公开(公告)号：US20060173265A1

公开(公告)日：2006-08-03

申请号：US10543231

申请日：2003-12-31

Applicant: Tae-Song Kim ,  Jong-Oh Park ,  Byung-Kyu Kim ,  Jin-Seok Kim ,  Han Cheung ,  Won-Woo Cho ,  Nan-Young Yoon ,  Young-Rok Kim

Inventor： Tae-Song Kim ,  Jong-Oh Park ,  Byung-Kyu Kim ,  Jin-Seok Kim ,  Han Cheung ,  Won-Woo Cho ,  Nan-Young Yoon ,  Young-Rok Kim

IPC: A61B5/05

CPC classification number: A61B1/041 ,  A61B5/06 ,  A61B5/063 ,  A61B5/073

Abstract: The present invention provides a method and apparatus for receiving data in a human body communication system. The receiving apparatus, which comprises plural receiving electrodes, selects the optimum pair of receiving electrodes when receiving data, so that it can improve quality of received information and obtain position information of a sensor in the human body.

Abstract translation: 本发明提供一种在人体通信系统中接收数据的方法和装置。 包括多个接收电极的接收装置在接收数据时选择最佳的接收电极对，从而可以提高接收到的信息的质量并获得人体内传感器的位置信息。

公开(公告)号：US06232696B1

公开(公告)日：2001-05-15

申请号：US09358813

申请日：1999-07-23

Applicant: Byung Kyu Kim ,  Joon Kim

Inventor： Byung Kyu Kim ,  Joon Kim

IPC: H02K1600

CPC classification number: F04D25/0653 ,  F04D25/166 ,  F04D29/441 ,  H02K7/14 ,  H02K21/24

Abstract: A vacuum generating apparatus for a vacuum cleaner is provided, in which an axial type coreless brushless direct-current (DC) motor is implemented in the form of a rotor-impeller integration structure. The vacuum generating apparatus includes an axial type brushless DC motor in which disc-shaped upper and lower rotors are symmetrically disposed facing the upper and lower portions of a disc-shaped stator at either end of a rotating shaft rotatably supported in the inner circumferential portion of the stator, upper and lower impellers integrally fixed in the upper and lower rotors, respectively, and upper and lower housings whose outer circumferential portions are combined with the outer circumferential portions of the respective disc-shaped stator such that air sucked via sucking inlets formed at the center of the housings is guided to a discharging outlet together with the stator. A single rotor structure can also be adopted.

Abstract translation: 提供一种用于真空吸尘器的真空发生装置，其中轴向型无芯无刷直流（DC）电动机以转子 - 叶轮一体化结构的形式实现。 真空发生装置包括轴向型无刷直流电动机，其中盘形的上下转子对称地设置在与可旋转地支撑在旋转轴的内周部分的旋转轴的任一端面对的盘形定子的上部和下部 分别一体地固定在上下转子中的定子，上下叶轮和外周部与各圆盘状定子的外周部组合的上下壳体，使得通过吸入口吸入的空气形成在 壳体的中心与定子一起被引导到排出口。 也可采用单转子结构。

公开(公告)号：US20100116665A1

公开(公告)日：2010-05-13

申请号：US12614541

申请日：2009-11-09

Applicant: Byung Kyu KIM ,  Young Ho KIM

Inventor： Byung Kyu KIM ,  Young Ho KIM

IPC: B01D57/02

CPC classification number: B03C5/026 ,  B03C5/022

Abstract: The high throughput particle separation system includes an aqueous solution container for storing an aqueous solution containing specific particles to be separated, an electrode array, having a plurality of electrodes arranged at regular intervals or at various different intervals in series or in parallel, for deflecting specific particles simultaneously in a nonuniform electric field according to sizes and dielectric properties of the particles to separate a large quantity of the particles at high throughput, a path separation unit for establishing movement paths of the particles separated by the electrode array, and a control unit for applying the same voltage and frequency or different voltages and frequencies to the electrodes of the electrode array based on sizes and dielectric properties of specific particles to be separated.

