公开(公告)号：US20130129549A1

公开(公告)日：2013-05-23

申请号：US13812347

申请日：2012-03-15

Applicant: Atsushi Sakuda ,  Yoshiyuki Futagami ,  Hiroyuki Kawano ,  Yusuke Imai ,  Takashi Morimoto ,  Osamu Aiba ,  Takeshi Hashimoto

Inventor： Atsushi Sakuda ,  Yoshiyuki Futagami ,  Hiroyuki Kawano ,  Yusuke Imai ,  Takashi Morimoto ,  Osamu Aiba ,  Takeshi Hashimoto

IPC: F04C18/00

CPC classification number: F04C18/00 ,  F04B39/16 ,  F04C18/0215 ,  F04C18/0253 ,  F04C18/0261 ,  F04C23/008 ,  F04C29/026

Abstract: According to a compressor of the present invention, the compressor further comprises an oil separating mechanism 40 which separates oil from the refrigerant gas discharged from the compressing mechanism 10, the oil separating mechanism 40 includes a cylindrical space 41 in which the refrigerant gas orbits, an inflow portion 42 for flowing the refrigerant gas discharged from the compressing mechanism 10 into the cylindrical space 41, a sending-out port 43 for sending out, from the cylindrical space 41 to the one container space 32, the refrigerant gas from which the oil is separated, and an exhaust port 44 for discharging the separated oil from the cylindrical space 41 into the other container space 32. According to this configuration, efficiency of the electric motor 20 is enhanced, volumetric efficiency is enhanced, and low oil circulation is realized.

Abstract translation: 根据本发明的压缩机，压缩机还包括分油机构40，其将油与从压缩机构10排出的制冷剂气体分离，油分离机构40包括制冷剂气体在其中轨道运动的圆柱形空间41， 用于将从压缩机构10排出的制冷剂气体流入圆筒形空间41的流出部分42，从圆筒形空间41向一个容器空间32排出油的制冷剂气体的送出口43 以及用于将分离的油从圆筒空间41排出到另一个容器空间32中的排气口44.根据该结构，电动机20的效率提高，容积效率提高，油循环低。

公开(公告)号：US08298697B2

公开(公告)日：2012-10-30

申请号：US12674843

申请日：2009-05-28

Applicant: Shigeyuki Unoki ,  Takashi Nakagawa ,  Takashi Morimoto ,  Mitsuo Yoshimura

Inventor： Shigeyuki Unoki ,  Takashi Nakagawa ,  Takashi Morimoto ,  Mitsuo Yoshimura

IPC: H01M8/04 ,  H01M2/10 ,  H01M1/08 ,  H01M8/10

CPC classification number: H01M8/008 ,  H01M8/0258 ,  H01M8/0263 ,  H01M8/0273 ,  H01M8/0276 ,  H01M8/028 ,  H01M8/2483 ,  H01M2008/1095 ,  Y02W30/86

Abstract: In an MEA member constituted by a polymer electrolyte membrane-electrode assembly (MEA) and a frame and in a polymer electrolyte fuel cell including this MEA member, the MEA and the frame can be easily separated from each other without using any special tool. An MEA member 7 includes an MEA 5 and a plate-shaped resin frame 6, and a separating portion for separating the MEA 5 from the frame 6 is formed in the MEA member 7. The MEA 5 includes a polymer electrolyte membrane 2 and a pair of electrodes 3 and 4 respectively disposed on both main surfaces of the polymer electrolyte membrane 2. The frame 6 sandwiches and holds a peripheral portion of main surfaces of the MEA 5 such that the MEA 5 is located inside the frame. The separating portion is a broken-line cutoff line 50 formed on the frame 6 to divide the frame 6 into two or more parts or a partial sandwiching portion 55 located at an inner peripheral portion of the frame 6 to partially sandwich the peripheral portion of the MEA 5.

