公开(公告)号：US20060214318A1

公开(公告)日：2006-09-28

申请号：US11385820

申请日：2006-03-22

Applicant: Yukio Kaneko ,  Yoshimi Yodokawa ,  Takeshi Umega ,  Mamoru Usami ,  Tsuyoshi Komaki

Inventor： Yukio Kaneko ,  Yoshimi Yodokawa ,  Takeshi Umega ,  Mamoru Usami ,  Tsuyoshi Komaki

IPC: B29D11/00 ,  B29D17/00

CPC classification number: B29D17/005 ,  B29C33/444 ,  Y10S425/81

Abstract: The present invention makes it possible to strip off a stamper stuck on a resin layer for groove formation during the manufacture of an optical disc from the resin layer without imparting damage or the like to the stamper. The present invention achieves this object by having the steps of bringing about a state in which the stamper protrudes from a substrate by a predetermined width, rotating the substrate with the back surface of the disc-shaped substrate attracted and held, elevating rollers capable of rolling relative to a contacting surface contacting with the protruding portion simultaneously with the rotation, and continuously applying a force working in a direction to separate the protruding portion from the substrate in the circumferential direction of the stamper.

公开(公告)号：US20060177534A1

公开(公告)日：2006-08-10

申请号：US10528778

申请日：2003-09-18

Applicant: Mamoru Usami ,  Junichi Ide ,  Haruhiko Yamaguchi ,  Tomoki Ushida

Inventor： Mamoru Usami ,  Junichi Ide ,  Haruhiko Yamaguchi ,  Tomoki Ushida

IPC: A21C11/10 ,  A01J21/02 ,  A01J25/12 ,  A21C11/12 ,  A23G1/20 ,  A23G3/00 ,  A23P1/00 ,  B28B11/12 ,  B28B11/14 ,  B28B7/14

CPC classification number: G11B7/26 ,  B26D7/1818 ,  B26F1/14 ,  B26F1/44 ,  B26F2001/4427 ,  B29C47/0019 ,  B29C47/003 ,  B29C47/0038 ,  B29C47/0066 ,  B29C47/025 ,  B29C47/065 ,  B29C47/92 ,  B29C69/001 ,  B29C2793/0018 ,  B29L2017/005

Abstract: When manufacturing an optical recording medium by forming a resin layer on a surface of a substrate and then forming a center hole that passes through the substrate and the resin layer, a method of manufacturing an optical recording medium according to the present invention forms the center hole by forming, in the resin layer, a circular cut with a larger diameter than the center hole so as to surround a formation position of the center hole and then pressing in a punching blade for forming the center hole from a rear surface side of the substrate. By doing so, detachment of the resin layer and the production of burrs at or near the center hole can be avoided while reducing the manufacturing cost.

公开(公告)号：US06984433B2

公开(公告)日：2006-01-10

申请号：US10897006

申请日：2004-07-23

Applicant: Mamoru Usami ,  Takeshi Umega ,  Hiroshi Kobayashi ,  Kazuki Suzawa

Inventor： Mamoru Usami ,  Takeshi Umega ,  Hiroshi Kobayashi ,  Kazuki Suzawa

IPC: B32B3/02

CPC classification number: G11B23/40 ,  B41M5/506 ,  B41M5/508 ,  B41M2205/12 ,  G11B7/266 ,  Y10T428/21

Abstract: An optical recording medium 10 comprises a disc body 11, a white ink layer 12 provided on the label side 11b of the disc body 11, and an ink receiving layer 13 provided on the surface 12a of the white ink layer 12. The mean roughness (Ra) of the surface 12a of the white ink layer 12 is set not greater than 0.2 μm. A step radially extended is left on the surface 13a of the ink receiving layer 13 and set not greater than 1.0 μm. As the mean roughness (Ra) of the surface 12a of the white ink layer 12 is not greater than 0.2 μm or as the step on the ink receiving layer 13 is not greater than 1.0 μm, high printing quality can be secured when printing is done with an ink-jet printer.

