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    • 4. 发明授权
    • Engine control device
    • 发动机控制装置
    • US07136739B2
    • 2006-11-14
    • US11102680
    • 2005-04-11
    • Toshiyuki MiyataKatsunori UedaKenichi NakamoriKoji Kawakita
    • Toshiyuki MiyataKatsunori UedaKenichi NakamoriKoji Kawakita
    • G01L3/26F02D45/00
    • F02D41/1497F02D37/02F02D41/0255F02D2041/228F02D2200/1015G01M15/11
    • An engine control device for detecting misfire of an engine. Based on a detected crank angle of the engine, an angular velocity at a first crank angle at which the engine speed is close to a minimum within one combustion cycle of each cylinder is calculated as a pre-combustion angular velocity, and an angular velocity at a second crank angle at which the engine speed is close to a maximum within the same combustion cycle is calculated as a post-combustion angular velocity. An amount of rotation variation caused between the first and second crank angles is calculated based on the pre-combustion and post-combustion angular velocities of the same combustion cycle, and is compared with a predetermined misfire criterion to determine whether or not misfire has occurred. When misfire is detected, a required operation is performed, for example, a warning lamp is turned on or the fuel supply quantity is increased.
    • 一种用于检测发动机失火的发动机控制装置。 基于发动机的检测到的曲柄角,计算在每个气缸的一个燃烧循环内发动机转速接近最小值的第一曲柄角处的角速度作为预燃角速度和 在相同的燃烧循环中发动机转速接近最大值的第二曲柄角被计算为后燃烧角速度。 基于相同燃烧循环的燃烧前燃烧角和后燃烧角速度来计算在第一和第二曲柄角之间产生的旋转变化量,并与预定的失火准则进行比较,以确定是否发生失火。 当检测到失火时,执行所需的操作,例如警告灯打开或燃料供应量增加。
    • 5. 发明授权
    • Metal gasket
    • 金属垫片
    • US06422572B1
    • 2002-07-23
    • US09510744
    • 2000-02-22
    • Katsunori UedaShunichi Searashi
    • Katsunori UedaShunichi Searashi
    • F02F1100
    • F16J15/0825F16J2015/0837F16J2015/0856
    • In order to provide a metal gasket suitable for use for a flange made of synthetic resin, the metal gasket disposed between a resin flange and an aluminium flange is composed of two elastic metal plates, on each of which a half bead is formed, and which are superposed on each other to be jointed so that half beads are directed opposite to each other. Since bending in a state, where the gasket is tightened, can be suppressed to an extremely small value at a same level in the case where the flanges are tightened without gasket, it is possible to remove worsening in flatness (planarity) of the resin flange.
    • 为了提供适合用于合成树脂制的凸缘的金属垫片,设置在树脂凸缘和铝凸缘之间的金属垫片由两个弹性金属板构成,每个弹性金属板上形成有一个半珠,并且 彼此重合以使得半珠彼此相对。由于在垫圈被紧固的状态下的弯曲可以在法兰盘的情况下以相同的水平被抑制到极小的值 在没有垫圈的情况下拧紧,可以消除树脂凸缘的平坦度(平坦度)的恶化。
    • 6. 发明授权
    • Sealing structure of a joint for three members
    • 密封结构为3名成员
    • US06419239B1
    • 2002-07-16
    • US09469826
    • 1999-12-22
    • Katsunori UedaYoshiyasu TakehanaShunichi Searashi
    • Katsunori UedaYoshiyasu TakehanaShunichi Searashi
    • F16J1502
    • F16J15/14F16J15/062F16J15/0818F16J15/122
    • In order to improve a sealing structure of a joint for three members, in which the three members butt against each other and a joint portion has a T-shape, in the sealing structure of a joint for three members, in which the three members, i.e. a first, a second and a third member, butt against each other and a joint portion has a T-shape, at least one plate-shaped gasket, in which rubber layers are formed on two surfaces of a metal plate, is disposed between surfaces to be jointed where the second and the third member are butted against the first member. An opening is formed in the plate-shaped gasket at a portion, which is opposite to a T-shaped portion, and filled with paste-like liquid gasket sealing the T-shaped portion.
