公开(公告)号：US06849335B2

公开(公告)日：2005-02-01

申请号：US10333135

申请日：2001-08-08

Applicant: Hisao Igarashi ,  Kazuo Inoue ,  Ryoji Setaka

Inventor： Hisao Igarashi ,  Kazuo Inoue ,  Ryoji Setaka

IPC: H01B1/20 ,  H01R13/24 ,  B32B5/16

CPC classification number: H01R13/2414 ,  H01B1/20 ,  Y10T428/254 ,  Y10T428/2991 ,  Y10T428/2998 ,  Y10T428/32

Abstract: Disclosed herein is an anisotropically conductive sheet capable of holding charge in its surfaces under an unpressurised state, and moving the charge held in the surface in a thickness-wise direction thereof in a state pressurised in the thickness-wise direction, thereby controlling the quantity of the charge at the surface.This anisotropically conductive sheet comprises a sheet base composed of an elastomer and conductive particles exhibiting magnetism contained in the sheet base in a state oriented so as to arrange in rows in a thickness-wise direction of the sheet base, and dispersed in a plane direction thereof. Supposing that a volume resistivity in the thickness-wise direction under an unpressurised state is R0, and a volume resistivity in the thickness-wise direction in a state pressurised under a pressure of 1 g/mm2 in the thickness-wise direction is R1, the volume resistivity R1 is 1×107 to 1×1012 Ω·m, and a ratio (R0/R1) of the volume resistivity R0 to the volume resistivity R1 is 1×101 to 1×104.

Abstract translation: 本发明公开了一种能够在非加压状态下在其表面保持电荷的各向异性导电片，并且以在厚度方向上加压的状态沿其厚度方向移动保持在表面中的电荷，从而控制 该各向异性导电片包括由弹性体构成的片状基材和表现为片状基体中的磁性的导电性粒子，其状态为在片状基材的厚度方向排列成行， 分散在其平面方向。 假设在非加压状态下的厚度方向上的体积电阻率为R0，并且在厚度方向上以1g / mm 2的压力加压的状态下的厚度方向上的体积电阻率为 R1，体积电阻率R1为1×10 7〜1×10 12Ω·m，体积电阻率R0与体积电阻率R1的比（R0 / R1）为1×10 -1〜1×10 4。

公开(公告)号：US06801293B1

公开(公告)日：2004-10-05

申请号：US10089888

申请日：2002-04-05

Applicant: Kazuhiro Nishiyama ,  Junko Asayama ,  Kazunori Komori ,  Yukio Tanaka ,  Akio Takimoto ,  Kazuo Inoue ,  Katsuhiko Kumagawa ,  Ichiro Sato ,  Hirofumi Wakemoto ,  Noriyuki Kizu ,  Masanori Kimura ,  Keisuke Tsuda

Inventor： Kazuhiro Nishiyama ,  Junko Asayama ,  Kazunori Komori ,  Yukio Tanaka ,  Akio Takimoto ,  Kazuo Inoue ,  Katsuhiko Kumagawa ,  Ichiro Sato ,  Hirofumi Wakemoto ,  Noriyuki Kizu ,  Masanori Kimura ,  Keisuke Tsuda

IPC: G02F113

CPC classification number: G02F1/133512 ,  G02F1/1337 ,  G02F1/1339 ,  G02F1/1341 ,  G02F1/134363

Abstract: The curing, by UV-light irradiation, of a sealing resin after injecting liquid crystal is made reliable. The display characteristics and the like of an in-plane electric field mode liquid crystal element are improved. To resolve these problems, the viscosity of the sealing resin is lowered, while bubbles mixed in the sealing resin are eliminated by ultrasonic waves, for example. Also, a means for eliminating ions and charges in the liquid crystal layer is devised.

