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    • 1. 发明申请
    • TONER
    • 托尼
    • US20130130169A1
    • 2013-05-23
    • US13811241
    • 2011-07-14
    • Kenji AokiAtsushi TaniTakaaki KayaAyako OkamotoTakashige Kasuya
    • Kenji AokiAtsushi TaniTakaaki KayaAyako OkamotoTakashige Kasuya
    • G03G9/087
    • G03G9/08755G03G9/0804G03G9/08788G03G9/08795G03G9/08797
    • In the measurement of an endothermic amount of a toner, (1) an endothermic peak temperature (Tp) derived from the binder resin is 50° C. or higher and 80° C. or lower; (2) a total endothermic amount (ΔH) derived from the binder resin is 30 [J/g] or more and 125 [J/g] or less based on mass of the binder resin; (3) when an endothermic amount derived from the binder resin from an initiation temperature of an endothermic process to Tp is represented by ΔHTp [J/g], ΔH and ΔHTp satisfy formula (1) below; and (4) when an endothermic amount derived from the binder resin from the initiation temperature of an endothermic process to a temperature 3.0° C. lower than Tp is represented by ΔHTp-3 [J/g], ΔH and ΔHTp-3 satisfy formula (2) below. 0.30≦ΔHTp/ΔH≦0.50  (1) 0.00≦ΔHTp-3/ΔH≦0.20  (2)
    • 在调色剂的吸热量的测定中,(1)由粘结剂树脂衍生的吸热峰温度(Tp)为50℃以上且80℃以下; (2)基于粘合剂树脂的质量,从粘合剂树脂得到的总吸热量(DeltaH)为30 [J / g]以上且125 [J / g]以下。 (3)当从吸热过程的起始温度到Tp的粘合剂树脂的吸热量由ΔHTp[J / g]表示时,ΔH和ΔHTp满足下式(1): 和(4)当从吸热过程的起始温度到低于Tp的3.0℃的温度下,粘合剂树脂的吸热量由ΔHTp-3 [J / g]表示时,DeltaH和DeltaHTp-3满足公式 (2)。 0.30 @ DeltaHTp / DeltaH @ 0.50(1)0.00 @ DeltaHTp-3 / DeltaH @ 0.20(2)
    • 8. 发明申请
    • Ultrasonic device for detecting direction to object
    • 用于检测物体方向的超声波装置
    • US20100024557A1
    • 2010-02-04
    • US12458924
    • 2009-07-28
    • Mitsuyasu MatsuuraToshiki IsogaiAyako OkamotoHiromi AriyoshiYasuyuki Okuda
    • Mitsuyasu MatsuuraToshiki IsogaiAyako OkamotoHiromi AriyoshiYasuyuki Okuda
    • G01N29/00
    • G01S15/931G01S7/52006G01S15/42
    • A ultrasonic device detecting a direction to an object includes: a transmitting element of a ultrasonic wave; first and second receiving elements; a diffraction wave phase detector; an initial phase memory for an initial phase of a diffraction wave; a sound speed detector; a phase correction amount calculator calculating a phase shift caused by a sound speed change and calculating a phase correction amount based on the phase of the diffraction wave, the initial phase and the phase shift; a phase correction element correcting a phase of the reflection wave based on the phase correction amount; and a direction detector for detecting the direction to the object based on a difference between corrected phases of the reflection wave received by the first and second receiving elements, a distance between the first and second receiving elements, and a wavelength of the transmission ultrasonic wave corresponding to a sound speed.
    • 检测到物体的方向的超声波装置包括:超声波的发送元件; 第一和第二接收元件; 衍射波相位检测器; 用于衍射波的初始相位的初始相位存储器; 声速检测器; 计算由声速变化引起的相移的相位校正量计算器,并且基于所述衍射波的相位,所述初始相位和所述相位来计算相位校正量; 相位校正元件,基于相位校正量校正反射波的相位; 以及方向检测器,用于基于由第一和第二接收元件接收的反射波的校正相位之间的差异,第一和第二接收元件之间的距离以及对应于发射超声波的波长来检测对象的方向 达到声速。
    • 9. 发明授权
    • Ultrasonic device for detecting direction to object
    • 用于检测物体方向的超声波装置
    • US08089826B2
    • 2012-01-03
    • US12458924
    • 2009-07-28
    • Mitsuyasu MatsuuraToshiki IsogaiAyako OkamotoHiromi AriyoshiYasuyuki Okuda
    • Mitsuyasu MatsuuraToshiki IsogaiAyako OkamotoHiromi AriyoshiYasuyuki Okuda
    • G01N29/00
    • G01S15/931G01S7/52006G01S15/42
    • A ultrasonic device detecting a direction to an object includes: a transmitting element of a ultrasonic wave; first and second receiving elements; a diffraction wave phase detector; an initial phase memory for an initial phase of a diffraction wave; a sound speed detector; a phase correction amount calculator calculating a phase shift caused by a sound speed change and calculating a phase correction amount based on the phase of the diffraction wave, the initial phase and the phase shift; a phase correction element correcting a phase of the reflection wave based on the phase correction amount; and a direction detector for detecting the direction to the object based on a difference between corrected phases of the reflection wave received by the first and second receiving elements, a distance between the first and second receiving elements, and a wavelength of the transmission ultrasonic wave corresponding to a sound speed.
    • 检测到物体的方向的超声波装置包括:超声波的发送元件; 第一和第二接收元件; 衍射波相位检测器; 用于衍射波的初始相位的初始相位存储器; 声速检测器; 计算由声速变化引起的相移的相位校正量计算器,并且基于所述衍射波的相位,所述初始相位和所述相位来计算相位校正量; 相位校正元件,基于相位校正量校正反射波的相位; 以及方向检测器,用于基于由第一和第二接收元件接收的反射波的校正相位之间的差异,第一和第二接收元件之间的距离以及对应于发射超声波的波长来检测对象的方向 达到声速。