公开(公告)号：US08659788B2

公开(公告)日：2014-02-25

申请号：US12486651

申请日：2009-06-17

Applicant: Kei Watanabe ,  Akihiro Ikeda

Inventor： Kei Watanabe ,  Akihiro Ikeda

IPC: G06F15/00

CPC classification number: G06F3/1208 ,  G06F3/1219 ,  G06F3/1245 ,  G06F3/125

Abstract: A printer can print to paper with a narrow width while maintaining a print format with good legibility without changing the application program and printer driver installed on the host computer. The control method of a printer that prints based on print data 5 sent from a host computer 3 has a step S105 of extracting data attributes contained in the print data 5 and assigning the print data 5 to data segment areas for each data attribute; a step of setting the data segment areas to specific printing areas based on the data attribute; an actual print data generating step (steps S122, S107, S133, S134, S111) of converting the print data 5 assigned to the data segment areas to actual print data according to the data attributes; and a printing step S113 of printing the actual print data in the printing areas.

Abstract translation: 打印机可以打印宽度窄的纸张，同时保持打印格式的良好可读性，而无需更改主机上安装的应用程序和打印机驱动程序。 基于从主计算机3发送的打印数据5打印的打印机的控制方法具有提取包含在打印数据5中的数据属性并将打印数据5分配给每个数据属性的数据段区域的步骤S105; 基于数据属性将数据段区域设置为特定打印区域的步骤; 根据数据属性将分配给数据段区域的打印数据5转换为实际打印数据的实际打印数据生成步骤（步骤S122，S107，S133，S134，S111） 以及在打印区域中打印实际打印数据的打印步骤S113。

公开(公告)号：US20090316162A1

公开(公告)日：2009-12-24

申请号：US12486651

申请日：2009-06-17

Applicant: Kei Watanabe ,  Akihiro Ikeda

Inventor： Kei Watanabe ,  Akihiro Ikeda

IPC: G06K15/02 ,  G06F15/00 ,  G06F3/12

CPC classification number: G06F3/1208 ,  G06F3/1219 ,  G06F3/1245 ,  G06F3/125

Abstract: A printer can print to paper with a narrow width while maintaining a print format with good legibility without changing the application program and printer driver installed on the host computer. The control method of a printer that prints based on print data 5 sent from a host computer 3 has a step S105 of extracting data attributes contained in the print data 5 and assigning the print data 5 to data segment areas for each data attribute; a step of setting the data segment areas to specific printing areas based on the data attribute; an actual print data generating step (steps S122, S107, S133, S134, S111) of converting the print data 5 assigned to the data segment areas to actual print data according to the data attributes; and a printing step S113 of printing the actual print data in the printing areas.

Abstract translation: 打印机可以打印宽度窄的纸张，同时保持打印格式的良好可读性，而无需更改主机上安装的应用程序和打印机驱动程序。 基于从主计算机3发送的打印数据5打印的打印机的控制方法具有提取包含在打印数据5中的数据属性并将打印数据5分配给每个数据属性的数据段区域的步骤S105; 基于数据属性将数据段区域设置为特定打印区域的步骤; 根据数据属性将分配给数据段区域的打印数据5转换为实际打印数据的实际打印数据生成步骤（步骤S122，S107，S133，S134，S111） 以及在打印区域中打印实际打印数据的打印步骤S113。

公开(公告)号：US09655830B2

公开(公告)日：2017-05-23

申请号：US13519348

申请日：2010-12-27

Applicant: Minako Sato ,  Takashi Teshigawara ,  Kei Watanabe

Inventor： Minako Sato ,  Takashi Teshigawara ,  Kei Watanabe

IPC: A61Q19/00 ,  A61K8/55 ,  A61K8/34 ,  A61K8/36

CPC classification number: A61K8/553 ,  A61K8/342 ,  A61K8/345 ,  A61K8/361 ,  A61K2800/262 ,  A61Q19/00

Abstract: To provide a transparent to translucent cosmetic composition which is highly stable, and can impart excellent actual feelings of effectiveness in use, such as a feeling of skin penetration, a feeling of non-stickiness, and a skin-softening effect after application thereof to the skin. A transparent to translucent cosmetic composition comprising: (a) a hydrogenated phospholipid, (b) one or more selected from among branched higher fatty acids and higher alcohols, and (c) a polyalcohol that acts as a good solvent and/or a poor solvent for component (a). Preferably, component (b) is isostearic acid and/or isostearyl alcohol. Preferably, the ratio of component (a)/component (b) is from 1/0.01 to 1/0.4 (by mass).