Abstract translation: 通过UV光照射固化注射液晶后的密封树脂是可靠的。提高了面内电场模式液晶元件的显示特性等。为了解决这些问题， 密封树脂被降低，而例如通过超声波消除混入密封树脂中的气泡。另外，设计了用于消除液晶层中的离子和电荷的装置。

公开(公告)号：US06529252B2

公开(公告)日：2003-03-04

申请号：US10075403

申请日：2002-02-15

Applicant: Kenji Nakao ,  Shinya Kosako ,  Tsuyoshi Uemura ,  Hirofumi Kubota ,  Masao Yamamoto ,  Kazuo Inoue ,  Seiji Nishiyama

Inventor： Kenji Nakao ,  Shinya Kosako ,  Tsuyoshi Uemura ,  Hirofumi Kubota ,  Masao Yamamoto ,  Kazuo Inoue ,  Seiji Nishiyama

IPC: G02F1334

CPC classification number: G02F1/1334 ,  G02F1/1341

Abstract: A polymer dispersion type liquid crystal (PDLC) display element comprising a complex of polymers and liquid crystal droplets held between a pair of substrates. The liquid crystal droplets are deformed into a compressed structure of their being contracted in a cell gap direction and an amount of deformation of the liquid crystal droplets is set to be in range in which a phenomenon of liquid crystal molecules rising up in the cell gap direction is not caused by excluded volume effects of the liquid crystals. The amount of deformation of the liquid crystal droplets, is set to be in range in which the phenomenon of liquid crystal molecules rising up in the cell gap direction is not caused by excluded volume effects of the liquid crystals can provide an increased tendency of the liquid crystal molecules to align in parallel to a phase boundary of the substrates. The DPLC display element having excellent threshold characteristics and scattering characteristics and high display characteristics can be achieved.

Abstract translation: 一种聚合物分散型液晶（PDLC）显示元件，包括聚合物的复合物和保持在一对基板之间的液晶微滴。 液晶小滴变形为压缩结构，它们在单元间隙方向上收缩，并且液晶微滴的变形量设定在液晶分子在单元间隙方向上升的现象 不是由液晶的排除体积效应引起的。 液晶小滴的变形量被设定为在液晶间隙方向上升的液晶分子的现象不是由液晶排除体积效应引起的范围，可以提高液体的趋势 晶体分子与衬底的相边界平行排列。 可以实现具有优异的阈值特性和散射特性以及高显示特性的DPLC显示元件。

公开(公告)号：US06452650B1

公开(公告)日：2002-09-17

申请号：US08934901

申请日：1997-09-22

Applicant: Kenji Nakao ,  Shinya Kosako ,  Tsuyoshi Uemura ,  Hirofumi Kubota ,  Masao Yamamoto ,  Kazuo Inoue ,  Seiji Nishiyama

Inventor： Kenji Nakao ,  Shinya Kosako ,  Tsuyoshi Uemura ,  Hirofumi Kubota ,  Masao Yamamoto ,  Kazuo Inoue ,  Seiji Nishiyama

IPC: G02F11334

CPC classification number: G02F1/1334 ,  G02F1/1341

Abstract: A polymer dispersion type liquid crystal display element according to the invention is structured such that a complex of polymer and liquid crystal droplets is held between a pair of substrates. The liquid crystal droplets are deformed into a compressed structure of their being contracted in a cell gap direction and an amount of deformation of the liquid crystal droplets is set to be in range in which a phenomenon of liquid crystal molecules rising up in the cell gap direction is not caused by excluded volume effects of the liquid crystals. This construction that the amount of deformation of the liquid crystal droplets is set to be in range in which the phenomenon of liquid crystal molecules rising up in the cell gap direction is not caused by excluded volume effects of the liquid crystals can provide an increased tendency of the liquid crystal molecules to align in parallel to a phase boundary of the substrates. As a result of this, the polymer dispersion type liquid crystal display element having excellent threshold characteristics and scattering characteristics and high display characteristics can be achieved.

