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    • 3. 发明专利
    • INRETIA SUPERCHARGE CONTROL DEVICE
    • JPS60104719A
    • 1985-06-10
    • JP21385183
    • 1983-11-14
    • HITACHI LTD
    • HOKARI TOMIOYAMADA KOUICHIROU
    • F02B27/02F02B33/44F02B37/00
    • PURPOSE:To improve combustion efficiency of an engine over a full operation region by providing a valve for communicating among a plurality of resonant vessels, and opening the same valve in a high speed operation region to communicate among the respective resonant vessels and thereby moderate inertia supercharge and closing the same valve in middle and low speed operation regions to stop the aforesaid moderation of the supercharge. CONSTITUTION:Exhaust gas from an engine 1 rotates a turbine runner 3 and a compressor runner 4 of a supercharger 2 to compress intake air 5, and the compressed air is sent into the engine 1 through a pressure balancing vessel 6, resonant tubes 7, 8, and resonant vessels 9, 10. A valve 11 is provided between respective resonant vessels 9, 10, which is capable of communicating them with each other. The valve 11 is opened and closed by energyzing a coil 14 by a driving circuit 13 based on a control signal from a microcomputer 12. A number-of- engine revolution signal N and acceleration degree-of-opening signal S detected by respective sensors 15, 16 are respectively inputted into the microcomputer 12 via a pulse shaper 17 and an AD converter 18. The valve 11 is opened only when the engine 1 is in a high speed operation region.
    • 4. 发明专利
    • Variable valve system of compression ignition engine
    • 压力点火发动机可变阀系统
    • JP2006307656A
    • 2006-11-09
    • JP2005127788
    • 2005-04-26
    • Hitachi Ltd株式会社日立製作所
    • NAKAMURA MAKOTOHARA SEINOSUKESUGA SEIJIWATANABE MASAHIKOHOKARI TOMIO
    • F02D13/02F01L1/34F01L13/00F02D41/06F02D41/22F02D45/00F02N11/08
    • F01L1/3442F01L13/0026F01L2001/0537F01L2001/34483F01L2013/0073F01L2800/00F01L2820/032
    • PROBLEM TO BE SOLVED: To improve startability, by always enhancing the effective compression ratio, in a variable valve system having a means for separating the closing timing of an intake valve from the bottom dead center.
      SOLUTION: This variable valve system has an ignition timing advance hydraulic chamber 30 on one side of a vane body 22 connected to an intake camshaft and an ignition timing delay hydraulic chamber 32 on the other side, and is provided with a control means for controlling hydraulic pressure of an ignition timing advance hydraulic passage 32 and an ignition timing delay hydraulic passage 33 communicating with the respective hydraulic chambers 30 and 31. Thus, an energizing spring 25 for rotating the vane body 22 (changing a phase) and rotating the vane body 22 in the arrow direction, is arranged in a hydraulic housing 23 connected to a crankshaft timing pulley 132 via a timing chain 131. The closing timing of an intake valve is approached to the bottom dead center by being put in the most ignition timing advance state to rotation (a crank angle) of the crankshaft timing pulley 131 in failure or starting of the control means by the action of the energizing spring 25. The variable valve system of a compression ignition engine capable of keeping the effective compression ratio at the highest level possessed by the engine and capable of remarkably enhancing reliability of starting, can be provided.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:通过总是提高有效的压缩比,在具有将进气门的关闭正时与下死点分离的装置的可变阀系统中提高启动性。 解决方案:该可变阀系统在与进气凸轮轴和另一侧的点火正时延迟液压室32连接的叶片体22的一侧上具有点火正时提前液压室30,并且设有控制装置 用于控制点火正时提前液压通道32的液压和与各液压室30和31连通的点火正时延迟液压通道33.因此,用于旋转叶片体22(改变相位)并旋转 叶片主体22沿箭头方向布置在经由正时链条131连接到曲轴正时皮带轮132的液压壳体23中。进气门的关闭正时通过置于最点火时间接近下死点 通过激励弹簧25的作用使曲轴正时皮带轮131的前进状态转动(曲轴转角),失效或启动控制装置。可变阀值 可以提供能够将有效压缩比保持在发动机所具有的最高水平并且能够显着增强启动可靠性的压燃式发动机的e系统。 版权所有(C)2007,JPO&INPIT
    • 7. 发明专利
    • EXHAUST TURBOSUPERCHAEGER
    • JPS6388318A
    • 1988-04-19
    • JP23116386
    • 1986-10-01
    • HITACHI LTDHITACHI AUTOMOTIVE ENG
    • TAKEDA YOSHIHIROHOKARI TOMIOKOIKE TOSHIFUMI
    • F16C33/10F02B39/14F16C33/00
    • PURPOSE:To feed lubricating oil sufficiently all over a bearing, by forming through holes which reach inner/outer cylinders, in the bearing of an exhaust turbosupercharger, and forming an oil groove which extends on the inner circumference of a center housing, which confronts said through holes, for feeding lubricating oil from a groovy hole formed in the center housing, through said oil groove and through holes. CONSTITUTION:Lubricating oil which flows from an intake 7 for lubricating oil, is fed to an oil groove 12 through a groovy hole 14 formed in a center housing 1. After that, on the one hand, lubricating oil is fed between the inner circumferential surface of the center housing 1 and the outer circumferential surfaces of bearings 5, 6 and on the other hand, lubricating oil is fed between the inner circumferential surface of the bearings 5, 6 and the outer circumferential surface of a shaft 2, through a ring-shaped-groove 11 of the bearing 5 and through holes 10. In this way, even oil films can be formed all over the sliding faces of the bearings 5, 6. Consequently, stable floating rotation of the shaft 2 can be performed.
    • 10. 发明专利
    • 2-stroke engine
    • 2冲程发动机
    • JP2006307658A
    • 2006-11-09
    • JP2005127794
    • 2005-04-26
    • Hitachi Ltd株式会社日立製作所
    • HARA SEINOSUKEHOKARI TOMIOSUGA SEIJINAKAMURA MAKOTOWATANABE MASAHIKO
    • F02D43/00F01L1/34F01L9/02F01L9/04F01L13/00F02D13/02F02D41/02F02D41/04F02D41/18F02D45/00
    • Y02T10/47
    • PROBLEM TO BE SOLVED: To improve combustion, emission and motive power performance over a wide operation range, in a 2-stroke engine having a means for electrically controlling the opening-closing timing and a maximum lift of an intake valve and an exhaust valve.
      SOLUTION: This 2-stroke engine has actuators 7 and 8 capable of electrically controlling one or both of a lift and the opening-closing timing of one or both of the intake valve 4 and the exhaust valve 5 of one time in one rotation of the engine. A signal of an air flow rate sensor 9 and a rotation sensor 11 is inputted to a control unit 13. A fuel quantity of a fuel injection injector 6 is cooperatively controlled with operation of the intake valve 4 and the exhaust valve 5 by confirming the operation of the intake valve 4 and the exhaust valve 5 from an air flow rate and a rotating speed.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了在宽的操作范围内改善燃烧,排放和动力性能,在具有用于电控制打开 - 关闭正时和进气阀的最大升程的二冲程发动机中,以及 排气阀。 解决方案:该二冲程发动机具有致动器7和8,其能够一次性地一次性地控制进气门4和排气门5中的一个或两个的升程和打开正时的一个或两个 发动机旋转。 空气流量传感器9和旋转传感器11的信号被输入到控制单元13.燃料喷射喷射器6的燃料量通过进气阀4和排气阀5的操作来协调地控制, 的进气阀4和排气阀5的空气流量和转速。 版权所有(C)2007,JPO&INPIT