Abstract translation: 在由聚合物电解质膜 - 电极组件（MEA）和框架构成的MEA构件中并且在包括该MEA构件的聚合物电解质燃料电池中，MEA和框架可以容易地彼此分离而不使用任何特殊工具。 MEA构件7包括MEA 5和板状树脂框架6，并且在MEA构件7中形成有用于将MEA5与框架6分离的分离部.MEA 5包括聚合物电解质膜2和一对 分别设置在聚合物电解质膜2的两个主表面上的电极3和4.框架6夹持并保持MEA 5的主表面的周边部分，使得MEA 5位于框架内。 分离部分是形成在框架6上以将框架6分成两个或更多个部分的虚线切断线50或位于框架6的内周部分的部分夹持部分55，以部分地夹住框架6的周边部分 MEA 5。

公开(公告)号：US20120251094A1

公开(公告)日：2012-10-04

申请号：US13361972

申请日：2012-01-31

Applicant: Masanao WAKIKAWA ,  Takashi Morimoto ,  Kunihiko Hara ,  Yasuhiro Nakagai ,  Tetsuro Tanaka

Inventor： Masanao WAKIKAWA ,  Takashi Morimoto ,  Kunihiko Hara ,  Yasuhiro Nakagai ,  Tetsuro Tanaka

IPC: G03B9/08

CPC classification number: G03B9/08 ,  G03B9/16

Abstract: A shutter drive device includes a base member, an actuator, a first drive member, and a second drive member. The actuator is fixed to the base member and produces a driving force to drive the shutter mechanism. The first drive member is rotatably supported by the base member and configured to be rotated by the driving force. The second drive member is supported by the base member so as to be linearly movable in a first direction and configured to transmit the driving force of the actuator to the shutter mechanism. The first drive member has a gear component to drive the second drive member in the first direction, and a cam component configured to hold the second drive member in a specific position. The second drive member has a rack gear configured to mesh with the gear component, and a cam follower configured to contact the cam component.

Abstract translation: 快门驱动装置包括基部构件，致动器，第一驱动构件和第二驱动构件。 致动器固定到基座构件并产生驱动快门机构的驱动力。 第一驱动构件由基部构件可旋转地支撑并构造成通过驱动力旋转。 第二驱动构件由基座构件支撑，以便可沿第一方向线性移动并且构造成将致动器的驱动力传递到快门机构。 第一驱动构件具有用于沿第一方向驱动第二驱动构件的齿轮部件，以及构造成将第二驱动构件保持在特定位置的凸轮部件。 第二驱动构件具有构造成与齿轮部件啮合的齿条齿轮和被配置为接触凸轮部件的凸轮从动件。

公开(公告)号：US20120211642A1

公开(公告)日：2012-08-23

申请号：US13504466

申请日：2009-10-18

Applicant: Tsuyoshi Iwamoto ,  Takashi Morimoto ,  Masayuki Kusuda

Inventor： Tsuyoshi Iwamoto ,  Takashi Morimoto ,  Masayuki Kusuda

IPC: H01L27/148

CPC classification number: H04N5/378 ,  H01L27/14603 ,  H04N5/35509 ,  H04N5/35527 ,  H04N5/3575

Abstract: Provided is a solid-state imaging device comprising a plurality of pixel circuits GC having photoelectric conversion characteristics including linear characteristics and logarithmic characteristics on either side of an inflection point. The pixel circuits GC each include a photoelectric conversion element PD which accumulates a signal charge by exposing a subject, and a floating diffusion FD which converts the signal charge accumulated by the photoelectric conversion element PD into a voltage signal. The floating diffusion FD is set to have an operating charge that is smaller than a saturation charge of the photoelectric conversion element PD.

