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    • 1. 发明授权
    • Diagnostic system for a cooling water temperature sensor
    • 冷却水温度传感器诊断系统
    • US5884243A
    • 1999-03-16
    • US879417
    • 1997-06-20
    • Satoru TaniguchiKazunori KatohKoichi MizutaniHideo Mori
    • Satoru TaniguchiKazunori KatohKoichi MizutaniHideo Mori
    • F02D45/00G05B23/02F02D41/00F02M31/00
    • G05B23/0235F02D2200/0414
    • In the present invention, the cooling water temperature sensor is diagnosed using a warming up counter WCT. The value of WCT is increased by the increment WCTINC at predetermined intervals after the engine is started. The increment value WCTINC is determined in accordance with the engine operating parameters affecting the rising rate of the cooling water temperature such as the cooling water temperature when the engine is started, the ambient temperature and the engine load. Therefore, the value of the warming up counter accurately corresponds to the actual cooling water temperature. In the diagnosis operation, when the value of the counter WCT reaches a predetermined setting value, the cooling water temperature detected by the cooling water temperature sensor is compared with a reference temperature which corresponds to the setting value of the warming up counter. If the detected cooling water temperature is lower than the reference temperature, the cooling water temperature sensor is determined to have failed. Since the warming up counter which increases at a rate corresponding to the actual rising rate of the cooling water temperature is used, an accurate diagnosis of the cooling water temperature sensor is performed.
    • 在本发明中,使用预热计数器WCT诊断冷却水温度传感器。 发动机起动后,以预定间隔增加WCCTNC的WCT值。 根据影响冷却水温度上升率的发动机工作参数,如发动机启动时的冷却水温度,环境温度和发动机负荷,确定增量值WCTINC。 因此,预热计数器的值准确地对应于实际的冷却水温度。 在诊断动作中,当计数器WCT的值达到规定的设定值时,由冷却水温度传感器检测的冷却水温度与对应于预热计数器的设定值的基准温度进行比较。 如果检测到的冷却水温度低于参考温度,则冷却水温度传感器被确定为失败。 由于使用以与冷却水温度的实际上升速度相对应的速度增加的预热计数器,因此进行冷却水温度传感器的精确诊断。
    • 3. 发明授权
    • Image heating apparatus and heater used for the image heating apparatus
    • 用于图像加热装置的图像加热装置和加热器
    • US08471178B2
    • 2013-06-25
    • US12402801
    • 2009-03-12
    • Satoru TaniguchiHiroto Hasegawa
    • Satoru TaniguchiHiroto Hasegawa
    • G03G15/20
    • G03G15/2042
    • The image heating apparatus includes a heater having first and second and heat-generation segments each having a plurality of spaced-apart heat generating parts therein in the longitudinal direction respectively. The heat generating parts each have first and second electro-conductive patterns provided along the longitudinal direction on a substrate and overlapping in the longitudinal direction, and a heat generating resistor which electrically connects the respective overlapping regions of the first electro-conductive pattern and the second electro-conductive pattern with each other and generates heat by supplied electric power. It simultaneously prevents the temperature in a non-sheet feeding portion from rising and secures fixing properties in the gap between the adjacent heat generating parts.
    • 图像加热装置包括具有第一和第二加热器的加热器和分别在纵向上具有多个间隔开的发热部件的发热部件。 发热部各自具有沿着长度方向设置在基板上并沿纵向重叠的第一和第二导电图案,以及发热电阻器,其将第一导电图案和第二导电图案的各个重叠区域电连接 导电图案彼此之间并通过提供的电力产生热量。 同时防止非片材进给部分中的温度升高,并确保相邻发热部件之间的间隙中的固定性能。
    • 4. 发明授权
    • Power supply unit
    • 供电单元
    • US6075433A
    • 2000-06-13
    • US952118
    • 1999-03-12
    • Makoto OnoYoshiyuki NakaiHideki OkuraSatoru Taniguchi
    • Makoto OnoYoshiyuki NakaiHideki OkuraSatoru Taniguchi
    • H01F38/14H02J5/00H01F27/24
    • H01F38/14H02J5/005Y10S336/02
    • The present invention relates to a non-contact type power supply unit intended for use in electronic equipment, aiming at the realization of a small size and low cost and successful achievement in an enhanced capability of electric power transmission. In order to achieve the foregoing objectives, the non-contact type power supply unit comprises a primary coil(11) that is fed with pulsated currents, a secondary coil(13) mounted opposite to the primary coil(11) in an enclosure that is different from an enclosure wherein the primary coil(11) is mounted, whereby electric power is transferred from the primary coil(11) to the secondary coil(13) and wherein a ferrite core(12) is disposed so as to extend from the primary coil(11) towards the secondary coil(13), thus achieving efficient electric power transmission from the primary coil(11) to secondary coil(13).
