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    • 1. 发明授权
    • Film thickness measuring device and film thickness measuring method
    • 膜厚测量装置和膜厚测量方法
    • US08339617B2
    • 2012-12-25
    • US12904494
    • 2010-10-14
    • Takeo YamadaTakeshi YamamotoTakahiro YamakuraShinji HayashiShingo Kawai
    • Takeo YamadaTakeshi YamamotoTakahiro YamakuraShinji HayashiShingo Kawai
    • G01B11/28G01N21/25
    • G01N21/55G01B11/0625
    • A film thickness measuring device is provided with a light source, a spectroscopic sensor, a processor, and a storage unit, and configured in such a manner that light from the light source vertically enters a plane to be measured provided with a film and the light reflected by the plane to be measured enters the spectroscopic sensor. The storage unit stores theoretical values of reflectivity distributions of respective film thicknesses and theoretical values of color characteristic variables of the respective film thicknesses. The processor finds the thickness of the film of the plane to be measured from the reflectivity distribution measured by the spectroscopic sensor by using the theoretical values of the reflectivity distributions of the respective film thicknesses or the theoretical values of the color characteristic variables of the respective film thicknesses stored in the storage unit.
    • 膜厚测量装置设置有光源,光谱传感器,处理器和存储单元,并且被配置为使得来自光源的光垂直进入设置有被膜的待测平面,并且光 由待测平面反射的光进入光谱传感器。 存储单元存储各个膜厚度的各个膜厚度的反射率分布和各个膜厚度的色彩特性变量的理论值的理论值。 处理器通过使用各个膜厚度的反射率分布的理论值或各个膜的颜色特性变量的理论值,从由光谱传感器测量的反射率分布来求出要测量的平面的膜的厚度 存储在存储单元中的厚度。
    • 3. 发明授权
    • Hot melt applicator and nozzle used therefor
    • 热熔胶嘴和喷嘴用于此
    • US5934521A
    • 1999-08-10
    • US144081
    • 1998-08-31
    • Takeo YamadaKatsuhiko KoikeNorihiro KuzuuIsao OnoShozo Yodo
    • Takeo YamadaKatsuhiko KoikeNorihiro KuzuuIsao OnoShozo Yodo
    • B05B1/30B05B7/12B05C5/00B05C5/02B05C5/04B67D5/00
    • B05B1/306B05B7/1272B05C5/001B05C5/0225
    • There is provided a hot melt applicator including (a) a nozzle opening, (b) a valve seat disposed upstream of the nozzle opening, (c) an empty chamber formed between the nozzle opening and the valve seat, (d) a valve body movable to the valve seat so that the valve seat is open or closed, and (e) a spring for biasing the valve body; and a pneumatically driven cylinder for driving the spring. The valve body is shaped to be a cone having an apex angle facing the nozzle opening, and the valve seat is formed with a tapered surface which is to make a contact with the cone. The tapered surface has an angle greater than the apex angle of the cone, and has a length of at least 1 mm. The hot melt applicator uses a pneumatically driven cylinder for driving the valve body to thereby compress the spring which in turn compresses the valve body, and thus, avoids the great resistance of hot melt with the spring used as a large capacity. By slightly changing angles of the valve body and the valve seat, the leakage which would occur when the valve is closed is prevented. By setting a length of the taper surface of the valve seat which is to make contact with the valve body to be in the range of 1 mm to 2 mm, the present invention makes it possible to prevent making of glue filament for a glue having great viscosity such as hot melt. In addition, setting a stroke of the valve body in the range of 0.3 mm to 0.5 mm ensures more effectively to prevent making of glue filament.
    • 提供了一种热熔体施加器,其包括(a)喷嘴开口,(b)设置在喷嘴开口上游的阀座,(c)形成在喷嘴开口和阀座之间的空腔,(d)阀体 可移动到阀座,使得阀座打开或关闭,和(e)用于偏压阀体的弹簧; 以及用于驱动弹簧的气动驱动气缸。 阀体成形为具有面向喷嘴开口的顶角的锥体,阀座形成有与锥体接触的锥形表面。 锥形表面的角度大于锥体的顶角,并且具有至少1mm的长度。 热熔胶器采用气动驱动气缸驱动阀体,从而压缩弹簧,弹簧又压缩阀体,从而避免了与大容量弹簧相比的热熔胶的极大阻力。 通过稍微改变阀体和阀座的角度,可以防止当阀门关闭时发生的泄漏。 通过将与阀体接触的阀座的锥形表面的长度设定在1mm至2mm的范围内,本发明使得可以防止用于具有大的胶的胶丝长度 粘度如热熔。 此外,将阀体的行程设定在0.3mm至0.5mm的范围内,确保更有效地防止了胶丝的制造。
    • 8. 发明授权
    • High precision PLL with circuit for preventing erroneous capture
    • 高精度PLL,具有防止错误捕获的电路
    • US5053724A
    • 1991-10-01
    • US530183
    • 1990-05-29
    • Masanori OginoTakeo YamadaMiyuki Ikeda
    • Masanori OginoTakeo YamadaMiyuki Ikeda
    • H04N5/12G09G5/00G09G5/02G09G5/12G09G5/18H03L7/093H04N3/27
    • H03L7/093H03L2207/14
    • In a high prrecision PLL circuit arrangement, a phase detecting circuit produces a detecting signal which is directly proportional to a phase difference between a horizontal synchronizing signal and a voltage-controlled oscillating signal. A loop filter circuit produces a delay signal for delaying a frequency control at a predetermined time constant in response to the detecting signal derived from the phase detecting circuit. A voltage-controlled oscillating circuit produces an oscillating signal having a frequency directly proportional to a voltage of the delay signal from the loop filter circuit. A non-linear circuit includes a non-linear element for changing at least one of an AC gain and a DC gain of the loop filter circuit, and prevents an erroneous capture phenomenon of the PLL circuit arrangement in response to the detecting signal from the phase detecting circuit.
