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    • 2. 发明专利
    • Component for fixing optical element, and imaging unit
    • 用于固定光学元件和成像单元的组件
    • JP2009139905A
    • 2009-06-25
    • JP2008010324
    • 2008-01-21
    • Olympus Corpオリンパス株式会社
    • SUDA NOBUYUKIHANAYAMA YUKICHIHIJINO MASAMICHI
    • G02B7/02A61B1/00G02B23/24G02B23/26
    • G02B23/243A61B1/00096A61B1/00101A61B1/0011A61B1/07G02B7/008G02B7/02
    • PROBLEM TO BE SOLVED: To provide a component for fixing an optical element excellent in strength, durability, corrosion resistance, dimensional accuracy, shape stability and productivity, and to provide an imaging unit using the component for fixing an optical element.
      SOLUTION: The optical element fixing component disposed at a tip of an imaging unit, includes a molded part composed of an amorphous alloy fabricated by injecting a molten metallic material into a mold and cooling the metallic material at a rate of 10°C/second or more and having a glass transition region of 20°C or more and a linear expansion coefficient of 15x10-6/°C or less, the molded part having a hollow portion. The imaging unit includes an optical element fixed to at least one of the hollow portions of the component by using a solder having a melting point below the glass transition temperature of the amorphous alloy.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种用于固定强度,耐久性,耐腐蚀性,尺寸精度,形状稳定性和生产率优异的光学元件的部件,并且提供使用用于固定光学元件的部件的成像单元。 解决方案:设置在成像单元的尖端处的光学元件固定部件包括由通过将熔融金属材料注射到模具中并以10℃的速度冷却金属材料而制成的非晶合金的模制部件 /秒以上,玻璃化转变区域为20℃以上,线膨胀系数为15×10 -6 /℃以下,成型部件为中空部。 成像单元包括通过使用熔点低于非晶合金的玻璃化转变温度的焊料固定在部件的至少一个中空部分上的光学元件。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Method for manufacturing metal alloy molding, method for manufacturing metal alloy component, and metal alloy molding device
    • 制造金属合金成型的方法,制造金属合金成分的方法和金属合金成型装置
    • JP2013000778A
    • 2013-01-07
    • JP2011135199
    • 2011-06-17
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHITANIGUCHI HIROBUMI
    • B22D27/02B22D27/04
    • PROBLEM TO BE SOLVED: To improve formability and production efficiency of a metal alloy molding in a method for manufacturing the metal alloy molding.SOLUTION: The method for manufacturing the metal alloy molding includes: a metal alloy arrangement step (S1) for arranging a metal alloy on a hearth arranged to mutually separate a plurality of cavities; a dissolving step (S2) for dissolving the metal alloy by being arc-discharged on an arc irradiation region set on a region including an arrangement position of the metal alloy; a molten metal filling step (S3 and the like) for relatively moving the cavities to the arc irradiation region and filling the cavities with metal alloy molten metal by using a filling member contacted on the dissolved metal alloy molten metal; and a solidifying step (S4 and the like) for relatively moving filled cavities to the outside of the arc irradiation region and solidifying the metal alloy molten metal. The metal alloy molding is manufactured by sequentially repeating the molten metal filling step and the solidifying step for the pluralities of the cavities.
    • 要解决的问题:为了提高金属合金成型体的制造方法中的金属合金成型体的成形性和生产效率。 解决方案:金属合金成型体的制造方法包括:金属合金配置工序(S1),用于将金属合金配置在相互分离多个空腔的炉床上; 溶解步骤(S2),用于通过电弧放电将金属合金溶解在设置在包括金属合金的配置位置的区域上的电弧照射区域上; 熔融金属填充步骤(S3等),用于通过使用与溶解的金属合金熔融金属接触的填充构件将空腔相对移动到电弧照射区域并用金属合金熔融金属填充空腔; 以及用于将填充空腔相对移动到电弧照射区域的外部并使金属合金熔融金属固化的固化步骤(S4等)。 金属合金成型体通过依次重复熔融金属填充步骤和用于多个空腔的固化步骤来制造。 版权所有(C)2013,JPO&INPIT
    • 5. 发明专利
    • Die, forming apparatus, and method for producing amorphous alloy formed body
    • DIE,成型装置和生产非晶态合金成型体的方法
    • JP2011016146A
    • 2011-01-27
    • JP2009161804
    • 2009-07-08
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHISUDA NOBUYUKIMATSUO DAISUKE
    • B22C9/06B22D17/22B22D21/00
    • PROBLEM TO BE SOLVED: To provide a die with a structure which can suppress the generation of the burr of a formed body, and also can be easily reused.SOLUTION: The die 21 wherein a plurality of die composing members having mutually adjacent cavity faces and parting faces are die-matched in such a manner that the parting faces are confronted so as to form a cavity C, and material molten metal obtained by melting a molding material is poured, and which is used for molding the molding material is made of a material whose contact angle with the material molten metal is wider than that of the body material composing the cavity faces, and is equipped with contact angle increased parts 27 provided at the regions at least toward the cavity faces in the parting faces.
