会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Oil flow passage arrangement of automatic transmission
    • 自动变速器的油流通道布置
    • US08100229B2
    • 2012-01-24
    • US11086405
    • 2005-03-23
    • Kenji MatsubaraHiromi TaguchiYasuhiko KuniiTsutomu SaitouTomoyuki Watanabe
    • Kenji MatsubaraHiromi TaguchiYasuhiko KuniiTsutomu SaitouTomoyuki Watanabe
    • F16C3/14F01M1/04
    • F16H57/0421F16H57/05
    • First and second oil flow passages are defined in a wall portion of a transmission casing. The first oil flow passage has an open end exposed to an interior of the casing. The second oil passage is connected to the first oil passage through a connection opening defined by the first oil passage. A separate pipe member has a predetermined end portion that is inserted into the first oil passage from the open end of the same. The predetermined end portion comprises a cylindrical portion having a fixed length; an end opening defined by an end of the cylindrical portion and exposed to the first oil passage; and an orifice opening defined by a side wall of the cylindrical portion. The orifice opening is blocked by an inner wall of the first oil passage when the connection opening takes a first position relative to the open end of the first oil passage, and exposed to the second oil passage when the connection opening takes a second position relative to the open end of the first oil passage. The second position is closer to the open end of the first oil passage than the first position is.
    • 第一和第二油流动通道限定在变速器壳体的壁部分中。 第一油流通道具有暴露于壳体内部的开口端。 第二油路通过由第一油路限定的连接口与第一油路连接。 单独的管构件具有从其开口端插入第一油通道中的预定端部。 预定的端部包括具有固定长度的圆柱形部分; 由所述圆筒形部分的端部限定并暴露于所述第一油道的端部开口; 以及由圆柱形部分的侧壁限定的孔口。 当连接开口相对于第一油通道的开口端处于第一位置时,孔口被第一油路的内壁阻挡,并且当连接开口相对于第一油通道的第二位置时暴露于第二油通道 第一个油道的开放端。 第二位置比第一位置更靠近第一油通道的开口端。
    • 2. 发明授权
    • Installation structure of oil cooler of vehicular transmission
    • 车辆传动油冷却器安装结构
    • US08069951B2
    • 2011-12-06
    • US11239464
    • 2005-09-30
    • Taku SuganoTsutomu Saitou
    • Taku SuganoTsutomu Saitou
    • F01M1/04F28F13/12
    • F16H57/0489F16H9/18F16H57/0404F16H57/0417F16H61/0009Y10S165/916
    • In an oil cooler installation structure for a vehicular transmission, an oil cooler by means of which oil is cooled is provided, oil being delivered between the oil cooler and an internal of a transmission housing, and an oil cooler installation portion is provided in the internal of the transmission housing and in which a first oil passage for supplying oil in the internal of the transmission housing to the oil cooler via a first opening portion opened at an external of the transmission housing and a second oil passage for supplying oil from the oil cooler to the internal of the transmission housing via a second opening portion opened at the external of the transmission housing are formed, the oil cooler being attached onto the oil cooler installation portion to enable a delivery of oil via the first opening portion and the second opening portion.
    • 在用于车辆变速器的油冷却器安装结构中,设置有通过油冷却的油冷却器,在油冷却器和变速器壳体的内部之间输送油,并且在内部设置油冷却器安装部分 并且其中第一油通道经由在变速器壳体的外部开口的第一开口部分将变速器壳体内部的油供给到油冷却器,以及用于从油冷却器供给油的第二油通道 形成在通过在变速器外壳的外部开口的第二开口部分到变速器壳体的内部的油冷却器,油冷却器被安装在油冷却器安装部分上,以便经由第一开口部分和第二开口部分 。
    • 4. 发明申请
    • Light Modulator and Its Fabrication Method
    • 光调制器及其制作方法
    • US20090129718A1
    • 2009-05-21
    • US11992866
    • 2006-09-27
    • Takashi ShinrikiKatsutoshi KondouTsutomu Saitou
    • Takashi ShinrikiKatsutoshi KondouTsutomu Saitou
    • G02F1/035B29D11/00
    • G02F1/035G02F1/2255G02F2201/066G02F2201/127G02F2202/28G02F2203/21
    • It is an object of the invention to provide a light modulator using a thin plate having a thickness of 20 μm or less and capable of stably holding a conductive film suppressing troubles such as resonance phenomenon of microwaves in a substrate and pyro-electric phenomenon and to provide a method of fabricating the light modulator. The light modulator includes: a thin plate (10) formed of a material having an electro-optic effect and having a thickness of 20 μm or less; a light waveguide (11) formed on the front or rear surface of the thin plate; and modulation electrodes (13, 14) formed on the front surface of the thin plate to modulate light passing through the light waveguide. The light modulator further includes a reinforcing plate (16) bonded to the rear surface of the thin plate and a conductive film (17) continuously formed in the range from the side surface of the thin plate to the side surface of the reinforcing plate.