    • 在高精度PLL电路装置中,相位检测电路产生与水平同步信号和压控振荡信号之间的相位差成正比的检测信号。 环路滤波器电路响应于从相位检测电路导出的检测信号,产生用于延迟预定时间常数的频率控制的延迟信号。 压控振荡电路产生具有与来自环路滤波器电路的延迟信号的电压成正比的频率的振荡信号。 非线性电路包括用于改变环路滤波器电路的AC增益和DC增益中的至少一个的非线性元件,并且响应于来自相位的检测信号防止PLL电路装置的错误捕获现象 检测电路。
    • 9. 发明授权
    • Cathode ray tube display device
    • 阴极射线管显示装置
    • US4918359A
    • 1990-04-17
    • US335434
    • 1989-04-10
    • Masanori OginoTakeo YamadaMiyuki Ikeda
    • Masanori OginoTakeo YamadaMiyuki Ikeda
    • H04N3/16H04N3/18
    • H04N3/18
    • A vertical deflection circuit used in a cathode ray tube display device for shortening a vertical blanking period is disclosed which includes back-flow blocking diode means for preventing an oscillating current from flowing backward to a vertical push-pull output amplifier circuit in the vertical blanking period, resonating capacitor means, and electrostatic energy supplying means for energizing a fly-back pulse. The resonating capacitor means is provided to generate resonance due to the capacitance of the capacitor means and the inductance of a vertical deflection coil, on the basis of the electro-magnetic energy of the vertical deflection coil at a time immediately before a retrace line starts from the bottom of display screen, thereby producing a fly-back pulse. The back-flow blocking diode means prevents the fly-back pulse from flowing backward to the vertical output circuit, that is, prevents the fly-back pulse from de-energizing the output of the vertical output circuit. According to the above vertical deflection circuit, the power consumption in a vertical retrace operation is reduced, and a ratio of the vertical blanking period to a vertical scanning period can be made small. Accordingly, an effective scanning time is increased, and it becomes possible to display information precisely.
    • 公开了用于缩短垂直消隐期的阴极射线管显示装置中使用的垂直偏转电路,其包括用于防止振荡电流在垂直消隐期间向后流向垂直推挽输出放大器电路的反向流阻塞二极管装置 谐振电容器装置和用于激励回扫脉冲的静电能量供给装置。 谐振电容器装置被设置为基于电容器装置的电容和垂直偏转线圈的电感,基于垂直偏转线圈的电磁能在回扫线开始之前的时间产生谐振 显示屏的底部,从而产生回扫脉冲。 逆流阻塞二极管装置防止反向脉冲向后流向垂直输出电路,即防止回扫脉冲使垂直输出电路的输出断电。 根据上述垂直偏转电路,垂直回扫操作中的功耗降低,并且可以使垂直消隐周期与垂直扫描周期的比例变小。 因此,有效的扫描时间增加,可以精确地显示信息。
    • 10. 发明授权
    • Temperature measuring apparatus
    • 温度测量仪
    • US4095469A
    • 1978-06-20
    • US776901
    • 1977-03-11
    • Takeo YamadaKatsujiro WatanabeSeigo AndoAkira Kameyama
    • Takeo YamadaKatsujiro WatanabeSeigo AndoAkira Kameyama
    • G01K7/36G01R33/12
    • G01K7/36
    • An apparatus for measuring the temperature of a metallic body in a non-contact maner includes an electronic circuitry for measuring a change in the impedance of a detecting coil arranged oppposite to the metallic body. The electronic circuitry comprises an operational amplifier, a negative feedback circuit with adjustable feedback factor, a positive feedback circuit, an oscillator, a phase shifter circuit and a synchronous detection circuit. The change in the impedance of the detecting coil is caused by the effect of eddy current produced by the application of alternating field to the metallic body, and this impedance change is dependent on change in the temperature of the metallic body. By adjusting the negative feedback factor .beta..sub.N of the negative feedback circuit and the phase angle .theta. of the phase shifter circuit in the electronic circuitry, the relationship between the distance measured between the detecting coil and the metallic body and the measured output level, the temperature measuring sensitivity relative to the temperature of the metallic body and the temperature measuring sensitivity relative to the measuring distance can be determined as desired.
    • 用于测量非接触式接管装置中的金属体的温度的装置包括用于测量与金属体相对布置的检测线圈的阻抗变化的电子电路。 电子电路包括运算放大器,具有可调整反馈因子的负反馈电路,正反馈电路,振荡器,移相器电路和同步检测电路。 检测线圈的阻抗变化是由于通过对金属体施加交变场而产生的涡流的影响引起的,该阻抗变化取决于金属体的温度变化。 通过调整负反馈电路的负反馈因子βN和电子电路中移相器电路的相位角θ,检测线圈与金属体之间测得的距离与测量输出电平之间的关系,温度 可以根据需要确定相对于金属体的温度的测量灵敏度和相对于测量距离的温度测量灵敏度。