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    • 1. 发明授权
    • Moderator temperature coefficient measurement apparatus
    • 主持人温度系数测量仪器
    • US09287013B2
    • 2016-03-15
    • US12377472
    • 2007-07-30
    • Daisuke SatoMakoto NakanoJun Kimura
    • Daisuke SatoMakoto NakanoJun Kimura
    • G21C17/00G21C7/36G21C17/10G21C17/112G21C17/108
    • G21C7/36G21C17/10G21C17/108G21C17/112G21Y2002/204G21Y2002/304G21Y2004/30G21Y2004/40Y02E30/39
    • A moderator temperature coefficient measurement apparatus includes: an input section receiving plant data including a coolant temperature signal being time series data on a temperature of a coolant of a light water reactor, and a reactivity signal indicating time series data on a reactivity calculated based on a detection value of a neutron flux in the light water reactor; a singular value decomposition section decomposing the coolant temperature signal into N components T′1 (t) to T′N (t), and the reactivity signal into M components ρ′1 (t) to ρ′M (t) by a singular value decomposition method; a combination section generating a selected combination being a combination of T′i (t) selected from the N components T′1 (t) to T′N (t) and ρ′j (t) selected from the M components ρ′1 (t) to ρ′M (t); and a temperature coefficient calculation section calculating a moderator temperature coefficient based on auto and cross power spectral density functions obtained by applying a Fourier transformation to the selected combination. The moderator temperature coefficients can be detected at high precision without changing states of the plant.
    • 调节器温度系数测量装置包括:输入部分,其接收包括冷却剂温度信号的工厂数据,冷却剂温度信号是关于轻水反应堆的冷却剂的温度的时间序列数据,以及表示基于 轻水反应堆中中子通量的检测值; 一个奇异值分解部分将冷却剂温度信号分解为N个分量T'1(t)至T'N(t),并将反应性信号分解成M个分量“1(t)至”r(M)) 奇异值分解方法; 产生从N个分量T'1(t)到T'N(t)中选择的T'i(t)和从M个分量选择的&rgr; j(t)的组合的选择组合的组合部分。 '1(t)to&rgr;'M(t); 以及温度系数计算部,其基于通过对所选择的组合应用傅立叶变换而获得的自动和交叉功率谱密度函数来计算主持人温度系数。 可以高精度地检测调节剂温度系数,而不改变设备的状态。
    • 2. 发明申请
    • MODERATOR TEMPERATURE COEFFICIENT MEASUREMENT APPARATUS
    • 调温器温度系数测量装置
    • US20100220831A1
    • 2010-09-02
    • US12377472
    • 2007-07-30
    • Daisuke SatoMakoto NakanoJun Kimura
    • Daisuke SatoMakoto NakanoJun Kimura
    • G21C17/00
    • G21C7/36G21C17/10G21C17/108G21C17/112G21Y2002/204G21Y2002/304G21Y2004/30G21Y2004/40Y02E30/39
    • A moderator temperature coefficient measurement apparatus includes: an input section receiving plant data including a coolant temperature signal being time series data on a temperature of a coolant of a light water reactor, and a reactivity signal indicating time series data on a reactivity calculated based on a detection value of a neutron flux in the light water reactor; a singular value decomposition section decomposing the coolant temperature signal into N components T′1 (t) to T′N (t), and the reactivity signal into M components ρ′1 (t) to ρ′M (t) by a singular value decomposition method; a combination section generating a selected combination being a combination of T′i (t) selected from the N components T′1 (t) to T′N (t) and ρ′j (t) selected from the M components ρ′1 (t) to ρ′M (t); and a temperature coefficient calculation section calculating a moderator temperature coefficient based on auto and cross power spectral density functions obtained by applying a Fourier transformation to the selected combination. The moderator temperature coefficients can be detected at high precision without changing states of the plant.
    • 调节器温度系数测量装置包括:输入部分,其接收包括冷却剂温度信号的工厂数据,冷却剂温度信号是关于轻水反应堆的冷却剂的温度的时间序列数据,以及表示基于 轻水反应堆中中子通量的检测值; 一个奇异值分解部分将冷却剂温度信号分解为N个分量T'1(t)至T'N(t),并将反应性信号分解成M个分量“1(t)至”r(M)) 奇异值分解方法; 产生从N个分量T'1(t)到T'N(t)中选择的T'i(t)和从M个分量选择的&rgr; j(t)的组合的选择组合的组合部分。 '1(t)to&rgr;'M(t); 以及温度系数计算部,其基于通过对所选择的组合应用傅立叶变换而获得的自动和交叉功率谱密度函数来计算主持人温度系数。 可以高精度地检测调节剂温度系数,而不改变设备的状态。
    • 3. 发明授权
    • Ultrasonic flow rate measurement device
    • 超声波流量测量装置
    • US09372105B2
    • 2016-06-21
    • US13984633
    • 2012-04-04
    • Hajime MiyataMakoto NakanoYuji FujiiYukinori Ozaki
    • Hajime MiyataMakoto NakanoYuji FujiiYukinori Ozaki
    • G01F1/66G01F15/14
    • G01F1/66G01F1/662G01F15/14
    • An ultrasonic flow rate measurement device includes a measurement channel, through which a fluid to be measured flows; and a sensor fixing casing having openings formed in the measurement channel and sensor fixing cavities communicating with the openings. Moreover, the ultrasonic flow rate measurement device includes a pair of ultrasonic sensors contained in the sensor fixing cavities, for measuring the flow rate of the fluid to be measured; and a flow rate measuring unit for detecting the flow rate based on an ultrasonic wave propagation time between the pair of ultrasonic sensors. Furthermore, the ultrasonic flow rate measurement device includes a suppressing member formed at each of the openings, for suppressing the fluid to be measured from intruding into each of the sensor fixing cavities, wherein the suppressing member is molded integrally with the sensor fixing casing.
