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    • 1. 发明授权
    • Heat dispersion device for use in an electronic apparatus
    • 用于电子设备的散热装置
    • US3961666A
    • 1976-06-08
    • US417520
    • 1973-11-20
    • Tadao SuzukiHirohito KawadaYasuo Sugimoto
    • Tadao SuzukiHirohito KawadaYasuo Sugimoto
    • H01L23/40H01L23/467H05K7/20F24H9/02
    • H05K7/209H01L23/4006H01L23/467H01L2023/405H01L2023/4056H01L2924/0002Y10S165/33
    • A heat dispersion device for use in an apparatus having at least one heat-generating electronic element, such as, a power transistor, includes a thermally conductive heat dispersion member having a portion on which the heat-generating electronic element is mounted and a set of fins defining channels therebetween opening at the top and bottom of the set of fins, and a duct extending upwardly from the set of fins and communicating with the channels between the latter so that the generated heat is dispersed to air flowing upwardly in the channels and the heated air is conducted upwardly in the duct away from the heat dispersion member. For maximum effectiveness, the distance from the bottom of the set of fins to the top of the duct is made at least twice as large as the distance between the top and bottom of the set of fins. Further, the heat dispersion device may include a plurality of heat dispersion members, as aforesaid, assembled together with one or more ducts to provide a required heat dispersing capacity.
    • 一种用于具有至少一个发热电子元件(诸如功率晶体管)的装置中的散热装置,包括具有安装有发热电子元件的部分的导热散热构件,以及一组 在翅片组的顶部和底部限定通道的翅片,以及从该组翼片向上延伸并与其间的通道连通的管道,使得所产生的热分散到在通道中向上流动的空气中, 加热的空气在管道中向上导引远离散热构件。 为了获得最大效力,从翅片组的底部到管道顶部的距离至少是翅片组的顶部和底部之间的距离的两倍。 此外,散热装置可以包括如上所述的多个散热构件,其与一个或多个管道组装在一起以提供所需的散热能力。
    • 2. 发明授权
    • Terminal apparatus
    • 终端设备
    • US3973822A
    • 1976-08-10
    • US529088
    • 1974-12-03
    • Yasuo Sugimoto
    • Yasuo Sugimoto
    • H01R4/10H01R4/16H01R4/18H01R4/48H01R4/50H01R9/12
    • H01R4/489H01R4/5008
    • A terminal apparatus used for connecting a lead wire to a terminal, includes a cylindrical rotor having an operating knob and a hole for inserting the lead wire therethrough, and a terminal plate having spring effect. The lead wire inserted through the hole is fixed or released between the surface of the cylindrical rotor and the terminal plate in response to the rotation of the cylindrical rotor. In the fixed position, the lead wire is prevented from disengaging in the presence of an outward drawing force by the spring effect of the terminal plate together with corners of the rotor hole.
    • 用于将引线连接到端子的端子装置包括具有操作旋钮和用于插入引线的孔的圆柱形转子和具有弹簧效应的端子板。 插入孔中的引线响应于圆柱形转子的旋转而固定或释放在圆柱形转子的表面与端子板之间。 在固定位置,通过端子板的弹簧效应以及转子孔的角部,在存在外拉力的情况下,防止引线脱离。
    • 3. 发明授权
    • Method of fabricating a silicon solar cell
    • 制造硅太阳能电池的方法
    • US06387726B1
    • 2002-05-14
    • US09474760
    • 1999-12-30
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • H01L2100
    • H01L31/0682H01L31/022441H01L31/1804Y02E10/547
    • A method of fabricating a back surface point contact silicon solar cell having p-doped regions and n-doped regions on the same side by forming a passivating layer on a surface of the cell having opened windows at the p-doped regions and the n-doped regions, by depositing and patterning a first metal layer on the passivating layer in such a way that the first metal layer comes into contact with the p-doped regions and the n-doped regions, by depositing an insulator layer of polyimide on the first metal layer, by etching and patterning the insulator layer of polyimide in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, by curing the insulator layer of polyimide by heating at temperature for a period, by additionally curing the insulator layer of polyimide by heating at a second temperature, which is higher than the first temperature, and by depositing a second metal layer made of metal stack on the insulator layer of polyimide in such a way that the second metal layer comes into contact with the one of the p-doped regions and the n-doped regions. With this, the cell surface to be soldered onto a metallized substrate is well planarized and even to ensure sufficient conductibility, with less voids and less solder fatigue.