Abstract translation: 光学记录介质10包括盘体11，设置在盘体11的标签侧11b上的白色油墨层12和设置在白色油墨层12的表面12a上的油墨接收层13。 白色油墨层12的表面12a的粗糙度（Ra）设定为不大于0.2μm。 在油墨接收层13的表面13a上留下径向延伸的台阶，并设定为不大于1.0μm。 由于白色油墨层12的表面12a的平均粗糙度（Ra）不大于0.2μm，或者当油墨接收层13上的台阶不大于1.0μm时，当打印为 用喷墨打印机完成。

公开(公告)号：US06977107B1

公开(公告)日：2005-12-20

申请号：US10891466

申请日：2004-07-14

Applicant: Junichi Satou ,  Mamoru Usami ,  Yoshimi Sakai ,  Akira Itoga

Inventor： Junichi Satou ,  Mamoru Usami ,  Yoshimi Sakai ,  Akira Itoga

IPC: B32B3/02 ,  B32B27/00 ,  G11B7/24 ,  G11B7/26 ,  G11B23/40

CPC classification number: B32B27/00 ,  B41M5/502 ,  B41M2205/34 ,  B41M2205/36 ,  B41M2205/42 ,  G11B7/24018 ,  G11B7/252 ,  G11B7/256 ,  G11B7/26 ,  G11B23/40 ,  Y10T428/21

Abstract: An optical recording medium is made by a step of bonding a light-transmissive substrate to a supporting substrate having a brightness of 8 or more and a saturation of 4 or less via a bonding layer composed of an epoxy resin; and a step of forming a transparent ink-receiving layer on a surface of the supporting substrate remote from the light-transmissive substrate. The bonding using the epoxy resin is conducted by a method of curing the resin by using a cationic initiator, a method of curing the resin by an addition reaction between the resin and a crosslinking agent containing an active hydrogen compound, a method of curing the resin by heating, or the like. In this invention, the bonding layer is composed of a material containing an epoxy resin instead of a radically polymerizable UV-curable resin typically used. Thus, although UV irradiation through the supporting substrate is not possible, the light-transmissive substrate can be securely bonded to the supporting substrate.

Abstract translation: 光记录介质是通过将透光性基板通过由环氧树脂构成的接合层，将亮度为8以上且饱和度为4以下的支撑基板接合的步骤制成的; 以及在远离所述透光性基板的所述支撑基板的表面上形成透明油墨接收层的工序。 使用环氧树脂的接合通过使用阳离子引发剂固化树脂的方法进行，通过树脂和含有活性氢化合物的交联剂之间的加成反应固化树脂的方法，固化树脂的方法 通过加热等。 在本发明中，接合层由含有环氧树脂的材料代替通常使用的可自由基聚合的UV固化树脂。 因此，虽然不能通过支撑基板进行紫外线照射，但是可以将透光性基板牢固地接合到支撑基板。

公开(公告)号：US06924019B2

公开(公告)日：2005-08-02

申请号：US10487300

申请日：2002-08-27

Applicant: Kazuki Suzawa ,  Mamoru Usami

Inventor： Kazuki Suzawa ,  Mamoru Usami

IPC: G11B7/24 ,  B32B3/00 ,  B32B3/02 ,  G11B7/252 ,  G11B7/254 ,  G11B7/257 ,  G11B7/26

CPC classification number: G11B7/24056 ,  G11B7/2433 ,  G11B7/252 ,  G11B7/2534 ,  G11B7/2542 ,  G11B7/2545 ,  G11B7/2585 ,  G11B2007/25706 ,  G11B2007/2571 ,  G11B2007/25715 ,  G11B2007/25716 ,  Y10T428/21

Abstract: It is an object of the present invention to provide an optical recording medium wherein hardness of the surface on the incident-light side is high and warping of the optical recording medium is suppressed.The optical recording medium according to the present invention comprises a substrate 11, a recording layer 14 provided upon the substrate 11, a light transmission layer 16 made of ultraviolet curable resin provided upon the functional layer 16, and a hard-coat layer 17 provided upon the light transmission layer 16, wherein the thickness of the light transmission layer 16 is 50 μm or greater and its pencil hardness is HB or less. Thereby, warping of the optical recording medium arising due to cure shrinkage of the ultraviolet curable resin making up the light transmission layer 16 can be effectively suppressed. Moreover, the hard-coat layer 17 is provided upon this light transmission layer 16, so the occurrence of scratches on the surface of the optical recording medium can be effectively prevented.

