公开(公告)号：US08256099B2

公开(公告)日：2012-09-04

申请号：US12589139

申请日：2009-10-19

申请人： Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka ,  Keitaro Koroishi

发明人： Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka ,  Keitaro Koroishi

IPC分类号： H05B3/00

CPC分类号： H01C17/065 ,  B41J2/3359 ,  H01C1/148 ,  H01C7/003 ,  Y10T29/49083 ,  Y10T29/49087 ,  Y10T29/49099 ,  Y10T29/49146 ,  Y10T29/49204

摘要： The manufacturing method for a thermal head includes: forming a hollow concave portion and a marking concave portion having a depth larger than a depth of the hollow concave portion on one surface of a thin plate glass; a bonding step of bonding a supporting plate onto the one surface of the thin plate glass, in which the hollow concave portion and the marking concave portion are formed in the concave portion forming step; a thinning step of thinning the thin plate glass onto which the supporting plate is bonded in the bonding step until the marking concave portion extends through the substrate from a side of a back surface opposite to the one surface; and a heating resistor forming step of forming a heating resistor on the back surface of the thin plate glass thinned in the thinning step so as to be opposed to the hollow concave portion.

摘要翻译： 热敏头的制造方法包括：在薄板玻璃的一个表面上形成深度大于中空凹部的深度的中空凹部和标记凹部; 在所述凹部形成工序中，将形成有所述中空凹部和所述标记凹部的所述薄板玻璃的一个面上的支撑板接合的接合工序; 在接合步骤中使贴片上的薄板玻璃变薄，直到标记凹部从与该表面相反的背面的一侧延伸穿过基板的薄化步骤; 以及加热电阻体的形成工序，在所述薄化工序中，在与所述中空凹部对置的薄板玻璃的背面形成发热电阻体。

公开(公告)号：US20120082821A1

公开(公告)日：2012-04-05

申请号：US13200244

申请日：2011-09-21

申请人： Norimitsu Sanbongi ,  Kazuno Tani ,  Yoshinori Sato

发明人： Norimitsu Sanbongi ,  Kazuno Tani ,  Yoshinori Sato

IPC分类号： B32B3/12 ,  B32B38/14 ,  B41M5/00 ,  B05D3/06 ,  B32B7/12 ,  G11B5/64 ,  B32B37/14 ,  B05D5/10

CPC分类号： G09F3/10 ,  B32B3/12 ,  G09F2003/0247 ,  G09F2003/025 ,  G09F2003/026 ,  Y10T156/10 ,  Y10T428/24149 ,  Y10T428/24802 ,  Y10T428/265 ,  Y10T428/2848

摘要： An adhesive label (1) includes: a support (2); an adhesive agent layer (5) which is made of an adhesive agent, and formed on one surface of the support (2); a non-adhesive heat-reactive layer (7) which is positioned above the adhesive agent layer (5), the non-adhesive heat-reactive layer (7) including an opening formed when heated at a predetermined temperature or higher; and a non-adhesive layer (6) which is positioned between the non-adhesive heat-reactive layer (7) and the adhesive agent layer (5), and is movable over the adhesive agent layer (5).

摘要翻译： 粘合标签（1）包括：支撑件（2）; 粘合剂层（5），其由粘合剂制成并形成在所述载体（2）的一个表面上; 位于粘合剂层（5）上方的非粘性热反应层（7），非粘合热反应层（7）包括在预定温度或更高温度下加热时形成的开口; 以及位于所述非粘合性热反应层（7）和所述粘合剂层（5）之间的非粘合剂层（6），并且能够在所述粘合剂层（5）上移动。

公开(公告)号：US20110144596A1

公开(公告)日：2011-06-16

申请号：US13058457

申请日：2009-09-04

申请人： Yoshihiko Kobashi ,  Takahiko Kunishige ,  Yoshinori Sato

发明人： Yoshihiko Kobashi ,  Takahiko Kunishige ,  Yoshinori Sato

IPC分类号： A61M5/00

CPC分类号： B65D75/5883 ,  A61J1/10 ,  A61J1/1475 ,  B65D25/48

摘要： A spout (4) that can be attached to a liquid container and through which contents with which the liquid container is filled are discharged, the spout including: a tubular portion (9) in which a through hole (12) is formed and from a leading end of which the content is discharged; and ribs (20) that partition the through hole (12). When the tubular portion (9) is seen from the leading end side, the through hole (12) is divided into at least three parts by the ribs (20). Thus, the strength of the ribs (20) is easily secured, which is advantageous in preventing breakage or deformation of the ribs (20), and also erroneous piercing with a connecting needle is reliably prevented.