    • 一种制造具有p掺杂区域和n掺杂区域的背表面点接触硅太阳能电池的方法,其通过在具有在p掺杂区域和n-掺杂区域处具有开口窗口的单元的表面上形成钝化层, 掺杂区域,通过以这样的方式沉积和图案化钝化层上的第一金属层,使得第一金属层与p掺杂区域和n掺杂区域接触,通过在第一金属层上沉积聚酰亚胺的绝缘体层 金属层,通过以这样的方式蚀刻和图案化聚酰亚胺的绝缘体层,使得绝缘体层在至少一个p掺杂区域和n掺杂区域处打开窗口,通过加热固化聚酰亚胺的绝缘体层 在一段时间的温度下,通过在高于第一温度的第二温度下加热来另外固化聚酰亚胺的绝缘体层,并且通过在绝缘体层的绝缘体层上沉积由金属叠层制成的第二金属层 聚酰亚胺,使得第二金属层与p掺杂区域和n掺杂区域中的一个接触。 由此,要焊接到金属化基板上的电池表面被很好地平坦化,并且甚至确保足够的导电性,具有较少的空隙和较少的焊料疲劳。
    • 4. 发明授权
    • Engine generator
    • 发动机发电机
    • US06784560B2
    • 2004-08-31
    • US10252122
    • 2002-09-23
    • Yasuo SugimotoYoshio Tanaka
    • Yasuo SugimotoYoshio Tanaka
    • F02B7713
    • F02B63/04F02B63/047F02B75/16F02B77/13F02B2063/045H02K5/20H02K7/1815H02K9/06
    • An engine generator including a soundproofing case that houses an engine and a generator therein. The engine includes an engine-side cooling fan and an engine-side inlet. The generator includes a generator-side cooling fan and a generator-side inlet. The engine generator further includes an engine-side partition and a generator-side partition fixedly disposed within the soundproofing case to define a chamber to be cooled that houses sections of the engine and the generator that are to be cooled, an engine-side air intake chamber that the engine-side inlet faces, and a generator-side air intake chamber that the generator-side inlet faces. The soundproofing case includes a cover part whose inside face is in intimate contact with the outer peripheries of the engine-side and generator-side partitions and has an exhaust vent in a part corresponding to the chamber to be cooled.
    • 一种发动机发电机,包括在其中容纳发动机和发电机的隔音箱。 发动机包括发动机侧冷却风扇和发动机侧入口。 发电机包括发电机侧冷却风扇和发电机侧入口。 发动机发电机还包括发动机侧分隔件和固定地设置在隔音壳体内的发电机侧分隔件,以限定容纳要被冷却的发动机和发电机的部分的待冷却室,发动机侧进气口 发动机侧入口面向的发动机侧进气室和发电机侧入口面对的发电机侧进气室。 隔音壳体包括其内表面与发动机侧和发电机侧隔板的外周紧密接触的盖部,并且在与要冷却的室对应的部分中具有排气口。
    • 5. 发明授权
    • Method of fabricating a silicon solar cell
    • 制造硅太阳能电池的方法
    • US06274402B1
    • 2001-08-14
    • US09475185
    • 1999-12-30
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • H01L2100
    • H01L31/1804H01L31/022441H01L31/0682Y02E10/547Y02P70/521
    • A method of fabricating a back surface point contact silicon solar cell having p-doped regions and n-doped regions on the same side by forming a passivating layer on a surface of the cell having opened windows at the p-doped regions and the n-doped regions, by depositing and patterning a first metal layer on the passivating layer in such a way that the first metal layer comes into contact with the p-doped regions and the n-doped regions, by depositing a first insulator layer of inorganic material on the first metal layer, by etching and patterning the first insulator layer in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, by depositing a second insulator layer of organic material on the first insulator layer, by etching and patterning the second insulator layer in such a way that the insulator layer has opened windows at the one of the p-doped regions and the n-doped regions, by curing the second insulator layer by heating at a predetermined temperature for a predetermined time, and depositing a second metal layer on the second insulator layer of organic material in such a way that the second metal layer comes into contact with the one of the p-doped regions and the n-doped regions. With this, the cell surface to be soldered onto a metallized substrate is well planarized and even to ensure sufficient conductibility, with less voids and less solder fatigue.