Abstract translation: 提供了一种固态成像装置，其包括具有包括拐点两侧的线性特性和对数特性的光电转换特性的多个像素电路GC。 像素电路GC各自包括通过使被摄体曝光来积累信号电荷的光电转换元件PD和将由光电转换元件PD累积的信号电荷转换为电压信号的浮动扩散FD。 浮动扩散部FD被设定为具有小于光电转换元件PD的饱和电荷的工作电荷。

公开(公告)号：US20120128518A1

公开(公告)日：2012-05-24

申请号：US13388344

申请日：2011-06-09

Applicant: Sadayuki Yamada ,  Atsushi Sakuda ,  Yoshiyuki Futagami ,  Takashi Morimoto ,  Nobuaki Ogawa ,  Yoshifumi Abe

Inventor： Sadayuki Yamada ,  Atsushi Sakuda ,  Yoshiyuki Futagami ,  Takashi Morimoto ,  Nobuaki Ogawa ,  Yoshifumi Abe

IPC: F04C18/02

CPC classification number: F04C18/0215 ,  F04C23/008 ,  F04C29/028 ,  F04C2270/701

Abstract: A scroll compressor includes a back pressure chamber oil-feeding path for feeding lubricating oil from a high-pressure region to a back pressure chamber, and a compression chamber oil-feeding path for feeding lubricating oil from the back pressure chamber to a compression chamber. One phase in which the back pressure chamber oil-feeding path is communicated from the high-pressure region to the back pressure chamber and another phase in which the compression chamber oil-feeding path is communicated from the back pressure chamber to the compression chamber are shifted from each other, so that the back pressure chamber oil-feeding path and the compression chamber oil-feeding path are never put into the communicating state simultaneously. Thus, after a halt of the compressor, under-communication oil-feeding of the lubricating oil from the high-pressure region via the back pressure chamber to the compression chamber can be prevented, so that the lubricating oil in the liquid storage section is kept from decreasing and moreover the lubricating oil is kept from being filled into the compression chamber, make it possible to achieve a stable restart-up.

Abstract translation: 涡旋压缩机包括用于将润滑油从高压区域供给到背压室的背压室供油路径和用于将润滑油从背压室供给到压缩室的压缩室供油路径。 背压室供油路径从高压区域传递到背压室的一个阶段和压缩室供油路径从背压室连通到压缩室的另一个相位被偏移 使得背压室供油路径和压缩室供油路径不会同时进入连通状态。 因此，在压缩机停止之后，可以防止润滑油从高压区域经由背压室向压缩室的不连通供油，从而保持液体存储部分中的润滑油 从而减少润滑油，并且不会将润滑油填充到压缩室中，使得可以实现稳定的重新起动。

公开(公告)号：US08177301B2

公开(公告)日：2012-05-15

申请号：US12373320

申请日：2007-07-10

Applicant: Makoto Saito ,  Takashi Morimoto ,  Yoshiharu Kitamura

Inventor： Makoto Saito ,  Takashi Morimoto ,  Yoshiharu Kitamura

IPC: A47C7/54 ,  B60N2/46

CPC classification number: A47C7/543 ,  B60N2/757 ,  B60N2/767

Abstract: An armrest, has a stationary shaft rotatably supporting an armrest body against a seat frame. The stationary shaft is inserted, so as to have fastening tolerance, inside a coil lock spring and to have a stationary-side hook and a free-side hook. A diameter of the coil lock spring is reduced or enlarged according to a normal or a reverse rotation, respectively, of the armrest body, so as to prevent or permit, respectively, the rotation of the armrest body. One of the inside diameter of the lock spring and the outside diameter of the stationary shaft is tapered in said shaft's axial direction.

Abstract translation: 扶手具有可旋转地支撑扶手主体抵靠座椅框架的固定轴。 固定轴在线圈锁定弹簧内插入，具有紧固公差，并具有固定侧钩和自由侧钩。 螺旋锁弹簧的直径分别根据扶手体的正常或反向旋转而减小或扩大，以防止或允许扶手主体的旋转。 锁定弹簧的内径和固定轴的外径之一在所述轴的轴向上呈锥形。

公开(公告)号：US20110318665A1

公开(公告)日：2011-12-29

申请号：US13254244

申请日：2010-03-03

Applicant: Yoko Yamamoto ,  Toshihiro Matsumoto ,  Takashi Morimoto ,  Mitsuo Yoshimura