    • PCT No.PCT / JP96 / 01353 Sec。 371 1999年3月12日 102(e)1999年3月12日PCT PCT 1996年5月22日PCT公布。 公开号WO96 / 38898 日期1996年12月5日本发明涉及一种旨在用于电子设备的非接触型电源装置,其目的在于实现小型化,低成本,并且在增强的电力传输能力方面成功实现。 为了实现上述目的,非接触型电源单元包括馈送有脉动电流的初级线圈(11),在外壳中与初级线圈(11)相对安装的次级线圈(13) 不同于其中安装有初级线圈(11)的外壳,由此电力从初级线圈(11)传递到次级线圈(13),并且其中铁氧体磁芯(12)被布置成从主电极 线圈(11)朝向次级线圈(13),从而实现从初级线圈(11)到次级线圈(13)的有效的电力传输。
    • 7. 发明授权
    • Image heating apparatus
    • 图像加热装置
    • US08791390B2
    • 2014-07-29
    • US13560392
    • 2012-07-27
    • Satoru Taniguchi
    • Satoru Taniguchi
    • G03G15/20H05B1/02
    • G03G15/2053G03G2215/2035
    • An image heating apparatus includes an endless belt; first, second, third and fourth resistors having resistances R1, R2, R3 and R4, arranged in this order from an upstream side in a feeding direction of the recording material, and R1=R2 and R3=R4. The connection state of the resistors is switchable between a first state in which the first and second resistors are connected in parallel, the third and fourth resistors are connected in parallel, and a set of the first and second resistors and a set of the third and fourth resistors are connected in parallel, and a second state in which the first resistor second resistors are connected in series, the third and fourth resistors are connected in series, and a set of the first and second resistors and a set of the third and fourth resistors are connected in parallel.
    • 图像加热装置包括环形带; 第一,第二,第三和第四电阻器具有从记录材料的馈送方向的上游侧依次排列的电阻R1,R2,R3和R4,R1 = R2和R3 = R4。 电阻器的连接状态可以在第一和第二电阻并联连接的第一状态和第三和第四电阻并联连接的第一状态和一组第一和第二电阻器和一组第三和 第四电阻并联连接,第一电阻器第二电阻串联连接的第二状态,第三和第四电阻串联连接,一组第一和第二电阻器和一组第三和第四电阻器 电阻并联连接。
    • 9. 发明授权
    • Acceleration detector with spring biased rotor
    • 具有弹簧偏置转子的加速度检测器
    • US06528747B2
    • 2003-03-04
    • US09826892
    • 2001-04-06
    • Kazunori SakamotoYoshiyuki ItoTakeki KawamuraKoichi FujitaSatoru Taniguchi
    • Kazunori SakamotoYoshiyuki ItoTakeki KawamuraKoichi FujitaSatoru Taniguchi
    • H01H3514
    • G01P15/135G01P15/036
    • An acceleration detector comprising a rotor rotatably supported within a housing and rotating against the urging force of a torsion spring based on acceleration, a pair of contact terminals contacting each other to be in an electrically connected state by rotation of the rotor at an inner end portion provided within the housing, and a supporting portion integrally formed with the rotor and supporting the torsion spring. The supporting portion is displaced by a predetermined amount in a predetermined direction from the rotary center of the rotor so that the spring effect center when torque is exerted on the torsion spring by rotation of the rotor substantially corresponds to the rotary center of the rotor. This construction of the acceleration detector produces the desired performance approximating the design value in an acceleration detector.
    • 一种加速度检测器,包括:转子,其被可旋转地支撑在壳体内,并基于加速度克服所述扭转弹簧的作用力旋转;一对接触端子,其通过所述转子在内端部分的旋转而处于电连接状态 设置在壳体内,以及与转子一体形成并支撑扭簧的支撑部。 支撑部分从转子的旋转中心沿预定方向移位预定量,使得当转子通过转子旋转而施加在扭转弹簧上的扭矩基本上对应于转子的旋转中心时,弹簧效应居中。 加速度检测器的这种结构在加速度检测器中产生接近设计值的期望性能。