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    • 24. 发明授权
    • Reactor for the generation of water
    • 反应堆生成水
    • US06180067B2
    • 2001-01-30
    • US09160188
    • 1998-09-25
    • Tadahiro OhmiKoji KawadaYoshikazu TanabeNobukazu IkedaAkihiro MorimotoYukio Minami
    • Tadahiro OhmiKoji KawadaYoshikazu TanabeNobukazu IkedaAkihiro MorimotoYukio Minami
    • B01J1500
    • B01J12/007C01B5/00
    • An improved reactor for generating water from hydrogen and oxygen which allows production of moisture at a high conversion rate exceeding 99 percent with the temperature kept under some 400° C. inside the reactor shell (1) and with the water vapor production being more than 1,000 sccm. One form of the reactor (FIG. 1) according to the invention is constructed with a closed cylinder divided into two compartments by an interior partition, a first reactor structural component (2) and a second reactor structural component (3), united to define a sealed interior space (1a). The sealed interior space (1a) of the reactor shell (1) is partitioned by a diffusion filter (10) into a first chamber (1b) provided with an inlet reflector unit (9) and a second chamber (1c) provided with an outlet reflector-diffuser unit (11). On the inside surface of the second reactor structural component (1c) is formed a platinum coated catalyst layer (13). The inlet reflector unit (9) comprises a cylindrical casing (9a) mounted over a starting material gas feed port (2c) on the inside surface of the first reactor structural component (2), side openings (9c) formed in the casing (9a) and a reflector (9b) closing the open end of the casing (9a). The outlet reflector-diffuser unit (11) has a cylindrical casing (11a) fixed over a water vapor gas outlet port (3c) on the inside surface of the second reactor structural component (3), side openings (11e) formed in the casing, a reflector (11b) closing the open end of the casing (11a), an outlet diffusion filter (11c) provided inside the casing (11a) and a platinum coated catalyst layer (11d) formed on the outlet diffusion filter (11c).
    • 一种用于从氢气和氧气产生水的改进的反应器,其允许在反应器壳(1)内保持在约400℃的温度下以高转化率生产超过99%的水分,并且水蒸汽产生量大于1,000 sccm。 根据本发明的反应器(图1)的一种形式被构造成具有通过内部分隔件分成两个隔间的封闭圆筒,第一反应器结构部件(2)和第二反应器结构部件(3),所述第一反应器结构部件(2)和第二反应器结构部件 密封的内部空间(1a)。 反应器壳体(1)的密封内部空间(1a)被扩散过滤器(10)分隔成具有入口反射器单元(9)的第一室(1b)和设置有出口 反射器 - 扩散器单元(11)。 在第二反应器结构部件(1c)的内表面上形成有镀铂催化剂层(13)。 入口反射器单元(9)包括安装在第一反应器结构部件(2)的内表面上的原料气体供给口(2c)上的圆柱形壳体(9a),形成在壳体(9a)中的侧开口(9c) )和闭合壳体(9a)的开口端的反射器(9b)。 出口反射器 - 扩散器单元(11)具有固定在第二反应器结构部件(3)的内表面上的水蒸汽气体出口(3c)上的圆筒形壳体(11a),形成在壳体中的侧开口(11e) ,封闭壳体(11a)的开口端的反射器(11b),设置在壳体(11a)内部的出口扩散过滤器(11c)和形成在出口扩散过滤器(11c)上的镀铂催化剂层(11d) 意大利
    • 25. 发明授权
    • Pressure type flow rate control apparatus
    • 压力式流量控制装置
    • US5816285A
    • 1998-10-06
    • US907951
    • 1997-08-11
    • Tadahiro OhmiKoji NishinoNobukazu IkedaAkihiro MorimotoYukio MinamiKoji KawadaRyosuke DohiHiroyuki Fukuda
    • Tadahiro OhmiKoji NishinoNobukazu IkedaAkihiro MorimotoYukio MinamiKoji KawadaRyosuke DohiHiroyuki Fukuda
    • G05D7/06G05D16/20F16K31/12
    • G05D7/0635Y10T137/7759Y10T137/7761
    • A pressure type flow rate control apparatus (1) controls flow rate of a fluid in an environment where a ratio of P2/P1 between an absolute pressure P1 at an upstream side of an orifice and an absolute pressure P2 at a downstream side of the orifice is maintained at a value less than about 0.7. The apparatus comprises: a plate for forming the orifice (5); a control valve (2) positioned upstream of the orifice; an orifice corresponding valve (9) positioned downstream of the orifice (5); a primary pressure detector (3) positioned between the control valve (2) and the orifice (5); a secondary pressure detector (11) positioned downstream of the orifice (5); a calculation control device (6) for calculating flow rate Qc on the basis of the measured pressure P1 of the primary pressure detector (3) by a formula Qc=KP1 (K being a constant) and for outputting as a control signal Qy a difference between a flow rate command signal Qs and the calculated flow rate signal Qc to a drive unit (14) of the control valve 2; and a pressure comparing, calculating apparatus (10) for calculating the ratio of P2/P1 between the detected pressure P1 of the primary pressure detector (3) and the detected pressure P2 of the secondary pressure detector (11). The pressure P1 upstream of the orifice is adjusted by opening and closing the control valve by the control signal Qy, thereby controlling the flow rate downstream of the orifice.