摘要翻译： 一种能够附着在液体容器上并且通过其容纳液体容器的内容物被排出的喷口（4），其中，喷口包括：形成通孔（12）的管状部分（9） 其终点出现内容; 以及分隔所述通孔（12）的肋（20）。 当从前端侧看到管状部分（9）时，通孔（12）被肋（20）分成至少三个部分。 因此，可以容易地确保肋（20）的强度，这有利于防止肋（20）的断裂或变形，并且可靠地防止用连接针的错误穿孔。

公开(公告)号：US20110074902A1

公开(公告)日：2011-03-31

申请号：US12586990

申请日：2009-09-30

申请人： Toshimitsu Morooka ,  Keitaro Koroishi ,  Yoshinori Sato ,  Noriyoshi Shoji ,  Norimitsu Sanbongi

发明人： Toshimitsu Morooka ,  Keitaro Koroishi ,  Yoshinori Sato ,  Noriyoshi Shoji ,  Norimitsu Sanbongi

IPC分类号： B41J25/304 ,  H05B3/02

CPC分类号： B41J2/33535 ,  B41J2/3355 ,  B41J2/33585 ,  B41J25/312

摘要： To achieve improvements in heat generation efficiency and strength against external load, provided is a thermal head (1), comprising: a supporting substrate (3); a heat accumulating (5) bonded onto a surface of the supporting substrate (3); and a heating resistor (7) provided on the heat storage layer (5), wherein: a concave portion (2) is provided in a region, which is opposed to the heating resistor (7), of at least one of the surface of the supporting substrate (3) and a surface on a side of the supporting substrate (3) of the heat accumulating portion (5); and a center line of a hollow heat insulating layer (4) formed, by the concave portion (2), between the supporting substrate (3) and the heat storage layer (5) is shifted with respect to a center line (X) of the heating resistor (7).

摘要翻译： 为了实现对外部负载的发热效率和强度的提高，提供了一种热敏头（1），包括：支撑衬底（3）; 在所述支撑基板（3）的表面上结合的蓄热体（5）; 以及设置在所述蓄热层（5）上的加热电阻体（7），其特征在于，在与所述加热电阻体（7）相对的区域中设置有凹部（2），所述凹部 所述支撑基板（3）和所述蓄热部（5）的所述支撑基板（3）的一侧的表面。 并且由所述凹部（2）在所述支撑基板（3）和所述蓄热层（5）之间形成的中空绝热层（4）的中心线相对于所述支撑基板（3）和所述蓄热层（5）的中心线 加热电阻器（7）。

公开(公告)号：US07852361B2

公开(公告)日：2010-12-14

申请号：US12286873

申请日：2008-10-02

申请人： Noriyoshi Shoji ,  Toshimitsu Morooka ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Keitaro Koroishi

发明人： Noriyoshi Shoji ,  Toshimitsu Morooka ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Keitaro Koroishi

IPC分类号： B41J2/335

CPC分类号： B41J2/3351 ,  B41J2/33515 ,  B41J2/3353 ,  B41J2/3355 ,  B41J2/33585

摘要： Provided is a heating resistance element component, including: a supporting substrate; an insulating film laminated on the supporting substrate; a plurality of heating resistors formed on the insulating film, the plurality of heating resistors being arranged in a zigzag shape along a main scanning direction and having a substantially square shape; a common wire connected to one end of each of the plurality of heating resistors; individual wires each connected to another end of the each of the plurality of heating resistors; and concave portions formed in regions which are opposed to the plurality of heating resistors and are located on a surface of the supporting substrate, in which an arrangement pitch of the plurality of heating resistors in a sub-scanning direction is larger than an arrangement pitch of the plurality of heating resistors in a main scanning direction.

摘要翻译： 提供一种耐热元件部件，包括：支撑基板; 层叠在所述支撑基板上的绝缘膜; 形成在所述绝缘膜上的多个加热电阻体，所述多个加热电阻体沿着主扫描方向以锯齿形状排列并具有大致正方形的形状; 连接到所述多个加热电阻器中的每一个的一端的公共线; 各个电线各自连接到多个加热电阻器中的每一个的另一端; 以及凹部，形成在与所述多个加热电阻体相对的并且位于所述支撑基板的表面上的区域中，所述多个加热电阻器在副扫描方向上的排列间距大于所述支撑基板的排列间距 多个加热电阻器在主扫描方向上。

