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    • 5. 发明专利
    • Actuator
    • 执行器
    • JP2007236078A
    • 2007-09-13
    • JP2006053165
    • 2006-02-28
    • Toshiro HiguchiTokai Riken Kk東海理研株式会社俊郎 樋口
    • HIGUCHI TOSHIROHARADA YUSUKEUENO TOSHIYUKI
    • H02N10/00
    • PROBLEM TO BE SOLVED: To provide an actuator that performs pendulum motion or rolling motion using thermal deformation. SOLUTION: This actuator 1 is provided with a curved plate 2, a heat-exchanging unit 3 in contact with the external surface 2a of the curved plate 2 to exchange heat with the curved plate 2, and a heater 4 incorporated in the heat-exchanging unit 3. The curved plate 2 is formed by curving a bimetallic strip, which is deformed recoverably, into roughly a C shape. By heating the heat-exchanging unit 3 by the heater 4 in this actuator 1, the curved plate 2 is thermally deformed by the heat exchange caused by the temperature difference between the curved plate 2 and the heat-exchanging unit 3, so that it performs the pendulum motion on the heat-exchanging unit 3. On the other hand, a cylindrical plate formed by bending the bimetallic strip into a circle and by joining the ends performs the rolling motion, by being heated on the heat-exchanging unit. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供使用热变形执行摆动运动或滚动运动的致动器。 解决方案:该致动器1设置有弯曲板2,与弯曲板2的外表面2a接触以与弯曲板2进行热交换的热交换单元3,以及加热器4 热交换单元3.弯曲板2通过将可恢复变形的双金属条弯曲成大致C形而形成。 通过在该致动器1中通过加热器4加热热交换单元3,弯曲板2由于弯曲板2和热交换单元3之间的温差引起的热交换而发生热变形,从而其执行 在热交换单元3上的摆动作。另一方面,通过将双金属条弯曲成圆形并通过连接端部而形成的圆柱形板通过在热交换单元上被加热而进行滚动运动。 版权所有(C)2007,JPO&INPIT
    • 6. 发明专利
    • Magnetometric sensor
    • 磁电传感器
    • JP2005257477A
    • 2005-09-22
    • JP2004069736
    • 2004-03-11
    • Toshiro HiguchiToyota Industries Corp株式会社豊田自動織機俊郎 樋口
    • UENO TOSHIYUKIHIGUCHI TOSHIRO
    • G01R33/02
    • PROBLEM TO BE SOLVED: To improve handleability of a magnetometric sensor for detecting the position of an object or its displacement.
      SOLUTION: This magnetometric sensor 100 is equipped with a magnetostrictive material 1, piezoelectric materials 2a, 2b bonded to the magnetostrictive material 1, and a permanent magnet 3. When installing the magnetometric sensor 100 near a detection object 11, a magnetic flux loop passing the magnetostrictive material 1 and a magnetic flux loop passing the detection object 11 are formed. When the gap length between the magnetometric sensor 100 and the detection object 11 is changed, a flow of the magnetic flux is changed, and the electric field intensity applied to the magnetostrictive material 1 is changed. Since the magnetostrictive material 1 is distorted corresponding to the intensity of an applied magnetic field, the piezoelectric materials 2a, 2b are deformed in accompany therewith, and a voltage corresponding to the deformation is generated.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提高用于检测物体的位置或其位移的磁力计传感器的可操作性。 解决方案:该磁力计传感器100配备有磁致伸缩材料1,结合到磁致伸缩材料1的压电材料2a,2b和永磁体3.当将磁力计传感器100安装在检测对象11附近时, 形成通过磁致伸缩材料1的环路和通过检测对象物11的磁通环路。 当磁力计传感器100和检测对象11之间的间隙长度改变时,磁通量的流动改变,施加到磁致伸缩材料1的电场强度改变。 由于磁致伸缩材料1对应于所施加的磁场的强度而变形,所以压电材料2a,2b随之变形,产生与变形相对应的电压。 版权所有(C)2005,JPO&NCIPI
    • 7. 发明专利
    • Minute three-dimensional structure and its manufacturing method due to irradiation with laser
    • 分钟三维结构及其与激光辐射的制造方法
    • JP2005238481A
    • 2005-09-08
    • JP2004047929
    • 2004-02-24
    • Toshiro Higuchi俊郎 樋口
    • HIGUCHI TOSHIROTSUKADA NAGAHIRO
    • B29C35/08B29C59/16B29C67/00B29L7/00
    • PROBLEM TO BE SOLVED: To provide a manufacturing method of a minute three-dimensional structure due to the irradiation with a laser capable of simply and inexpensively manufacturing the minute three-dimensional structure on a thermoplastic material, and to provide the minute three-dimensional structure.