    • 一种制造具有p掺杂区域和n掺杂区域的背表面点接触硅太阳能电池的方法,其通过在具有在p掺杂区域和n-掺杂区域处具有开口窗口的单元的表面上形成钝化层, 掺杂区域,通过在钝化层上沉积和图案化第一金属层,使得第一金属层与p掺杂区域和n掺杂区域接触,通过将无机材料的第一绝缘体层沉积在 第一金属层,通过蚀刻和图案化第一绝缘体层,使得绝缘层已经在p掺杂区域和n掺杂区域中的至少一个处打开窗口,通过沉积有机的第二绝缘体层 通过蚀刻和图案化第二绝缘体层,使得绝缘体层已经在p掺杂区域和n掺杂区域中的一个处打开窗口,通过固化第二绝缘体层b 在预定温度下加热预定时间,并且将第二金属层沉积在有机材料的第二绝缘体层上,使得第二金属层与p掺杂区域和n-掺杂区域中的一个接触, 掺杂区域。 由此,要焊接到金属化基板上的电池表面被很好地平坦化,并且甚至确保足够的导电性,具有较少的空隙和较少的焊料疲劳。
    • 6. 发明授权
    • Portable engine-generator set
    • 便携式发动机组
    • US4608946A
    • 1986-09-02
    • US609388
    • 1984-05-11
    • Yoshio TanakaYasuo Sugimoto
    • Yoshio TanakaYasuo Sugimoto
    • F01N13/00F02B63/04
    • F01N13/002F02B63/04F01N2230/02F01N2590/06F02B2063/045F02B2063/046F02B63/048
    • A portable engine-generator set is provide, which includes a soundproof cover defining an internal space for housing the components of the engine-generator set. The internal space comprises an intake compartment, a heat source compartment and an exhaust compartment. The heat source compartment comprises first and second sub-compartments which form independent cooling wind passages, each of the sub-compartments having an intake port in communication with the intake compartment. The exhaust compartment has an exhaust port in communication with the atmosphere, and intake ports in communication with the first and second sub-compartments such that air flow from the first and second sub-compartments are combined in the exhaust compartment. The engine and muffler of the engine are positioned in the second sub-compartment and the exhaust gas from the muffler flows into the exhaust compartment and is combined with the flow from the first and second sub-compartments, thereby rapidly cooling the exhaust gas and reducing the noise therefrom. The exhaust compartment includes sound absorbing material on the walls thereof to form a silencer box.
    • 提供了一种便携式发动机 - 发电机组,其包括限定用于容纳发动机 - 发电机组的部件的内部空间的隔音罩。 内部空间包括进气室,热源室和排气室。 热源室包括形成独立冷却风道的第一和第二子舱,每个子舱具有与进气室连通的进气口。 排气室具有与大气连通的排气口,以及与第一和第二分隔室连通的进气口,使得来自第一和第二分隔室的空气流合并在排气室中。 发动机的发动机和消音器位于第二分隔室中,来自消音器的废气流入排气室,并与来自第一和第二分隔室的流动相结合,从而快速冷却排气并减少 从那里的噪音。 排气室包括在其壁上的吸声材料以形成消声器箱。
    • 7. 发明授权
    • Apparatus for manufacturing flat twisted cable
    • 扁平扭绞电缆的制造装置
    • US4455818A
    • 1984-06-26
    • US366613
    • 1982-04-08
    • Yasuo SugimotoMasami MaedaHiroshi IshimuraSatoshi SaitoKoichi Chinone
    • Yasuo SugimotoMasami MaedaHiroshi IshimuraSatoshi SaitoKoichi Chinone
    • H01B13/02H01B7/08H01B13/04H01B13/06
    • H01B7/0876H01B13/04
    • The apparatus provides for continuously manufacturing a flat twisted cable composed of a plurality of single-conductor pairs having alternate oppositely directed twisted portions with straight portions therebetween. The apparatus has a multi-stage single-conductor pair supply unit, a twisting unit, a reciprocatingly movable untwist preventing unit, a lateral spacing and converging unit, a reciprocating movable welding unit, and a take-up unit. The untwist preventing unit has piston operated pins for preventing the propagation of the twist from the preceding and following twisted portions of the flat twisted cable to the straight portions of the single-conductor pairs thereof. The welding unit has a reciprocatingly movable welder. The welding unit commences movement together with the straight portion when the latter reaches a position within the welder which performs the high frequency induction welding of the insulation coverings of straight portions to each other during movement. Thus, the flat twisted cable can be continuously manufactured automatically with a relatively small-sized apparatus.