公开(公告)号：US07814119B2

公开(公告)日：2010-10-12

申请号：US11080641

申请日：2005-03-16

申请人： Yoshinori Sato ,  Toyohisa Morita ,  Hideyuki Maki ,  Takashi Fukumoto

发明人： Yoshinori Sato ,  Toyohisa Morita ,  Hideyuki Maki ,  Takashi Fukumoto

IPC分类号： G06F7/00 ,  G06F17/30 ,  G06F7/04 ,  G06F15/16 ,  H04L29/06

CPC分类号： G06F21/6254 ,  H04L9/3273 ,  H04L2209/42 ,  H04L2209/56

摘要： In the conventional technique for mainly performing access control, an entity (an individual) which provides information cannot grasp a state of use of personal information. In the conventional technique for encrypting stored data, a decryption key is always required when personal data is used and the personal data is not protected once decrypted. The invention constitute a system such that a purchase history is collected according to an anonymous ID and a response from a member card or an agent server is required for operation for associating the anonymous ID with a personal ID. Personal data itself is not encrypted but stored in a plain text with the personal ID and the anonymous ID as keys such that the anonymous ID is regenerated every time the anonymous ID is associated with the personal ID on a server side. At this point, the anonymous ID serving as a collection key for the purchase history, which is accumulated concurrently, is also regenerated.

摘要翻译： 在主要执行访问控制的传统技术中，提供信息的实体（个人）不能掌握个人信息的使用状态。 在用于加密存储的数据的常规技术中，当使用个人数据并且一旦解密就不保护个人数据时，总是需要解密密钥。 本发明构成了一种系统，使得根据匿名ID收集购买历史，并且需要来自会员卡或代理服务器的响应用于将匿名ID与个人ID相关联的操作。 个人数据本身不被加密，而是以个人ID和匿名ID作为密钥存储在纯文本中，以便每当匿名ID与服务器端的个人ID相关联时，重新生成匿名ID。 此时，还重新生成作为同时累积的购买历史的收集密钥的匿名ID。

公开(公告)号：US07768541B2

公开(公告)日：2010-08-03

申请号：US12254504

申请日：2008-10-20

申请人： Keitaro Koroishi ,  Toshimitsu Morooka ,  Noriyoshi Shoji ,  Yoshinori Sato ,  Norimitsu Sanbongi

发明人： Keitaro Koroishi ,  Toshimitsu Morooka ,  Noriyoshi Shoji ,  Yoshinori Sato ,  Norimitsu Sanbongi

IPC分类号： B41J2/335

CPC分类号： H05B3/283 ,  B41J2/33525 ,  B41J2/3353 ,  B41J2/3355 ,  B41J2/3358 ,  B41J2/33585 ,  B41J2/3359 ,  G03G15/2053 ,  H05B3/0095

摘要： Provided is a heating resistor element including: an insulating substrate including a glass material; a heat accumulating layer bonded to the insulating substrate through heating to temperature ranging from an annealing point to a softening point in a state of being adhered to a surface of the insulating substrate, and including the same material as the glass material of the insulating substrate; and a heating resistor provided on the heat accumulating layer, in which, on at least one of bonded surfaces between the insulating substrate and the heat accumulating layer, at least one of the insulating substrate and the heat accumulating layer is provided with a concave portion in a region opposed to the heating resistor to form a hollow portion. Accordingly, deformation caused by a difference in coefficient of thermal expansion is suppressed to improve printing quality.

摘要翻译： 本发明提供一种加热电阻元件，包括：包括玻璃材料的绝缘基板; 通过加热至从绝缘基板的表面附着的退火点到软化点的温度而与绝缘基板结合的蓄热层，并且包含与绝缘基板的玻璃材料相同的材料; 以及加热电阻器，其设置在所述蓄热层上，在所述绝缘基板和所述蓄热层中的至少一个接合面上，所述绝缘基板和所述蓄热层中的至少一个在所述蓄热层中设置有凹部 与加热电阻器相对的区域以形成中空部分。 因此，抑制由热膨胀系数差引起的变形，提高印刷品质。

公开(公告)号：US20100071414A1

公开(公告)日：2010-03-25

申请号：US12460780

申请日：2009-07-24

申请人： Toshimitsu Morooka ,  Keitaro Koroishi ,  Yoshinori Sato ,  Noriyoshi Shoji ,  Norimitsu Sanbongi

发明人： Toshimitsu Morooka ,  Keitaro Koroishi ,  Yoshinori Sato ,  Noriyoshi Shoji ,  Norimitsu Sanbongi

IPC分类号： C03B19/00

CPC分类号： B41J2/33535 ,  B41J2/33585 ,  B41J2/3359

摘要： Provided is a manufacturing method for a thermal head, which includes: a concave portion forming step of forming a plurality of concave portions on a surface of a collective substrate; a bonding step of thermally fusion bonding an insulating film to the surface of the collective substrate including the plurality of concave portions formed thereon in the concave portion forming step; and a heating resistor forming step of forming a plurality of heating resistors on the insulating film so as to be opposed to the plurality of concave portions, in which the concave portion forming step includes setting any one of the plurality of concave portions as a reference, and setting sizes of the plurality of concave portions other than the any one of the plurality of concave portions so as to become larger as a distance from the any one thereof increases.

