公开(公告)号：US08144175B2

公开(公告)日：2012-03-27

申请号：US12254549

申请日：2008-10-20

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

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

IPC: B41J2/34

CPC classification number: H05B3/16 ,  B41J2/3357 ,  B41J2/33585 ,  Y10T29/49082 ,  Y10T29/49083 ,  Y10T29/49401 ,  Y10T29/49826

Abstract: Provided is a heating resistor element (1), 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 (9a) between the insulating 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 hollow portion (17) includes an inner surface on a side of the insulating substrate (9), the inner surface being processed to have surface roughness (Ra) of 0.2 μm or more. Accordingly, heat accumulation in a gas of the hollow portion (17) can be suppressed to improve printing quality.

Abstract translation: 提供一种加热电阻元件（1），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（11），其中：在所述绝缘基板（9）和所述蓄热层（10）之间的至少一个接合面（9a）上，至少一个 所述绝缘基板（9）和所述蓄热层（10）在与所述加热电阻体（11）相对的区域设置有凹部（16），形成中空部（17）。 并且所述中空部（17）包括在所述绝缘基板（9）的一侧的内表面，所述内表面被加工成具有0.2μm以上的表面粗糙度（Ra）。 因此，可以抑制中空部（17）的气体中的积聚，提高打印质量。

公开(公告)号：US20110141214A1

公开(公告)日：2011-06-16

申请号：US12928261

申请日：2010-12-07

Applicant: Norimitsu Sanbongi ,  Toshimitsu Morooka ,  Keitaro Koroishi ,  Noriyoshi Shoji

Inventor： Norimitsu Sanbongi ,  Toshimitsu Morooka ,  Keitaro Koroishi ,  Noriyoshi Shoji

IPC: B41J2/335

CPC classification number: B41J2/33585 ,  B41J2/3358

Abstract: Provided is a thermal head including an intermediate layer between a support substrate and an upper substrate, which is capable of suppressing heat dissipation toward the support substrate while maintaining printing quality. Employed is a thermal head (1) including: an upper substrate (5); a support substrate (3) bonded in a stacked state on one surface side of the upper substrate (5); a heating resistor (7) provided on another surface side of the upper substrate (5); and an intermediate layer (6) including a concave portion that forms a cavity portion (4) in a region corresponding to the heating resistor (7), the intermediate layer (6) being provided between the upper substrate (5) and the support substrate (3), in which the intermediate layer (6) is formed of a plate-shaped glass material having a lower melting point than melting points of the upper substrate (5) and the support substrate (3).

Abstract translation: 提供一种热敏头，其包括在支撑基板和上基板之间的中间层，其能够在保持打印质量的同时抑制向支撑基板的散热。 使用的是热头（1），包括：上基板（5）; 在所述上基板（5）的一个表面侧以层叠状态接合的支撑基板（3）。 设置在上基板（5）的另一表面侧的发热电阻（7）; 以及包括在对应于所述加热电阻器（7）的区域中形成空腔部分（4）的凹部的中间层（6），所述中间层（6）设置在所述上​​基板（5）和所述支撑基板 （3），其中中间层（6）由具有比上基板（5）和支撑基板（3）的熔点低的熔点的板状玻璃材料形成。

公开(公告)号：US07956880B2

公开(公告)日：2011-06-07

申请号：US12381702

申请日：2009-03-16

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

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

IPC: B41J2/335

CPC classification number: B41J2/33525 ,  B41J2/33535 ,  B41J2/3357 ,  B41J2/33585 ,  B41J2/3359 ,  Y10T29/49083

Abstract: A heating resistor element component has supporting substrate with a concave portion formed in a surface of the supporting substrate. A glass substrate is disposed on the surface of the supporting substrate. At least a region of the glass substrate opposite to the concave portion of the support substrate has a heterogeneous phase structure with physical properties different from those of the material of the glass substrate such that an overall mechanical strength of the glass substrate is increased. The heterogeneous phase structure is formed by laser processing using a phemtosecond laser having a power intensity of 1×106 W to 1×108 W. Heating resistors are arranged at intervals on the glass substrate and have heating portions disposed opposite to the concave portion of the supporting substrate. A common wire is connected to one end of each of the heating resistors. Individual wires are each connected to another end of each of the heating resistors.

Abstract translation: 加热电阻元件部件具有在支撑基板的表面上形成有凹部的支撑基板。 玻璃基板设置在支撑基板的表面上。 至少与支撑基板的凹部相对的玻璃基板的区域具有与玻璃基板的材料不同的物理性质的非均匀相结构，使得玻璃基板的整体机械强度增加。 通过使用功率强度为1×106W至1×108W的聚合激光器的激光加工形成异相相位结构。加热电阻器间隔布置在玻璃基板上，并且具有设置在与玻璃基板的凹部相对的加热部分 支撑衬底。 普通的电线连接到每个加热电阻器的一端。 单独的电线各自连接到每个加热电阻器的另一端。

