公开(公告)号：US20120090871A1

公开(公告)日：2012-04-19

申请号：US13099634

申请日：2011-05-03

Applicant: Yoshihisa KATO ,  Tomiya Abe ,  Takao Miwa ,  Osamu Seya

Inventor： Yoshihisa KATO ,  Tomiya Abe ,  Takao Miwa ,  Osamu Seya

IPC: H01B7/18 ,  H01B3/30 ,  B05D3/02 ,  H01B13/06 ,  B05D3/06 ,  C08J3/28 ,  H01B7/00

CPC classification number: H01B3/447 ,  C08J3/28 ,  C08J2375/04

Abstract: A hydrous water absorbent polymer dispersed ultraviolet curable resin composition includes an ultraviolet curable resin composition, and a hydrous water absorbent polymer swollen by water beforehand, and dispersed in the ultraviolet curable resin composition so that the hydrous water absorbent polymer dispersed ultraviolet curable resin composition has a moisture content of not less than 50 percent. The water absorption rate of the ultraviolet curable resin composition is not more than 2 percent.

Abstract translation: 含水吸水性聚合物分散紫外线固化树脂组合物包括紫外线固化树脂组合物和预先用水溶胀的含水​​吸水性聚合物，并分散在紫外线固化树脂组合物中，使得含水吸水性聚合物分散的紫外线固化树脂组合物具有 含水量不低于50％。 紫外线硬化性树脂组合物的吸水率为2％以下。

公开(公告)号：US20110180298A1

公开(公告)日：2011-07-28

申请号：US12983502

申请日：2011-01-03

Applicant: Yoshihisa KATO ,  Tomiya Abe

Inventor： Yoshihisa KATO ,  Tomiya Abe

IPC: H01B7/18 ,  B01J20/26 ,  B05D5/12 ,  H01B3/30

CPC classification number: C08G18/672 ,  C08L75/16 ,  H01B3/447 ,  C08G18/42

Abstract: A hydrous water absorbent polymer-dispersed ultraviolet curable resin composition, a porous substance, an insulated wire, a multilayer covered cable, a coaxial cable using the same, a method for manufacturing the porous substance and a method for manufacturing the insulated wire using the same. A hydrous water absorbent polymer preliminarily hydrated and swollen is dispersed in an ultraviolet curable resin composition. The ultraviolet curable resin composition includes an urethane oligomer having a molecular weight of 5000 or less and having a poly(ethylene-glicol-adipate)diol having a molecular weight of 500 to 3000 and having an acryloyl radical or a methacryloyl radical as a functional radical X at both ends by urethane bond via an alicyclic isocyanate as expressed by a following formula, at least one kind of alicyclic monomer, a hydrophilic monomer, and a photopolymerization initiator. 0.01 mass % to 0.5 mass % of a non-ionic fluorine based surface active agent or a non-ionic silicone-based surface active agent may be added to the resin composition.

Abstract translation: 含水吸水性高分子分散紫外线固化性树脂组合物，多孔物质，绝缘电线，多层包覆电缆，使用该多层电缆的同轴电缆，多孔物质的制造方法以及使用该多孔物质的绝缘电线的制造方法 。 预先水合和膨胀的含水吸水性聚合物分散在紫外线固化树脂组合物中。 紫外线固化型树脂组合物包含分子量为5000以下且具有分子量为500〜3000的聚（乙烯 - 庚烷 - 己二酸酯）二醇的氨基甲酸酯低聚物，具有丙烯酰基或甲基丙烯酰基作为官能团 通过氨基甲酸酯键通过脂环族异氰酸酯如下式表示的至少一种脂环族单体，亲水性单体和光聚合引发剂。 可以向树脂组合物中添加0.01质量％〜0.5质量％的非离子性氟系表面活性剂或非离子型硅氧烷类表面活性剂。

