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    • 4. 发明申请
    • Medication Compliance Capping System, Assembly, and Method
    • 药物合规封盖系统,装配和方法
    • US20160253477A1
    • 2016-09-01
    • US14633270
    • 2015-02-27
    • Tao XuXiaojun ZhangLinzhi Fang
    • Tao XuXiaojun ZhangLinzhi Fang
    • G06F19/00G08B21/02
    • G06F19/3462A61J1/1412A61J7/0076A61J7/04A61J7/0481A61J2200/30G06F19/00
    • A medication compliance cap system, cap assembly, and associated methodology enhance compliance of a user's prescribed or scheduled medication regimen. Central to these specifications is a “smart” or intelligent medication cap assembly that basically functions to communicate wirelessly with a remote medication compliance application or software executable via a personal computing device. A power source and signal-generating circuitry are housed within an inner cap housing and an outer cap housing, which circuitry is selectively switched on and/or off via engagement with an upper container rim of a medication container. The medication compliance application schedules medication-taking events and alerts the user when a medication-taking event is due. The user may stop the alert by removing the medication cap assembly from a medication container, at which time an alert cessation signal is transmitted to the medication compliance application.
    • 药物依从性帽系统,帽组件和相关方法增强了用户规定或预定的药物治疗方案的依从性。 这些规范的核心是“智能”或智能药帽组件,其基本功能是与远程药物合规性应用程序或可通过个人计算设备执行的软件进行无线通信。 电源和信号发生电路被容纳在内盖壳体和外盖外壳内,该电路通过与药物容器的上部容器边缘的接合来选择性地打开和/或关闭。 药物合规性应用程序安排服药事件,并在用药事件到期时提醒用户。 用户可以通过从药物容器中去除药物盖组件来停止警报,此时警戒停止信号被传送到药物依从性应用。
    • 5. 发明申请
    • Wall-Mountable, Hands-Free, Back-Scrubbing Apparatus
    • 壁挂式,免提,背部擦洗装置
    • US20150135425A1
    • 2015-05-21
    • US14083526
    • 2013-11-19
    • Tao XuXiaojun ZhangHui Wang
    • Tao XuXiaojun ZhangHui Wang
    • A47K7/02
    • A47K7/024A47K7/03
    • A wall-mountable apparatus enables a user to scrub the user's back hands-free. The apparatus includes two primary features, namely, a slider plate and a back-engaging assembly. The slider plate includes laterally opposed plate-to-assembly engaging structures. The back-engaging assembly includes a plate-engaging interface structure, a bezel structure and a liquid material delivery assembly. The plate-engaging interface structure includes laterally-opposed plate-engaging structures. The laterally-opposed plate-engaging structures cooperate with the plate-to-assembly engaging structures for attaching the back-engaging assembly to the slider plate. The bezel structure includes a hemi-ovoidal outer surface, and an assembly-receiving inner surface. The liquid delivery apparatus is received adjacent the assembly-receiving surface and includes a liquid receptacle and liquid delivery elements. The delivery elements are in communication with the bezel structure for outletting liquid from the liquid receptacle to the outer surface. The back-engaging assembly is vertically adjustable relative to the wall-mountable slider plate.
    • 壁挂式装置使用户能够免去使用者的背部擦伤。 该装置包括两个主要特征,即滑动板和后接合组件。 滑动板包括横向相对的板对组件接合结构。 后接合组件包括板接合界面结构,边框结构和液体材料输送组件。 板接合界面结构包括横向相对的板接合结构。 横向相对的板接合结构与板 - 组件接合结构配合,用于将后接合组件附接到滑板。 边框结构包括半椭圆形外表面和组件接收内表面。 液体输送装置被接收在组件接收表面附近并且包括液体容器和液体输送元件。 输送元件与用于将液体从液体容器输出到外表面的边框结构连通。 背部接合组件相对于壁挂式滑块可垂直调节。
    • 6. 发明申请
    • Mtj three-axis magnetic field sensor and encapsulation method thereof
    • Mtj三轴磁场传感器及其封装方法
    • US20140225605A1
    • 2014-08-14
    • US14239859
    • 2012-08-27
    • Xiaofeng LeiXiaojun ZhangWei LiSongsheng Xue
    • Xiaofeng LeiXiaojun ZhangWei LiSongsheng Xue
    • G01R33/09G01R3/00
    • G01R33/098G01R3/00G01R33/0206G01R33/093Y10T29/49002
    • The present invention discloses a MTJ triaxial magnetic field sensor, comprising an X-axis bridge sensor that has a sensing direction along an X-axis, a Y-axis bridge sensor that has a sensing direction along a Y-axis, a Z-axis sensor that has a sensing direction along a Z-axis, and an ASIC chip connected with and matched to the X-axis, Y-axis, and Z-axis sensor chips. The Z-axis sensor includes a substrate and MTJ magnetoresistive elements deposited on the substrate. The Z axis magnetic field sensor is attached to the ASIC chip along an attachment edge, and an angle is formed between the sensor side of the Z axis magnetic field sensor and the adjacent attachment edge. The attachment edge angle is an acute angle or an obtuse angle. The resulting X, Y, and Z axes are mutually orthogonal. The above design provides a highly integrated sensor with high sensitivity, low power consumption, good linearity, wide dynamic range, excellent thermal stability, and low noise.