Abstract translation: 高通量粒子分离系统包括用于储存含有待分离的特定颗粒的水溶液的水溶液容器，电极阵列，具有以规则的间隔排列或以不同的间隔串联或并联排列的多个电极，用于偏转特定的 根据颗粒的尺寸和介电性质同时在不均匀的电场中分离颗粒，以高产量分离大量的颗粒;路径分离单元，用于建立由电极阵列分离的颗粒的运动路径;以及控制单元， 基于要分离的特定颗粒的尺寸和介电性质，将相同的电压和频率或不同的电压和频率施加到电极阵列的电极。

公开(公告)号：US07501096B2

公开(公告)日：2009-03-10

申请号：US10805871

申请日：2004-03-22

Applicant: Byung-Kyu Kim ,  Young-Ho Kim ,  Deok-Ho Kim ,  Jong-Oh Park

Inventor： Byung-Kyu Kim ,  Young-Ho Kim ,  Deok-Ho Kim ,  Jong-Oh Park

IPC: B01L3/02

CPC classification number: C12M33/04 ,  B01L3/021

Abstract: The present invention relates to a smart pipette for bio-cell manipulation which can freely change orientation of a bio-cell subject to the manipulation by using mechanical friction and applying instantaneous impact when penetrating the subject bio-cell while receiving real-time feedback of force/torque information of the bio-cell. Further, the present invention relates to a bio-cell manipulation method and system using a smart pipette, through which a bio-cell may be manipulated upon the application of the force/torque information generated during the cell manipulation to the smart pipette control. According to the present invention, injection position can be recognized precisely and conveniently regardless of the proficiency of the manipulating person. Thus, the bio-cell manipulation may be automated. Further, the smart pipette quantifies force/torque information feed-backed through the sensor unit and compares it with data acquired in advance through experiments on the same bio-cell. Further, through conducting impact driving when necessary, the present invention makes it possible to conduct bio-cell manipulation with minimum physical damage.

Abstract translation: 本发明涉及用于生物细胞操作的智能移液器，其可以通过使用机械摩擦自由地改变受到操纵的生物体的取向，并且在接受实时反馈的力时穿透受试者生物细胞时施加瞬时冲击 /生物细胞的扭矩信息。 此外，本发明涉及使用智能移液器的生物细胞操作方法和系统，通过该智能移液管，可以在将细胞操作期间产生的力/扭矩信息应用于智能移液管控制时操纵生物体。 根据本发明，无论操纵者的熟练程度如何，都可以精确而方便地识别注射位置。 因此，生物细胞操作可以是自动化的。 此外，智能移液器量化通过传感器单元反馈的力/扭矩信息，并将其与通过在相同生物细胞上的实验预先获得的数据进行比较。 此外，通过在必要时进行冲击驱动，本发明能够以最小的物理损伤进行生物细胞操作。

公开(公告)号：US07498172B2

公开(公告)日：2009-03-03

申请号：US12000957

申请日：2007-12-19

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

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

IPC: B29C43/36

CPC classification number: B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

Abstract: 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.

Abstract translation: 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：US20090004982A1

公开(公告)日：2009-01-01

申请号：US12210073

申请日：2008-09-12

Applicant: Tae-Song KIM ,  Jong-Oh PARK ,  Byung-Kyu KIM ,  Jin-Seok KIM ,  Han- CHEUNG ,  Won-Woo CHO ,  Nan-Young YOON ,  Young-Roh KIM

Inventor： Tae-Song KIM ,  Jong-Oh PARK ,  Byung-Kyu KIM ,  Jin-Seok KIM ,  Han- CHEUNG ,  Won-Woo CHO ,  Nan-Young YOON ,  Young-Roh KIM

IPC: H04B1/06 ,  H04B1/034

CPC classification number: A61B5/0028 ,  A61B1/00016 ,  A61B1/00036 ,  A61B1/041 ,  A61B5/0031 ,  A61B5/073 ,  H04B13/005 ,  Y10S128/903

Abstract: A portable device for data communication using a body as a conductor to transmit data to a receiver, the portable device includes a data receiving unit to receive data, a controller unit to control processing of data to be transmitted, a current limiting circuit to limit a current of a signal corresponding to the data to be transmitted to a predetermined value, and transmitting electrodes connected to the current limiting circuit and to contact the body to transmit the signal having the current of predetermined value to the receiver.

