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    • 34. 发明申请
    • Adhesive For Injection Needle, A Method For Bonding Injection Needle, A Syringe Front-Assembly And A Syringe
    • 注射针用粘合剂,注射针接合方法,注射器前组件和注射器
    • US20090209919A1
    • 2009-08-20
    • US11921574
    • 2006-06-05
    • Yuusuke SakuraiJotaro KishimotoHiroshi YoshikawaMasahiko Kato
    • Yuusuke SakuraiJotaro KishimotoHiroshi YoshikawaMasahiko Kato
    • A61M5/32C09J163/00C08G65/04C08K3/22
    • A61M5/284A61M5/349A61M2005/3132C09J163/00
    • The present invention inhibits the occurrence of the foreign matters attributable to an adhesive for bonding an injection needle to a needle-base member so as to enhance the yield of a syringe when producing the same. A front-assembly (3) additionally provided at a leading end of an injection cylinder (2) comprises an injection needle (4), a needle-base member (5), a connection hub (6) and a protector cap (7). The injection needle (4) and the needle-base member (5) are fixed to each other with an epoxy adhesive (19). This adhesive (19) contains denatured aliphatic epoxy resin in the amount set to about 10 to about 25 wt % and its viscosity is set to about 20000 to about 40000 mPa·s. This adhesive (19) is heated at a temperature of at least 130 degrees C. for about 20 minutes to cure it. After the front-assembly (3) and the injection cylinder (2) have been sterilized with vapor, the connection hub (6) has a connection portion (17) external fitted and secured to the leading end of the injection cylinder (2).
    • 本发明抑制由于将注射针粘合到针基部件上的粘合剂引起的异物的发生,从而提高注射器的制造时的产量。 另外设置在注射缸(2)的前端的前组件(3)包括注射针(4),针基构件(5),连接毂(6)和保护盖(7) 。 注射针(4)和针基部件(5)用环氧树脂粘合剂(19)彼此固定。 该粘合剂(19)含有设定为约10至约25重量%的变性脂族环氧树脂,其粘度设定为约20000至约40000mPa.s. 将该粘合剂(19)在至少130℃的温度下加热约20分钟以使其固化。 在前组件(3)和注射缸(2)已经用蒸汽灭菌之后,连接毂(6)具有外部装配并固定到注射缸(2)的前端的连接部分(17)。
    • 35. 发明授权
    • Optical memory reproduction apparatus and incidence positioning method for read light thereof
    • 光记忆再现装置及其读取光的入射定位方法
    • US07505644B2
    • 2009-03-17
    • US10575284
    • 2004-10-21
    • Yoshiaki KurokawaShogo YagiAkinori FuruyaMasahiro EndoTadayuki ImaiHiroshi Yoshikawa
    • Yoshiaki KurokawaShogo YagiAkinori FuruyaMasahiro EndoTadayuki ImaiHiroshi Yoshikawa
    • G02B6/00G06K7/10
    • G11B7/0938G03H1/0408G03H1/22G03H1/26G03H2001/2615G11B7/0901G11B7/24003G11B7/24044
    • An optical memory medium (2) has cores (21) each constituting a planar optical waveguide and clads (22) sandwiching each core, and has a data image (203) in which data is recorded as a scattering factor and a pair of positioning marks (201, 202) which are scattering factors required for positioning at an interface between a core (21) and a clad (22) or in the core (21). A read light (103) travels while spreading in the core (21) and scatters and interferes by the data image (203), and data is reproduced from a data reproduction light (1031) generated by this scattering and interference. A pair of positioning lights (101, 102) are caused to enter the core (21) with offsets with respect to the read light (103) in opposite directions along a thickness direction of the core (21), and scatter and interfere at the pair of positioning marks (201, 202). Incidence positions of the lights emitted from a light source (11) with respect to the core (21) in a thickness direction of the core (21) are controlled based on intensities of a pair of positioning mark lights (1011, 1021) generated by this scattering and interference.
    • 光存储介质(2)具有构成平面光波导的芯(21)和夹着各芯的包层(22),并具有以数据记录为散射因子的数据图像(203)和一对定位标记 (201,202),其是在芯(21)和包层(22)或芯(21)之间的界面处定位所需的散射因子。 读取光(103)在芯(21)中扩展时行进并被数据图像(203)散射和干扰,并且从由该散射和干涉产生的数据再现光(1031)再现数据。 一对定位灯(101,102)沿芯体(21)的厚度方向以相反的方向相对于读取光(103)偏移地进入芯部(21),并且散射并干扰 一对定位标记(201,202)。 基于芯(21)的厚度方向相对于芯(21)发射的光的入射位置基于由一对定位标记光(1011,1021)产生的一对定位标记光(1011,1021)的强度来控制, 这种散射和干扰。
    • 36. 发明申请
    • Optical memory reproduction apparatus and incidence positioning method for read light thereof
    • 光记忆再现装置及其读取光的入射定位方法
    • US20070147749A1
    • 2007-06-28
    • US10575284
    • 2004-10-21
    • Yoshiaki KurokawaShogo YagiAkinori FuruyaMasahiro EndoTadayuki ImaiHiroshi Yoshikawa
    • Yoshiaki KurokawaShogo YagiAkinori FuruyaMasahiro EndoTadayuki ImaiHiroshi Yoshikawa
    • G02B6/04
    • G11B7/0938G03H1/0408G03H1/22G03H1/26G03H2001/2615G11B7/0901G11B7/24003G11B7/24044
    • An optical memory medium (2) has cores (21) each constituting a planar optical waveguide and clads (22) sandwiching each core, and has a data image (203) in which data is recorded as a scattering factor and a pair of positioning marks (201, 202) which are scattering factors required for positioning at an interface between a core (21) and a clad (22) or in the core (21). A read light (103) travels while spreading in the core (21) and scatters and interferes by the data image (203), and data is reproduced from a data reproduction light (1031) generated by this scattering and interference. A pair of positioning lights (101, 102) are caused to enter the core (21) with offsets with respect to the read light (103) in opposite directions along a thickness direction of the core (21), and scatter and interfere at the pair of positioning marks (201, 202). Incidence positions of the lights emitted from a light source (11) with respect to the core (21) in a thickness direction of the core (21) are controlled based on intensities of a pair of positioning mark lights (1011, 1021) generated by this scattering and interference.
