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
    • 2. 发明授权
    • Liquid electrophotographic developing arrangement
    • 液体电子照相显影装置
    • US6070034A
    • 2000-05-30
    • US300939
    • 1999-04-28
    • Yugi HiraokaMichio MatsumotoTakeo EndoChi-Sheng Huang
    • Yugi HiraokaMichio MatsumotoTakeo EndoChi-Sheng Huang
    • G03G15/10
    • G03G15/101G03G2215/017
    • In the particular embodiments described in the specification, a liquid electrophotographic developing arrangement includes four developing units disposed adjacent to the image-bearing surface of an electrophotographic member, each developing unit containing a different color developer. Each developing unit has an elongated slit through which developer is applied to the image-bearing surface of the electrophotographic member and the liquid developer is magnetically retained in the space between the developing unit and the surface of the electrophotographic member. In one embodiment, the developer is retained by a ferrofluid which surrounds the elongated opening and is held in position by magnets disposed on opposite sides of the electrophotographic member. In another embodiment, the developer is a ferrofluid and is retained in position by magnets on opposite sides of the elongated opening which produce an electromagnetic field in the space between the elongated opening and the surface of the electrostatic member.
    • 在说明书中描述的特定实施例中,液体电子照相显影装置包括与电子照相构件的图像承载表面相邻设置的四个显影单元,每个显影单元包含不同的显色剂。 每个显影单元具有细长的狭缝,显影剂通过该狭缝施加到电子照相构件的图像承载表面上,并且液体显影剂磁性地保持在显影单元和电子照相构件的表面之间的空间中。 在一个实施例中,显影剂被包围细长开口的铁磁流体保持,并且通过设置在电子照相构件的相对侧上的磁体保持在适当位置。 在另一个实施方案中,显影剂是铁磁流体,并且通过在细长开口的相对侧上的磁体保持在适当位置,其在细长开口和静电部件的表面之间的空间中产生电磁场。
    • 3. 发明授权
    • Expansion valve
    • 膨胀阀
    • US07316118B2
    • 2008-01-08
    • US10890319
    • 2004-07-14
    • Hisatoshi HirotaMichio Matsumoto
    • Hisatoshi HirotaMichio Matsumoto
    • F25B41/04G05D27/00
    • F25B41/062F25B2341/0683
    • To provide an expansion valve having a low-pressure passage that is bent at right angles therein, which is reduced in untoward noise and noise of the flow of refrigerant generated when the refrigerant passes through the low-pressure passage. In an intersecting portion of a low-pressure passage, the axis of a port for introducing refrigerant returned from an evaporator, and the axis of a port for guiding out refrigerant having passed through a body block to a compressor are orthogonal to each other. A hole is formed in the body block in a direction of insertion of a shaft that transmits a driving force from a power element to a valve element, and a holder for holding the shaft. When holes coaxial with the ports, respectively, are formed by drills having the same diameter as that of the hole, the holes are formed in a manner such that the tip of one drill does not extend beyond the hole formed by the other drill, to make inner walls on an outer peripheral side along which refrigerant flows at an increased speed, smoothly continuous, without forming any recess or edge portion having a boundary portion with an angle equal to or smaller than a right angle.
    • 提供一种具有在其中成直角弯曲的低压通道的膨胀阀,这降低了当制冷剂通过低压通道时产生的制冷剂流动的不利噪声和噪音。 在低压通路的交叉部分中,用于引导从蒸发器返回的制冷剂的端口的轴线和用于将已经通过体块的制冷剂引导到压缩机的端口的轴线彼此正交。 在主体块中沿着将来自动力元件的驱动力传递到阀元件的轴的插入方向和用于保持轴的保持器形成孔。 当与端口同轴的孔由具有与孔的直径相同的直径的钻头形成时,孔以这样的方式形成,使得一个钻头的尖端不延伸超过由另一钻头形成的孔, 使制冷剂在外周侧以增加的速度流动的内壁,平滑地连续,而不形成具有等于或小于直角的角度的边界部分的任何凹部或边缘部分。
    • 7. 发明授权
    • Audio reproducing apparatus
    • 音频再现装置
    • US06484137B1
    • 2002-11-19
    • US09181992
    • 1998-10-29
    • Hirotsugu TaniguchiMasayuki MisakiJunichi TagawaMichio Matsumoto
    • Hirotsugu TaniguchiMasayuki MisakiJunichi TagawaMichio Matsumoto
    • G10L2104
    • G10L21/04
    • An audio reproducing apparatus comprises: audio decoding means for decoding an input audio signal frame by frame; data expanding/compressing means for subjecting data in a decoded frame to time-scale modification process; a frame sequence table which contains a sequence determined according to a given speed rate in which respective frames are expanded/compressed; frame counting means for counting the number of frames of the input audio signal; and data expansion/compression control means for instructing the dalta expanding/compressing means to subject the frame to one of time-scale compression process, time-scale expansion process, and process without time-scale modification process, with reference to the frame sequence table based on a count value output from the frame counting means, the data expanding/compressing means subjecting the audio signal to time-scale modification process in accordance with an instruction signal from the data expansion/compression control means.