Inventor： Yoko Yamamoto ,  Toshihiro Matsumoto ,  Takashi Morimoto ,  Mitsuo Yoshimura

IPC: H01M2/08 ,  H01M8/24

CPC classification number: H01M8/0267 ,  H01M8/0273 ,  H01M8/0276 ,  H01M8/0284 ,  H01M8/0286 ,  H01M8/242 ,  H01M8/248 ,  H01M8/2483 ,  H01M2008/1095 ,  Y02E60/50

Abstract: A polymer electrolyte fuel cell-use gasket, included in a polymer electrolyte fuel cell including a fuel cell stack. In fuel cell stack, a plurality of unit cell modules is stacked, and each of the unit cell modules includes sealing members disposed at circumference portions of both surfaces of a membrane electrode assembly, and paired separators sandwiching the membrane electrode assembly and the sealing members. The fuel cell stack is assembled by being clamped by a fastening member via paired end plates respectively disposed at both ends of a stacked product. The present invention relates to the polymer electrolyte fuel cell-use gasket in which the sealing members are integrally molded with the circumference portions of both surfaces of the membrane electrode assembly. A conventional gasket has an issue that the gasket cannot achieve, at the same time, the conflicting demands, i.e., a reduction in the fastening force and a sure securing of the sealing performance. In the present invention, the issue is resolved by as the sealing member of the gasket, two rows of sealing lips continuously provided in parallel to each other in an in-plane manner, and at least an outer one of the two rows of sealing lips is integrally formed having a top side bell-shaped portion overlaid on a bottom side bell-shaped portion.

Abstract translation: 包含在包括燃料电池堆的聚合物电解质燃料电池中的聚合物电解质燃料电池用垫圈。 在燃料电池堆叠中，堆叠多个单元电池模块，并且每个单电池模块包括设置在膜电极组件的两个表面的周边部分处的密封构件和夹持膜电极组件和密封构件的成对分离器。 燃料电池堆通过分别设置在堆叠产品的两端的配对端板被紧固构件夹紧。 本发明涉及聚合物电解质燃料电池用垫片，其中密封件与膜电极组件的两个表面的周边部分整体模制。 传统的垫圈存在的问题是垫圈不能同时达到冲突的要求，即紧固力的降低和密封性能的确定。 在本发明中，通过作为密封件的密封构件来解决问题，两行密封唇以平面方式彼此平行地连续设置，并且两排密封唇中的至少一个 一体地形成有具有覆盖在底侧钟形部分上的顶侧钟形部分。

公开(公告)号：US07998636B2

公开(公告)日：2011-08-16

申请号：US12919025

申请日：2010-03-26

Applicant: Toshihiro Matsumoto ,  Yoko Yamamoto ,  Takashi Morimoto ,  Mitsuo Yoshimura ,  Kenji Arai ,  Yoshiki Nagao

Inventor： Toshihiro Matsumoto ,  Yoko Yamamoto ,  Takashi Morimoto ,  Mitsuo Yoshimura ,  Kenji Arai ,  Yoshiki Nagao

IPC: H01M8/02 ,  H01M8/24

CPC classification number: H01M8/247 ,  H01M8/04201 ,  H01M8/2415 ,  H01M8/2484 ,  H01M2008/1095

Abstract: A fuel cell stack comprising: a cell stack body having stacked single cells and a manifold for supplying or discharging a fluid to the stacked single cells, the single cell including a membrane electrode assembly and a separator sandwiching the membrane electrode assembly; an end plate stacked onto the cell stack body and having a through-hole along the stacking direction of the cell stack body; and a fluid tube body inserted detachably into the through-hole so as to pass through the end plate, the fluid tube body being connected to the manifold, wherein a part of the outer surface of the fluid tube body opposite to the inner surface of the through-hole is separated from the inner surface of the through-hole.

