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    • 1. 发明专利
    • Accelerator
    • 加速器
    • JP2012245853A
    • 2012-12-13
    • JP2011118036
    • 2011-05-26
    • Denso Corp株式会社デンソー
    • HORIE KAZUYUKIHOTTA KEISUKESUZUKI HARUHIKO
    • B60K26/04
    • PROBLEM TO BE SOLVED: To provide an accelerator which detects an abnormal operation of an accelerator pedal.SOLUTION: When a pedal angle of the accelerator pedal provided in the accelerator becomes a second predetermined angle θ2 from a first predetermined angle θ1, a kickdown switch adds power in a direction opposite pressing force of a driver, to the accelerator pedal. A sensor output of a rotation angle sensor that detects the rotation angle of the accelerator pedal is transmitted to an electronic control unit (ECU). When a calculated value of "sensor output/hour" that corresponds to the rotational speed of the accelerator pedal exceeds a first threshold, and thereafter, the calculated value decreases, and it exceeds the calculated value before decreasing, ECU detects the abnormal operation of the accelerator pedal.
    • 要解决的问题:提供一种检测加速踏板异常运转的加速器。 解决方案:当设在加速器中的加速器踏板的踏板角度从第一预定角度θ1变为第二预定角度θ2时,降档开关将加速踏板上的与驾驶员的按压力相反的方向增加功率。 检测加速器踏板的旋转角度的旋转角度传感器的传感器输出被传送到电子控制单元(ECU)。 当与加速踏板的转速对应的“传感器输出/小时”的计算值超过第一阈值时,计算出的值减小,并且超过计算出的值之前,ECU检测到 油门踏板。 版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Kick down switch
    • 踢下开关
    • JP2013004187A
    • 2013-01-07
    • JP2011130977
    • 2011-06-13
    • Denso Corp株式会社デンソー
    • HOTTA KEISUKEHORIE KAZUYUKISUZUKI HARUHIKO
    • H01H13/16H01H13/20
    • H03K17/97B60K26/02H01H13/18
    • PROBLEM TO BE SOLVED: To provide a kick down switch capable of improving reliability of an output signal.SOLUTION: A kick down switch 1 is provided with an operation body 20 inside a case 10 movably forward and backward. The operation body 20 can move toward a bottom part 11 of the case 10 by a stepping force of a driver transmitted through an accelerator pedal. One end of a coil spring 30 formed of a magnetic material is locked with the bottom part 11, and the other end is locked with the operation body 20, to energize the operation body 20 to the side opposite to the bottom part 11. A magnet 40 provided at a first projection part 26 of the operation body 20 on a radial inside of the coil spring 30 moves together with the operation body 20. A hole IC 50 provided at a second projection part 16 of the case 10 on a radial inside of the coil spring 30 outputs signals according to a magnetic flux density of a magnetic field excited by the magnet 40. A disturbance magnetic field outside the case 10 is absorbed by the coil spring 30.
    • 要解决的问题:提供一种能够提高输出信号的可靠性的降压开关。 解决方案:脚踏开关1在可移动地前后移动的壳体10内设置有操作体20。 操作体20可以通过加速踏板传递的驾驶员的踏力向壳体10的底部11移动。 由磁性材料形成的螺旋弹簧30的一端与底部11锁定,另一端与操作体20锁定,以使操作体20向与底部11相反的一侧通电。磁体 设置在操作体20的径向内侧的操作体20的第一突出部26上的与操作体20一起移动的孔40一体地设置在壳体10的第二突出部16的径向内侧 螺旋弹簧30根据由磁体40激励的磁场的磁通密度输出信号。壳体10外部的干扰磁场被螺旋弹簧30吸收。(C)2013,JPO&INPIT
    • 3. 发明专利
    • Method for detecting liquid state
    • 检测液体状态的方法
    • JP2008209353A
    • 2008-09-11
    • JP2007048591
    • 2007-02-28
    • Denso Corp株式会社デンソー
    • HORIE KAZUYUKIUCHIDA AKIKAZUKANO MASAO
    • G01N21/59G01N15/06
    • PROBLEM TO BE SOLVED: To provide a method for detecting liquid state, capable of detecting liquid characteristics at excellent precision even if sticking amounts of foreign substances and contaminations against the wall surface of the channel of an objective liquid to be measured increase.
