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    • 1. 发明申请
    • METHOD OF MANUFACTURING EXHAUST GAS PURIFYING APPARATUS AND EXHAUST GAS PURIFYING APPARATUS
    • 制造排气净化装置和排气净化装置的方法
    • US20120186455A1
    • 2012-07-26
    • US13352661
    • 2012-01-18
    • Hisashi ANDOTakahiko OKABE
    • Hisashi ANDOTakahiko OKABE
    • F01N11/00B23P17/04
    • F01N13/008F01N3/2853F01N2350/02F01N2350/04F01N2450/02F01N2560/00
    • A method of manufacturing an exhaust gas purifying apparatus includes providing an exhaust gas-treating body. A holding sealing material is provided. The holding sealing material includes inorganic fibers. The holding sealing material has a first end face and a second end face each provided approximately in parallel with a width direction. The holding sealing material is wound around a periphery of the exhaust gas-treating body to form a gap between the first end face and the second end face. The exhaust gas-treating body with the holding sealing material is housed in a casing. At least one of a first electrode member and a first sensor is disposed at the gap of the holding sealing material so that at least one of the first electrode member and the first sensor is connected to the exhaust gas-treating body, passes through the holding sealing material, and penetrates the casing.
    • 废气净化装置的制造方法包括提供废气处理体。 提供保持密封材料。 保持密封材料包括无机纤维。 保持密封材料具有大致平行于宽度方向的第一端面和第二端面。 保持密封材料缠绕在废气处理体的周围,以在第一端面和第二端面之间形成间隙。 具有保持密封材料的废气处理体容纳在壳体中。 第一电极构件和第一传感器中的至少一个设置在保持密封材料的间隙处,使得第一电极构件和第一传感器中的至少一个与排气处理体连接,穿过保持 密封材料,并穿透套管。
    • 2. 发明授权
    • Recording material
    • 录音材料
    • US4726858A
    • 1988-02-23
    • US643293
    • 1984-08-22
    • Tetsuro MinemuraHisashi AndoIsao IkutaYoshiaki Kita
    • Tetsuro MinemuraHisashi AndoIsao IkutaYoshiaki Kita
    • G11B7/243C22C9/00C22C5/02C22C5/06C22C20/00
    • G11B7/243G11B2007/24308Y10S430/146
    • A recording material made of an alloy capable of exhibiting different spectral reflectances at an equal temperature, depending on a heating-cooling cycle to which the alloy is subjected. The alloy can possess in solid state different crystal structures at a first temperature higher than the room temperature and at a second temperature lower than the first temperature but not lower than the room temperature. A part of the surface of the alloy exhibits, as a result of being quenched from the first temperature, a crystal structure which is different from the crystal structure at the second temperature, while the other part possesses the crystal structure at the second temperature, so that these two parts exhibit different spectral reflectances. Using this recording medium, it is possible to record, reproduce and erase information by means of, for example, laser beams.
    • 根据合金所经受的加热 - 冷却循环,由能够在相同温度下显示不同光谱反射率的合金制成的记录材料。 该合金在高于室温的第一温度和低于第一温度但不低于室温的第二温度下可以具有固态不同的晶体结构。 合金表面的一部分由于从第一温度骤冷而显示与第二温度下的晶体结构不同的晶体结构,另一部分在第二温度下具有晶体结构,因此, 这两个部分表现出不同的光谱反射率。 使用该记录介质,可以通过例如激光束来记录,再现和擦除信息。
    • 3. 发明授权
    • Surge-absorberless vacuum circuit interrupter
    • 浪涌吸收器真空断路器
    • US4551596A
    • 1985-11-05
    • US478306
    • 1983-03-24
    • Ryuji WatanabeHisashi AndoKeiichi KuniyaYukio Kurosawa
    • Ryuji WatanabeHisashi AndoKeiichi KuniyaYukio Kurosawa
    • H01H33/66H01H1/02H01H1/0233H01H33/664
    • H01H33/664H01H1/0203H01H1/0233
    • A small-sized, light weighted vacuum circuit interrupter is provided. The interrupter comprises a vacuum container confining a vacuum atmosphere of a pressure less than 10.sup.-5 mmHg and a pair of electrodes at least one of which is a movable electrode for making and breaking an electric circuit including either a transformer of a rated surge voltage strength of less than 45 kV or a motor of a rated surge voltage strength of less than 25 kV. At least one of the electrodes has a contact made of a porous body of a refractory conductive material and an impregnate selected from the group consisting of silver telluride, silver selenide and mixtures thereof impregnated in the porous body in an amount sufficient to give the interrupter a chopping current of not more than 1A and an arc extinguishing capability at 1MHz of not more than 27 A/.mu.s when measured in a circuit of 6 kV. The interrupter can be connected to the load without a surge absorber for protecting the breaker from a surge voltage generated at the time of interrupting the circuit.
    • 提供了一个小型轻型真空断路器。 断流器包括限制压力小于10-5mmHg的真空气氛的真空容器和一对电极,其中至少一个是可动电极,用于制造和断开包括额定浪涌电压强度的变压器的电路 小于45kV的电动机或额定浪涌电压强度小于25kV的电动机。 所述电极中的至少一个具有由耐火导电材料的多孔体制成的接触体和浸渍在多孔体中的浸渍剂,所述浸渍物选自碲化镉,硒化银及其混合物,其量足以给断流器a 在6 kV的电路中测量时,斩波电流不大于1A,1MHz时的灭弧能力不大于27 A /μs。 断路器可以连接到负载而没有浪涌吸收器,用于保护断路器免受中断电路时产生的浪涌电压。
    • 6. 发明授权
    • Holding sealing material, exhaust gas purifying apparatus, and method for manufacturing exhaust gas purifying apparatus
    • 保持密封材料,废气净化装置以及废气净化装置的制造方法
    • US08632620B2
    • 2014-01-21
    • US13354340
    • 2012-01-20
    • Hisashi AndoTakahiko Okabe
    • Hisashi AndoTakahiko Okabe
    • B01D39/14B01D39/06B01D24/00B01D50/00
    • F01N13/008F01N3/2853Y10T29/49002
    • A holding sealing material includes inorganic fibers, a mat shape, a first and a second end faces, a contact section and a void-forming section. The first end face and the second end face are approximately parallel in a width direction. The contact section includes a first distance between the first and the second end faces. The first distance is longest in a length direction. The void-forming section includes a second distance between the first and the second end faces. The second distance is shorter than the first distance. The holding sealing material has a structure to provide a void in a vicinity of the first and the second end faces of the void-forming section in a state where the holding sealing material is rolled up so that the first end face is made in contact with the second end face of the contact section.
    • 保持密封材料包括无机纤维,垫子形状,第一和第二端面,接触部分和空隙形成部分。 第一端面和第二端面在宽度方向上大致平行。 接触部分包括第一和第二端面之间的第一距离。 第一个距离在长度方向上最长。 空隙形成部分包括第一和第二端面之间的第二距离。 第二距离比第一距离短。 保持密封材料具有在保持密封材料被卷起的状态下在空隙形成部分的第一和第二端面附近提供空隙的结构,使得第一端面与 接触部分的第二端面。