公开(公告)号：US09177729B2

公开(公告)日：2015-11-03

申请号：US13977711

申请日：2012-02-06

Applicant: Ick-soo Kim ,  Byoung-Suhk Kim ,  Kei Watanabe ,  Naotaka Kimura ,  Kyu-oh Kim ,  Jae-hwan Lee

Inventor： Ick-soo Kim ,  Byoung-Suhk Kim ,  Kei Watanabe ,  Naotaka Kimura ,  Kyu-oh Kim ,  Jae-hwan Lee

IPC: H01G9/02 ,  H01M2/14 ,  H01M2/16

CPC classification number: H01G9/02 ,  H01M2/145 ,  H01M2/162 ,  H01M2/1686

Abstract: The present invention provides a separator and a method for manufacturing the separator. The separator includes a first nanofiber layer (20) which has a lattice shape when viewed from a plan view, a second nanofiber layer (30) which is provided on a first surface of the first nanofiber layer (20) and is thinner than the first nanofiber layer, and a third nanofiber layer (40) which is provided on a second surface of the first nanofiber layer and is thinner than the first nanofiber layer. The thickness of the first nanofiber layer ranges from 7 μm to 30 μm. The thickness of each of the second and third nanofiber layers ranges from 1 μm to 5 μm. The present invention can provide a separator which has high insulation, high dendrite resistance, high ion conductivity and high mechanical strength.

Abstract translation: 本发明提供一种分离器及其制造方法。 所述隔板包括从平面观察时具有格子状的第一纳米纤维层（20），设置在所述第一纳米纤维层（20）的第一面上且比所述第一纳米纤维层薄 纳米纤维层和设置在第一纳米纤维层的第二表面上并且比第一纳米纤维层薄的第三纳米纤维层（40）。 第一纳米纤维层的厚度为7μm〜30μm。 第二和第三纳米纤维层的厚度范围为1μm至5μm。 本发明可以提供绝缘性高，耐枝晶性高，离子电导率高，机械强度高的隔膜。

公开(公告)号：US09090251B2

公开(公告)日：2015-07-28

申请号：US13879939

申请日：2011-09-29

Applicant: Kei Watanabe ,  Takeshi Ohno

Inventor： Kei Watanabe ,  Takeshi Ohno

IPC: B60W10/06 ,  B60W10/08 ,  B60W20/00 ,  F02D31/00 ,  F02D41/08 ,  F02P5/15 ,  B60K6/48 ,  F02D41/02

CPC classification number: B60W20/00 ,  B60K6/48 ,  B60W10/06 ,  B60W10/08 ,  B60W2510/0676 ,  B60W2510/244 ,  B60W2600/00 ,  B60W2710/0644 ,  B60W2710/065 ,  B60W2710/0688 ,  B60W2710/0694 ,  B60Y2200/92 ,  F02D31/001 ,  F02D41/0245 ,  F02D41/083 ,  F02D2200/503 ,  F02N2200/061 ,  F02P5/1508 ,  Y02T10/46 ,  Y02T10/6221 ,  Y02T10/6286 ,  Y10S903/93

Abstract: An idling revolution speed control which maintains an engine speed at a predetermined target idling revolution speed during the idling drive includes an engine idling mode which performs the idling revolution speed control through an engine and a motor idling mode which performs the idling revolution speed control through a motor. The two modes are switched in accordance with a battery charged state. During the idling drive in an engine cold state, an ignition timing of the engine in the motor idling mode is retarded and the retardation quantities R3, R4 are expanded to be larger than the retardation quantities R1, R2 in the engine idling mode. Thus, a rise in an exhaust temperature of the engine is promoted.

