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    • 1. 发明专利
    • Bamboo fence assembling method enabling anyone to assemble and construct the fence for oneself
    • BAMBOO FENCE组装方法启用任何人组装和构建ONESELF的FENCE
    • JP2008175043A
    • 2008-07-31
    • JP2007053450
    • 2007-01-22
    • Kiyoshi Nakamura紀代志 中村
    • NAKAMURA KIYOSHI
    • E04H17/14E04H17/22
    • PROBLEM TO BE SOLVED: To improve price and executability of work, which are equations in assembling a bamboo fence, and to solve the problems in usability and appearance of a member and reduction of transport cost.
      SOLUTION: As shown in Fig. 5, when a post is fixed to the ground at a moderate height and secured by concreting, as if a fabric is woven in order from below, horizontal bamboos are stacked from the bottom to the top and bound by a hemp-palm rope, and such stacking work is repeated, whereby this work can be done alone. In erecting the post, built-up hardware can cope with the underground concrete or the like to finish the construction in a short time. A molten zinc-plated steel pipe is used to have the life span of 15 to 20 years. Moreover, this type of bamboo fence has the same pattern on both sides, seen from the house side and from the road side. As for the transport cost, the built-up hardware and the molten zinc-plated steel pipe are bundled to be transported to a faraway place by the method less requiring the space.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提高组装竹栅栏方程式的工作价格和可执行性,解决会员可用性和外观上的问题,降低运输成本。 解决方案:如图1所示。 如图5所示,当柱固定在中等高度的地面并通过混凝土固定时,仿佛织物从下方按顺序织造,水平竹子从底部到顶部堆叠并由大麻掌绳捆绑,并且 重复这种堆垛工作,从而可以单独进行这项工作。 在建立岗位时,建筑硬件可以处理地下混凝土等,以便在短时间内完成施工。 使用熔融镀锌钢管的使用寿命为15至20年。 此外,这种类型的竹篱笆从房屋侧和路边看都是相同的。 对于运输成本,堆积的硬件和熔融镀锌钢管捆绑在一起,通过较少需要空间的方法运输到遥远的地方。 版权所有(C)2008,JPO&INPIT
    • 2. 发明专利
    • Hydroponic apparatus
    • 液压装置
    • JP2005095135A
    • 2005-04-14
    • JP2004019339
    • 2004-01-28
    • Kiyoshi Nakamura中村 清
    • NAKAMURA KIYOSHI
    • A01G31/00
    • Y02P60/216
    • PROBLEM TO BE SOLVED: To provide a hydroponic apparatus that can stably feed oxygen into the underground part of the plant and a method for hydroponics. SOLUTION: This apparatus is equipped with a bed body that has grooves for flowing the cultivation liquid and water absorption sheets that are put on the main body of the bed. In this case, the bed body is inclined so that the cultivation liquid may smoothly flow down along the grooves. The water absorption sheets are set so that they may absorb the cultivation liquid in the grooves. The seedlings of plants to be grown are set on the absorption sheets. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种能够稳定地将氧气输送到植物的地下部分的水栽设备和水耕法的方法。 解决方案:该装置具有床体,该床体具有用于流动放置在床主体上的培养液和吸水片的槽。 在这种情况下,床体倾斜,使得培养液体可沿着槽顺畅地向下流动。 吸水片设置成可以吸收槽中的培养液。 将要生长的植物的幼苗置于吸收片上。 版权所有(C)2005,JPO&NCIPI
    • 3. 发明专利
    • PIEZOELECTRIC VIBRATOR TO SUPPRESS LOWER ORDER HIGHER HARMONIC VIBRATION
    • JPH11163669A
    • 1999-06-18
    • JP30941397
    • 1997-10-23
    • TOYO COMMUNICATION EQUIPKIYOSHI NAKAMURA
    • KIYOSHI NAKAMURAHIRAMA KOICHI
    • H03H3/013H03H9/02H03H9/09H03H9/19
    • PROBLEM TO BE SOLVED: To suppress lower order higher harmonic vibrations by connecting an electrical equivalent circuit of a vibrator to a series resonance circuit consisting of a main electrode, while connecting a series resonance circuit consisting of a sub-electrode and a vibration absorber in parallel to a coupling capacity representing connection of the main and sub-electrodes, and allowing a resonance circuit loop frequency including the main electrode and that including the sub-electrode to be identical. SOLUTION: A pair of main electrodes 2a and 2b facing each other are provided on the top and under surfaces located almost at the center of a piezoelectric substrate 1. Then facing sub-electrodes 3a and 3b are placed at both sides near the electrodes 2a and 2b with a gap (g) secured between them. A substance 4, e.g. a conductive coating material that mechanically absorbs vibration energy is applied to the electrodes 3a and 3b. Then input resistance is maximized and lower order higher harmonic vibrations are suppressed by means of an equivalent circuits L1, C1 and R1 of mechanical resonance of electrodes 2a and 2b, an equivalent circuits L2, C2 and R2 of mechanical resonance of electrodes 3a and 3b, an electrostatic capacity CO secured between the electrodes 2a and 2b, and an acoustic connection Ck secured between the electrodes 2a/2b and 3a/3b.