    • 该装置提供连续制造由多个单导线对构成的扁平绞合电缆,所述多个单导体对具有彼此具有直线部分的交替的相反方向的扭转部分。 该装置具有多级单导体对供给单元,扭转单元,往复运动解除防止单元,横向间隔和会聚单元,往复式可动焊接单元和​​卷取单元。 解捻防止单元具有活塞操作销,用于防止扭绞从扁平绞合电缆的前后扭曲部分传播到其单导体对的直线部分。 焊接单元具有往复运动的焊接机。 焊接单元在直线部分到达焊接机内的位置时开始与直线部分运动,该位置在运动期间对直线部分的绝缘覆层进行高频感应焊接。 因此,扁平绞合电缆可以用相对较小尺寸的设备自动连续制造。
    • 8. 发明授权
    • Method of fabricating a silicon solar cell
    • 制造硅太阳能电池的方法
    • US06423568B1
    • 2002-07-23
    • US09475187
    • 1999-12-30
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • H01L2100
    • H01L31/0682H01L31/022441H01L31/1804Y02E10/547Y02P70/521
    • A method of fabricating a back surface point contact silicon solar cell having p-doped regions and n-doped regions on the same side by forming a passivating layer on a surface of the cell having opened windows at the p-doped regions and the n-doped regions, by depositing and patterning a first metal layer comprising aluminum on the passivating layer in such a way that the first metal layer comes into contact with the p-doped regions and the n-doped regions, by depositing an insulator layer of inorganic material on the first metal layer, by etching and patterning the insulator layer in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, and by depositing a second three-layer metal stack comprising materials other than aluminum, on the insulator layer of polyimide in such a way that the second three-layer metal stack comes into contact with the one of the p-doped regions and the n-doped regions. With this, the cell surface to be soldered onto a metallized substrate is well planarized and even to ensure sufficient conductibility, with less voids and less solder fatigue.
    • 一种制造具有p掺杂区域和n掺杂区域的背表面点接触硅太阳能电池的方法,其通过在具有在p掺杂区域和n-掺杂区域处具有开口窗口的单元的表面上形成钝化层, 掺杂区域,通过在钝化层上沉积和图案化包含铝的第一金属层,使得第一金属层与p掺杂区域和n掺杂区域接触,通过沉积无机材料的绝缘体层 在第一金属层上,通过以绝缘体层在p掺杂区域和n掺杂区域中的至少一个上打开窗户的方式蚀刻和图案化绝缘体层,并且通过沉积第二三层 金属叠层,其包括除了铝之外的材料,以使得第二三层金属堆叠与p掺杂区域和n掺杂区域中的一个接触的方式在聚酰亚胺的绝缘体层上。 由此,要焊接到金属化基板上的电池表面被很好地平坦化,并且甚至确保足够的导电性,具有较少的空隙和较少的焊料疲劳。
    • 9. 发明授权
    • Method of fabricating a silicon solar cell
    • 制造硅太阳能电池的方法
    • US06337283B1
    • 2002-01-08
    • US09475256
    • 1999-12-30
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • Pierre J. VerlindenAkira TeraoHaruo NakamuraNorio KomuraYasuo SugimotoJunichi Ohmura
    • H01L21302
    • H01L31/1804H01L31/022441H01L31/0682Y02E10/547Y02P70/521
    • A method of fabricating a back surface point contact silicon solar cell having p-doped regions and n-doped regions on the same side by forming a passivating layer on a surface of the cell having opened windows at the p-doped regions and the n-doped regions, b depositing and patterning a first metal layer on the passivating layer in such a way that the first metal layer comes into contact with the p-doped regions and the n-doped regions, by depositing a first insulator layer of polyimide on the first metal layer, by etching and patterning the first insulator layer of polyimide in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, by depositing a second insulator layer of polyimide on the first insulator layer of polyimide, by etching and patterning the second insulator layer of polyimide in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, by curing the first insulator layer of polyimide by heating at a predetermined second temperature for a predetermined second time, and by depositing a second metal layer on the second insulator layer of polyimide in such a way that the second metal layer comes into contact with the one of the p-doped regions and the n-doped regions. With this, the cell surface to be soldered onto a metallized substrate is well planarized and even to ensure sufficient conductibility, with less voids and less solder fatigue.