    • 光存储介质(2)具有构成平面光波导的芯(21)和夹住各芯的包层(22),并具有以数据记录为散射因子的数据图像(203)和一对定位标记 (201,202),其是在芯(21)和包层(22)或芯(21)之间的界面处定位所需的散射因子。 读取光(103)在芯(21)中扩展时行进并被数据图像(203)散射和干扰,并且从由该散射和干涉产生的数据再现光(1031)再现数据。 一对定位灯(101,102)沿芯体(21)的厚度方向以相反的方向相对于读取光(103)偏移地进入芯部(21),并且散射并干扰 一对定位标记(201,202)。 基于芯(21)的厚度方向相对于芯(21)发射的光的入射位置基于由一对定位标记光(1011,1021)产生的一对定位标记光(1011,1021)的强度来控制, 这种散射和干扰。
    • 39. 发明授权
    • Surface inspecting apparatus and method
    • 表面检查装置及方法
    • US06847444B2
    • 2005-01-25
    • US10669706
    • 2003-09-25
    • Hisashi IsozakiHiroshi Yoshikawa
    • Hisashi IsozakiHiroshi Yoshikawa
    • G01B11/30G01N21/95G01N21/956G06T1/00H01L21/66G01N21/00
    • G01N21/9501
    • A surface inspection apparatus includes a light source section for emitting a first and a second luminous flux; a first and a second irradiation optical system in which the first and the second luminous flux are irradiated on the surface of an inspected object at a first and a second irradiation angle, respectively; a displacement section for relatively displacing an inspected object and an irradiation luminous flux of the irradiation optical system; a light receiving optical system for receiving scattered light of the first and the second luminous flux; a first and a second light receiving section for converting scattered light of the first and second luminous flux into a first and a second light receiving signal, respectively; and a signal forming section for forming a measuring signal on the basis of the first and the second light receiving signal. The first and the second light receiving section form a first and a second light receiving signal which are different in sensitivity or dynamic range from each other, and synthesizes the first and the second light receiving signal to form a measuring signal.
    • 表面检查装置包括用于发射第一和第二光通量的光源部分; 第一和第二照射光学系统,其中第一和第二光束分别以第一和第二照射角照射在被检查物体的表面上; 用于相对移动检查对象的位移部分和照射光学系统的照射光束; 用于接收第一和第二光束的散射光的光接收光学系统; 第一和第二光接收部分,用于将第一和第二光束的散射光分别转换成第一和第二光接收信号; 以及信号形成部分,用于基于第一和第二光接收信号形成测量信号。 第一和第二光接收部分形成彼此不同的灵敏度或动态范围的第一和第二光接收信号,并且合成第一和第二光接收信号以形成测量信号。
    • 40. 发明授权
    • Spindle motor
    • 主轴电机
    • US06794774B2
    • 2004-09-21
    • US10316829
    • 2002-12-12
    • Rikuro ObaraHiroshi Yoshikawa
    • Rikuro ObaraHiroshi Yoshikawa
    • H02K524
    • G11B19/2009F16C19/54F16C35/077F16C2370/12
    • A spindle motor of the present invention is capable of keeping its ball (5a, 5b)'s pre-load constant, because a sleeve (6) is capable of being resiliently deformed due to its resiliency, and therefore capable of constantly keeping a pre-load applied to the balls (5a, 5b) from inner and inner ring raceways of inner and outer rings (3a, 4a, 3b, 4b) of ball bearings (3, 4). In this motor, a rotor hub (7) has an axial center bore (8). This bore (8) is provided with: a large-diameter bore portions in its opposite axial ends; and, a small-diameter bore portion (8a) axially interposed between the large-diameter bore portions. An inner diameter of the small-diameter bore portion (8a) is smaller than an outer diameter of the sleeve (6). The axial center bore (8) of the hub (7) is fitted to an outer peripheral surface of the sleeve (6) in an insertion manner through a heating shrinkage fit process, so that the sleeve (6) is subjected to a radially inwardly exerted pressure applied from outside to resiliently deform radially inwardly. As a result, a small-diameter portion (6a) is formed in the sleeve (6) to extend radially inwardly between the outer rings (3b, 4b).
    • 本发明的主轴电动机能够保持其球(5a,5b)的预加载恒定,因为套筒(6)由于其弹性而能够弹性变形,因此能够不断地保持预先 从滚珠轴承(3,4)的内圈和外圈(3a,4a,3b,4b)的内圈和内圈滚道施加到滚珠(5a,5b)上。 在该电动机中,转子毂(7)具有轴向中心孔(8)。 该孔(8)设置有:在其相对轴向端部的大直径孔部分; 以及轴向插入在大直径孔部之间的小直径孔部(8a)。 小直径孔部(8a)的内径小于套筒(6)的外径。 轮毂(7)的轴向中心孔(8)通过加热收缩配合工艺以插入方式装配到套筒(6)的外周表面,使得套筒(6)经受径向向内 施加从外部施加的压力以径向向内弹性变形。 结果,在套筒(6)中形成小直径部分(6a),以在外环(3b,4b)之间径向向内延伸。