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    • 3. 发明授权
    • Air-Fuel ratio control system for internal combustion engine
    • 内燃机空燃比控制系统
    • US4805578A
    • 1989-02-21
    • US111289
    • 1987-10-22
    • Toshiaki KikuchiMasumi KinugawaKenichirou Kamai
    • Toshiaki KikuchiMasumi KinugawaKenichirou Kamai
    • F02B75/02F02D41/00F02D41/08F02D41/14F02D41/16
    • F02D41/1483F02D41/08F02B2075/027
    • An air-fuel ratio control system realized with a computer for an internal combustion engine is disclosed, wherein an idle discriminator unit discriminates whether the internal combustion engine is idle or not, and when it is idle, an idle air-fuel ratio compensation amount determining unit decides an air-fuel ratio compensation amount in accordance with an output of an air-fuel ratio detector. When the engine is not idle, on the other hand, a non-idle air-fuel ratio compensation amount determining unit decides an air-fuel ratio compensation amount. The idle air-fuel ratio compensation amount determining unit includes a rich-lean discriminator unit for discriminating whether the air-fuel ratio is on lean or rich side in accordance with the output of the idle discriminator unit, a skip unit for skipping the air-fuel ratio compensation amount to a greater degree than in non-idle state when the rich-lean discriminator unit decides that the air-fuel ratio has shifted from lean to rich side or the opposite way, a hold unit for holding the compensation amount after skip for a predetermined length of time, and an integrator for integrating the compensation amount upon the lapse of the predetermined length of time.
    • 公开了一种利用内燃机的计算机实现的空燃比控制系统,其中,空闲识别器单元鉴别内燃机是否空转,当空转时空闲空燃比补偿量确定 单元根据空燃比检测器的输出来确定空燃比补偿量。 另一方面,当发动机不空转时,无怠速空燃比补偿量确定单元决定空燃比补偿量。 怠速空燃比补偿量确定单元包括:富稀缺鉴定器单元,用于根据空闲鉴别器单元的输出来判断空燃比是贫还是富侧;跳过单元, 燃料比补偿量大于非空闲状态时的浓度比补充量更大的程度,当富余浓度鉴别器单元判定空燃比已经从偏向偏移到相反的方向时,保持单元用于在跳过后保持补偿量 预定时间长度的积分器,以及用于在经过预定时间长度时对补偿量进行积分的积分器。
    • 4. 发明授权
    • Inductive element and manufacturing method of the same
    • 感应元件及其制造方法相同
    • US07212095B2
    • 2007-05-01
    • US10773318
    • 2004-02-09
    • Shinichi SatoHitoshi OhkuboToshiaki Kikuchi
    • Shinichi SatoHitoshi OhkuboToshiaki Kikuchi
    • H01F5/00
    • H01F5/00H01F17/0033H01F2017/004
    • Conductor layers 2A and insulating layers 4A are alternately stacked so as to prepare a base material 17. A plurality of grooves 18 having a predetermined width are formed in a surface of the base material 17 in such a manner that these plural grooves 18 are located parallel to each other along a stacking layer direction in order to form a coil inner peripheral portion. Embedding materials 5 are filled into the grooves 18. Surfaces 16 of the base material into which the embedding materials 5 have been filled are flattened by polishing. The conductor layers 2A located adjacent to each other are connected to each other, so that helical coils which constitute inductive elements are constructed. Then, both the front plane and the rear plane of the resultant base material are covered by an insulating layer, which is cut so as to obtain respective chips.
    • 交替层叠导体层2A和绝缘层4A以制备基材17。 为了形成线圈内周部,在基材17的表面上形成多个具有预定宽度的槽18,使得这些多个槽18沿层叠层方向彼此平行地定位。 嵌入材料5被填充到凹槽18中。 嵌入材料5填充到其中的基材的表面16通过抛光而变平。 彼此相邻的导体层2A彼此连接,从而构成构成感应元件的螺旋线圈。 然后,所得基材的前平面和后平面被绝缘层覆盖,绝缘层被切割以获得各自的芯片。
    • 6. 发明授权
    • Structure for positioning a friction member in a damper disc
    • 用于将摩擦构件定位在阻尼盘中的结构
    • US4787877A
    • 1988-11-29
    • US941127
    • 1986-12-12
    • Tamio NagaoToru HamadaToshiaki Kikuchi
    • Tamio NagaoToru HamadaToshiaki Kikuchi
    • F16D13/64F16D3/14F16F15/129
    • F16F15/129
    • A structure for radially positioning a friction member in a damper disc comprises an output hub including a radial flange; a pair of side plates rotatably disposed at opposite sides of the flange; a torsion spring mechanism operable to circumferentially connect the side plates to the flange; and a friction mechanism rotatable fitted around the hub and associated to the side plate for generating a friction force in accordance with relative torsion between the side plates and the flange; the friction mechanism including an annular friction member, of which outer periphery is radially held and guided concentrically to a center of the disc by circumferentially spaced projections formed on the adjacent side plate.