摘要翻译： 本发明提供一种热敏头的制造方法，其特征在于，包括：在集合基板的表面上形成多个凹部的凹部形成工序; 在所述凹部形成工序中，使绝缘膜与包含形成在其上的所述多个凹部的所述集合基板的表面热熔融接合的接合工序; 以及加热电阻器形成步骤，在所述绝缘膜上形成多个加热电阻器，以与所述多个凹部相对，所述凹部形成步骤包括将所述多个凹部中的任一个设定为基准， 以及多个凹部中的任何一个以外的多个凹部的设定尺寸随着距离其中任一个的距离而变大。

公开(公告)号：US20090231408A1

公开(公告)日：2009-09-17

申请号：US12381702

申请日：2009-03-16

申请人： Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka ,  Keitaro Koroishi

发明人： Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka ,  Keitaro Koroishi

IPC分类号： B41J2/345 ,  H05B3/03

CPC分类号： B41J2/33525 ,  B41J2/33535 ,  B41J2/3357 ,  B41J2/33585 ,  B41J2/3359 ,  Y10T29/49083

摘要： To reduce a plate thickness of an insulating film, a heating resistor element component is provided, which includes: a supporting substrate; an insulating film disposed on a surface of the supporting substrate; a plurality of heating resistors arranged at intervals on the insulating film; a common wire connected to one end of each of the plurality of heating resistors; and individual wires each connected to another end of each of the plurality of heating resistors, in which: the surface of the supporting substrate is provided with a concave portion in a region thereof, the region being opposed to heating portions of the plurality of heating resistors; and when the insulating film is superimposed on the supporting substrate, the insulating film includes a heterogeneous phase formed through irradiation of a phemtosecond laser at least in a region thereof, the region being opposed to the concave portion.

摘要翻译： 为了减小绝缘膜的板厚，提供了一种加热电阻器元件，其包括：支撑基板; 设置在所述支撑基板的表面上的绝缘膜; 绝缘膜间隔布置的多个加热电阻体; 连接到所述多个加热电阻器中的每一个的一端的公共线; 以及各自连接到所述多个加热电阻器的每一个的另一端的单独的线，其中：所述支撑基板的表面在其区域中设置有凹部，所述区域与所述多个加热电阻器的加热部分相对 ; 并且当所述绝缘膜重叠在所述支撑基板上时，所述绝缘膜包括至少在其区域中通过照射所述像形激光而形成的非均相，所述区域与所述凹部相对。

公开(公告)号：US20090102912A1

公开(公告)日：2009-04-23

申请号：US12254570

申请日：2008-10-20

申请人： Keitaro KOROISHI ,  Toshimitsu Morooka ,  Noriyoshi Shoji ,  Yoshinori Sato ,  Norimitsu Sanbongi

发明人： Keitaro KOROISHI ,  Toshimitsu Morooka ,  Noriyoshi Shoji ,  Yoshinori Sato ,  Norimitsu Sanbongi

IPC分类号： B41J2/335

CPC分类号： H05B3/16 ,  B41J2/3357 ,  B41J2/33585 ,  Y10T29/49083

摘要： Provided is a heating resistor element, including: an insulating substrate (9); a heat accumulating layer (10) bonded to a surface of the insulating substrate (9); and a heating resistor (11) provided on the heat accumulating layer (10), in which: on at least one of bonded surfaces between the heating substrate (9) and the heat accumulating layer (10), at least one of the insulating substrate (9) and the heat accumulating layer (10) is provided with a concave portion (16) in a region opposed to the heating resistor (11) to form a hollow portion (17); and the concave portion (16) has a curvature radius of 10 μm or more at each corner thereof. Accordingly, occurrence of stress concentration caused by heat or a load can be suppressed to improve durability, and both a sufficient strength and heating efficiency are realized.

摘要翻译： 提供一种加热电阻元件，包括：绝缘基板（9）; 与绝缘基板（9）的表面接合的蓄热层（10）; 以及设置在所述蓄热层（10）上的加热电阻器（11），其中：在所述加热基板（9）和所述蓄热层（10）的至少一个接合面上，所述绝缘基板 （9）和蓄热层（10）在与发热电阻体（11）相对的区域设有凹部（16），形成中空部（17）。 并且所述凹部（16）的每个角部的曲率半径为10μm以上。 因此，能够抑制由热或负荷引起的应力集中的发生，提高耐久性，并且能够实现充分的强度和加热效率。