公开(公告)号：US20100096159A1

公开(公告)日：2010-04-22

申请号：US12427066

申请日：2009-04-21

Applicant: Tomiya ABE ,  Yoshihisa KATO

Inventor： Tomiya ABE ,  Yoshihisa KATO

IPC: H01B3/00 ,  B05D5/12

CPC classification number: H01B13/30 ,  H01B3/302 ,  H01B3/447 ,  H01B13/16

Abstract: A method of manufacturing a foam-insulated wire, which uses a porous solid, which is able to improve performance of a foam-insulated wire by controlling the dispersion of the void content of the insulation, and the foam-insulated wire manufactured thereby are provided. The method comprising the steps of: forming a film of coating on the conductor with a water-in-oil form emulsion (O/W-form emulsion); curing the oil layer in the film of coating of the water-in-oil form emulsion by polymerization; removing water droplets therefrom; and thereby forming an insulation layer of a porous solid on the conductor.

Abstract translation: 提供一种制造使用多孔固体的泡沫绝缘电线的方法，其能够通过控制绝缘体的空隙含量的分散和由此制造的泡沫绝缘电线来改善泡沫绝缘电线的性能 。 该方法包括以下步骤：用油包水型乳液（O / W型乳液）在导体上形成涂层膜; 通过聚合固化油包水型乳液涂层膜中的油层; 从中除去水滴; 从而在导体上形成多孔固体的绝缘层。

公开(公告)号：US20110195197A1

公开(公告)日：2011-08-11

申请号：US12795810

申请日：2010-06-08

Applicant: Tomiya ABE ,  Yoshihisa KATO

Inventor： Tomiya ABE ,  Yoshihisa KATO

IPC: C08F2/48

CPC classification number: H01B13/145 ,  H01B13/148

Abstract: A method of manufacturing an ultraviolet cross-linked foam insulated wire includes dissolving a gas in an ultraviolet curable resin composition, subsequently applying the ultraviolet curable resin composition on a conductor, and irradiating ultraviolet light on the ultraviolet curable resin composition to form a foam insulation layer on the conductor. The irradiating of ultraviolet light allows the resin composition to cure and bubbles to grow due to a decrease in solubility of the gas in the resin composition during the curing of the resin composition.

Abstract translation: 制造紫外线交联泡沫绝缘线的方法包括将气体溶解在紫外线固化树脂组合物中，随后将紫外线固化树脂组合物施加到导体上，并将紫外光照射在紫外线固化树脂组合物上以形成泡沫绝缘层 在指挥上 紫外线的照射使得树脂组合物固化并且由于树脂组合物固化期间气体在树脂组合物中的溶解度降低而使气泡生长。

公开(公告)号：US20120111600A1

公开(公告)日：2012-05-10

申请号：US13356015

申请日：2012-01-23

Applicant: Yoshihisa KATO ,  Seikichi TANNO

Inventor： Yoshihisa KATO ,  Seikichi TANNO

IPC: H01B3/30 ,  H01B19/02 ,  H01B19/04

CPC classification number: C08J9/28 ,  C08J9/0061 ,  C08J2201/0504 ,  C08J2207/06 ,  C08J2300/14 ,  C08J2333/06 ,  H01B3/30

Abstract: A method for producing an aqueous absorptive polymer-containing resin composition in which a resin composition is doped with an aqueous absorptive polymer includes causing the aqueous absorptive polymer to absorb and be swollen by water beforehand, and milling and microparticulating the water-absorbed and -swollen absorptive polymer at an ultrasonic flow pressure of not less than 50 MPa.

Abstract translation: 制备含有吸水聚合物的树脂组合物的方法，其中树脂组合物掺杂有水性吸收聚合物包括使水性吸收性聚合物预先吸收并被水溶胀，并研磨和微粒化吸水和溶解 吸收聚合物在超声波流动压力不低于50MPa。

公开(公告)号：US20090079857A1

公开(公告)日：2009-03-26

申请号：US12235839

申请日：2008-09-23

Applicant: Yoshihisa KATO ,  Takahiko MURATA ,  Shigetaka KASUGA ,  Takayoshi YAMADA

