intake passageway has a flat cross sectional configuration with its longer axis extending substantially in parallel to the lower end surface of the cylinder head, and at the same time the primary intake passageway is throated by narrowing its width, as measured in the horizontal direction, from upstream toward downstream in the direction of the flow of the intake gas. The downstream side open end of the primary intake passageway is offset from the center of the cylinder bore.
    • 用于内燃机的双感应式进气系统具有用于发动机的轻负载运行的主进气通道和用于发动机的重负载运行的二次进气通道。 每个进气通道的下游侧开口端朝向发动机气缸的进气口开口。 次级进气通道在其中设置有可控阀。 检测到发动机上的负载,并且当发动机上的负载比预定值重时,可控阀打开,使得进气通过主进气通道和次级进气通道被引入燃烧室,否则可控阀 被关闭,使得仅通过主进气通道将进气引入燃烧室。 主进气通道具有扁平的横截面形状,其长轴基本上平行于气缸盖的下端表面延伸,并且同时通过使水平方向测量的主要进气通道变窄而使主入口通道变窄 ,从进气的流动方向的上游向下游。 主进气通道的下游侧开口端偏离气缸孔的中心。