公开(公告)号：US20100134583A1

公开(公告)日：2010-06-03

申请号：US12613873

申请日：2009-11-06

Applicant: Keitaro Koroishi ,  Noriyoshi Shoji ,  Toshimitsu Morooka ,  Norimitsu San bongi ,  Yoshinori Sato

Inventor： Keitaro Koroishi ,  Noriyoshi Shoji ,  Toshimitsu Morooka ,  Norimitsu San bongi ,  Yoshinori Sato

IPC: B41J2/335 ,  B29C65/00

CPC classification number: B41J2/33525 ,  B41J2/33585 ,  B41J2/3359 ,  Y10T156/1002

Abstract: To improve print quality, a plurality of heating resistors (14) are arranged with spaces therebetween on a heat storage layer (13) laminated on a surface of a supporting substrate (11) via an adhesive layer (12) made of an elastic material. A cavity portion (19) is formed at a region between the supporting substrate (11) and the heat storage layer (13), the region being opposed to a heat generating portion of each of the plurality of heating resistors (14). The elastic material constituting the adhesive layer (12) is arranged so that the elastic material is in a bonded state with respect to at least a part of a surface of the heat storage layer (13) opposed to the cavity portion (19).

Abstract translation: 为了提高打印质量，通过经由弹性材料制成的粘合剂层（12）在叠层在支撑基板（11）的表面上的储热层（13）上布置有多个加热电阻器（14）。 在支撑基板（11）和蓄热层（13）之间的区域形成有空腔部分（19），该区域与多个加热电阻器（14）中的每一个的发热部分相对。 构成粘合剂层（12）的弹性材料被布置成使得弹性材料相对于与空腔部分（19）相对的储热层（13）的表面的至少一部分处于接合状态。

公开(公告)号：US20100134582A1

公开(公告)日：2010-06-03

申请号：US12613849

申请日：2009-11-06

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

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

IPC: B41J2/335 ,  B32B38/00

CPC classification number: B41J2/33525 ,  B41J2/33585 ,  B41J2/3359 ,  Y10T156/1031

Abstract: To improve heat generating efficiency and printing quality, a plurality of heating resistors (14) are arranged with spaces therebetween on a heat storage layer (13) laminated on a surface of a supporting substrate (11) via an adhesive layer (12) made of an elastic material. A cavity section (19) is formed at a region between the supporting substrate (11) and the heat storage layer (13), the region being opposed to a heat generating portion of each of the plurality of heating resistors (14). The cavity section (19) includes a concave portion (20) formed in the surface of the supporting substrate (11) and the heat storage layer (13) in which the concave portion (20) is closed and the surface thereof is exposed to the cavity section (19).

Abstract translation: 为了提高发热效率和印刷质量，多个加热电阻器（14）通过层叠在支撑基板（11）的表面上的热存储层（13）上经由经由粘合剂层（12）形成的空间布置， 弹性材料。 在支撑基板（11）和蓄热层（13）之间的区域形成有空腔部（19），该区域与多个加热电阻体（14）的发热部分相对。 空腔部分（19）包括形成在支撑基板（11）的表面上的凹部（20）和其中凹部（20）被封闭并且其表面暴露于其中的储热层（13） 空腔部分（19）。

公开(公告)号：US20100115760A1

公开(公告)日：2010-05-13

申请号：US12589139

申请日：2009-10-19

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

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

IPC: H01C17/00

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

Abstract: Provided is a manufacturing method for a thermal head, which enables to manufacture a thermal head having high heating efficiency and stable quality. The manufacturing method for a thermal head includes: a concave portion forming step of 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.

Abstract translation: 提供了一种用于制造热加热效率高，质量稳定的热敏头的热敏头的制造方法。 热敏头的制造方法包括：在薄板玻璃的一个表面上形成中空凹部的凹部形成工序和深度大于中空凹部的深度的标记凹部; 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：US20090265919A1

公开(公告)日：2009-10-29

申请号：US12386843

申请日：2009-04-23

Applicant: Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka

Inventor： Noriyoshi Shoji ,  Norimitsu Sanbongi ,  Yoshinori Sato ,  Toshimitsu Morooka

IPC: H05B3/00

CPC classification number: B41J2/33535 ,  B41J2/33585 ,  B41J2/3359 ,  Y10T29/49082 ,  Y10T29/49083 ,  Y10T29/49346 ,  Y10T29/49401

Abstract: In order to provide a manufacturing method for a heating resistor element component, with which an insulating film (undercoat) can be easily handled, damage caused in the insulating film can be reduced, and a high yield can be ensured, the manufacturing method comprises the steps of: processing, on a surface of a supporting substrate (2), a plurality of concave portions (8) each forming a hollow portion (7) at intervals; processing, on the surface of the supporting substrate (2), a concave part (10) for each region straddling the plurality of concave portions (8) in an arrangement direction of the concave portions (8); placing an insulating film (3) made of sheet glass in each concave part (10); and bonding the insulating film (3) to the supporting substrate (2).

