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    • 67. 发明授权
    • Image forming apparatus and method having cleaner using titanium oxide particles
    • 具有使用氧化钛颗粒的清洁剂的成像设备和方法
    • US07620343B2
    • 2009-11-17
    • US12185149
    • 2008-08-04
    • Shinki MiyajiNobuyuki Hayashi
    • Shinki MiyajiNobuyuki Hayashi
    • G03G15/00G03G21/00
    • G03G21/0058
    • The present invention provides an image forming apparatus and an image forming method capable of effectively suppressing the occurrence of image deletion etc. and thus stably obtaining a high-quality image and stably reducing the influence of titanium oxide particles on image quality. The image forming apparatus includes an amorphous silicon photoconductor drum having a heater provided therein; a charging device; and a rotating member that cleans the surfaces of the amorphous silicon photoconductor drum using titanium oxide particles included in toner particles. In the image forming apparatus and the image forming method using the same, the heater controls a difference between the surface temperature of the amorphous silicon photoconductor drum and the outdoor temperature within a predetermined range, and slide friction between the amorphous silicon photoconductor drum and the rotating member and the average primary particle diameter of the titanium oxide particles are set in predetermined ranges.
    • 本发明提供能够有效抑制图像删除等的发生的图像形成装置和图像形成方法,从而稳定地获得高质量图像,并且稳定地降低氧化钛颗粒对图像质量的影响。 图像形成装置包括其中设置有加热器的非晶硅感光鼓; 充电装置; 以及旋转构件,其使用包含在调色剂颗粒中的氧化钛颗粒来清洁非晶硅感光鼓的表面。 在图像形成装置和使用其的图像形成方法中,加热器将非晶硅感光鼓的表面温度与室外温度之间的差异控制在预定范围内,并且使非晶硅感光鼓与旋转 并将氧化钛颗粒的平均一次粒径设定在预定范围内。
    • 68. 发明授权
    • Circuit substrate and electronic apparatus, fabrication process thereof
    • 电路基板及电子设备及其制造工艺
    • US07468490B2
    • 2008-12-23
    • US11507505
    • 2006-08-22
    • Nobuyuki HayashiYoshihiko Imanaka
    • Nobuyuki HayashiYoshihiko Imanaka
    • H05K1/03
    • H05K1/162H05K3/4602H05K2201/0175H05K2201/0187H05K2201/09509H05K2201/096H05K2201/09809H05K2201/09827H05K2203/1366
    • A circuit substrate comprises a lamination of plural resin insulation films and includes, on a surface and in an interior of the circuit substrate, plural interconnection layers. One of the plural resin insulation films is formed on a first conductor pattern constituting one of the plural interconnection layers in such a manner that a bottom principal surface of the resin insulation film makes a contact with a surface of the first conductor pattern, the resin insulation film including an opening defined by a sloped surface and exposing the first conductor pattern at the bottom principal surface. A ceramic high-K dielectric film is formed at a bottom of the opening in contact with the surface of the first conductor pattern, wherein there is formed a second conductor pattern constituting one of the plural interconnection layers on the resin insulation film so as to cover the sloped surface and in contact with a surface of the ceramic high-K dielectric film.
    • 电路基板包括多个树脂绝缘膜的叠层,并且在电路基板的表面和内部包括多个互连层。 多个树脂绝缘膜之一形成在构成多个互连层之一的第一导体图案上,使得树脂绝缘膜的底部主表面与第一导体图案的表面接触,树脂绝缘体 膜包括由倾斜表面限定的开口并且在底部主表面处露出第一导体图案。 陶瓷高K电介质膜形成在与第一导体图案的表面接触的开口的底部,其中在树脂绝缘膜上形成构成多个互连层之一的第二导体图案,以覆盖 倾斜的表面并与陶瓷高K电介质膜的表面接触。
    • 69. 发明申请
    • Multi-component mixing apparatus
    • 多组分混合装置
    • US20080310253A1
    • 2008-12-18
    • US12149660
    • 2008-05-06
    • Nobuyuki Hayashi
    • Nobuyuki Hayashi
    • B01F13/08B01F9/00
    • B01F7/00816B01F13/0827B29B7/401
    • When a drive gear (a driving rotary assembly) is actuated and rotates the rotor (a driven rotary assembly), agitator blades rotate and agitate a base compound (a fluid) and a cure agent (a fluid) in an agitation cavity thereby shearing them. This agitation results in the base compound and the cure agent being mixed into a coating material. Furthermore, magnet force is used for giving rotation force to the rotor 50, and therefore any rotation force transmitting member that penetrates a cylindrical assembly is unnecessary. Therefore, such a rotation trouble caused by the fluids that enter into a gap between the transmitting member and the penetration, increases the viscosity therein, and adhere thereto does not occur.
    • 当驱动齿轮(驱动旋转组件)被致动并使转子(从动旋转组件)旋转时,搅拌器叶片旋转并搅动搅拌腔中的基础化合物(流体)和固化剂(流体),从而剪切它们 。 这种搅拌导致将基础化合物和固化剂混合到涂料中。 此外,磁力用于向转子50提供旋转力,因此不需要穿过圆柱形组件的任何旋转力传递部件。 因此,由于进入传递部件和穿透部之间的间隙的流体引起的旋转故障增加了粘度,不会发生粘附。