    • 用于将阻尼盘中的摩擦构件径向定位的结构包括:包括径向凸缘的输出轮毂; 一对侧板,其可旋转地设置在所述凸缘的相对侧; 扭转弹簧机构,可操作以将侧板周向连接到凸缘; 以及摩擦机构,其可绕所述轮毂安装并且与所述侧板相关联,用于根据所述侧板和所述凸缘之间的相对扭转产生摩擦力; 所述摩擦机构包括环形摩擦构件,所述环形摩擦构件的外周径向保持并且通过在相邻的侧板上形成的周向间隔的凸起同心地被引导到所述盘的中心。
    • 7. 发明授权
    • Air nozzle apparatus for use in drawing glass fibers
    • 用于拉制玻璃纤维的空气喷嘴装置
    • US4391619A
    • 1983-07-05
    • US421908
    • 1982-09-23
    • Hiroaki ShonoToshiaki Kikuchi
    • Hiroaki ShonoToshiaki Kikuchi
    • C03B37/02C03B37/025
    • C03B37/0213
    • An air nozzle apparatus for directing air flow against the undersurface of an orifice plate of a glass fiber drawing forehearth, having an air introducing section having a manifold formed with at least one air supply port, and an air nozzle section formed with a plurality of nozzle channels communicating with the manifold. The air nozzle section has a plurality of nozzle ribs of substantially the same shape each having opposed side surfaces and opposed end edge portions. The plurality of nozzle ribs are arranged to have their side surfaces located in adjacent relationship to provide a nozzle block. Each nozzle rib is formed on at least one of the opposed side surfaces with a longitudinally extending recess which defines one of the plurality of nozzle channels between the adjacent nozzle ribs.
    • 一种空气喷嘴装置,用于将空气流动引导到玻璃纤维拉伸前炉的孔板的下表面,该空气喷嘴装置具有形成有至少一个供气口的歧管的空气引入部分和形成有多个喷嘴的空气喷嘴部分 通道与歧管连通。 空气喷嘴部分具有大致相同形状的多个喷嘴肋,每个具有相对的侧表面和相对的端部边缘部分。 多个喷嘴肋被布置成使其侧表面位于相邻的关系中以提供喷嘴块。 每个喷嘴肋形成在至少一个相对的侧表面上,具有纵向延伸的凹部,其限定相邻喷嘴肋之间的多个喷嘴通道中的一个。
    • 8. 发明授权
    • Traverse motion used in combination with device for winding a continuous
elongate element
    • 与装置组合使用的横向运动,用于缠绕连续的细长元件
    • US4383653A
    • 1983-05-17
    • US193412
    • 1980-10-03
    • Koji NakazawaMichio SatoShin KasaiYutaka KawaguchiToshiaki Kikuchi
    • Koji NakazawaMichio SatoShin KasaiYutaka KawaguchiToshiaki Kikuchi
    • B65H54/28
    • B65H54/28B65H2701/3122
    • A traverse motion used in combination with a device for winding a continous elongate element such as a strand consisting of a large number of glass filaments drawn through a bushing with a large number of nozzles. In the traverse motion of the type including a scroll cam with an endless cam groove consisting of at least one pair of right- and left-hand grooves joined at each end and a strand guide which has a cam follower fitted in the endless cam groove of the scroll cam and is adapted to reciprocate along a straight path in parallel with the axis of the shaft of the scroll cam when the latter is rotated, the lead angle of the endless cam groove is increased adjacent to its ends or adjacent to each returning point of the cam follower so that the guide is increased in velocity adjacent to each returning point. With a conventional scroll cam the traversing motion of the strand at the downstream of the strand guide lags behind that of the strand guide in the case of winding the strand into package on a spool so that the ends of a package being formed are increased in diameter as compared with the intermediate portion between them. When the strand guide is increased in the manner described above adjacent to each returning point, the flange-like increased-diameter distortions at the ends of the package can be avoided and high-quality packages with square ends can be produced.