    • 要解决的问题:提供一种具有能够抑制成形体的毛刺的产生的结构的模具,并且也可以容易地重复使用。解决方案:模具21,其中具有相互相邻的腔体面的多个模具构成构件和 分模面以这样的方式进行模具匹配,使得分型面面对以形成空腔C,并且注入通过熔化模制材料获得的材料熔融金属,并且用于模制成型材料的模制材料由 与材料熔融金属的接触角比构成空腔的主体材料的接触角宽的材料面,并且配置有设置在至少朝向分型面中的空腔面的区域的接触角增大部分27。
    • 6. 发明专利
    • Method for applying mold release agent and method for producing amorphous alloy formed body
    • 用于生产非晶态合金成型体的模具释放剂及其制备方法
    • JP2010279970A
    • 2010-12-16
    • JP2009134912
    • 2009-06-04
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHI
    • B22D13/10B22C3/00B22C23/02B22D13/06B22D17/20B22F1/00B22F9/00C22C45/10
    • PROBLEM TO BE SOLVED: To provide a mold release agent applying method capable of uniformly applying a mold release agent on a die or the like while suppressing oxidation of powder metal glass contained in the mold release agent.
      SOLUTION: The mold release agent applying method for applying the mold release agent in which amorphous alloy particles are diffused in a solvent of high volatility to a die having a cavity part comprises a mold release agent pouring step S12 of pouring the mold release agent in the cavity part, an oxygen partial pressure reducing step S14 of reducing the oxygen partial pressure in the atmosphere around the die, and a die rotating step S15 of rotating the die after the mold release agent pouring step S14 and before pouring a forming material.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够在抑制脱模剂中所含的粉末金属玻璃的氧化的同时将模具等均匀地涂布在模具等上的脱模剂涂布方法。 解决方案:将具有高挥发性的溶剂中的非晶质合金颗粒扩散到具有空腔部分的模具中的脱模剂的脱模剂施加方法包括:将脱模剂倒出的脱模剂倾倒步骤S12 空腔部中的试剂,降低模具周围的气氛中的氧分压的氧分压降低步骤S14,以及在脱模剂倾倒步骤S14之后使模具旋转并在浇注成形材料 。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Component molding device
    • 组件成型设备
    • JP2012055928A
    • 2012-03-22
    • JP2010201032
    • 2010-09-08
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHISUDA NOBUYUKI
    • B22D19/00B22D31/00
    • PROBLEM TO BE SOLVED: To provide a component molding device capable of effectively forming a component shape having excellent shape precision on an end of an linear member.SOLUTION: This device includes an upper mold 17 having a molten metal receiving part 17a and a runner part 17b; a lower mold 18 having a plurality of cavity parts 18a and a plurality of wire insertion holes 18b through which a wire 14 is respectively inserted into the cavity part 18a; a molten metal feeding part 5 for feeding molten metal M to the molten metal receiving part 17a in the state in which the upper mold 17 and the lower mold 18 are assembled, and filling the cavity part 18a with the molten metal M; a mold moving part 10 holding the upper mold 17 and the lower mold 18 having the metal solidified body obtained by solidifying the molten metal M in the runner part 17b and the cavity part 18a in the inside thereof in such a manner of being relatively movable, and exposing a part of the metal solidified body between the upper mold 17 and the lower mold 18; and a cutting mechanism 9 for cutting a part of the metal solidified body so as to form a plurality of linear members.