Abstract translation: 本发明的目的是提供一种光记录介质，其中入射光侧的表面的硬度高，并且抑制了光记录介质的翘曲。 根据本发明的光记录介质包括基板11，设置在基板11上的记录层14，由设置在功能层16上的紫外线固化树脂制成的透光层16和设在其上的硬涂层17 透光层16，其中透光层16的厚度为50μm以上，铅笔硬度为HB以下。 因此，可以有效地抑制由于构成透光层16的紫外线固化树脂的固化收缩而引起的光记录介质翘曲。 此外，在该透光层16上设置硬涂层17，能够有效地防止在光记录介质的表面产生划痕。

公开(公告)号：US20050007945A1

公开(公告)日：2005-01-13

申请号：US10501508

申请日：2003-01-17

Applicant: Mamoru Usami ,  Tomoki Ushida ,  Kenji Yamaga ,  Yoshimi Sakai

Inventor： Mamoru Usami ,  Tomoki Ushida ,  Kenji Yamaga ,  Yoshimi Sakai

IPC: G11B7/26 ,  G11B7/00 ,  G11B7/2533 ,  G11B23/00 ,  G11B7/24

CPC classification number: G11B23/0035 ,  G11B7/00 ,  G11B7/26 ,  Y10T428/21

Abstract: A disc-shaped optical recording medium formed by carrying out a film formation process on a disc-shaped substrate material and completed by forming a center hole at the last step is manufactured in a manner such that no eccentricity will occur when the recording medium is loaded onto a drive. At the last step of an optical disc manufacturing process, i.e., at the time of opening a hole in the center part 26 of the disc-shaped substrate material 12 formed with at least a resin layer on one side thereof, the center part 26 is removed in a manner such that the diameter of the chucking center hole 28 is larger on the disc-shaped substrate material 12 side than on the light transmitting resin layer 22 side of the disc-shaped optical recording medium 30, thereby manufacturing the disc-shaped optical recording medium 30.

Abstract translation: 通过在盘状基板材料上进行成膜处理并通过在最后一步形成中心孔而完成的圆盘形光学记录介质被制造成使得当记录介质被加载时不会发生偏心 到一个驱动器 在光盘制造过程的最后阶段，即在其一侧至少形成有树脂层的盘状基板材料12的中心部分26打开孔时，中心部分26是 以盘状基板材料12侧的夹持中心孔28的直径比盘状光记录介质30的透光性树脂层22侧的直径大的方式移除，由此制造盘状 光记录介质30。

公开(公告)号：US5325351A

公开(公告)日：1994-06-28

申请号：US779184

申请日：1991-10-21

Applicant: Kenji Uchiyama ,  Mamoru Usami

Inventor： Kenji Uchiyama ,  Mamoru Usami

IPC: G11B7/24 ,  G11B7/246 ,  G11B7/249 ,  G11B7/26

CPC classification number: G11B7/24 ,  G11B7/246 ,  G11B7/259 ,  G11B7/2595 ,  G11B7/2467 ,  G11B7/2472 ,  G11B7/248 ,  G11B7/249 ,  G11B7/2531 ,  G11B7/2533 ,  G11B7/2534 ,  G11B7/2542 ,  Y10S428/913 ,  Y10S430/146

Abstract: In an optical recording medium comprising a recording layer on a substrate, a reflective layer in the form of a Cu-Ag or Cu-Au alloy thin film is formed on the recording layer. The Cu-Ag alloy contains 5-40 atom% of Ag and the Cu-Au alloy contains 5-99 atom% of Au. The reflective layer has enough high reflectivity, corrosion resistance, and hardness to provide optical recording medium with improved eye pattern, minimized jitter and minimized error rate.

Abstract translation: 在包括基板上的记录层的光记录介质中，在记录层上形成Cu-Ag或Cu-Au合金薄膜形式的反射层。 Cu-Ag合金含有5-40原子％的Ag，Cu-Au合金含有5-99原子％的Au。 反射层具有足够高的反射率，耐腐蚀性和硬度，为光学记录介质提供了改进的眼图，最小的抖动和最小的误差率。

公开(公告)号：US4903878A

公开(公告)日：1990-02-27

申请号：US258824

申请日：1988-10-17

Applicant: Mamoru Usami ,  Yoshitaka Kawamura

Inventor： Mamoru Usami ,  Yoshitaka Kawamura

IPC: G11B23/087 ,  G11B15/60

CPC classification number: G11B15/60

Abstract: A method for manufacturing a tape guide cylinder of small thickness from metal sheet by combination of drawing processing technique, flange processing technique, piercing technique, trimming technique, curling technique and optionally burring technique of metal working processing is disclosed. The tape guide cylinder produced has flange-like inward portions or inwardly bent portions at both ends of the cylinder which fit on cylinder attaching shaft of a cassette case, respectively. Therefore, the inward portions or inwardly bent portions contribute the reduction of the thickness of the cylinder body and thus the reduction of the material used for the production of a tape guide cylinder.