      SOLUTION: A liquid 2 through which the laser transmits is arranged on the thermoplastic material 1 and the thermoplastic material 1 is continuously irradiated with the laser through the liquid 2 not only to fluidize the thermoplastic material 1 of the laser irradiated part to grow the same in the optical axis direction of the laser 3 but also to form a projected structure 1D of the thermoplastic material.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供由于能够简单且廉价地在热塑性材料上制造微小的三维结构的激光器的照射而提供微小的三维结构的制造方法,并且提供三分之一 维度结构。 解决方案:激光发射的液体2布置在热塑性材料1上,热塑材料1通过液体2连续照射激光,不仅使激光照射部分的热塑性材料1流化成长 在激光器3的光轴方向上相同,而且也形成热塑性材料的突出结构1D。 版权所有(C)2005,JPO&NCIPI
    • 10. 发明专利
    • Microchannel manufacturing method for nonspherical, definite-shape polymer particle and the particle
    • 非离子型,定形聚合物颗粒和颗粒的微通道制造方法
    • JP2005255987A
    • 2005-09-22
    • JP2005031270
    • 2005-02-08
    • Toshiro HiguchiSoken Chem & Eng Co LtdToru Torii俊郎 樋口綜研化学株式会社徹 鳥居
    • TORII TORUHIGUCHI TOSHIRONISHISAKO TAKASHITAKIZAWA YOICHITAKAHASHI TAKANORI
    • C08F2/18
    • PROBLEM TO BE SOLVED: To provide a microchannel manufacturing method for nonspherical, definite-shape polymer particles, wherein the definite-shape polymer particles each having a nonspherical shape such as semisphere, disc, or dumbbell are manufactured continuously, and the nonspherical, definite-shape polymer particles.
      SOLUTION: An oily fluid 6a of a polymerization-curable resin component and a noncurable oily fluid 6b are transferred through a first microchannel 1 as an O-phase continuous fluid phase to form multiple-split-phase fluid phases with at least not less than two split-phases, a discharged material 10 that is continuously or intermittently discharged into a spherical liquid droplet phase of a W-phase (or water-phase) 7 flowing in a second microchannel 2 is made to be spherical liquid droplets 12' of a primary formed material and discharged into the second microchannel 2, while it is being transferred in the spherical liquid droplet phase under an O/W type correlation, and then the non-curable oily fluid component 6b is exfoliated, in the course of the polymerization/curing of the polymerization-curable oily fluid resin component 6a, to form the nonspherical, definite-shape polymer particles as empty shells of the primary formed material.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供一种非球形,特定形状的聚合物颗粒的微通道制造方法,其中,连续地制造每个具有非球形形状的半球形,圆盘或哑铃的确定形状的聚合物颗粒,并且非球形 ,定形聚合物颗粒。 解决方案:可聚合固化的树脂组分和不可油性的油性液体6b的油状液6a通过作为O相连续流体相的第一微通道1转移以形成多个分相流体相,至少不含 少于两个分相,连续或间歇地排放到在第二微通道2中流动的W相(或水相)7的球形液滴相的排出材料10被制成球形液滴12' 的初级成形材料,并在O / W型相关性下被转移到球形液滴相中并排出到第二微通道2中,然后将非可固化油性流体组分6b剥离 可聚合固化的油性液体树脂组分6a的聚合/固化,以形成作为主要成型材料的空壳的非球形的确定形状的聚合物颗粒。 版权所有(C)2005,JPO&NCIPI