Abstract translation: 根据本发明的聚合物分散型液晶显示元件被构造成使得聚合物和液晶微滴的复合物保持在一对基板之间。 液晶小滴变形为压缩结构，它们在单元间隙方向上收缩，并且液晶微滴的变形量设定在液晶分子在单元间隙方向上升的现象 不是由液晶的排除体积效应引起的。 将液晶微滴的变形量设定为在液晶间隙方向上升的液晶分子的现象不是由液晶的排除体积效应引起的范围的结构，可以提高 液晶分子与衬底的相边界平行排列。 结果，可以实现具有优异的阈值特性和散射特性以及高显示特性的聚合物分散型液晶显示元件。

公开(公告)号：US06341000B1

公开(公告)日：2002-01-22

申请号：US09106144

申请日：1998-06-29

Applicant: Kazuo Inoue ,  Tsuyoshi Uemura

Inventor： Kazuo Inoue ,  Tsuyoshi Uemura

IPC: G02F11333

CPC classification number: G02F1/13392 ,  G02F1/1334

Abstract: A liquid-crystal panel comprises a pair of transparent glass substrates each being provided with an electrode. Between the glass substrates are disposed spacers for defining a space and a mixture of droplets of a liquid crystal having a mean diameter of 3.0 &mgr;m or less and of a photo-curing polymer. The edge portions of the glass substrates are sealed with a seal polymer. In curing the photo-curing polymer during the process of manufacturing the liquid-crystal panel, the dose of an ultraviolet ray is set to 500 mJ/cm2 or more so as to reduce the diameters of the droplets of the liquid crystal, thereby preventing light leakage in the state without a voltage applied and improving the contrast. If the spacers are colored, the effect of preventing light leakage is increased. If the spacers are subjected to a surface treatment for rejecting the liquid crystal or composed of a polymer material of the same type as that of the photo-curing polymer, variations in diameter of the droplets of the liquid crystal can be prevented. With the structure, it becomes possible to provide a liquid-crystal panel in which light leakage in the black mode is reduced and which presents uniform and high-contrast display of images.

Abstract translation: 液晶面板包括一对透明玻璃基板，每个透明玻璃基板设置有电极。 在玻璃基板之间设置间隔物，用于限定平均直径为3.0μm以下的液晶的空间和液滴的混合物，以及光固化型聚合物。 玻璃基板的边缘部分用密封聚合物密封。 在制造液晶面板的过程中固化光固化聚合物时，将紫外线的剂量设定为500mJ / cm 2以上，以减小液晶的液滴的直径，从而防止光 在没有施加电压的状态下泄漏并改善对比度。 如果间隔物着色，则防止漏光的效果增加。 如果间隔物进行表面处理以排除液晶或由与光固化聚合物相同类型的聚合物材料组成，则可以防止液晶的液滴直径的变化。 利用该结构，可以提供一种液晶面板，其中黑模式中的漏光减少并且呈现均匀且高对比度的图像显示。

公开(公告)号：US06184954B2

公开(公告)日：2001-02-06

申请号：US09091409

申请日：1998-06-22

Applicant: Kazuo Inoue ,  Seiji Nishiyama ,  Tsuyoshi Uemura

Inventor： Kazuo Inoue ,  Seiji Nishiyama ,  Tsuyoshi Uemura

IPC: G02F11333

CPC classification number: G02F1/13392 ,  G02F1/1334 ,  G02F1/1339 ,  G02F1/1341

Abstract: A polymer dispersed liquid crystal display element (100) in which liquid crystal (14) is dispersed in a polymer composite (15) is provided whereby gap width distortion resulting from sudden changes in temperature is prevented, and uniformity of the display image is improved. Distortion of the gap width between glass plates due to a temperature change within a specific temperature range is prevented by dispersing spherical resin spacers (16), which are resiliently compressed a specific percentage by two glass plates (11, 12) within a specific temperature range (&Dgr;t), in a liquid crystal layer (17) interposed between a glass plate (11) and another glass plate (12) that comprise a voltage application means (18, 19, 20, 21) and are mutually opposed through a seal member (13).

