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    • 1. 发明申请
    • ANGULAR VELOCITY DETECTION APPARATUS AND ELECTRONIC INSTRUMENT
    • 角速度检测装置和电子仪器
    • US20120055230A1
    • 2012-03-08
    • US13216553
    • 2011-08-24
    • Hideto NARUSEKenji SATOYutaka TAKADA
    • Hideto NARUSEKenji SATOYutaka TAKADA
    • G01P21/00G01P3/00
    • G01P21/00G01C19/5726G01C19/5776
    • An angular velocity detection apparatus includes a vibrator that generates a signal that includes an angular velocity component and a vibration leakage component, a driver section that generates the drive signal, and supplies the drive signal to the vibrator, an angular velocity signal generation section that extracts the angular velocity component from the signal generated by the vibrator, and generates an angular velocity signal corresponding to the magnitude of the angular velocity component, a vibration leakage signal generation section that extracts the vibration leakage component from the signal generated by the vibrator, and generates a vibration leakage signal corresponding to the magnitude of the vibration leakage component, and an adder-subtractor section that adds the vibration leakage signal to the angular velocity signal, or subtracts the vibration leakage signal from the angular velocity signal, in a given ratio to correct temperature characteristics of the angular velocity signal.
    • 角速度检测装置包括产生包括角速度分量和振动泄漏分量的信号的振动器,产生驱动信号并将驱动信号提供给振动器的驱动器部分,提取 由振动器产生的信号的角速度分量,产生与角速度分量的大小相对应的角速度信号;振动泄漏信号生成部,根据振动器产生的信号提取振动泄漏成分, 与振动泄漏分量的大小相对应的振动泄漏信号,以及将振动泄漏信号与角速度信号相加的减法器部分,或以角速度信号减去振动泄漏信号,以给定的比例校正 角速度的温度特性 ty信号。
    • 3. 发明申请
    • METHOD FOR PRODUCING PLASMA DISPLAY PANEL
    • 生产等离子显示面板的方法
    • US20100330863A1
    • 2010-12-30
    • US12818892
    • 2010-06-18
    • Hisayo OOHATAShougo NASUKenji SATOSyouzou NINOMIYAKenji HASEGAWA
    • Hisayo OOHATAShougo NASUKenji SATOSyouzou NINOMIYAKenji HASEGAWA
    • H01J9/00
    • H01J11/12H01J9/227H01J11/42
    • The present invention provides a method for producing a plasma display panel, including a step of providing a back substrate with a barrier rib to form a plurality of recesses separated each other by the barrier rib, and a step of applying a phosphor ink to the recesses using an inkjet device,wherein the phosphor ink contains a phosphor and a dispersant, and any one of (a) to (c) is satisfied: (a) the phosphor is a red phosphor, and the amount of the dispersant added is not less than 0.0001 g and not more than 0.02 g per 1 m2 of the surface area of the red phosphor; (b) the phosphor is a blue phosphor, and the amount of the dispersant added is not less than 0.0007 g and not more than 0.04 g per 1 m2 of the surface area of the blue phosphor; and (c) the phosphor is a green phosphor, and the amount of the dispersant added is not less than 0.0001 g and not more than 0.02 g per 1 m2 of the surface area of the green phosphor.
    • 本发明提供了一种等离子体显示面板的制造方法,其特征在于,包括:使背面基板设置有隔壁以形成通过所述隔壁彼此分离的多个凹部的步骤;以及向所述凹部 使用其中所述荧光体油墨含有荧光体和分散剂的喷墨装置,并且(a)〜(c)中的任一个满足:(a)所述荧光体是红色荧光体,所述分散剂的添加量不小于 相对于红色荧光体的每1m 2的表面积为0.0001g以上且0.02g以下。 (b)荧光体是蓝色荧光体,分散剂的添加量相对于蓝色荧光体的1m 2表面积为0.0007g以上0.04g以下, 和(c)荧光体是绿色荧光体,并且分散剂的添加量相对于绿色荧光体的每1m 2的面积不小于0.0001g且不大于0.02g。
    • 4. 发明申请
    • ANGULAR VELOCITY DETECTION CIRCUIT, ANGULAR VELOCITY DETECTION APPARATUS, AND FAILURE DETERMINATION SYSTEM
    • 角速度检测电路,角速度检测装置和故障确定系统
    • US20100011834A1
    • 2010-01-21
    • US12504126
    • 2009-07-16
    • Kenji SATO
    • Kenji SATO
    • G01P3/44G01P21/00G01P3/00
    • G01C19/5607
    • An angular velocity detection circuit is connected to a resonator for making excited vibration on the basis of a drive signal and detects an angular velocity. The angular velocity detection circuit includes: a self-vibration component extraction unit that receives, from the resonator, a detection signal including an angular velocity component based on a Coriolis force and a self-vibration component based on the excited vibration and extracts the self-vibration component from the detection signal; a direct-current conversion unit including an integration unit that integrates an output signal of the self-vibration component extraction unit; and a temperature characteristic compensation unit that compensates for a variation due to a temperature in an output signal of the direct-current conversion unit.