    • 与用于缠绕连续细长元件的装置组合使用的横向运动,所述连续细长元件例如由大量玻璃丝组成的股线,该玻璃细丝通过具有大量喷嘴的衬套拉出。 在包括具有环形凸轮槽的滚动凸轮的横动运动中,该环形凸轮槽由在每个端部处连接的至少一对右侧和左侧凹槽组成,并且具有装配在环形凸轮槽中的凸轮从动件 涡卷凸轮并且当其旋转时适于沿着与涡旋凸轮的轴的轴线平行的直线路径往复运动,环形凸轮槽的引导角相邻于其端部或邻近每个返回点而增加 使得引导件在与每个返回点相邻的速度上增加。 对于常规的涡卷凸轮,在将线束缠绕在卷轴上的情况下,股线引导件下游的股线的横向运动滞后于股线引导件的横向运动,使得形成的包装的端部的直径增加 与它们之间的中间部分相比。 当股线引导件以与每个返回点相邻的方式增加时,可以避免在封装的端部处的凸缘状增大直径的变形,并且可以产生具有方形端部的高质量封装。
    • 9. 发明申请
    • TARGET DETECTION DEVICE, TARGET DETECTION CONTROL PROGRAM, AND TARGET DETECTION METHOD
    • 目标检测装置,目标检测控制程序和目标检测方法
    • US20120000289A1
    • 2012-01-05
    • US13127667
    • 2009-11-05
    • Yoshiaki TsurugayaToshiaki Kikuchi
    • Yoshiaki TsurugayaToshiaki Kikuchi
    • G01N29/00
    • G01S11/14G01S7/5273G01S7/53G01S7/54G01S15/003G01S15/04G01S15/101G01S15/876
    • A target detection device includes: a sound source which projects a sound pulse; a transducer array disposed in a region for receiving a forward scattered wave from an object in the propagation environment; an addition processing unit which extracts only a signal of the forward scattered wave by applying vector addition processing on a reference signal in a reference sound field received when an obstacle exists in the propagation environment and a mixed signal in a mixed sound field received when the target exists with the obstacle; a phase conjugation determination unit which checks whether a phase conjugacy is established by receiving the signal of the extracted forward scattered wave and employing a passive phase conjugation for determining the reference sound field; and a time reversal processing unit which generates a time reversal signal on condition that the phase conjugation determination unit judges that the phase conjugacy is established.
    • 目标检测装置包括:投射声脉冲的声源; 换能器阵列,设置在用于从传播环境中的物体接收前向散射波的区域中; 一个加法处理单元,其仅当在传播环境中存在障碍物时接收到的参考声场中的参考信号上施加矢量相加处理,并且当目标物体接收到混合声场时的混合信号时,仅提取前向散射波的信号 存在障碍; 相位共轭确定单元,其通过接收所提取的前向散射波的信号和采用用于确定参考声场的被动相位共轭来检查相位共轭度是否被建立; 以及时间反转处理单元,其在相位共轭确定单元判断相位共轭性被建立的条件下产生时间反转信号。
    • 10. 发明申请
    • DETECTION DEVICE, DETECTION PROGRAM AND DETECTION METHOD
    • 检测装置,检测程序和检测方法
    • US20080239873A1
    • 2008-10-02
    • US12055819
    • 2008-03-26
    • YOSHIAKI TSURUGAYAToshiaki Kikuchi
    • YOSHIAKI TSURUGAYAToshiaki Kikuchi
    • G01S15/04
    • G01S7/52004G01S11/14G01S15/876
    • An object is detected without being constrained by the positional relationship between the object and the detecting position. A detection device includes a pseudo sound source and a monitoring unit. The pseudo sound source generates a scanning sound wave of a phase-conjugate wave in the time domain based on an acoustic signal by performing active phase conjugation, and causes the scanning sound wave to converge on the detection object from the above thereof within the propagation space by utilizing a feature that the scanning sound wave converges on the pseudo sound source which is the generation source of the acoustic signal. The monitoring unit extracts a reflected sound wave which is reflected at the detection object from the sound wave in the propagation space by performing passive phase conjugation. The detection object is detected based on presence or absence of the extracted reflected wave.
    • 检测对象不受物体与检测位置之间的位置关系的约束。 检测装置包括伪声源和监视单元。 伪声源通过执行主动相位共轭而基于声学信号在时域中产生相位共轭波的扫描声波,并且使得扫描声波从其上方在传播空间内会聚在检测对象上 通过利用扫描声波会聚在作为声信号的产生源的伪声源上的特征。 监视单元通过执行无源相位共轭,从传播空间中的声波提取在检测对象物上反射的反射声波。 基于提取的反射波的存在或不存在来检测检测对象。