    • 本发明的目的是提供一种使用厚度为20μm或更小的薄板的光调制器,并且能够稳定地保持抑制诸如基板中的微波共振现象和热电现象等的麻烦的导电膜,并且 提供一种制造光调制器的方法。 光调制器包括:由具有电光效应并具有20μm或更小的厚度的材料形成的薄板(10); 形成在所述薄板的前表面或后表面上的光波导(11) 以及形成在薄板的前表面上的调制电极(13,14),以调制通过光波导的光。 光调制器还包括粘合到薄板的后表面的加强板(16)和在从薄板的侧表面到加强板的侧表面的范围内连续形成的导电膜(17)。
    • 5. 发明授权
    • Developer for developing electrostatic latent image
    • 用于显影静电潜像的显影剂
    • US5733699A
    • 1998-03-31
    • US745802
    • 1996-11-08
    • Masumi AsanaeAkihiko FunakawaTsutomu Saitou
    • Masumi AsanaeAkihiko FunakawaTsutomu Saitou
    • G03G9/083G03G9/107G03G9/113G03G15/09G03G21/00G03G21/10
    • G03G9/0836G03G9/107G03G9/1139
    • A developer for developing an electrostatic latent image is disclosed. It is obtained by mixing a chargeable magnetic toner mainly composed of a binder resin and magnetic powder, which toner has a volume resistivity of 10.sup.13 .OMEGA..multidot.cm or greater, with a magnetic carrier having a volume resistivity of 10 .OMEGA..multidot.cm or greater and less than 10.sup.6 .OMEGA..multidot.cm at a weight ratio of between 10:90-90:10. A method of forming an image is also disclosed. An electrostatic latent image is formed on an image carrier. A magnetic brush formed of the developer slides against the surface of the image carrier. The visualized toner image is transferred to a recording medium. The previously-applied toner remaining on the surface of the image carrier is removed after transferring is completed and an electrostatic latent image is visualized when the magnetic brush slides against the surface of the image carrier.
    • 公开了用于显影静电潜像的显影剂。 通过将主要由粘合剂树脂构成的可充电磁性调色剂和磁性粉末(该调色剂的体积电阻率为1013ΩEG×xcm以上)与体积电阻率为10Ω/ cm以上且小于106的磁性载体混合, OMEGA xcm,重量比为10:90-90:10。 还公开了一种形成图像的方法。 在图像载体上形成静电潜像。 由显影剂形成的磁刷相对于图像载体的表面滑动。 可视化的调色剂图像转印到记录介质上。 在转印完成之后,去除残留在图像载体表面上的先前施加的调色剂,并且当磁刷相对于图像载体的表面滑动时,静电潜像可视化。
    • 6. 发明授权
    • Developing method
    • 开发方法
    • US5374978A
    • 1994-12-20
    • US93312
    • 1993-07-14
    • Masumi AsanaeTsutomu SaitouAkihiko Funakawa
    • Masumi AsanaeTsutomu SaitouAkihiko Funakawa
    • G03G5/04G03G9/083G03G9/097G03G15/34G03G15/00
    • G03G9/097G03G15/344G03G5/04G03G9/083G03G9/0836G03G2215/0497
    • A developing method in which a recording region is formed between a movable image carrying element made of a photo-semiconductive material with light-transmitting properties and a hollow-cylindrical, non-magnetic sleeve opposing the image carrying element and accommodating a permanent magnet with a plurality of magnetic poles thereon. An optical signal corresponding to an original is radiated onto the recording region from the back surface of the image carrying element so that toner in a magnetic developer supplied onto the sleeve, and conveyed to the recording region by relative movement of the sleeve and the permanent magnet is selectively adhered onto the surface of the image carrying element. The magnetic developer is a mixture of a toner capable of being charged into a same polarity as the image carrying element, and magnetic particles capable of being charged into either the opposite or same polarity with respect to that of the toner. The toner has a volume resistivity of not less than 10.sup.12 .OMEGA..multidot.cm, and an average particle size of 5 to 20 .mu.m. The magnetic particles have a volume resistivity of more than 2.times.10.sup.5 .OMEGA..multidot.cm but not more than 10.sup.12 .OMEGA..multidot.cm, and an average particle size of 10 to 100 .mu.m. When the magnetic particles are ones for being charged into the same polarity as the toner, they have a smaller absolute value of triboelectric charge than the toner.