    • 压力式流量控制装置(1)控制在孔口上游侧的绝对压力P1和孔口下游侧的绝对压力P2之间的P2 / P1的比例的环境中的流体流量 保持在小于约0.7的值。 该装置包括:用于形成孔口(5)的板; 位于孔口上游的控制阀(2); 位于孔口(5)下游的孔对应阀(9); 位于控制阀(2)和孔(5)之间的主要压力检测器(3); 位于孔口(5)下游的二次压力检测器(11); 计算控制装置(6),用于通过公式Qc = KP1(K为常数)计算基于所测量的主压力检测器(3)的压力P1的流量Qc,并且作为控制信号Qy输出差 在流量指令信号Qs和计算出的流量信号Qc之间,与控制阀2的驱动单元(14)之间; 以及压力比较计算装置(10),用于计算一次压力检测器(3)的检测压力P1与二次压力检测器(11)的检测压力P2之间的P2 / P1的比。 通过控制信号Qy打开和关闭控制阀来调节孔口上游的压力P1,从而控制孔口下游的流速。
    • 27. 发明授权
    • Multilayer circuit board and electronic device
    • 多层电路板和电子设备
    • US08217270B2
    • 2012-07-10
    • US11990860
    • 2006-08-18
    • Tadahiro OhmiAkinobu TeramotoAkihiro Morimoto
    • Tadahiro OhmiAkinobu TeramotoAkihiro Morimoto
    • H05K1/03
    • H05K1/024H05K3/4602H05K3/4626H05K3/4673H05K2201/0116H05K2201/0195H05K2201/0209H05K2201/0254
    • A multilayered circuit board which is provided with a low-permittivity interlayer insulating film, and which can significantly improve the performance such as signal transmission characteristics of the multilayered circuit board such as a package and a printed board, because the surface in contact with the interlayer insulating film of the circuit board has no unevenness to eliminate the lowering of production yield and the deterioration of high-frequency signal transmission characteristics; and electronic equipment using the circuit board. The multilayered circuit board comprises, mounted on a substrate, plural wiring layers and plural insulating layers positioned between the plural wiring layers, wherein at least part of the plural insulating layers are composed of a porous insulating layer containing at least any of materials selected from a porous material group consisting of porous material, aerogel, porous silica, porous polymer, hollow silica and hollow polymer, and a non-porous insulating layer formed on at least one surface of the porous insulating layer and not containing the porous material group.
    • 具有低介电常数层间绝缘膜的多层电路板,能够显着地提高诸如封装和印刷电路板的多层电路板的信号传输特性等性能,因为与中间层 电路板的绝缘膜没有不均匀性,消除了生产成本的降低和高频信号传输特性的恶化; 和使用电路板的电子设备。 多层电路板包括安装在基板上的多个布线层和位于多个布线层之间的多个绝缘层,其中多个绝缘层的至少一部分由多孔绝缘层组成,多孔绝缘层至少含有选自 由多孔材料,气凝胶,多孔二氧化硅,多孔聚合物,中空二氧化硅和中空聚合物组成的多孔材料组和形成在多孔绝缘层的至少一个表面上并且不包含多孔材料组的无孔绝缘层。
    • 29. 发明授权
    • Valve for vacuum exhaustion system
    • 真空排气系统阀门
    • US07988130B2
    • 2011-08-02
    • US12208949
    • 2008-09-11
    • Tadahiro OhmiNobukazu IkedaMichio YamajiMasafumi KitanoAkihiro Morimoto
    • Tadahiro OhmiNobukazu IkedaMichio YamajiMasafumi KitanoAkihiro Morimoto
    • F16K7/17
    • F16K7/14F16K27/003F16K51/02
    • The invention provides a valve and a method of operating the valve that makes it possible to reduce the diameter of the vacuum exhaustion pipings to make the facility for the vacuum exhaustion system small, which results in lower costs and shortens vacuum exhaustion time, and also which can prevent corrosion, cloggings, and seal leakages inside the piping system caused by the accumulation of substances produced by the decomposition of gas flowing through the pipings. In particular, in accordance with the present invention, an aluminum passivation is applied on the piping parts, i.e. the valve and others, that are used in the vacuum exhaustion system so as to inhibit gas decomposition caused by temperature rise at the time of baking so that components for reduction in the diameter size in the vacuum exhaustion system are provided. Thus, corrosion, cloggings and seat leakages caused by gas decomposition are prevented.
    • 本发明提供了一种操作阀门的阀门和方法,其使得可以减小真空排气管道的直径,从而使得真空耗尽系统的设备较小,这导致降低成本并缩短真空耗尽时间,以及哪些 可以防止由流经管道的气体分解产生的物质积聚引起的管道系统内的腐蚀,堵塞和密封泄漏。 特别地,根据本发明,在真空耗尽系统中使用的管道部件即阀等上施加铝钝化,以便抑制由于烘烤时由温度升高引起的气体分解 提供了用于减小真空排气系统中的直径尺寸的部件。 因此,防止由气体分解引起的腐蚀,堵塞和座椅泄漏。