Abstract translation: 公开了一种通过拉丝加工技术，法兰加工技术，穿孔技术，修边技术，卷曲技术和可选择的金属加工加工技术来从金属板制造小厚度导带圆筒的方法。 所制造的导向滚筒分别在盒体的圆筒安装轴上分别在圆筒的两端具有凸缘状的内侧部分或向内弯曲部分。 因此，向内或向内弯曲的部分有助于减小缸体的厚度，从而减少用于生产带导向筒的材料。

公开(公告)号：US20100007283A1

公开(公告)日：2010-01-14

申请号：US12439060

申请日：2007-08-23

Applicant: Takeshi Shimoyoshi ,  Mamoru Usami

Inventor： Takeshi Shimoyoshi ,  Mamoru Usami

IPC: H05B37/02

CPC classification number: H05B41/36 ,  G02F1/133603 ,  G02F1/133604 ,  G02F2001/133612 ,  H05B33/0803 ,  H05B33/0854 ,  H05B35/00 ,  H05B41/39

Abstract: Provided are a light-source drive circuit substrate and a light source component which can drive a light source with sufficiently high light source characteristics even when environmental temperature greatly changes, and a display apparatus which includes the light source component. A light-source drive circuit (X) according to the present embodiment includes a controller (C) configured to drive a first light source (L1) and a second light source (L2) having at least one light source characteristics higher than those of the first light source (L1) when the environmental temperature is equal to or below a reference temperature. The controller (C) includes a selector (10) which selects a first driver (D1) for driving the first light source (L1) when the environmental temperature goes above the reference temperature, and selects a second driver (D2) for driving the second light source (L2) when the environmental temperature becomes equal to or below the reference temperature.

Abstract translation: 提供即使在环境温度急剧变化的情况下也能够驱动具有足够高的光源特性的光源的光源驱动电路基板和光源部件，以及包括该光源部件的显示装置。 根据本实施例的光源驱动电路（X）包括：控制器（C），被配置为驱动第一光源（L1）和第二光源（L2），所述第一光源（L1）和第二光源（L2）具有比 当环境温度等于或低于参考温度时，第一光源（L1）。 控制器（C）包括选择器（10），其在环境温度超过基准温度时选择用于驱动第一光源（L1）的第一驱动器（D1），并且选择用于驱动第二驱动器 当环境温度等于或低于参考温度时，光源（L2）。

公开(公告)号：US07625506B2

公开(公告)日：2009-12-01

申请号：US10528778

申请日：2003-09-18

Applicant: Mamoru Usami ,  Junichi Ide ,  Haruhiko Yamaguchi ,  Tomoki Ushida

Inventor： Mamoru Usami ,  Junichi Ide ,  Haruhiko Yamaguchi ,  Tomoki Ushida

IPC: B29D17/00

CPC classification number: G11B7/26 ,  B26D7/1818 ,  B26F1/14 ,  B26F1/44 ,  B26F2001/4427 ,  B29C47/0019 ,  B29C47/003 ,  B29C47/0038 ,  B29C47/0066 ,  B29C47/025 ,  B29C47/065 ,  B29C47/92 ,  B29C69/001 ,  B29C2793/0018 ,  B29L2017/005

Abstract: When manufacturing an optical recording medium by forming a resin layer on a surface of a substrate and then forming a center hole that passes through the substrate and the resin layer, a method of manufacturing an optical recording medium according to the present invention forms the center hole by forming, in the resin layer, a circular cut with a larger diameter than the center hole so as to surround a formation position of the center hole and then pressing in a punching blade for forming the center hole from a rear surface side of the substrate. By doing so, detachment of the resin layer and the production of burrs at or near the center hole can be avoided while reducing the manufacturing cost.

Abstract translation: 当通过在基板的表面上形成树脂层然后形成通过基板和树脂层的中心孔来制造光学记录介质时，根据本发明的制造光学记录介质的方法形成中心孔 通过在树脂层中形成具有比中心孔大的直径的圆形切口，以围绕中心孔的形成位置，然后从衬底的后表面侧的用于形成中心孔的冲压刀中挤压 。 通过这样做，可以避免树脂层的剥离和中心孔附近或附近产生毛刺，同时降低制造成本。