    • 角速度检测电路连接到谐振器,用于基于驱动信号进行激励振动并检测角速度。 角速度检测电路包括:自振部件提取单元,其从谐振器接收基于激发振动的基于科里奥利力和自振分量的角速度分量的检测信号, 来自检测信号的振动分量; 直流转换单元,其包括积分单元,其对自振部件提取单元的输出信号进行积分; 以及温度特性补偿单元,其补偿由于直流转换单元的输出信号中的温度引起的变化。
    • 5. 发明申请
    • BAR FEEDER
    • AR AR
    • US20090180856A1
    • 2009-07-16
    • US12354526
    • 2009-01-15
    • Kiyoshi HIROSAWATakazo ITOKenji SATO
    • Kiyoshi HIROSAWATakazo ITOKenji SATO
    • B23B3/00
    • B23B13/10B23B13/02
    • Disclosed is a bar feeder, which is capable of reliably loading a bar onto a guide rail with a simplified structure. The bar feeder 1 comprises a stock rack 8, a guide rail 4 for guiding a bar to a bar machining apparatus, and a bar supply mechanism 32 for taking bars W one by one out of the stock rack 8 and supplying the taken-out bar W onto the guide rail 4. The bar supply mechanism 32 includes a lifting member 40 adapted to lift a downstreammost one of the bar W on the stack rack 8, a bar receiving member 42 adapted to receive thereon the lifted bar W and supply the bar W onto the guide rail 4, and a stopper member 36 adapted to holds a second-downstreammost one of the bar W to be subsequently supplied. The lifting member 40 and the bar receiving member 42 are adapted to be driven by a common moving device 44, in such a manner that the lifting member 40 is linearly moved in an upward-downward direction in conjunction with a swing movement of the bar receiving member 42. The structure designed to drive the lifting member 40 and the bar receiving member 42 by the common moving device 44 makes it possible to reduce the number of components for a driving section, and achieve structural simplification.
    • 公开了一种棒式进料器,其能够以简单的结构将棒固定到导轨上。 送料器1包括一个坯料架8,一个用于将棒材引导到棒材加工设备的导轨4以及一个棒料供给机构32,用于将坯料W一个接一个地从坯料架8中取出并供给出取出的棒 W引导到导轨4.杆供给机构32包括提升构件40,该提升构件40适于提升堆叠架8上的杆W的最下面的一个;棒接收构件42,其适于在其上容纳提升的杆W并且供应杆 W连接到导轨4上,以及止动构件36,其适于保持随后供应的杆W中的第二最下端的一个。 提升构件40和杆接收构件42适于由公共移动装置44驱动,使得提升构件40与杆接收的摆动运动一起沿向上 - 向下方向线性移动 设计成通过公共移动装置44驱动提升构件40和杆接收构件42的结构使得可以减少用于驱动部的部件的数量,并且实现结构简化。
    • 8. 发明申请
    • HEAT EXCHANGER AND NOZZLE OF HEAT EXCHANGER
    • 热交换器热交换器和喷嘴
    • US20120145367A1
    • 2012-06-14
    • US13162856
    • 2011-06-17
    • Takeshi FUJISAWAKenji SATONobuo YAMAGATakeo SUGA
    • Takeshi FUJISAWAKenji SATONobuo YAMAGATakeo SUGA
    • F28D1/047F28F1/00F28F9/22F28F9/00
    • F28F9/00F28D7/06F28F9/0246
    • In one embodiment, a heat exchanger is provided with an inside shell, an outside shell, a cooling portion, and an inlet nozzle. The inside shell has an inside space for flowing a fluid, and an opening portion for outflowing the fluid from the inside space. The outside shell covers the inside shell to form a first passage between them to flow the fluid outflowing from the opening portion. The cooling portion is disposed within the inside shell to cool the fluid within the inside space. The inlet nozzle has an inner pipe, an outer pipe, and an outlet pipe. The inner pipe flows the fluid into the inside space through the outside shell. The outer pipe covers the inner pipe to form a second passage between them and has its one end connected to the outside shell to communicate the second passage with the first passage, and its other end connected to the inner pipe on the outside of the outside shell to seal the second passage to flow the fluid partly from the first passage to the second passage. The outlet pipe is connected to the outer pipe to inflow the fluid from the second passage.
    • 在一个实施例中,热交换器设置有内壳,外壳,冷却部分和入口喷嘴。 内壳具有用于流动流体的内部空间和用于从内部空间流出流体的开口部。 外壳覆盖内壳以在它们之间形成第一通道以使从开口部分流出的流体流动。 冷却部分设置在内壳内,以冷却内部空间内的流体。 入口喷嘴具有内管,外管和出口管。 内管通过外壳将流体流入内部空间。 外管覆盖内管,在它们之间形成第二通道,其一端连接到外壳,以将第二通道与第一通道连通,另一端连接到外管外侧的内管 以密封第二通道以将流体部分地从第一通道流动到第二通道。 出口管连接到外管以从第二通道流入流体。