    • 超声波流量测量装置包括待测流体流过的测量通道; 以及传感器固定壳体,其具有形成在所述测量通道中的开口和与所述开口连通的传感器固定腔。 此外,超声波流量测量装置包括一对包含在传感器固定腔中的超声波传感器,用于测量待测流体的流量; 以及流量测量单元,用于基于所述一对超声波传感器之间的超声波传播时间来检测所述流量。 此外,超声波流量测量装置包括形成在每个开口处的抑制部件,用于抑制被测量流体侵入到每个传感器固定腔中,其中抑制部件与传感器固定壳体一体地模制。
    • 5. 发明申请
    • ULTRASONIC FLOW RATE MEASUREMENT DEVICE
    • 超声波流量测量装置
    • US20130312537A1
    • 2013-11-28
    • US13984633
    • 2012-04-04
    • Hajime MiyataMakoto NakanoYuji FujiiYukinori Ozaki
    • Hajime MiyataMakoto NakanoYuji FujiiYukinori Ozaki
    • G01F1/66
    • G01F1/66G01F1/662G01F15/14
    • An ultrasonic flow rate measurement device includes a measurement channel, through which a fluid to be measured flows; and a sensor fixing casing having openings formed in the measurement channel and sensor fixing cavities communicating with the openings. Moreover, the ultrasonic flow rate measurement device includes a pair of ultrasonic sensors contained in the sensor fixing cavities, for measuring the flow rate of the fluid to be measured; and a flow rate measuring unit for detecting the flow rate based on an ultrasonic wave propagation time between the pair of ultrasonic sensors. Furthermore, the ultrasonic flow rate measurement device includes a suppressing member formed at each of the openings, for suppressing the fluid to be measured from intruding into each of the sensor fixing cavities, wherein the suppressing member is molded integrally with the sensor fixing casing.
    • 超声波流量测量装置包括待测流体流过的测量通道; 以及传感器固定壳体,其具有形成在所述测量通道中的开口和与所述开口连通的传感器固定腔。 此外,超声波流量测量装置包括一对包含在传感器固定腔中的超声波传感器,用于测量待测流体的流量; 以及流量测量单元,用于基于所述一对超声波传感器之间的超声波传播时间来检测所述流量。 此外,超声波流量测量装置包括形成在每个开口处的抑制部件,用于抑制被测量流体侵入到每个传感器固定腔中,其中抑制部件与传感器固定壳体一体地模制。
    • 6. 发明申请
    • ULTRASONIC FLOW METER DEVICE
    • 超声波流量计装置
    • US20120266690A1
    • 2012-10-25
    • US13510567
    • 2010-11-17
    • Yukinori OzakiYuji FujiiHajime MiyataMakoto Nakano
    • Yukinori OzakiYuji FujiiHajime MiyataMakoto Nakano
    • G01F1/66
    • G01F1/66G01F1/662G01F1/667
    • In an ultrasonic flow meter device of the present invention, a compressive conductive fastener member including conductive parts is retained between a casing having a fluid passage in which a fluid which is a measurement target flows; ultrasonic transmitters/receivers mounted to the casing, and a control printed board disposed to face the ultrasonic transmitters/receivers, and in this state, the control printed board is fastened. Thereby, the ultrasonic transmitters/receivers are electrically connected to the control printed board without the use of lead wires. A cost increase can be suppressed, and an influence of an outside noise can be mitigated because of omission of the lead wires. Therefore, reliability of the ultrasonic transmitters/receivers can be improved.