    • 4. 发明授权
    • Method for controlling mold clamping device
    • 用于控制夹紧装置的方法
    • US08244397B2
    • 2012-08-14
    • US12392784
    • 2009-02-25
    • Takashi HakodaIsamu KomamuraHaruo OkadaKiyoshi Nakamura
    • Takashi HakodaIsamu KomamuraHaruo OkadaKiyoshi Nakamura
    • B29C45/03
    • B29C45/82B29C45/76B29C2945/76083B29C2945/7611B29C2945/76227B29C2945/76387B29C2945/76575B29C2945/76595B29C2945/76705B29C2945/76866
    • A predetermined speed control pattern B is sct. In a mold clamping process, in a mold closing section Zm, mold closing control is performed at a mold closing speed Vm, and based on a current mold closing speed Vd and a current mold closing position Xd, which are both detected, a deceleration starting position Xmc of the deceleration section Zmd, where the current mold closing speed Vd becomes a zero (O) at a virtual stop position Xc, is sequentially forecasted at each predetermined time interval by calculation. Upon reaching the deceleration starting position Xmc the deceleration section Zmd is started, and in the deceleration section Zmd, based on the detected current mold closing position Xd, a speed command value Dm corresponding to the speed control pattern B is obtained sequentially by calculation, and according to the speed command value Dm deceleration control is performed. Upon reaching a mold clamping-transition speed Vc, a predetermined mold clamping processing is performed via a low-pressure low-speed section Zc.
    • 预定的速度控制模式B是sct。 在合模过程中,在模具闭合部分Zm中,以模具闭合速度Vm执行模具闭合控制,并且基于当前的模具闭合速度Vd和当前的模具闭合位置Xd,两者都被检测到减速开始 在虚拟停止位置Xc处的当前模具关闭速度Vd变为零(O)的减速部分Zmd的位置Xmc通过计算在每个预定时间间隔被顺序预测。 在到达减速开始位置Xmc时,减速部分Zmd开始,在减速部分Zmd中,根据检测到的当前模具关闭位置Xd,通过计算顺序地获得与速度控制模式B相对应的速度指令值Dm, 根据速度指令值Dm进行减速控制。 在达到模具夹紧转变速度Vc时,通过低压低速部分Zc执行预定的模具夹紧处理。
    • 5. 发明授权
    • Method for controlling mold clamping device
    • 用于控制夹紧装置的方法
    • US08239058B2
    • 2012-08-07
    • US12392799
    • 2009-02-25
    • Takashi HakodaIsamu KomamuraHaruo OkadaKiyoshi Nakamura
    • Takashi HakodaIsamu KomamuraHaruo OkadaKiyoshi Nakamura
    • B29C45/03
    • B29C45/82B29C45/80B29C2945/76083B29C2945/7611B29C2945/76227B29C2945/76394B29C2945/76575B29C2945/76595B29C2945/76705B29C2945/76872
    • A predetermined speed control pattern A is set. In controlling mold opening, in the mold opening section Zm, mold opening control is performed at the mold opening speed Vm, and based on a current mold opening speed Vd and a current mold opening position Xd, which are both detected, a deceleration starting position Xmc of the deceleration section Zmd where a current mold opening speed Vd becomes a zero (O) at a virtual stop position Xso is sequentially forecasted at each predetermined time interval by calculation. Upon reaching the deceleration starting position Xmc the deceleration section Zmd is started, and in the deceleration section Zmd, based on the detected current mold opening position Xd, a speed command value Dm corresponding to the speed control pattern A is obtained sequentially by calculation, and according to the speed command value Dm deceleration control is performed. Upon reaching a last-transition speed Vc, a predetermined stop controlling processing is performed.
    • 设定预定速度控制模式A. 在控制开模时,在开模部Zm中,以开模速度Vm进行开模控制,并且根据检测到的当前的开模速度Vd和当前的开模位置Xd,设定减速开始位置 通过计算,在每个预定时间间隔顺序地预测在虚拟停止位置Xso处当前模具打开速度Vd变为零(O)的减速部分Zmd的Xmc。 到达减速开始位置Xmc时,减速部Zmd开始,在减速部Zmd中,根据检测到的当前开模位置Xd,通过计算顺序地获得与速度控制图案A对应的速度指令值Dm, 根据速度指令值Dm进行减速控制。 达到最后转变速度Vc时,执行预定的停止控制处理。
    • 10. 发明授权
    • Control system for electric vehicle
    • 电动汽车控制系统
    • US5847534A
    • 1998-12-08
    • US696660
    • 1996-08-14
    • Tokunosuke TanamachiKiyoshi Nakamura
    • Tokunosuke TanamachiKiyoshi Nakamura
    • B60L9/18B60L3/10H02P27/06H02P5/34
    • B60L3/10B60L2200/26B60L2220/12Y02T10/7258
    • The control system is constructed so that an inverter output frequency command is increased/decreased based on a frequency-to-time rate-of-change command, and the frequency-to-time rate-of-change command is controlled with a current control system. Further, it is also constructed so that the frequency-to-time rate-of-change command is adjusted and the current command is changed with a readhesion control system. The control system is capable of accelerating and decelerating the vehicle with a torque corresponding to an inverter output current command which is generated basically without using any rotational frequency of induction motor, and further capable of accelerating and decelerating the vehicle with a torque corresponding to a value near the limit adhesion between the wheel and the rail under a condition of occurrence of slip/skid.
    • 控制系统被构造成使得基于频率 - 时间变化率指令来增加/减少逆变器输出频率命令,并且利用电流控制来控制频率 - 时间变化率指令 系统。 此外,还构造为使得频率 - 时间变化率指令被调整,并且当前命令随着再附着控制系统而改变。 控制系统能够以基本上不使用感应电动机的任何转速来生成的逆变器输出电流指令的转矩加速和减速,并且还能够以对应于值的转矩来加速和减速车辆 在发生滑移/滑动的情况下靠近车轮和轨道之间的极限粘附。