    • 音频再现装置包括:音频解码装置,用于逐帧解码输入音频信号; 数据扩展/压缩装置,用于对解码帧中的数据进行时标修改处理; 帧序列表,其包含根据给定速率确定的序列,其中相应的帧被扩展/压缩; 帧计数装置,用于对输入音频信号的帧数进行计数; 以及数据扩展/压缩控制装置,用于指示达尔文扩展/压缩装置,参考帧序列表来对帧进行时间尺度压缩处理,时间尺度扩展处理和处理,而不需要时间尺度修改处理 根据从帧计数装置输出的计数值,数据扩展/压缩装置根据来自数据扩展/压缩控制装置的指令信号对音频信号进行时标修改处理。
    • 9. 发明申请
    • CONTROL VALVE
    • 控制阀
    • US20130082199A1
    • 2013-04-04
    • US13631711
    • 2012-09-28
    • Michio MatsumotoIsao SendoMasaaki Tonegawa
    • Michio MatsumotoIsao SendoMasaaki Tonegawa
    • F16K31/06
    • F16K31/408F16K31/0655F16K39/022F16K39/024
    • A control valve according to an embodiment includes a guide member of a cylindrical shape extending coaxially with a valve hole, a valve element of a bottomed cylindrical shape for opening and closing a valve section such that the valve element touches and leaves the valve hole, and a pressure-canceling structure for canceling out at least part of pressure acting on the valve element by introducing a working fluid into a back pressure chamber via a leak passage, the pressure-canceling structure including the back pressure chamber, surrounded by the valve element and the guide member, and the leak passage communicating between the valve hole and the back pressure chamber. A sliding portion and a spacing are formed in an overlapped portion which is a region overlapped by the valve element and the guide member. The sliding portion is connected circumferentially at least when the valve section is closed, and the proportion of the spacing occupied in the overlapped portion is larger than the proportion of the sliding portion occupied at the time when the valve section is open.
    • 根据实施例的控制阀包括与阀孔同轴延伸的圆筒形状的引导构件,用于打开和关闭阀部分的有底圆筒形状的阀元件,使得阀元件接触并离开阀孔;以及 压力消除结构,用于通过经由泄漏通道将工作流体引入到背压室中来抵消作用在阀元件上的至少一部分压力,该压力消除结构包括由阀元件包围的背压室和 引导构件和在阀孔和背压室之间连通的泄漏通道。 滑动部分和间隔形成在与阀元件和引导构件重叠的区域的重叠部分中。 滑动部分至少在阀部分闭合时周向连接,并且重叠部分中占据的间隔的比例大于阀部分打开时所占据的滑动部分的比例。
    • 10. 发明授权
    • Gas turbine exhaust passage and damper system for same having a non-enclosed porous peripheral wall
    • 具有非封闭多孔周边壁的燃气轮机排气通道和阻尼器系统
    • US06539702B2
    • 2003-04-01
    • US09158149
    • 1998-09-22
    • Masaharu NishimuraMasazumi KataokaMichio MatsumotoYoshifumi Masuda
    • Masaharu NishimuraMasazumi KataokaMichio MatsumotoYoshifumi Masuda
    • F02C724
    • F02C7/24F01D25/30F01N1/24F01N2310/00
    • A gas turbine exhaust passage is realized which may suppress the radiation of strong ultra low frequency noise to the outside without amplifying the turbulence of an high speed exhaust gas flow rate or a pressure pulsation generated in a gas turbine. At least a portion of a wall of a gas turbine exhaust passage (3, 5) is formed of an acoustically transmissive material (36, 56) for allowing a low frequency noise of several tens of Hz or less to pass therethrough sufficiently. Also, the acoustically transmissive material is made of one or more of a porous material, a porous heat insulating material, a mesh having a large flow resistance, cloth or film material. Further, the acoustically transmissive material is supported by a porous plate or a frame. In a case where an acoustically transmissive material is used only for an exhaust chimney (5), the exhaust chimney (5) is supported by a rack (11). Further, a soundproof panel (12) may be attached to the rack (11). Also, a damper provided at a branch portion between an exhaust gas boiler branched from the gas turbine exhaust passage and the gas turbine exhaust passage is formed of acoustically transmissive material for allowing a low frequency noise of several tens of Hz or less to pass therethrough sufficiently.
    • 实现燃气轮机排气通道,其可以抑制强超低频噪声向外部的辐射,而不会放大在燃气轮机中产生的高速排气流量或压力脉动的紊流。 燃气轮机排气通道(3,5)的壁的至少一部分由声透射材料(36,56)形成,用于允许几十赫兹或更小的低频噪声充分通过。 此外,声透射材料由多孔材料,多孔绝热材料,具有大流动阻力的网,布或薄膜材料中的一种或多种制成。 此外,声透射材料由多孔板或框架支撑。 在仅使用排气烟囱(5)的声透射材料的情况下,排气烟囱(5)由支架(11)支撑。 此外,隔音板(12)可以附接到搁架(11)。 此外,设置在从燃气轮机排气通道分支的废气锅炉和燃气轮机排气通道之间的分支部分处的阻尼器由用于允许几十赫兹或更低的低频噪声通过其的透声材料形成 。