Abstract translation: 提供了其中将液晶（14）分散在聚合物复合材料（15）中的聚合物分散液晶显示元件（100），由此防止了由温度突然变化引起的间隙宽度变形，并且显示图像的均匀性得到改善。 通过将在特定温度范围内由两个玻璃板（11,12）弹性压缩特定百分比的球形树脂间隔件（16）来防止由于在特定温度范围内的温度变化而导致的玻璃板之间的间隙宽度的变形 （DELTAt），在介于玻璃板（11）和另一个玻璃板（12）之间的液晶层（17）中，所述玻璃板（11）包括电压施加装置（18,19,20,21），并且通过密封构件 （13）。

公开(公告)号：US6038004A

公开(公告)日：2000-03-14

申请号：US841588

申请日：1997-04-30

Applicant: Yutaka Nanno ,  Masumi Izuchi ,  Tetsuya Kawamura ,  Mika Nakamura ,  Kazuo Inoue

Inventor： Yutaka Nanno ,  Masumi Izuchi ,  Tetsuya Kawamura ,  Mika Nakamura ,  Kazuo Inoue

IPC: G02F1/1362 ,  G02F1/136 ,  G02F1/1343 ,  G02F1/1345

CPC classification number: G02F1/136209

Abstract: An active matrix liquid crystal display for projection system comprises a light shielding layer 12 arranged between a layer 13 including thin film transistors and a first substrate 11 for shielding an injection light toward each of the thin transistors, said light shielding layer 12 having a plurality of openings through which each of the pixel electrodes 22 is exposed against the injection light. The light shielding layer 12 is preferably made of metal and is connected to an electric source. A level of voltage applied on the data lines is adverse to that applied on the light shielding layer with respect to polarity of the applied voltage.

Abstract translation: 用于投影系统的有源矩阵液晶显示器包括布置在包括薄膜晶体管的层13和用于屏蔽朝向每个薄晶体管的注入光的第一基板11的遮光层12，所述遮光层12具有多个 每个像素电极22相对于注射光曝露的开口。 遮光层12优选由金属制成，并与电源连接。 对数据线施加的电压的电平与施加在遮光层上的施加电压的极性相反。

公开(公告)号：US5477526A

公开(公告)日：1995-12-19

申请号：US137985

申请日：1993-10-19

Applicant: Kazuo Inoue

Inventor： Kazuo Inoue

IPC: G11B7/007 ,  G11B7/24 ,  G11B7/26 ,  G11B27/19 ,  G11B27/30

CPC classification number: G11B7/00745 ,  G11B27/19 ,  G11B27/3027 ,  G11B7/00718 ,  G11B7/26 ,  G11B7/261

Abstract: An optical disk substrate which includes a plurality of sectors, tracks alternately formed into lands and grooves in a direction intersecting at right angles with a tracing direction during recording or reproducing of information, a first pit row having address information and formed at a specific position of the track of a predetermined one land or groove, and a second pit row having address information and formed in a different track neighboring the track formed with the first pit row in the tracing direction, and formed at a position deviated longer than a length of the pit row from the specific position. By the above arrangement, the address information can be read without interference, with reduction of waiting time for reading.

Abstract translation: 一种光盘基板，包括多个扇区，在记录或再现信息期间沿与轨迹方向成直角交叉的方向交替地形成为平面和凹槽的轨道，具有地址信息并形成在特定位置的第一凹坑行 具有地址信息的轨道，以及形成在跟踪方向上与第一凹坑行形成的轨道相邻的不同轨道中的第二凹坑行，并形成在比第一凹坑行长度长的位置 坑排从具体位置。 通过上述布置，可以无干扰地读取地址信息，同时缩短等待读取时间。

公开(公告)号：USD351131S

公开(公告)日：1994-10-04

申请号：US846446

申请日：1992-03-06

Applicant: Kazuo Inoue ,  Michimasa Fujino

Designer： Kazuo Inoue ,  Michimasa Fujino

公开(公告)号：USD349271S

公开(公告)日：1994-08-02

申请号：US846417

申请日：1992-03-06

Applicant: Kazuo Inoue ,  Michimasa Fujino

Designer： Kazuo Inoue ,  Michimasa Fujino