公开(公告)号：US07498172B2

公开(公告)日：2009-03-03

申请号：US12000957

申请日：2007-12-19

申请人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

发明人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

IPC分类号： B29C43/36

CPC分类号： B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

摘要： 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.

摘要翻译： 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。

公开(公告)号：US20080099947A1

公开(公告)日：2008-05-01

申请号：US12000957

申请日：2007-12-19

申请人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

发明人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

IPC分类号： B27N3/12

CPC分类号： B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

摘要： 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.

摘要翻译： 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。

公开(公告)号：US20070141647A1

公开(公告)日：2007-06-21

申请号：US11512356

申请日：2006-08-30

申请人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

发明人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

IPC分类号： G01N33/567 ,  B28B3/00

CPC分类号： B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

摘要： 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.

摘要翻译： 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。

公开(公告)号：US07011970B2

公开(公告)日：2006-03-14

申请号：US10400290

申请日：2003-03-25

申请人： Byung-Kyu Kim ,  Jung-Yul Park ,  Deok-Ho Kim ,  Jong-Oh Park

发明人： Byung-Kyu Kim ,  Jung-Yul Park ,  Deok-Ho Kim ,  Jong-Oh Park

IPC分类号： A01N1/00

CPC分类号： C12M47/04

摘要： This new automatic bio-manipulation factory system for manipulating a single cell comprises: a bio-MEMS that transports, separates, and extracts a single cell for manipulation from a plurality of cells, controls the rotation-orientation of the extracted cell automatically, and enables the extracted cell to maintain a certain temperature; and a micro manipulation system that obtains vision information and manipulation information about the extracted single cell and the manipulation tool, provides such information to operator, manipulates the extracted single cell by transmitting the rotation-orientation feedback information and the cell manipulation order of the operator to the bio-MEMS, and manipulates the manipulation tool by transmitting the tool manipulation order of the operator to the manipulation tool. The conventional manual and individualized single cell manipulation can be automated and processed collectively by systematically combining the bio-MEMS with the micro manipulation system.

摘要翻译： 这种用于操纵单个电池的新的自动生物处理工厂系统包括：从多个电池传输，分离和提取单个电池进行操作的生物MEMS，自动控制所提取的电池的旋转取向，并且使能 提取的细胞保持一定的温度; 以及微操作系统，其获取关于所提取的单个单元和操纵工具的视觉信息和操作信息，向操作者提供这样的信息，通过将操作者的旋转取向反馈信息和单元操作顺序发送到操作者来操纵提取的单个单元 生物MEMS，并通过将操作者的工具操作顺序传送到操作工具来操纵操纵工具。 传统的手动和个性化单细胞操作可以通过将生物MEMS与微操作系统系统地组合而被集体地自动化和处理。

公开(公告)号：US5889849A

公开(公告)日：1999-03-30

申请号：US769086

申请日：1996-12-18

申请人： Dong-Soo Ban ,  Jung-Yul Park ,  Dong-Hyun Lee ,  Rha Soh

发明人： Dong-Soo Ban ,  Jung-Yul Park ,  Dong-Hyun Lee ,  Rha Soh

IPC分类号： H04W76/04 ,  H04W92/02 ,  H04W92/24 ,  H04M7/00

CPC分类号： H04W76/04 ,  H04W92/02 ,  H04W92/24

摘要： An improved common-channel message conversion method for a communication network interface between exchange systems which is capable of directly interfacing a DCN network and AMPS network by converting different message formats of a common-channel signalling method of a DCN network and AMPS network in one exchange system and coinciding different parameter values and operation between hierarchical structures.

摘要翻译： 一种用于交换系统之间的通信网络接口的改进的公共信道消息转换方法，其能够通过在一个交换机中转换DCN网络和AMPS网络的公共信道信令方法的不同消息格式来直接连接DCN网络和AMPS网络 系统并重合不同的参数值和层次结构之间的操作。

公开(公告)号：US20110184388A1

公开(公告)日：2011-07-28

申请号：US13058656

申请日：2008-12-30

申请人： Suk Ho Park ,  Jong Oh Park ,  Jung Joon Min ,  Yeong Jin Hong ,  Dong Il Cho ,  Jong Mo Seo ,  Jennifer Hyunjong Shin ,  Heung Soo Shin ,  Jung Yul Park

发明人： Suk Ho Park ,  Jong Oh Park ,  Jung Joon Min ,  Yeong Jin Hong ,  Dong Il Cho ,  Jong Mo Seo ,  Jennifer Hyunjong Shin ,  Heung Soo Shin ,  Jung Yul Park

IPC分类号： A61M37/00

CPC分类号： A61B5/073 ,  A61M5/14276 ,  A61M31/002

摘要： Provided are a bacterium-based microrobot for medical treatment, an operation method thereof, and a treatment method using the same. The bacterium-based microrobot can be propelled by the flagellum movement of bacteria, can be directed toward a target lesion by the ability of bacteria to recognize the lesion, can be monitored for how many the microrobot targets the lesion, and can directly or indirectly treat the lesion by the proliferation of bacteria through self-division in the lesion. The bacteria may be genetically manipulated to be resistant to immune responses and produce a material inhibitory of the growth of affected cells.

摘要翻译： 本发明提供一种用于医疗的细菌微型机器人，其操作方法以及使用其的处理方法。 基于细菌的微型机器人可以通过细菌的鞭毛运动来推动，可以通过细菌识别病变的能力来指向目标病变，可以监测微型靶区靶点的数量，并且可以直接或间接地治疗 病变由细菌的扩散通过自我分裂的病变。 细菌可以被遗传操作以抵抗免疫应答并产生抑制受影响细胞生长的物质。

公开(公告)号：US06785544B2

公开(公告)日：2004-08-31

申请号：US09846946

申请日：2001-05-01

申请人： Wan-Tae Kim ,  Jung-Yul Park ,  Dong-Soo Ban ,  Jung-Eun Choi ,  Keun-Chool Yoo

发明人： Wan-Tae Kim ,  Jung-Yul Park ,  Dong-Soo Ban ,  Jung-Eun Choi ,  Keun-Chool Yoo

IPC分类号： H04Q720

CPC分类号： H04W4/02 ,  H04M15/00 ,  H04M15/8033 ,  H04M15/8083 ,  H04M2215/0184 ,  H04M2215/32 ,  H04M2215/7435 ,  H04W8/04 ,  H04W84/14 ,  H04W92/24

摘要： A call processing method capable of home-zone additional service in a mobile communication system, in particular, which gives subscribers a discount in accounting without an additional equipment if the subscribers call within previously registered areas. According to the call processing method capable of home-zone additional service in the mobile communication service of the invention, the subscriber can be provided with the home-zone additional service with low cost, thereby enhancing customer satisfaction.

摘要翻译： 一种能够在移动通信系统中进行归属区附加服务的呼叫处理方法，特别是如果用户在以前注册的区域内呼叫，则给予用户无需附加设备的会计折扣。 根据本发明的移动通信业务中能够进行归属区附加业务的呼叫处理方法，能够为用户提供低成本的归属区附加业务，从而提高用户满意度。

公开(公告)号：US07435593B2

公开(公告)日：2008-10-14

申请号：US11512356

申请日：2006-08-30

申请人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

发明人： Suk-ho Park ,  Jin-seok Kim ,  Jung-yul Park ,  Duk-moon Rho ,  Byung-kyu Kim

IPC分类号： B29C43/36

CPC分类号： B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

摘要： 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.