    • 一种显影方法,其中在由具有透光性的光半导体材料制成的可移动图像承载元件和与图像承载元件相对的中空圆柱形非磁性套筒之间形成记录区域,并且容纳具有 多个磁极上。 对应于原稿的光学信号从图像承载元件的背面被辐射到记录区域上,使得供应到套筒上的磁性显影剂中的调色剂通过套筒和永磁体的相对运动被传送到记录区域 选择性地粘附到图像承载元件的表面上。 磁性显影剂是能够被加载成与图像承载元件相同极性的调色剂的混合物,以及能够与调色剂相反或相同极性的磁性颗粒的混合物。 调色剂的体积电阻率不小于1012欧米伽×厘米,平均粒径为5〜20微米。 磁性颗粒的体积电阻率大于2×10 5欧米伽xcm但不大于1012欧米伽×厘米,平均粒径为10至100微米。 当磁性粒子被充入与调色剂相同的极性时,它们具有比调色剂更小的摩擦电荷绝对值。
    • 7. 发明申请
    • METHOD OF ADJUSTING OPTICAL AXIS OF OPTICAL WAVEGUIDE ELEMENT, AND OPTICAL WAVEGUIDE ELEMENT
    • 调整光波长元件光学元件和光波长元件的方法
    • US20100104241A1
    • 2010-04-29
    • US12450255
    • 2008-03-19
    • Satoshi OikawaToru SugamataRyo ShimizuTsutomu SaitouKatsutoshi Kondou
    • Satoshi OikawaToru SugamataRyo ShimizuTsutomu SaitouKatsutoshi Kondou
    • G02B6/26G02B6/35
    • G02B6/4225G02B6/12007G02B6/122G02B2006/1215G02B2006/12159
    • A method of adjusting the optical axis of an optical waveguide element which can improve a manufacturing yield of the optical waveguide element, an alignment yield between the optical waveguide element and an input waveguide means, etc. and can equalize the branch ratio in a Y-branch waveguide; and an optical waveguide element which can be made compact and also M inhibited from complication in structure by using this method. The optical waveguide element (5) formed on a substrate comprises at least a linear waveguide (6) and a Y-branch waveguide (7) branched from the linear waveguide. The method of adjusting the optical axis of the optical waveguide element (5) when connecting the optical waveguide element (5) and an input waveguide means (3) for inputting a light wave into the optical waveguide element (5) is characterized in that a wide band light or two or more sing wavelength lights (light sources (1, 2)) having a different wavelength are inputted into the linear waveguide via the input waveguide means (3) and then the optical axes of the optical waveguide element (5) and input waveguide means (3) are so adjusted that light waves (10, 11) output from individual branch arms (8, 9) of the Y-branch waveguide may have nearly identical light intensity.
    • 一种调整光波导元件的光轴的方法,其可以提高光波导元件的制造成品率,光波导元件与输入波导装置之间的取向收益率等,并且可以使Y轴方向上的分支比例均衡, 分支波导; 并且通过使用该方法,可以使结构紧凑的M波导元件抑制M的复杂化。 形成在基板上的光波导元件(5)至少包括从线状波导分支的直线波导(6)和Y支路波导(7)。 当将光波导元件(5)和用于将光波输入光波导元件(5)的输入波导装置(3)连接时,调整光波导元件(5)的光轴的方法的特征在于: 通过输入波导装置(3)将具有不同波长的宽带光或两个或更多个波长的光(光源(1,2))输入到线性波导中,然后光波导元件(5)的光轴 并且输入波导装置(3)被调整为使得从Y分支波导的各个分支臂(8,9)输出的光波(10,11)可具有几乎相同的光强度。
    • 8. 发明授权
    • Method for fixation of optical fiber in optical device module, and fixation pipe
    • 光学元件模块中的光纤固定方法及固定管
    • US06997621B2
    • 2006-02-14
    • US10650588
    • 2003-08-28
    • Tsutomu SaitouMinoru ShinozakiTooru Sugamata
    • Tsutomu SaitouMinoru ShinozakiTooru Sugamata
    • G02B6/26G02B6/42
    • G02B6/4238G02B6/4248
    • A method for fixation of optical fiber in an optical device module, and a fixation pipe, the method of fixation comprising the steps of utilizing a fixation pipe configured for insertion of the optical fiber, and adapted for affixation of the fiber by solder in an intermediate part of the pipe, the external surface of the intermediate part having a groove for a copper bit; installing the pipe to the case so that the intermediate part is positioned outside the case; inserting the fiber inside the pipe so that a stripped part of the fiber is in the intermediate part, and a coated part of the fiber is positioned opposite to the case from the intermediate part; and contacting a copper bit to the groove, to affix the fiber to the pipe by solder. The fixation pipe has the features described above.