Abstract translation: 为了提供可以容易地处理绝缘膜（底涂层）的加热电阻元件部件的制造方法，可以降低绝缘膜产生的损伤，并且可以确保高产率，该制造方法包括 步骤：在支撑基板（2）的表面上，间隔地形成有形成中空部（7）的多个凹部（8） 在所述支撑基板（2）的表面上，在所述凹部（8）的排列方向上对与所述多个凹部（8）交叉的各区域的凹部（10）进行加工。 在每个凹部（10）中放置由玻璃板制成的绝缘膜（3）; 并将绝缘膜（3）接合到支撑基板（2）上。

公开(公告)号：US20090102891A1

公开(公告)日：2009-04-23

申请号：US12254549

申请日：2008-10-20

Applicant: Keitaro KOROISHI ,  Toshimitsu MOROOKA ,  Noriyoshi SHOJI ,  Yoshinori SATO ,  Norimitsu SANBONGI

Inventor： Keitaro KOROISHI ,  Toshimitsu MOROOKA ,  Noriyoshi SHOJI ,  Yoshinori SATO ,  Norimitsu SANBONGI

IPC: B41J2/05 ,  B23P11/00

CPC classification number: H05B3/16 ,  B41J2/3357 ,  B41J2/33585 ,  Y10T29/49082 ,  Y10T29/49083 ,  Y10T29/49401 ,  Y10T29/49826

Abstract: Provided is a heating resistor element (1), 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 (9a) between the insulating 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 hollow portion (17) includes an inner surface on a side of the insulating substrate (9), the inner surface being processed to have surface roughness (Ra) of 0.2 μm or more. Accordingly, heat accumulation in a gas of the hollow portion (17) can be suppressed to improve printing quality.

Abstract translation: 提供一种加热电阻元件（1），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（11），其中：在所述绝缘基板（9）和所述蓄热层（10）之间的至少一个接合面（9a）上，至少一个 所述绝缘基板（9）和所述蓄热层（10）在与所述加热电阻体（11）相对的区域设置有凹部（16），形成中空部（17）。 并且所述中空部分（17）包括在所述绝缘基板（9）的一侧上的内表面，所述内表面被加工成具有0.2μm或更大的表面粗糙度（Ra）。 因此，可以抑制中空部（17）的气体中的积聚，提高打印质量。

公开(公告)号：US20090090703A1

公开(公告)日：2009-04-09

申请号：US12286879

申请日：2008-10-02

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

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

IPC: H05B1/00 ,  H05B3/02 ,  B41J2/335

CPC classification number: B41J2/3357 ,  B41J2/33585

Abstract: Provided is a heating resistance element component, including: a supporting substrate; an insulating film laminated on 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 the each of the plurality of heating resistors, in which a surface of the supporting substrate is formed with a first concave portion and a second concave portion, the first concave portion being arranged in a region opposed to heating portions of the plurality of heating resistors, the second concave portion being arranged at an interval in a vicinity of the first concave portion. Accordingly, heating efficiency of the heating resistors can be increased to reduce power consumption, and a strength of the substrate under the heating resistors can be increased.

Abstract translation: 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; 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; 以及各个连接到多个加热电阻器的另一端的单个导线，其中支撑基板的表面形成有第一凹部和第二凹部，第一凹部布置在与 所述多个加热电阻器的加热部分，所述第二凹部以所述第一凹部附近的间隔配置。 因此，可以提高加热电阻器的加热效率以降低功耗，并且可以提高加热电阻器下的基板的强度。

公开(公告)号：US06974952B2

公开(公告)日：2005-12-13

申请号：US10417907

申请日：2003-04-17

Applicant: Toshimitsu Morooka ,  Keiichi Tanaka ,  Atsushi Nagata ,  Kazuo Chinone ,  Tatsuji Ishikawa

Inventor： Toshimitsu Morooka ,  Keiichi Tanaka ,  Atsushi Nagata ,  Kazuo Chinone ,  Tatsuji Ishikawa

IPC: G01T7/00 ,  G01J1/06 ,  G01J1/42 ,  G01T1/26 ,  H01L27/14 ,  H01L39/22 ,  G01T1/00

CPC classification number: G01J1/42 ,  G01J1/06

Abstract: A radiation detector comprises an energy/electricity converter having a detection area for detecting incident radiation, and electrodes connecting the converter to an external driving circuit for driving the converter to convert energy of the incident radiation detected by the detection area of the converter into an electric signal. A collimator is integrally connected to the converter and has an opening for transmitting radiation to irradiate the detection area of the converter and portions for preventing radiation from irradiating a part of the converter other than the detection area. A spacer is integrally connected to the collimator and the converter for maintaining a preselected distance between the collimator and the detection area of the converter.

Abstract translation: 辐射检测器包括具有用于检测入射辐射的检测区域的能量/电力转换器，以及将转换器连接到外部驱动电路的电极，用于驱动转换器以将由转换器的检测区域检测到的入射辐射的能量转换为电 信号。 准直器与变换器一体地连接，并且具有用于发射辐射的照明器，用于照射转换器的检测区域的部分和用于防止辐射照射除了检测区域之外的转换器的一部分的部分。 间隔件与准直器和转换器整体连接，用于保持准直器与转换器检测区域之间的预选距离。