Inventor： Yoshihisa KATO ,  Takahiko MURATA ,  Shigetaka KASUGA ,  Takayoshi YAMADA

IPC: H04N5/30 ,  G01J1/44

CPC classification number: G01J1/46 ,  H04N5/3742 ,  H04N5/378

Abstract: The received-light intensity measuring device includes: a pixel circuit 1 including a photodiode (PD) that accumulates an amount of electric charges according to the intensity of received light, a floating diffusion (FD) that generates a signal voltage VCL according to an amount of retained electric charges, and a transfer switch that controls the transfer, to the FD, of the electric charges accumulated in the PD; a DAC 11 that generates a control voltage VTRAN varying in a ramp waveform and applies VTRAN to the gate of the transfer switch; a column AD conversion circuit 13 that obtains the digital value by quantizing a length of time from a first point in time set with reference to a period during which VTRAN is applied to a second point in time at which a specific fluctuation occurs in a temporal variation rate of the signal voltage VCL while VTRAN is being applied.

Abstract translation: 接收光强度测量装置包括：像素电路1，其包括根据接收光的强度累积电荷量的光电二极管（PD）;根据接收光强度产生信号电压VCL的浮动扩散（FD） 以及转移开关，其控制在PD中累积的电荷向FD的转移; DAC11，其产生以斜坡波形变化的控制电压VTRAN，并将VTRAN应用于转换开关的栅极; 列AD转换电路13，其通过将从参考VTRAN应用的周期的第一时间点的时间长度量化到在时间变化中发生特定波动的第二时间点来获得数字值 VTRAN被施加时信号电压VCL的速率。

公开(公告)号：US20080260517A1

公开(公告)日：2008-10-23

申请号：US12103918

申请日：2008-04-16

Applicant: Tomo HAYASHIGAITO ,  Kenji IWAMOTO ,  Yoshihisa KATO ,  Hironobu NISHIDA ,  Suguru YAMADA ,  Manabu MIYAKODA

Inventor： Tomo HAYASHIGAITO ,  Kenji IWAMOTO ,  Yoshihisa KATO ,  Hironobu NISHIDA ,  Suguru YAMADA ,  Manabu MIYAKODA

IPC: F01D1/10 ,  F04D29/52 ,  F04D13/06

CPC classification number: F04D19/007 ,  F04D25/0613 ,  F04D29/526

Abstract: A fan apparatus includes a casing and a fan unit. The casing is a hollow member having an inlet and an outlet. The fan unit has an inlet and an outlet, and includes a plurality of axial fans. The fan unit is disposed on the inside of the casing, and the inlet of the fan unit is disposed in the vicinity of the inlet of the casing. The position of the fan unit within the casing can be varied in order to alter the air flow and static pressure of the air discharged by the fan apparatus.

Abstract translation: 风扇装置包括壳体和风扇单元。 壳体是具有入口和出口的中空构件。 风扇单元具有入口和出口，并且包括多个轴流风扇。 风扇单元设置在壳体的内部，风扇单元的入口设置在壳体的入口附近。 风扇单元在壳体内的位置可以变化，以便改变由风扇装置排放的空气的空气流量和静压力。

公开(公告)号：US20080131061A1

公开(公告)日：2008-06-05

申请号：US12021326

申请日：2008-01-29

Applicant: Yoshihisa KATO ,  Kanako Suzuki

Inventor： Yoshihisa KATO ,  Kanako Suzuki

IPC: G02B6/255

CPC classification number: G02B6/3846 ,  G02B6/3855

Abstract: A forming method of a refractive index matching film comprises steps: one end of an optical fiber is brought into contact with a liquid surface of a photo-curable refractive index matching solution; curing reaction light is made incident to the opposite end of the optical fiber and is emitted through the one end of the optical fiber so as to cure preliminarily the photo-curable refractive index matching solution in contact with the one end of the optical fiber; the curing reaction light is tentatively stopped; the one end of the optical fiber is separated from the liquid surface of the photo-curable refractive index matching solution; and the curing reaction light is made incident again from the opposite end of the optical fiber so as to cure the preliminarily cured photo-curable refractive index matching solution and form a refractive index matching film.

