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    • 1. 发明专利
    • Shield with stun gun
    • 狙击枪
    • JP2013117326A
    • 2013-06-13
    • JP2011263924
    • 2011-12-01
    • Shoji Terada將二 寺田
    • TERADA SHOJI
    • F41H5/08F41B15/00
    • PROBLEM TO BE SOLVED: To provide a shield with a stun gun whole of which is integrated and thereby the stun gun is attachable to the shields with variable structures and shapes, while the stun gun is not activated when a switch thereof is turned on unnecessarily.SOLUTION: A shield with a stun gun includes: a shield body 13 which has a pair of strip electrodes 11, 12 for electric discharge on a front side; a grip 17 which is attached at a rear side of the shield body 13 via first and second support members 15, 16 at both end sides thereof while an opening space with a lid 24 is disposed at one side; a high voltage generation circuit which is housed in the grip 17, to which power is supplied from an electric cell disposed to be displaceable in the opening space, and which applies high voltages to the pair of strip electrodes 11, 12; a push switch which is disposed in series with the electric cell and the high voltage generation circuit and exposed outside from the grip 17; and a safety switch 37 which is connected with the electric cell and the high voltage generation circuit in series.
    • 要解决的问题:为了提供具有整体的眩晕枪的盾牌,由此眩晕枪可连接到具有可变结构和形状的护罩上,而当其转动开关时,眩晕枪未被激活 不必要地 解决方案:具有眩晕枪的屏蔽罩包括:屏蔽体13,其具有一对用于在前侧放电的条状电极11,12; 手柄17通过第一和第二支撑构件15,16在其两端侧安装在屏蔽体13的后侧,同时具有盖24的开口空间设置在一侧; 容纳在把手17中的高电压产生电路,从设置成可在开口空间移动的电池供电,并对该对电极11,12施加高电压; 与电池和高电压产生电路串联布置并从手柄17暴露在外部的按钮开关; 以及与电池和高压发生电路串联连接的安全开关37。 版权所有(C)2013,JPO&INPIT
    • 3. 发明授权
    • Method of manufacturing display apparatus
    • 制造显示装置的方法
    • US06943052B2
    • 2005-09-13
    • US10725308
    • 2003-12-01
    • Isao KamiyamaShoji Terada
    • Isao KamiyamaShoji Terada
    • H05B33/10G09F9/00H01L21/00H01L27/146H01L51/50H05B33/02H05B33/14
    • H01L51/56H01L27/14603H01L27/14683H01L27/3293H01L51/529H01L2251/566
    • A support substrate having the same size as a device substrate provided with alignment marks is disposed opposite to and adhered to the back side of the device substrate. At least the face side of the device substrate on the support substrate is cut at division lines along a functional region. An organic film is formed on the functional region of the device substrate thus cut. The support substrate is cut along the functional region of the device substrate, thereby removing peripheral portions of the support substrate and the device substrate, to form a display panel. Positioning of the substrate relative to a manufacturing apparatus for each step can be performed with high accuracy, in the manufacturing process including a step of cutting the substrate to a smaller size in the course of manufacture.
