会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 105. 发明申请
    • BLOOD CORPUSCLE SEPARATION CHIP
    • 血液股份分离芯片
    • US20120329148A1
    • 2012-12-27
    • US13578940
    • 2011-03-10
    • Daesung HurJong Hyun OhJae Jeong KimEun Hee ParkJi Young Park
    • Daesung HurJong Hyun OhJae Jeong KimEun Hee ParkJi Young Park
    • C12M1/26
    • B01L3/502753B01D63/088B01D2313/025B01D2313/08B01L3/502715B01L2200/025B01L2200/027B01L2200/141B01L2300/0816B01L2300/0864B01L2300/0887B01L2300/161B01L2400/0406
    • A corpuscle separation chip is presented, which is capable of separating plasma from blood using capillary forces without causing leakage of the blood in undesired directions. The corpuscle separation chip may include an upper board for securing a membrane such that one or more edges maintain non-contact, where a portion of a channel is formed in the upper board to provide a path causing plasma components separated by the membrane from blood to move in one direction; and a lower board in which another portion of the channel is formed, where the lower board is configured to join with the upper board to form the channel, and the lower board is configured to cause the plasma components to move along the channel due to capillary forces at a position corresponding to one side of a lower surface of the membrane. By using such corpuscle separation chip, each of the edges of the membrane can maintain as much non-contact as possible with the structure formed by an upper board and a lower board attached to each other, to prevent leakage of the loaded blood in undesired directions.
    • 提出了一种微粒分离芯片,其能够使用毛细管力将血浆从血液分离,而不会导致血液在不期望的方向上泄漏。 微粒分离芯片可以包括用于固定膜的上板,使得一个或多个边缘保持非接触,其中在上板中形成通道的一部分以提供使由膜隔离的血液成分从血液分离的路径 向一个方向移动 以及下板,其中所述通道的另一部分形成,其中所述下板被配置为与所述上板接合以形成所述通道,并且所述下板被配置为使得所述等离子体部件由于毛细管而沿着所述通道移动 在与膜的下表面的一侧对应的位置处的力。 通过使用这样的微粒分离芯片,膜的每个边缘可以保持尽可能多的非接触,由彼此附接的上板和下板形成的结构,以防止加载的血液在不期望的方向上泄漏 。
    • 106. 发明申请
    • DEMAND RESPONSE SYSTEM AND METHOD USING A SMART PORTAL
    • 需求响应系统和使用智能门户的方法
    • US20120259749A1
    • 2012-10-11
    • US13524936
    • 2012-06-15
    • Kyoung Min PARKJi Young PARKWoo Young PARKTae Hun KIM
    • Kyoung Min PARKJi Young PARKWoo Young PARKTae Hun KIM
    • G06Q30/04
    • G06Q30/02Y04S50/14
    • The demand response system comprises an automatic meter reading (AMR) unit to generate metering information. The demand response system comprises a multiple utility complex unit (MUC) which provides DR information based on the metering information and manages utility supply schedule in combination. The demand response system comprises an eco index (EI) calculation unit which calculates an eco index based on the metering information. The demand response system comprises a demand response (DR) unit which obtains the CBL information based on the metering information and computes a the DR bill by using the CBL data, the DR information and EI obtained, and outputs the DR bill. The demand response system comprises a smart portal (SP) unit which provides users with the calculated DR bill. According to the disclosure, the demand response system can provide environmental and social information, in addition to economic information.
    • 需求响应系统包括用于生成计量信息的自动抄表(AMR)单元。 需求响应系统包括多个公用事业复合单元(MUC),其基于计量信息提供DR信息并组合管理公用事业供应进度。 需求响应系统包括基于计量信息计算生态指数的生态指数(EI)计算单元。 需求响应系统包括基于计量信息获取CBL信息的需求响应(DR)单元,并且通过使用CBL数据,所获得的DR信息和EI来计算DR账单,并输出DR账单。 需求响应系统包括向用户提供计算的DR账单的智能门户(SP)单元。 根据披露,除经济信息外,需求响应系统还可以提供环境和社会信息。
    • 110. 发明申请
    • CHIP FOR ANALYZING FLUIDS BEING MOVED WITHOUT AN OUTSIDE POWER SOURCE
    • 用于分析流体的芯片在没有外部电源的情况下移动
    • US20110243795A1
    • 2011-10-06
    • US13079299
    • 2011-04-04
    • Ji-Young PARK
    • Ji-Young PARK
    • G01N33/48
    • B01L3/502746B01L2200/0636B01L2200/0684B01L2300/0809B01L2300/089B01L2400/0406B01L2400/086
    • A chip for analyzing fluid being moved without an outside power source is disclosed. A chip for analyzing fluid being moved without an outside power source according to the present invention comprises: a pre-treatment portion into which a target-being analyzed substance is injected and received; a channel portion through which the fluid received in the pre-treatment portion is moved and in which specific reaction of the fluid such as an antigen-antibody reaction is conducted; and a washing portion into which the fluid passing through the channel portion is received wherein the pre-treatment portion includes: a specimen injection portion into which the fluid is injected; a first buffer portion having a step difference with respect to the specimen injection portion for the fluid to be firstly received; and at least one specimen leading guide which is provided between the specimen injection portion and the first buffer portion and destroys surface tension of the fluid flow moving from the specimen injection portion to the first buffer portion side and thus stabilizes flow surface of the fluid. According to the present invention, a moving pattern of the fluid passing through a channel portion is formed evenly and thus bubble creation is decreased and reproducibility thereof is ensured and further a signal detection from a target-being analyzed substance is performed easily.
    • 公开了一种用于分析未经外部电源移动的流体的芯片。 根据本发明的用于分析未被外部动力源移动的流体的芯片包括:预处理部分,其中注入和接收目标分析物质; 在预处理部分中接收的流体被移动的通道部分,并且进行诸如抗原 - 抗体反应之类的流体的特异性反应; 以及洗涤部,所述流体通过所述流路部的流体被容纳在所述洗涤部中,所述预处理部包括:注入所述流体的试样注入部; 第一缓冲部,其相对于要首先接收的流体的样本注入部分具有阶差; 以及至少一个样本引导引导件,其设置在检体注入部和第一缓冲部之间,破坏从检体注入部向第一缓冲部侧移动的流体流的表面张力,由此稳定流体的流动面。 根据本发明,通过通道部分的流体的移动图形被均匀地形成,从而降低了气泡产生并且确保了其再现性,并且进一步容易地执行来自目标分析物质的信号检测。