      SOLUTION: In addition to each light received light quantity P, Q in a first optical path A and a second optical path B in which the transmission lengths in lubrication oil that are measured by the conventional particle concentration detecting method are different, light received quantity R in a third optical path C is measured. Thus, in addition to the transmissivity α of the lubrication oil, the transmissivity β of a foreign substance X adhered to a flow passage 15 can be calculated. Accordingly, by judging liquid characteristics based on both of the transmissivity α of the lubrication oil and the transmissivity βof the foreign substance X adhered to the flow passage 15, the liquid state can precisely be detected even when the foreign substance X adhered to the flow passage 15 increases, which is difficult to detect particle concentration with high precision in the conventional particle concentration detecting method.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种用于检测液体状态的方法,即使在待测目标液体的通道的壁面上的异物和污染物的粘附量增加的情况下,也能够以优异的精度检测液体特性。 解决方案:除了通过常规的颗粒浓度检测方法测量的润滑油中的传输长度不同的第一光路A中的每个光接收光量P和第二光路B之外,光 测量第三光路C中的接收量R. 因此,除了润滑油的透过率α之外,可以计算附着在流路15上的异物X的透过率β。 因此,通过基于润滑油的透过率α和附着在流路15上的异物X的透过率β来判断液体特性,即使当外来物质X附着在流路上时,也能够精确地检测液体状态 15增加,这在传统的颗粒浓度检测方法中难以高精度地检测颗粒浓度。 版权所有(C)2008,JPO&INPIT
    • 4. 发明专利
    • Oil degradation detector
    • 油降解检测仪
    • JP2008116360A
    • 2008-05-22
    • JP2006300758
    • 2006-11-06
    • Denso CorpToyota Central R&D Labs Inc株式会社デンソー株式会社豊田中央研究所
    • ISHIHARA YASUOHORIE KAZUYUKIUSUKI ARIMITSUTAKEUCHI HISATO
    • G01N27/401G01N27/26G01N27/416
    • PROBLEM TO BE SOLVED: To provide an oil degradation detector that accurately detects the degradation of engine oil. SOLUTION: This oil degradation detector 1 comprises a reference electrode 20 and response electrode 30 to be dipped in the engine oil 4, and detects the degradation of the engine oil 4, based on the potential difference of the response electrode 30 whose potential varies, in response to the reference electrode 20 used as reference potential and the hydrogen ion concentration of the engine oil 4. The reference electrode 20 comprises a first electrode part 24, made of metal, a second electrode part 26 that is made of salt of the same metal as the first electrode part 24 and covers the first electrode part 24; and a protection section 28, that is made of ion conductive material and protects the second electrode part 26 from an added substance in the engine oil 4 by covering the second electrode part 26. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够精确地检测发动机油劣化的油降解检测器。 解决方案:该油降解检测器1包括参考电极20和被吸入发动机油4中的响应电极30,并且基于响应电极30的电位差来检测发动机油4的劣化, 响应于用作参考电位的参考电极20和发动机机油4的氢离子浓度而变化。参考电极20包括由金属制成的第一电极部分24,由金属制成的第二电极部分26, 与第一电极部分24相同的金属并覆盖第一电极部分24; 以及保护部分28,其由离子导电材料制成,并通过覆盖第二电极部分26来保护第二电极部分26免受发动机油4中的附加物质的影响。(C)2008,JPO&INPIT
    • 5. 发明专利
    • Electrode pair for detecting acidity and basicity of oil, and deterioration detector for oil
    • 用于检测油的酸度和基本性的电极对,以及用于油的检测检测器
    • JP2006189344A
    • 2006-07-20
    • JP2005001911
    • 2005-01-06
    • Denso Corp株式会社デンソー
    • ISHIHARA YASUOHORIE KAZUYUKIHARIO TETSUO
    • G01N27/30G01N27/333G01N27/416
    • PROBLEM TO BE SOLVED: To provide an electrode pair for detecting acidity and basicity of oil capable of obtaining a change of a potential difference in response to a pH of the oil stably with satisfactory reproducibility, in the electrode pair for detecting the degrees of acidity and basicity of the oil, based on the potential difference between two different metal electrodes. SOLUTION: In this electrode pair 20 for detecting the degrees of acidity and basicity of the oil, having the reference electrode 30 and the sensing electrode 40, and for detecting the potential difference between a potential varied in response to the sensed degree of acidity and degree of basicity of the oil 4 in the sensing electrode 40, and a potential of the reference electrode 30, the potential within pH3-pH5 of specified range is changed greatly compared with a potential in a range other than the specified range, out of a pH range varied in response to the the degree of acidity and the degree of basicity of the oil 4, in a potential characteristic of the reference electrode 30. The specified range preferably has an abrupt change area A where a change rate of the potential in the reference electrode 30 is abruptly increased or decreased with respect to the change of the pH. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于检测油的酸度和碱度的电极对,其能够以令人满意的再现性稳定地获得响应于油的pH的电位差的变化,在用于检测度的电极对 基于两种不同金属电极之间的电位差的油的酸度和碱度。 解决方案:在用于检测具有参考电极30和感测电极40的油的酸度和碱度的电极对20中,并且用于检测响应于感测到的程度的电位变化的电位差 感测电极40中的油4的酸度和碱度,以及参考电极30的电位,特定范围的pH3-pH5内的电位与特定范围以外的范围内的电位相比变化很大 在参考电极30的电位特性中,响应于酸的程度和油的碱度而变化的pH范围变化。指定的范围优选具有突变区域A,其中电位的变化率 相对于pH的变化,参考电极30突然增加或减少。 版权所有(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Oil deterioration detector
    • 油检测仪
    • JP2006064410A
    • 2006-03-09
    • JP2004244247
    • 2004-08-24
    • Denso Corp株式会社デンソー
    • HARIO TETSUOHORIE KAZUYUKIBAN TAKAHISA
    • G01N27/416F01M11/10G01N27/00G01N33/30
    • G01N27/07G01N33/2888
    • PROBLEM TO BE SOLVED: To provide an oil deterioration detector capable of shortening an interelectrode space, in one for measuring an interelectrode potential difference for detecting oil deterioration. SOLUTION: In this oil deterioration detector 1 for detecting a degree of the oil deterioration by the potential difference generated between electrodes in oil, the electrode is provided with the first electrode plate 20 wound spirally, and the second electrode plate 30 wound spirally along an extension direction of the first electrode plate 20, and the first electrode plate 20 and and the second electrode plate 30 arranged substantially coaxially. An insulating film member 40 is preferably sandwiched between the adjacent the first electrode plate 20 and and the second electrode plate 30. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够缩短电极间空间的油劣化检测器,用于测量用于检测油劣化的电极间电位差。 解决方案:在该油劣化检测器1中,用于通过油中电极之间产生的电位差来检测油劣化程度,电极设有螺旋卷绕的第一电极板20,螺旋卷绕的第二电极板30 沿着第一电极板20的延伸方向,以及基本同轴地配置的第一电极板20和第二电极板30。 绝缘膜构件40优选地夹在相邻的第一电极板20和第二电极板30之间。版权所有:(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Level detection device and level detection method
    • 水平检测装置和水平检测方法
    • JP2006017588A
    • 2006-01-19
    • JP2004195899
    • 2004-07-01
    • Denso CorpNippon Soken Inc株式会社デンソー株式会社日本自動車部品総合研究所
    • UCHIDA AKIRAMATSUOKA HISANAGAISHIKAWA TAKAYUKIMATSUURA MICHIHIROHORIE KAZUYUKIHARIO TETSUO
    • G01F23/22
    • PROBLEM TO BE SOLVED: To provide a level detection device and its method capable of detecting a liquid level in a wide range continuously, based on the principle of level detection by the difference between the specific heat capacities of a gas and a liquid. SOLUTION: The device is provided with a resistor 1a having a length in the direction of liquid filling exceeding a desired liquid level detection range, an ambient temperature detection means 1b for detecting an ambient temperature around the resistor, a temperature difference setting means S211-S214 which uses, as a target temperature T for heating the resistor, a temperature to be obtained by adding a predetermined temperature difference ΔT to the ambient temperature (reference temperature T0) detected by the ambient temperature detection means, a resistor temperature detection means S221-223 for detecting the temperature of the resistor, a power control means S221-S225 which controls power to be supplied to the resistor to heat the resistor to the target temperature T, and controls the power so as to maintain the resistor temperature at the target temperature, when the temperature reaches the target temperature, a power calculation means S231 for calculating the magnitude of the power being supplied to the resistor from the power control means, and a liquid level determination means S232 for detecting the liquid level on the basis of the magnitude of the power. