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    • 2. 发明授权
    • Hybrid bio actuator and method of manufacturing the same using 3-dimensional micro molding aligner
    • 混合生物致动器及其制造方法采用三维微型成型机
    • US07498172B2
    • 2009-03-03
    • US12000957
    • 2007-12-19
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • B29C43/36
    • B29C43/36B29C33/303C12M35/04C12N5/0658
    • A hybrid bio actuator and a manufacturing method thereof using a 3-dimensional micro molding aligning apparatus are provided. The manufacturing method has the steps of: 3-dimensionally forming an actuator body with polymer using the micro molding aligning apparatus; and transplanting and cultivating the muscular cell onto the actuator body. The step of forming the actuator body comprise: preparing the upper and lower half molds corresponding to an outer contour of the actuator; installing, on the mold plate unit, the upper and lower half molds opposite to each other and placing a mass of polymer above the lower half mold; aligning the lower half mold with the upper half mold using the aligner unit; pressing the mold plate unit using the clamp unit; solidifying the polymer; and removing the solidified polymer, thereby providing the hybrid bio actuator made of a biomaterial compatible with the human body and capable of operating without a separate battery or external energy source.
    • 提供了一种使用三维微型成型对准装置的混合生物致动器及其制造方法。 该制造方法具有以下步骤:使用微型成型对准装置三维地形成具有聚合物的致动器主体; 并将肌肉细胞移植并培养到致动器主体上。 形成致动器主体的步骤包括:准备对应于致动器的外轮廓的上半模和下半模; 在模板单元上安装相互相对的上半模和下半模,并将一组聚合物放在下半模的上方; 使用对准器单元将下半模与上半模对准; 使用夹具单元按压模板单元; 固化聚合物; 并除去固化的聚合物,从而提供由与人体相容的生物材料制成的并且能够在没有单独的电池或外部能源的情况下操作的混合生物致动器。
    • 3. 发明申请
    • Hybrid bio actuator and method of manufacturing the same using 3-dimensional micro molding aligner
    • 混合生物致动器及其制造方法采用三维微型成型机
    • US20080099947A1
    • 2008-05-01
    • US12000957
    • 2007-12-19
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • B27N3/12
    • B29C43/36B29C33/303C12M35/04C12N5/0658
    • A hybrid bio actuator and a manufacturing method thereof using a 3-dimensional micro molding aligning apparatus are provided. The manufacturing method has the steps of: 3-dimensionally forming an actuator body with polymer using the micro molding aligning apparatus; and transplanting and cultivating the muscular cell onto the actuator body. The step of forming the actuator body comprise: preparing the upper and lower half molds corresponding to an outer contour of the actuator; installing, on the mold plate unit, the upper and lower half molds opposite to each other and placing a mass of polymer above the lower half mold; aligning the lower half mold with the upper half mold using the aligner unit; pressing the mold plate unit using the clamp unit; solidifying the polymer; and removing the solidified polymer, thereby providing the hybrid bio actuator made of a biomaterial compatible with the human body and capable of operating without a separate battery or external energy source.
    • 提供了一种使用三维微型成型对准装置的混合生物致动器及其制造方法。 该制造方法具有以下步骤:使用微型成型对准装置三维地形成具有聚合物的致动器主体; 并将肌肉细胞移植并培养到致动器主体上。 形成致动器主体的步骤包括:准备对应于致动器的外轮廓的上半模和下半模; 在模板单元上安装相互相对的上半模和下半模,并将一组聚合物放在下半模的上方; 使用对准器单元将下半模与上半模对准; 使用夹具单元按压模板单元; 固化聚合物; 并除去固化的聚合物,从而提供由与人体相容的生物材料制成的并且能够在没有单独的电池或外部能源的情况下操作的混合生物致动器。
    • 4. 发明申请
    • Hybrid bio actuator and method of manufacturing the same using 3-dimensional micro molding aligner
    • 混合生物致动器及其制造方法采用三维微型成型机
    • US20070141647A1
    • 2007-06-21
    • US11512356
    • 2006-08-30
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • Suk-ho ParkJin-seok KimJung-yul ParkDuk-moon RhoByung-kyu Kim
    • G01N33/567B28B3/00
    • B29C43/36B29C33/303C12M35/04C12N5/0658
    • A hybrid bio actuator and a manufacturing method thereof using a 3-dimensional micro molding aligning apparatus are provided. The manufacturing method has the steps of: 3-dimensionally forming an actuator body with polymer using the micro molding aligning apparatus; and transplanting and cultivating the muscular cell onto the actuator body. The step of forming the actuator body comprise: preparing the upper and lower half molds corresponding to an outer contour of the actuator; installing, on the mold plate unit, the upper and lower half molds opposite to each other and placing a mass of polymer above the lower half mold; aligning the lower half mold with the upper half mold using the aligner unit; pressing the mold plate unit using the clamp unit; solidifying the polymer; and removing the solidified polymer, thereby providing the hybrid bio actuator made of a biomaterial compatible with the human body and capable of operating without a separate battery or external energy source.
    • 提供了一种使用三维微型成型对准装置的混合生物致动器及其制造方法。 该制造方法具有以下步骤:使用微型成型对准装置三维地形成具有聚合物的致动器主体; 并将肌肉细胞移植并培养到致动器主体上。 形成致动器主体的步骤包括:准备对应于致动器的外轮廓的上半模和下半模; 在模板单元上安装相互相对的上半模和下半模,并将一组聚合物放在下半模的上方; 使用对准器单元将下半模与上半模对准; 使用夹具单元按压模板单元; 固化聚合物; 并除去固化的聚合物,从而提供由与人体相容的生物材料制成的并且能够在没有单独的电池或外部能源的情况下操作的混合生物致动器。