Abstract translation: 在怠速驱动期间将发动机转速保持在预定目标怠速转速的怠速转速控制包括通过发动机进行怠速转速控制的发动机怠速模式和通过a进行怠速转速控制的电动机怠速模式 发动机。 两种模式根据电池充电状态进行切换。 在发动机冷态的怠速驱动期间，发动机在怠速模式下的点火正时被延迟，延迟量R3，R4扩大到大于发动机怠速模式下的延迟量R1，R2。 因此，促进了发动机排气温度的上升。

公开(公告)号：US20140004405A1

公开(公告)日：2014-01-02

申请号：US13977711

申请日：2012-02-06

Applicant: Ick-soo Kim ,  Byoung-Suhk Kim ,  Kei Watanabe ,  Naotaka Kimura ,  Kyu-oh Kim ,  Jae-hwan Lee

Inventor： Ick-soo Kim ,  Byoung-Suhk Kim ,  Kei Watanabe ,  Naotaka Kimura ,  Kyu-oh Kim ,  Jae-hwan Lee

IPC: H01G9/02 ,  H01M2/14 ,  H01M2/16

CPC classification number: H01G9/02 ,  H01M2/145 ,  H01M2/162 ,  H01M2/1686

Abstract: The present invention provides a separator and a method for manufacturing the separator. The separator includes a first nanofiber layer (20) which has a lattice shape when viewed from a plan view, a second nanofiber layer (30) which is provided on a first surface of the first nanofiber layer (20) and is thinner than the first nanofiber layer, and a third nanofiber layer (40) which is provided on a second surface of the first nanofiber layer and is thinner than the first nanofiber layer. The thickness of the first nanofiber layer ranges from 7 μm to 30 μm. The thickness of each of the second and third nanofiber layers ranges from 1 μm to 5 μm. The present invention can provide a separator which has high insulation, high dendrite resistance, high ion conductivity and high mechanical strength.

Abstract translation: 本发明提供一种分离器及其制造方法。 所述隔板包括从平面观察时具有格子状的第一纳米纤维层（20），设置在所述第一纳米纤维层（20）的第一面上且比所述第一纳米纤维层薄 纳米纤维层和设置在第一纳米纤维层的第二表面上并且比第一纳米纤维层薄的第三纳米纤维层（40）。 第一纳米纤维层的厚度为7μm〜30μm。 第二和第三纳米纤维层中的每一个的厚度范围为1μm至5μm。 本发明可以提供绝缘性高，耐枝晶性高，离子电导率高，机械强度高的隔膜。

公开(公告)号：US20130182366A1

公开(公告)日：2013-07-18

申请号：US13621982

申请日：2012-09-18

Applicant: Kei Watanabe ,  Yoshiaki Shimooka ,  Tomohiro Saito ,  Tamio Ikehashi

Inventor： Kei Watanabe ,  Yoshiaki Shimooka ,  Tomohiro Saito ,  Tamio Ikehashi

IPC: H01G5/01

CPC classification number: H01G5/16 ,  H01G5/011 ,  Y10T29/42

Abstract: According to one embodiment, a MEMS element comprises a first electrode fixed on a substrate, a second electrode formed above the first electrode to face it, and vertically movable, a first anchor portion formed on the substrate and configured to support the second electrode, and a first spring portion configured to connect the second electrode and the first anchor portion. The first spring portion includes a liner layer includes a brittle material in contact with the second electrode and the first anchor portion, and a base layer formed on the liner layer, includes a brittle material having a composition different from that of the liner layer, and having a film thickness larger than that of the liner layer.

Abstract translation: 根据一个实施例，MEMS元件包括固定在基板上的第一电极，形成在第一电极上面以面对它并且可垂直移动的第二电极，形成在基板上并构造成支撑第二电极的第一锚定部分，以及 构造成连接第二电极和第一锚固部分的第一弹簧部分。 第一弹簧部分包括：衬垫层，包括与第二电极和第一锚定部分接触的脆性材料，以及形成在衬垫层上的基底层，包括具有不同于衬垫层的组成的脆性材料，以及 其膜厚度大于衬层的膜厚。

公开(公告)号：US20120205609A1

公开(公告)日：2012-08-16

申请号：US13235842

申请日：2011-09-19

Applicant: Shigeto OSHINO ,  Kenji Aoyama ,  Kazuhiko Yamamoto ,  Shinichi Nakao ,  Kei Watanabe ,  Satoshi Ishikawa