    • 一种用于将光纤固定在光学器件模块中的方法和固定管,所述固定方法包括以下步骤:利用构造成用于插入光纤的固定管,并且适于通过焊料将光纤固定在中间体 管的一部分,中间部分的外表面具有用于铜钻头的凹槽; 将管道安装到壳体上使得中间部件位于壳体外部; 将纤维插入管内,使得纤维的剥离部分在中间部分中,并且纤维的涂覆部分与壳体相对于中间部分定位; 并将铜钻头接触到凹槽,通过焊料将光纤固定到管道上。 固定管具有上述特征。
    • 9. 发明授权
    • Optical modulation element module
    • 光调制元件模块
    • US07194150B2
    • 2007-03-20
    • US11199732
    • 2005-08-09
    • Toshio SakaneTsutomu SaitouSusumu Murata
    • Toshio SakaneTsutomu SaitouSusumu Murata
    • G02F1/01
    • G02F1/011
    • The present invention provides an optical modulation element module capable of stably operating for long periods without limiting the operating conditions. An optical modulation element module comprising an optical modulation element 12, a case 11 with said optical modulation element being integrated thereto, input output fibers 13, 14 being connected to said optical modulation element and also guided to an exterior of said case, a terminal for introducing a modulating signal and a bias adjustment voltage that are to be applied to said optical modulation element, said case being hermetically sealed, is characterized in that said case 11 is made of a material having almost the same coefficient of linear expansion as the optical modulation element 12, said optical modulation element is affixed to said case by using a thermoplastic and high-elastic adhesive material 19, a linear expansion difference between each material of said case and said fiber is less than 16×10−6/° C., and a distance between a fixed point of said fiber with said case, and a fixed point of said fiber with said optical modulation element is more than 3 mm.
    • 本发明提供一种能够长时间稳定地操作而不限制操作条件的光调制元件模块。 一种光调制元件模块,包括光调制元件12,与所述光调制元件集成在一起的壳体11,输入输出光纤13,14连接到所述光调制元件,并被引导到所述外壳的外部, 引入要施加到所述光调制元件的所述调制信号和偏置调节电压,所述外壳是密封的,其特征在于,所述外壳11由具有与光调制几乎相同的线性膨胀系数的材料制成 元件12,所述光学调制元件通过使用热塑性和高弹性粘合剂材料19固定到所述壳体上,所述壳体和所述纤维的每种材料之间的线性膨胀差小于16×10 -6 /℃,并且所述光纤与所述壳体的固定点与所述光调制元件的所述光纤的固定点之间的距离大于3mm。
    • 10. 发明授权
    • Optical modulator module
    • 光调制器模块
    • US06865006B2
    • 2005-03-08
    • US10404564
    • 2003-04-01
    • Toshio SakaneTsutomu SaitouSusumu Murata
    • Toshio SakaneTsutomu SaitouSusumu Murata
    • G02B6/12G02B6/42G02F1/035H01S5/022G02F1/03
    • G02B6/4208H01S5/0085H01S5/02208H01S5/02248H01S5/02284
    • “This invention offer optical modulator module with fulfilling the effective and the stable optical modulation, which stabilizes the emission of semiconductor and control the shift of optic axis between the optical component by the temperature change and so on, when using the semiconductor laser. Peculiarly, the optical modulator module includes, in same package, the semiconductor laser (27) as light source, the optical modulation device (28) that has optical waveguide on the surface of the chip made by the element of the electro-optical effect, and the polarization rotating element (40) between said semiconductor laser and said optical modulation device, for bringing plane of polarization of light from said semiconductor laser (27) to optimum plane of polarization in waveguide of the said optical modulation device in line and blocking the returning light from said optical modulation device to said semiconductor laser.”
    • “本发明提供了一种实现有效和稳定的光调制的光调制器模块,其在使用半导体激光器时稳定了半导体的发射并且通过温度变化等控制光学部件之间的光轴的偏移,特别地, 在相同的封装中,光调制器模块包括作为光源的半导体激光器(27),在由光电效应元件制成的芯片表面上具有光波导的光调制装置(28) 所述半导体激光器和所述光调制装置之间的偏振旋转元件(40),用于使所述光调制装置的波导中的所述半导体激光器(27)的偏振光平面偏振到所述光调制装置的最佳偏振面,并阻挡所述返回光 从所述光调制装置到所述半导体激光器。