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够根据气体和液体的比热容差之间的差别进行液位检测的原理连续地检测大范围的液位的液面检测装置及其方法 。 解决方案:该装置设置有电阻器1a,其具有在液体填充方向上的长度超过所需液位检测范围;环境温度检测装置1b,用于检测电阻周围的环境温度;温度差设定装置 S211-S214,其使用通过将环境温度检测装置检测到的环境温度(基准温度T0)加上预定温度差ΔT来获得的温度作为用于加热电阻器的目标温度T,电阻器温度检测装置 S221-223,用于检测电阻器的温度;电力控制装置S221-S225,其控制供给电阻器的电力以将电阻器加热到目标温度T,并且控制电力以将电阻器温度保持在 目标温度,当温度达到目标温度时,计算其大小的功率计算装置S231 从功率控制装置向电阻器提供电力;以及液位确定装置S232,用于根据功率的大小来检测液位。 版权所有(C)2006,JPO&NCIPI
    • 8. 发明专利
    • Accelerator device
    • 加速器装置
    • JP2011105249A
    • 2011-06-02
    • JP2009264808
    • 2009-11-20
    • Denso Corp株式会社デンソー
    • INUZUKA TAKANORIHORIE KAZUYUKI
    • B60K26/02
    • PROBLEM TO BE SOLVED: To provide an accelerator device capable of reducing the impact noise when an accelerator pedal and a stopper collide with each other in a fully closed state. SOLUTION: A pedal pad 30 is provided on one end side of an accelerator pedal 20 rotatably supported by a housing 10. A stopper 68 provided in the housing 10 abuts on an abutment part 125, which is provided in the accelerator pedal 20, to limit rotation in the Y-direction of the accelerator pedal 20 energized by a double-coil spring. A weight 50 is provided between a first rotary shaft O of the accelerator pedal 20 and the pedal pad 30. With this structure, when a driver removes a foot from the pedal pad 30 and the accelerator pedal 20 is rotated in the Y-direction by the double-coil spring, acceleration of the rotation by the accelerator pedal 20 is reduced by inertia and the position energy corresponding to the mass of the weight 50. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种当加速器踏板和止动器在完全关闭状态下相互碰撞时能够减小冲击噪声的加速器装置。 解决方案:踏板垫30设置在由壳体10可旋转地支撑的加速器踏板20的一端侧。设置在壳体10中的止动件68与设置在加速踏板20中的抵接部125相接触 以限制由双螺旋弹簧激励的加速踏板20的Y方向的旋转。 在加速器踏板20的第一旋转轴O和踏板垫30之间设置有重物50.通过这种结构,当驾驶员从踏板垫30移除脚并且加速踏板20沿Y方向旋转时 双螺旋弹簧,通过加速踏板20的旋转加速度被惯性和对应于重量50的质量的位置能量减小。(C)2011,JPO和INPIT
    • 9. 发明专利
    • Reference electrode for detecting acidity and basicity of oil
    • 用于检测油的酸度和基本原理的参考电极
    • JP2007046914A
    • 2007-02-22
    • JP2005228652
    • 2005-08-05
    • Denso Corp株式会社デンソー
    • ISHIHARA YASUOHORIE KAZUYUKIHARIO TETSUO
    • G01N27/30G01N27/416
    • G01N33/2876G01N27/301
    • PROBLEM TO BE SOLVED: To provide a reference electrode for detecting the acidity and basicity of oil capable of stabilizing the surface state of the electrode so that constant potential is stably obtained in the pH change of the oil being a measuring target. SOLUTION: The reference electrode for detecting the acidity and basicity of the oil has a reference electrode 30 and a sensitive electrode 40 and is used in an electrode pair 20 for detecting the acidity and basicity of the oil constituted so as to detect the potential difference between the potential of the reference electrode 30 and the potential changing in response to the degree of acidity and basicity of the oil of the sensitive electrode 40. The reference electrode is constituted so as to make output potential almost constant with respect to the pH which changes with the degree of acidity and basicity of the oil 4 being the measuring target. This reference electrode has an electrode structure, wherein a metal salt 32, which comprises a metal 31 and hardly dissolvs in water, is formed on the electrode base material of the metal 31. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种用于检测能够稳定电极的表面状态的油的酸度和碱度的参考电极,从而在作为测量对象的油的pH变化中稳定地获得恒定电位。 解决方案:用于检测油的酸度和碱度的参比电极具有参比电极30和敏感电极40,并用于检测油的酸度和碱度的电极对20中,以便检测 参考电极30的电位和响应于敏感电极40的油的酸度和碱度的变化的电位之间的电势差。参考电极被构造成使输出电位相对于pH几乎恒定 其随着作为测量对象的油4的酸度和碱度而变化。 该参考电极具有电极结构,其中在金属31的电极母材上形成金属盐32,该金属盐32包含几乎不溶于水的金属31。(C)2007,JPO&INPIT