    • 具有与设置有对准标记的器件基板相同尺寸的支撑基板设置成与器件基板的背面相对并粘附到器件基板的背面。 至少在支撑基板上的器件基板的正面侧沿着功能区域以分割线切割。 在如此切割的器件基板的功能区域上形成有机膜。 沿着器件基板的功能区域切割支撑基板,从而去除支撑基板和器件基板的周边部分,以形成显示面板。 基板相对于每个步骤的制造装置的定位可以在制造过程中以高精度进行,包括在制造过程中将基板切割成较小尺寸的步骤。
    • 4. 发明授权
    • Giant magneto-resistive effect element, magneto-resistive effect type head, thin-film magnetic memory and thin-film magnetic sensor
    • 巨磁阻效应元件,磁阻效应型头,薄膜磁记忆体和薄膜磁传感器
    • US06714390B2
    • 2004-03-30
    • US10120741
    • 2002-04-11
    • Shoji TeradaAtsushi MatsuzonoHiroaki Ono
    • Shoji TeradaAtsushi MatsuzonoHiroaki Ono
    • G11B539
    • H01L27/224B82Y10/00B82Y25/00G01R33/093G11B5/3903G11B2005/3996G11C11/16H01F10/324H01F10/3268H01L43/08Y10T428/1121Y10T428/1171
    • A giant magneto-resistive effect element (1) comprises a lamination layer film (2) including a ferromagnetic film and wherein a nonmagnetic film and an antiferromagnetic film, the ferromagnetic film includes a magnetization free layer (13) and a magnetization fixed layer, a current is restricted by an upper electrode and a lower electrode in such a manner that the current may flow in the direction perpendicular to the film plane of the lamination layer film (2), the lamination layer film (2) is laminated including a high-resistance layer (21), a hard magnetic film (3) made of a conductive hard magnetic material and an insulating layer (4) are directly bonded to respective outsides of this lamination layer film (2) along its width direction and this hard magnetic film (3) is shifted from the high-resistance layer (21) and bonded near the magnetization free layer (13). A magneto-resistive effect type head, a thin-film magnetic memory and a thin-film magnetic sensor include the giant magneto-resistive effect element (1). The giant magneto-resistive effect element can obtain a high output, a high resistance and is able to cope with high recording density. Also, the magneto-resistive effect head, the thin-film magnetic memory and the thin-film magnetic sensor may include this giant magneto-resistive effect element.
    • 巨磁电效应元件(1)包括包含铁磁膜的叠层膜(2),其中非磁性膜和反铁磁膜,铁磁膜包括无磁化层(13)和磁化固定层, 电流受到上电极和下电极的限制,使得电流可以在垂直于层压层膜(2)的膜平面的方向上流动,层压层膜(2) 电阻层(21),由导电硬磁性材料制成的硬磁性膜(3)和绝缘层(4)沿其宽度方向直接接合到该叠层膜(2)的外侧,并且该硬磁性膜 (3)从高电阻层(21)移位并粘接在磁化自由层(13)附近。 磁阻效应型头,薄膜磁存储器和薄膜磁传感器包括巨磁阻效应元件(1)。 巨大的磁阻效应元件可以获得高输出,高电阻并且能够应付高记录密度。 此外,磁阻效应头,薄膜磁存储器和薄膜磁传感器可以包括这个巨大的磁阻效应元件。
    • 9. 发明授权
    • Method of manufacturing display unit wherein sealing material is extruded from a seam portion between plurality of device substrates
    • 制造显示单元的方法,其中密封材料从多个器件基底之间的接缝部分挤出
    • US07042546B2
    • 2006-05-09
    • US10871173
    • 2004-06-18
    • Hitoshi TamashiroYuichi IwaseShoji Terada
    • Hitoshi TamashiroYuichi IwaseShoji Terada
    • G02F1/1339G02F1/133
    • H01L27/3293G09G2300/0426H01L27/3211H01L27/322H01L51/5246H01L51/5253H01L51/5284
    • A method of manufacturing a display unit capable of manufacturing a large-screen display unit with high display quality without upsizing manufacturing facilities is provided. Device substrates on which a pixel including the organic light-emitting devices is formed are aligned on the same plane so as to face a sealing substrate. While the device substrates and the sealing substrate are bonded together with an adhesive resin for sealing in between, the adhesive resin for sealing is extruded from a seam portion to the backside of the seam portion so as to fill the seam portion with the adhesive resin for sealing. The backside of the seam portion can be securely sealed through a simple step. The method is suitable for a large-scale display unit using top-emitting organic light-emitting devices. A back sealing member may be disposed on the backside of the seam portion with the extruded adhesive resin for sealing in between. After that, the adhesive resin for sealing is cured.
    • 提供一种制造能够制造具有高显示质量的大屏幕显示单元而不增加制造设备的显示单元的方法。 其上形成有包括有机发光器件的像素的器件衬底在同一平面上对准密封衬底。 当将装置基板和密封基板用粘合剂树脂粘合在一起时,用于密封的粘合剂树脂从接缝部分挤出到接缝部分的后侧,以便用粘合剂树脂填充接缝部分 密封。 接缝部分的背面可以通过简单的步骤牢固地密封。 该方法适用于使用顶部发光的有机发光装置的大型显示单元。 后密封构件可以设置在接缝部分的背面,挤出的粘合剂树脂用于密封。 之后,固化用于密封的粘合树脂。