Abstract translation: 一种燃料电池堆，其特征在于，包括：具有层叠的单电池的电池堆主体和用于向层叠的单电池供给或排出流体的歧管，所述单电池包括膜电极组件和夹着所述膜电极组件的隔膜; 堆叠在电池堆主体上并具有沿着电池堆叠体的堆叠方向的通孔的端板; 以及流体管体，其以可分离的方式插入到所述通孔中，以通过所述端板，所述流体管体连接到所述歧管，其中所述流体管体的与所述流体管体的内表面相对的一部分 通孔与通孔的内表面分离。

公开(公告)号：US20110157490A1

公开(公告)日：2011-06-30

申请号：US13058497

申请日：2009-08-19

Applicant: Takashi Morimoto ,  Mitsuaki Hirata

Inventor： Takashi Morimoto ,  Mitsuaki Hirata

IPC: H04N3/14 ,  H01L33/08 ,  H01L33/16

CPC classification number: H01L27/12 ,  G02F1/136213 ,  G02F1/1365 ,  G02F1/1368 ,  G09G3/3648 ,  G09G2320/0214

Abstract: A diode (130) whose anode is connected to a conductive plate (140) formed so as to cover a TFT (120) of a pixel formation portion (110) and whose cathode is connected to a video signal line is provided. With the configuration, when potential of a video signal applied to the video signal line is lower than that of the conductive plate (140), a current is passed to the diode (130), and the potential of the conductive plate (140) becomes equal to that of the video signal line. On the other hand, when the potential of the video signal is higher than that of the conductive plate (140), no current flows, so that the potential of the diode (130) is held as it is. As a result, the potential of the conductive plate (140) is clamped to the lowest potential among potentials of video signals.Consequently, a leak current which flows from the pixel electrode Ep of the pixel formation portion (110) to the video signal line when the TFT (120) is in the off state is suppressed. Thus, the present invention provides an active matrix substrate capable of suppressing a change in an off characteristic of the TFT even when current passage time becomes longer.

Abstract translation: 提供了一种二极管（130），其阳极连接到形成为覆盖像素形成部分（110）的TFT（120）并且其阴极连接到视频信号线的导电板（140）。 利用该配置，当施加到视频信号线的视频信号的电位低于导电板（140）的电位时，电流被传递到二极管（130），并且导电板（140）的电位变为 等于视频信号线。 另一方面，当视频信号的电位高于导电板（140）的电位时，没有电流流动，使得二极管（130）的电位原样保持。 结果，导电板（140）的电位被钳位到视频信号的电位中的最低电位。 因此，抑制当TFT（120）处于截止状态时从像素形成部分（110）的像素电极Ep流向视频信号线的泄漏电流。 因此，本发明提供即使当电流通过时间变长时也能够抑制TFT的截止特性变化的有源矩阵基板。

公开(公告)号：US07833673B2

公开(公告)日：2010-11-16

申请号：US12092158

申请日：2007-06-26

Applicant: Takashi Morimoto ,  Hiroki Kusakabe ,  Toshihiro Matsumoto ,  Norihiko Kawabata

Inventor： Takashi Morimoto ,  Hiroki Kusakabe ,  Toshihiro Matsumoto ,  Norihiko Kawabata

IPC: H01M2/08

CPC classification number: H01M8/0273 ,  H01M8/0258 ,  H01M8/0271 ,  H01M8/0276 ,  H01M8/1004 ,  H01M8/242 ,  H01M8/2457 ,  H01M8/2483 ,  H01M2008/1095

Abstract: Elastic members that are integrally joined to a frame member are placed between an outer edge of an electrode unit and an inner edge of the frame member, and in the assembled state of the single cell module, the elastic members are elastically deformed in the thickness direction of a membrane-electrode-frame assembly so that the gap between the membrane-electrode-frame assembly and the separator is sealed in a tight contact state.

Abstract translation: 与框架构件一体地接合的弹性构件被放置在电极单元的外边缘和框架构件的内边缘之间，并且在单电池模块的组装状态下，弹性构件在厚度方向上弹性变形 的膜 - 电极 - 框架组件，使得膜 - 电极 - 框架组件和隔板之间的间隙密封在紧密接触状态。