    • 一种制造具有p掺杂区域和n掺杂区域的背表面点接触硅太阳能电池的方法,其通过在具有在p掺杂区域和n-掺杂区域处具有开口窗口的单元的表面上形成钝化层, 掺杂区域,b沉积和图案化钝化层上的第一金属层,使得第一金属层与p掺杂区域和n掺杂区域接触,通过在第一金属层上沉积聚酰亚胺的第一绝缘体层 通过蚀刻和图案化聚酰亚胺的第一绝缘体层,使得绝缘体层已在p掺杂区域和n掺杂区域中的至少一个处开放窗口,通过沉积第一绝缘体层 聚酰亚胺在聚酰亚胺的第一绝缘体层上,通过蚀刻和图案化聚酰亚胺的第二绝缘体层,使得绝缘体层通过固化在至少一个p掺杂区域和n掺杂区域上打开窗口 通过在预定的第二温度下加热预定的第二次,并且通过在第二绝缘体层上沉积第二金属层,使得第二金属层与第一绝缘体层接触, p掺杂区域和n掺杂区域。 由此,要焊接到金属化基板上的电池表面被很好地平坦化,并且甚至确保足够的导电性,具有较少的空隙和较少的焊料疲劳。
    • 10. 发明授权
    • Load retainer assembly and retaining apparatus
    • 负载保持器组件和保持装置
    • US5988718A
    • 1999-11-23
    • US201183
    • 1998-11-30
    • Yasuo SugimotoTaro Fukuda
    • Yasuo SugimotoTaro Fukuda
    • B25J17/02B25J15/00B65G47/91B66C1/02F16B47/00
    • B65G47/918B66C1/0212B66C1/0243B66C1/0256
    • A load retainer assembly includes a pair of lower and upper plates pivotably mounted on a main shaft, and an inverting mechanism provided between the lower and upper plates that, as the lower plate is driven to pivot, causes the upper plate to pivot in the opposite direction to the pivoting direction of the lower plate. The load retainer assembly further includes a first retaining member for interconnecting distal end portions of a pair of links pivotably connected to one end of the lower plate and one end of the upper plate, respectively, and a second retaining member for interconnecting distal end portions of another pair of links pivotably connected to the other end of the lower plate and the other end of the upper plate, respectively. A suction pad is attached to each of the retaining members to retain a load by suction. The first and second retaining members are movable toward and away from each other by causing the upper plate to pivot in the opposite direction to the pivoting direction of the lower plate, and with this arrangement the load retainer assembly can be moved between folded and unfolded positions.
    • 负载保持器组件包括可枢转地安装在主轴上的一对下板和上板,以及设置在下板和上板之间的翻转机构,当下板被驱动枢转时,上转板在相反的位置枢转 方向到下板的枢转方向。 负载保持器组件还包括第一保持构件,用于互连一对连杆的远端部分,所述一对连杆分别可枢转地连接到下板的一端和上板的一端;以及第二保持构件, 另一对连杆分别可枢转地连接到下板的另一端和上板的另一端。 每个保持件附着一个吸盘以通过抽吸来保持负载。 第一和第二保持构件可通过使上板沿与下板的枢转方向相反的方向枢转而相互移动和移动,并且通过该布置,负载保持器组件可以在折叠位置和展开位置之间移动 。