Abstract translation: 一种用于使用身体作为导体将数据发送到接收器的数据通信的便携式设备，所述便携式设备包括用于接收数据的数据接收单元，控制要发送的数据的处理的控制器单元，限制一个 与要发送的数据相对应的信号的电流为预定值，以及连接到限流电路的发送电极，并接触主体以将具有预定值的电流的信号发送到接收器。

公开(公告)号：US07463918B2

公开(公告)日：2008-12-09

申请号：US10543231

申请日：2003-12-31

Applicant: Tae-Song Kim ,  Jong-Oh Park ,  Byung-Kyu Kim ,  Jin-Seok Kim ,  Han Cheung ,  Won-Woo Cho ,  Nan-Young Yoon ,  Young-Rok Kim

Inventor： Tae-Song Kim ,  Jong-Oh Park ,  Byung-Kyu Kim ,  Jin-Seok Kim ,  Han Cheung ,  Won-Woo Cho ,  Nan-Young Yoon ,  Young-Rok Kim

IPC: A61B5/05

CPC classification number: A61B1/041 ,  A61B5/06 ,  A61B5/063 ,  A61B5/073

Abstract: The present invention provides a method and apparatus for receiving data in a human body communication system. The receiving apparatus, which comprises plural receiving electrodes, selects the optimum pair of receiving electrodes when receiving data, so that it can improve quality of received information and obtain position information of a sensor in the human body.

Abstract translation: 本发明提供一种在人体通信系统中接收数据的方法和装置。 包括多个接收电极的接收装置在接收数据时选择最佳的接收电极对，从而可以提高接收到的信息的质量并获得人体内传感器的位置信息。

公开(公告)号：US20080099947A1

公开(公告)日：2008-05-01

申请号：US12000957

申请日：2007-12-19

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

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

IPC: B27N3/12

CPC classification number: B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

Abstract: 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.

Abstract translation: 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：US07365509B2

公开(公告)日：2008-04-29

申请号：US11431354

申请日：2006-05-10

Applicant: Suk-Ho Park ,  Byung-Kyu Kim ,  Hyun-Jun Park

Inventor： Suk-Ho Park ,  Byung-Kyu Kim ,  Hyun-Jun Park

IPC: A61B1/00

CPC classification number: A61B1/041 ,  A61B1/00156 ,  A61B5/073 ,  A61B34/72 ,  A61B2017/00345

Abstract: A capsule type micro-robot moving system moves on an organ's wall covered with mucilage at a high speed. The present invention provides a capsule type micro-robot moving system, which is structured such that a head is formed in a semi-spherical shape and the outer surface of the capsule is coated with an anti-adhesion coating agent for reducing friction against organs during the movement, particularly, is structured to move as long as a linear stroke corresponding to the distance between the driving part and the inner cylinder in the state that the limbs folded in and unfolded out of the capsule completely contact and stick to the walls of the organs, resulting in providing the reliability and moving more rapidly.

Abstract translation: 胶囊型微机器人移动系统以高速移动在被粘液覆盖的器官壁上。 本发明提供了一种胶囊型微机器人移动系统，其结构使得头部形成为半球形，并且胶囊的外表面涂覆有用于减少对器官的摩擦的抗粘附涂层剂 特别地，运动被构造为移动，只要对应于驱动部分和内部气缸之间的距离的线性行程在四肢折叠并从胶囊中展开出来的状态完全接触并粘附到壳体的壁上 器官，从而提供可靠性和移动更快。

公开(公告)号：US20070141647A1

公开(公告)日：2007-06-21

申请号：US11512356

申请日：2006-08-30

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

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

IPC: G01N33/567 ,  B28B3/00

CPC classification number: B29C43/36 ,  B29C33/303 ,  C12M35/04 ,  C12N5/0658

Abstract: 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.

Abstract translation: 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。