Abstract translation: 折射率匹配膜的形成方法包括以下步骤：使光纤的一端与光固化型折射率匹配溶液的液面接触; 固化反应光入射到光纤的相对端，并通过光纤的一端发射，以便预先固化与光纤的一端接触的光固化折射率匹配溶液; 固化反应光暂时停止; 光纤的一端与光固化型折射率匹配溶液的液面分离; 并且使固化反应光从光纤的另一端重新入射，以固化预固化的光固化折射率匹配溶液并形成折射率匹配膜。

公开(公告)号：US20120240132A1

公开(公告)日：2012-09-20

申请号：US13399295

申请日：2012-02-17

Applicant: Akiro KOBAYASHI ,  Yoshihisa KATO ,  Koji YAOITA

Inventor： Akiro KOBAYASHI ,  Yoshihisa KATO ,  Koji YAOITA

IPC: G06F9/46

CPC classification number: G05B19/056 ,  G05B2219/13004 ,  G05B2219/13153 ,  G06F9/4887

Abstract: A control apparatus capable of updating a user program while processing is being performed in a multitasking manner is provided. A processor includes a memory that stores a user program containing a program organization unit as well as a central processing unit executing a task containing the user program and also updating the program organization unit stored in the memory. The central processing unit is configured to execute a plurality of tasks concurrently and to execute each task with a period corresponding to the task. Moreover, the central processing unit is configured to update the program organization unit stored in the memory during the period of time from when a plurality of tasks to be executed have been finished until when the plurality of tasks are executed again.

Abstract translation: 提供能够以多任务方式执行处理时能够更新用户程序的控制装置。 处理器包括存储包含程序组织单元的用户程序的存储器以及执行包含用户程序的任务的中央处理单元，并且还更新存储在存储器中的程序组织单元。 中央处理单元被配置为同时执行多个任务，并以对应于该任务的周期来执行每个任务。 此外，中央处理单元被配置为在从要执行的多个任务完成直到再次执行多个任务的时间段期间，更新存储在存储器中的程序组织单元。

公开(公告)号：US20120033117A1

公开(公告)日：2012-02-09

申请号：US13271466

申请日：2011-10-12

Applicant: Takahiko MURATA ,  Takayoshi YAMADA ,  Yoshihisa KATO ,  Shigetaka KASUGA

Inventor： Takahiko MURATA ,  Takayoshi YAMADA ,  Yoshihisa KATO ,  Shigetaka KASUGA

IPC: H04N5/335 ,  H01L27/146

CPC classification number: H04N5/361 ,  H01L27/14643 ,  H04N5/3742 ,  H04N5/3745

Abstract: A plurality of pixel circuits arranged in rows and columns, and each of which outputs an electric signal according to an amount of received light; a first column signal line provided for each of the columns, and for sequentially transferring the electric signals from said pixel circuits in a corresponding column; and a holding circuit provided for each of the pixel circuits in each column, and which holds the electric signal transferred through the column signal line in the corresponding column are provided. A holding circuit includes a first capacitor which holds a first electric signal of the corresponding pixel circuit in a reset state; and a second capacitor which holds a second electric signal after the corresponding pixel circuit receives light. A difference circuit calculates a difference between two electric signals held by the first capacitor and the second capacitor in a same holding circuit.

Abstract translation: 多个以行和列排列的像素电路，每个像素电路根据接收的光量输出电信号; 为每个列提供的第一列信号线，并且用于从相应列中的所述像素电路顺序传送电信号; 并且提供为每列中的每个像素电路提供并保持通过相应列中的列信号线传送的电信号的保持电路。 保持电路包括：第一电容器，其将相应像素电路的第一电信号保持在复位状态; 以及在相应的像素电路接收光之后保持第二电信号的第二电容器。 差分电路在相同的保持电路中计算由第一电容器和第二电容器保持的两个电信号之间的差。