Inventor： Shigeto OSHINO ,  Kenji Aoyama ,  Kazuhiko Yamamoto ,  Shinichi Nakao ,  Kei Watanabe ,  Satoshi Ishikawa

IPC: H01L45/00 ,  H01L21/8239 ,  B82Y99/00

CPC classification number: H01L27/101 ,  B82Y10/00 ,  B82Y30/00 ,  H01L27/2481 ,  H01L45/149 ,  H01L45/1608

Abstract: According to one embodiment, a memory device includes a lower electrode layer, a nanomaterial assembly layer, a protective layer and an upper electrode layer. The nanomaterial assembly layer is provided on the lower electrode layer and includes a plurality of fine conductors assembled via a gap. The protective layer is provided on the nanomaterial assembly layer, is conductive, is in contact with the fine conductors, and includes an opening. The upper electrode layer is provided on the protective layer and is in contact with the protective layer.

Abstract translation: 根据一个实施例，存储器件包括下电极层，纳米材料组合层，保护层和上电极层。 纳米材料组装层设置在下电极层上，并且包括通过间隙组装的多个细导体。 保护层设置在纳米材料组装层上，导电，与细导体接触，并包括开口。 上电极层设置在保护层上并与保护层接触。

公开(公告)号：US20120119179A1

公开(公告)日：2012-05-17

申请号：US13354380

申请日：2012-01-20

Applicant: Shinichi Nakao ,  Kei Watanabe ,  Kazuhiko Yamamoto ,  Ichiro Mizushima ,  Yoshio Ozawa

Inventor： Shinichi Nakao ,  Kei Watanabe ,  Kazuhiko Yamamoto ,  Ichiro Mizushima ,  Yoshio Ozawa

IPC: H01L47/00 ,  H01L21/02 ,  B82Y99/00 ,  B82Y40/00

CPC classification number: B82Y10/00 ,  H01L27/1021 ,  H01L27/2409 ,  H01L27/2481 ,  H01L45/04 ,  H01L45/149 ,  H01L45/1608

Abstract: According to one embodiment, a memory device includes a nanomaterial aggregate layer of a plurality of fine conductors aggregating via gaps and an insulating material disposed in the gaps.

Abstract translation: 根据一个实施例，存储器件包括通过间隙聚集的多个细小导体的纳米材料聚集体层和设置在间隙中的绝缘材料。

公开(公告)号：US20100072581A1

公开(公告)日：2010-03-25

申请号：US12548492

申请日：2009-08-27

Applicant: Yasushi Nakasaki ,  Nobuhide Yamada ,  Miyoko Shimada ,  Hideshi Miyajima ,  Kei Watanabe

Inventor： Yasushi Nakasaki ,  Nobuhide Yamada ,  Miyoko Shimada ,  Hideshi Miyajima ,  Kei Watanabe

IPC: H01L29/06 ,  H01L21/31 ,  C07F7/18

CPC classification number: H01L21/76801 ,  C07F7/1804 ,  H01L21/02126 ,  H01L21/02211 ,  H01L21/02274 ,  H01L21/02282 ,  H01L21/02337 ,  H01L21/02348 ,  H01L21/02351 ,  H01L21/3105 ,  H01L21/31633 ,  H01L21/67109 ,  H01L21/67115

Abstract: According to one aspect of the present invention, there is provided a composition for film formation, comprising a compound represented by general formula (I) or a hydrolyzed-dehydrocondensation product thereof: X13-mR1mSiR2SiR3nX23-n  (I) wherein R1 and R3 represent a hydrogen atom or a monovalent substituent; R2 represents a divalent group having an alicyclic structure with four carbon atoms or a derivative of the divalent group; X1 and X2 represent a hydrolysable group; and m and n are an integer of from 0 to 2.

Abstract translation: 根据本发明的一个方面，提供一种成膜用组合物，其包含通式（I）表示的化合物或其水解脱氢产物：X13-mR1mSiR2SiR3nX23-n（Ⅰ），其中R1和R3表示 氢原子或一价取代基; R2表示具有四个碳原子的脂环结构或二价基团的衍生物的二价基团; X1和X2表示可水解基团; m和n为0〜2的整数。