    • 为了提高三个构件的接头的密封结构的密封结构,其中三个构件彼此对接,并且接合部分具有T形,在三个构件的接头的密封结构中, 即第一,第二和第三构件彼此对接,并且接合部分具有T形,至少一个板状衬垫,其中在金属板的两个表面上形成橡胶层,设置在 待第二和第三构件相对于第一构件对接的要被接合的表面。 在板状垫圈中形成有与T字形部分相反的部分的开口,并且填充有密封T形部分的膏状液体密封垫。
    • 8. 发明授权
    • Internal combustion engine
    • 内燃机
    • US5762042A
    • 1998-06-09
    • US808432
    • 1997-02-28
    • Satoshi YoshikawaKatsunori UedaTakashi KawabeHideyuki OdaKenji GotoNobuaki Murakami
    • Satoshi YoshikawaKatsunori UedaTakashi KawabeHideyuki OdaKenji GotoNobuaki Murakami
    • F02B23/10F02B29/00F02B31/00F02B31/02F02B75/12F02F1/24F02F1/42F02F3/26
    • F02F1/242F02B23/104F02B31/00F02F1/4214F02F3/26F02B2023/107F02B2031/006F02B2075/125F02B2275/18F02B2275/48F02F2001/241F02F2001/245Y02T10/125Y02T10/146
    • An internal combustion engine includes a cylinder head having a pair of upright intake ports formed therein on opposite sides of a plug hole extending along a cylinder axis, and each intake port has an upstream-side upright part extending from the top face of the cylinder head along the cylinder axis and a downstream-side slanting part having an intake opening communicating with a combustion chamber on one side of an imaginary plane containing the cylinder axis. An upper opening of each intake port opening in the top face of the cylinder head has a peripheral edge extending along the peripheral edge of an upper opening of the plug hole, and the peripheral edge of the upstream-side upright part extends along the outer surface of a lash adjuster. When viewed in vertical section along the imaginary plane, the upstream-side upright part extends obliquely downward from the top face of the cylinder head in a direction away from the lash adjuster, and the downstream-side slanting part approaches the plug hole with decrease in distance to the combustion chamber and then extends parallel to the plug hole. The downstream-side slanting part, when viewed in vertical section perpendicular to the imaginary plane, extends away from the cylinder axis with decrease in distance to the intake opening. With the intake ports having the above overall shape and sectional shape, each intake port can be given a required cross-sectional area without increasing the dimensions of the engine, and makes it possible to form a proper intake air flow inside the combustion chamber.
    • 一种内燃机,具有:气缸盖,其具有沿着气缸轴线延伸的塞孔的相对侧形成的一对直立进气口,每个进气口具有从气缸盖的顶面延伸的上游侧直立部 沿着气缸轴线和具有与包含气缸轴线的假想平面的一侧上的燃烧室连通的进气口的下游侧倾斜部件。 在气缸盖的上表面中的每个进气口开口的上开口具有沿着插塞孔的上开口的周缘延伸的周边边缘,并且上游侧直立部的周缘沿着外表面延伸 的间隙调节器。 当沿着假想平面的垂直截面观察时,上游侧立柱部分从气缸盖的上表面向远离间隙调节器的方向倾斜向下延伸,并且下游侧倾斜部分随着减小 到燃烧室的距离,然后平行于插塞孔延伸。 当垂直于假想平面的垂直截面观察时,下游侧倾斜部分随着与进气口的距离减小而远离气缸轴线延伸。 在进气口具有上述整体形状和截面形状的情况下,每个进气口可以被赋予所需的横截面面积,而不增加发动机的尺寸,并且可以在燃烧室内形成适当的进气流。
    • 10. 发明授权
    • Engine controlling apparatus
    • 发动机控制装置
    • US08571780B2
    • 2013-10-29
    • US13070685
    • 2011-03-24
    • Toshiyuki MiyataKatsunori UedaHitoshi TodaKoji Shibata
    • Toshiyuki MiyataKatsunori UedaHitoshi TodaKoji Shibata
    • G06F19/00
    • F02D41/1497F02D11/105F02D2200/1006F02D2200/101F02D2200/602F02D2250/18F02P5/1508Y02T10/42Y02T10/46
    • An engine controlling apparatus includes an engine speed detection unit that detects an engine speed, and an acceleration operation amount detection unit that detects an acceleration operation amount inputted to an acceleration pedal.The apparatus includes a first calculation unit that calculates an acceleration demand torque based on the engine speed and the acceleration operation amount, a second calculation unit that calculates an external demand torque demanded from an external controlling system, and a third calculation unit that calculates a first target torque and a second target torque based on the acceleration demand torque and the external demand torque.The apparatus includes a fourth calculation unit that calculates a maximum torque which can be generated by the engine at an actual charging efficiency, and a control unit that controls an ignition timing of the engine based on the actual torque and the first target torque.
    • 发动机控制装置包括检测发动机转速的发动机速度检测单元和检测输入到加速踏板的加速操作量的加速运转量检测单元。 该装置包括:第一计算单元,其基于发动机转速和加速操作量计算加速度需求扭矩;计算从外部控制系统要求的外部需求转矩的第二计算单元;以及第三计算单元, 目标转矩和基于加速需求扭矩和外部需求转矩的第二目标转矩。 该装置包括:第四计算单元,其以实际充电效率计算发动机可以产生的最大转矩;以及控制单元,其基于实际转矩和第一目标转矩来控制发动机的点火正时。