    • 在本发明的超声波流量计装置中,包括导电部的压缩导电性紧固件被保持在具有流体通道的壳体之间,流体是流过测量对象的流体; 安装到壳体的超声波发射器/接收器以及设置成面对超声波发射器/接收器的控制印刷电路板,并且在该状态下,控制印刷电路板被固定。 因此,超声波发射器/接收器在不使用引线的情况下电连接到控制印刷电路板。 可以抑制成本增加,并且由于省略引线可以减轻外部噪声的影响。 因此,可以提高超声波发射机/接收机的可靠性。
    • 8. 发明申请
    • TRAVELING TOY SYSTEM
    • 旅行玩具系统
    • US20100173562A1
    • 2010-07-08
    • US12601353
    • 2008-05-23
    • Makoto NakanoKazuki Takahashi
    • Makoto NakanoKazuki Takahashi
    • A63H18/02
    • A63H18/02A63H17/28A63H18/10A63H2018/165
    • A traveling toy system is provided, in which it is immediately confirmed where a self-driven towing vehicle is located under an upper track member. Two annular light permeable regions (5B, 5C) are disposed in the upper track member (5). A light emitting means (47) is attached to the self-driven towing vehicle (21). The two light permeable regions (5B, 5C) transmit light emitted from the light emitting means (47) of the self-driven towing vehicle (21). It is recognizable where the light emitting means (47) emits light under the light permeable regions (5B, 5C), as viewed from above the upper track member (5). Thus, it is easy to find where the self-driven towing vehicle (21) is by locating the light-emitting place.
    • 提供了一种旅行玩具系统,其中立即确认自动牵引车辆位于下轨道构件下方。 两个环形透光区域(5B,5C)设置在上轨道构件(5)中。 发光装置(47)附接到自驱动牵引车(21)。 两个透光区域(5B,5C)透射从自驱动牵引车辆(21)的发光装置(47)发射的光。 从上部轨道构件(5)的上方观察,可以识别发光装置(47)在透光区域(5B,5C)下方发光的位置。 因此,通过定位发光场所很容易找到自驱动牵引车(21)的哪里。
    • 9. 发明申请
    • DEVICE FOR REMOVAL OF INTERMAXILLARY FIXATION
    • 用于去除间隙固定的装置
    • US20100055632A1
    • 2010-03-04
    • US12521207
    • 2007-12-19
    • Makoto NakanoToshio SugaharaTakeshi Furuya
    • Makoto NakanoToshio SugaharaTakeshi Furuya
    • A61C7/02
    • A61B17/24A61C5/007A61C7/00A61F5/05891
    • There is provided an intermaxillary fixation releasing devise in which intermaxillary fixation can be released without a special tool, and the labor of the practitioner and the burden on the patient are reduced. The intermaxillary fixation releasing devise comprises a maxillary joint composed of a first synthetic resin; a mandibular joint composed of a second synthetic resin; and a connector composed of an elastomer, wherein the maxillary joint is provided with an upper-side interlocking part and an upper-side support part; the mandibular joint is provided with a lower-side interlocking part and a lower-side support part; the elastomer forming the connector is incompatible or substantially incompatible with the first synthetic resin and the second synthetic resin; and the maxillary joint and the mandibular joint are joined with the connector in a state in which the upper-side support part and the lower-side support part are embedded in the connector.
    • 提供了一种腋下固定释放装置,其中可以在没有特殊工具的情况下释放inter内固定,并且减少了从业者的劳动和患者的负担。 腋下固定释放装置包括由第一合成树脂构成的上颌关节; 由第二合成树脂构成的下颌关节; 以及由弹性体组成的连接器,其中所述上颌关节设置有上侧互锁部和上侧支撑部; 下颌关节设置有下侧互锁部和下侧支撑部; 形成连接器的弹性体与第一合成树脂和第二合成树脂不相容或基本不相容; 并且上连接部和下颌关节在上侧支撑部和下侧支撑部嵌入连接器的状态下与连接器连接。
    • 10. 发明申请
    • TRAVELLING TOY SYSTEM
    • 旅行玩具系统
    • US20090004948A1
    • 2009-01-01
    • US12141496
    • 2008-06-18
    • Makoto AndoMakoto Nakano
    • Makoto AndoMakoto Nakano
    • A63F13/00A63H17/00
    • A63H18/02A63F2300/1093A63F2300/204A63F2300/69A63H17/32A63H18/04
    • A traveling toy system is provided, in which it becomes possible to reduce the amount of information transmitted to a video display device. In the traveling toy system, a video camera, a video camera controller which is adjustably controls at least a frame rate of the video camera, a signal transmission device which transmits a video signal outputted from the video camera to a video display device, and electric storage means for power supply are mounted on the traveling toy which travels on a traveling lane using a potential energy. The traveling toy system further includes a traveling toy carrier device which carries the traveling toy from a position where the potential energy is low to a position where the potential energy is high. The video camera controller changes the frame rate so that when a traveling speed of the traveling toy is higher than a given speed, the frame rate may be increased from the frame rate at the time that the traveling speed is lower than the given speed.
    • 提供了一种旅行玩具系统,其中可以减少发送到视频显示装置的信息量。 在旅行玩具系统中,摄像机,可调节地控制摄像机的帧速率的摄像机控制器,将从摄像机输出的视频信号发送到视频显示装置的信号发送装置,以及电视 用于供电的存储装置安装在使用势能在旅行车道上行进的行进玩具上。 行进玩具系统还包括一个旅行玩具承载装置,它将旅行玩具从势能较低的位置运载到势能高的位置。 视频摄像机控制器改变帧速率,使得当旅行玩具的行进速度高于给定速度时,帧速率可以从行驶速度低于给定速度时的帧速率增加。