    • 要解决的问题:提供一种能够有效地形成在线性构件的端部上具有优异的形状精度的部件形状的部件模制装置。 解决方案:该装置包括具有熔融金属接收部分17a和流道部分17b的上模17; 下模具18具有多个空腔部分18a和多个电线插入孔18b,导线14分别插入到空腔部分18a中; 在组装上模具17和下模具18的状态下将熔融金属M供给到熔融金属接收部分17a的熔融金属供给部分5,并且用熔融金属M填充空腔部分18a; 保持上模17的模具移动部分10和具有金属凝固体的下模具18,其通过使流道部分17b中的熔融金属M和其内部的空腔部分18a以相对移动的方式固化而获得, 并将金属凝固体的一部分暴露在上模具17和下模具18之间; 以及用于切割金属凝固体的一部分以形成多个线性构件的切割机构9。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • Nodal ring used for bending tube for endoscope, bending tube for endoscope, and endoscope apparatus
    • 用于内窥镜的弯曲管,内窥镜弯曲管和内窥镜装置的环形环
    • JP2010246608A
    • 2010-11-04
    • JP2009096369
    • 2009-04-10
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHIMATSUO DAISUKE
    • A61B1/00G02B23/24
    • PROBLEM TO BE SOLVED: To reduce the number of components, and to facilitate the assembly in nodal rings used for a bending tube for an endoscope, the bending tube for the endoscope, and an endoscope apparatus. SOLUTION: The bending tube for the endoscope is formed by using the nodal rings 12 including an annular nodal ring body part 13 made of a metal, an arm part 15 protruded in a direction nearly along a central axis O from an end surface 13b of the joint ring body part 13, a female type fitting part 16 having an opening 16a with a diameter expandable by the elastic deformation at a distal end of the arm part 15, and a male type fitting part 14 having a protruding distal end 14a which is protruded in a direction nearly along the central axis O from an end surface 13a of the nodal ring body part 13 and has a diameter contractible by the elastic deformation when being inserted into the opening 16a of the female type fitting part 16 of the nodal ring 12 of the connecting counterpart and a protruding constriction part 14b fit in the opening 16a of the connecting counterpart in the connecting direction and is used for a bending portion of the endoscope apparatus. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了减少部件数量,并且便于用于内窥镜用弯曲管的节点环,内窥镜用弯曲管和内窥镜装置中的组装。 解决方案:用于内窥镜的弯曲管通过使用包括由金属制成的环形节点环主体部分13的节点环12形成,臂部分15从几乎沿着中心轴线O的方向从端面突出 接头环体部13的13b,具有通过在臂部15的前端的弹性变形而能够扩张的直径的开口16a的阴型配合部16,以及具有突出的远端14a的阳型配合部14 其从节点环主体部13的端面13a沿大致沿着中心轴线O的方向突出,并且当被插入节点的阴型配合部16的开口16a中时具有通过弹性变形收缩的直径 连接对应物的环12和在连接方向上装配在连接对应物的开口16a中的突出收缩部分14b用于内窥镜装置的弯曲部分。 版权所有(C)2011,JPO&INPIT
    • 9. 发明专利
    • Endoscope tip and method for manufacturing the endoscope tip
    • 内窥镜提示和制造内窥镜提示的方法
    • JP2010240245A
    • 2010-10-28
    • JP2009094063
    • 2009-04-08
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHISUDA NOBUYUKINEGISHI HIROAKIYAGI ATSUSHIFUTAKI YASUYUKI
    • A61B1/00G02B7/00G02B23/26
    • PROBLEM TO BE SOLVED: To provide an endoscope tip in which an optical element and a holding member are certainly joined by an alternative method for soldering and which is excellent in strength, durability, tightness, and productivity. SOLUTION: The endoscope tip is provided, which is provided with: the optical element 12; and a holding member 10 formed of amorphous alloy having a glass transition region at 20°C or higher to hold the optical element at a state that it is stored in a storage part 18, wherein the optical element is joined to the storage part by being pressurized at a state that the storage part around the optical element is heated to temperature in the glass transition region after the optical element is stored in the storage part. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种通过替代的焊接方法可靠地连接光学元件和保持构件并且强度,耐久性,紧密性和生产率优异的内窥镜尖端。

      解决方案:提供内窥镜尖端,其设置有:光学元件12; 以及由具有20℃以上的玻璃化转变区域的非晶合金形成的保持构件10,以将光学元件保持在存储部18的状态,其中,光学元件通过以下方式与存储部接合 在光学元件被存储在存储部分中之后,在光学元件周围的存储部分被加热到玻璃化转变区域中的温度的状态下被加压。 版权所有(C)2011,JPO&INPIT

    • 10. 发明专利
    • Micro component for endoscope
    • 内镜微组件
    • JP2008049134A
    • 2008-03-06
    • JP2007164986
    • 2007-06-22
    • Olympus Corpオリンパス株式会社
    • HANAYAMA YUKICHISUDA NOBUYUKI
    • A61B1/00C22C45/10G02B23/24
    • PROBLEM TO BE SOLVED: To provide a micro component for an endoscope, achieving excellent moldability and workability in a fewer work processes even in use of a metal material.
      SOLUTION: An adaptor for an endoscope comprises an amorphous alloy having a glass transmission range of 20°C or over as molten pool of the metal material injected in a molding die is cooled at speed of 10°C/sec or faster. The amorphous property can be kept after the application of any of a high-temperature high-pressure steam sterilization process, a corrosive gas sterilization process, and a chemical fluid immersion process.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了提供一种用于内窥镜的微型部件,即使在使用金属材料的情况下,也能够在较少的工作过程中实现优异的成型性和可加工性。 解决方案:用于内窥镜的适配器包括玻璃透射范围为20℃或更高的非晶合金,因为注入模塑模具中的金属材料的熔池以10℃/秒或更快的速度被冷却。 在施加任何高温高压蒸汽灭菌处理,腐蚀性气体灭菌处理和化学液浸渍处理之后,可以保持非晶性。 版权所有(C)2008,JPO&INPIT