    • 本发明公开了一种MTJ三轴磁场传感器,其特征在于,包括具有沿X轴方向的X轴桥式传感器,具有Y轴感测方向的Y轴桥式传感器,Z轴 传感器,其具有沿Z轴的感测方向,以及与X轴,Y轴和Z轴传感器芯片连接并匹配的ASIC芯片。 Z轴传感器包括沉积在衬底上的衬底和MTJ磁阻元件。 Z轴磁场传感器沿着附接边缘附接到ASIC芯片,并且在Z轴磁场传感器的传感器侧和相邻的附接边缘之间形成一角度。 附着边角是锐角或钝角。 所得到的X,Y和Z轴是相互正交的。 上述设计提供了高灵敏度,低功耗,线性度好,动态范围广,热稳定性好,噪音低的高度集成的传感器。
    • 7. 发明授权
    • Triploid breeding methods for different shrimp species
    • 不同虾种的三倍体育种方法
    • US07552698B2
    • 2009-06-30
    • US11665805
    • 2004-11-29
    • Jianhai XiangFuhua LiLinghua ZhouXiaojun Zhang
    • Jianhai XiangFuhua LiLinghua ZhouXiaojun Zhang
    • A01K61/00
    • A01K61/59Y02A40/824
    • This invention is about triploid breeding method for different shrimp species especially to the triploid production both in cold-warm water shrimp and tropical species, including the induction of MI triploid shrimp, the triploid induction methods for different shrimp and the development and utilization of revulsants for triploid shrimp. The triploid of cold-water shrimps were obtained by collecting the fertilized eggs and heat shock treatment; while the triploid induction of tropical shrimps were obtained with collection of the fertilized eggs, treatment of the revulsants or cold shock. The advantages of the invention are as follows: it has determined the optimal-inducing processes and methods for different species of shrimps, and led to the inducing rate increased distinctly; It also has determined the optimal-inducing methods for MI triploid shrimp, and led to the inducing rate increased distinctly without the destroy of eggs; The revulsants which led to high inducing efficiency in this invention are nontoxic, so the operation security and the safety to environment are improved.
    • 本发明涉及不同虾类的三倍体育种方法,特别是冷热水虾和热带物种的三倍体生产,包括MI三倍体虾的诱导,不同虾的三倍体诱导方法,以及开发利用雷诺 三倍体虾。 通过收集受精卵和热休克处理获得冷水虾三倍体; 而通过收集受精卵,治疗感冒者或冷休克获得三倍体诱导的热带虾。 本发明的优点如下:确定不同品种虾的最佳诱导过程和方法,导致诱导率明显增加; 也确定了MI三倍体虾的最佳诱导方法,导致诱导率明显提高而不破坏鸡蛋; 在本发明中导致高诱导效率的反应物是无毒的,因此提高了操作安全性和对环境的安全性。
    • 8. 发明申请
    • Triploid Breeding Methods For Different Shrimp Species
    • 不同虾种的三倍体育种方法
    • US20080115734A1
    • 2008-05-22
    • US11665805
    • 2004-11-29
    • Jianhai XiangFuhua LiLinghua ZhouXiaojun Zhang
    • Jianhai XiangFuhua LiLinghua ZhouXiaojun Zhang
    • A01K61/00
    • A01K61/59Y02A40/824
    • This invention is about triploid breeding method for different shrimp species especially to the triploid production both in cold-warm water shrimp and tropical species, including the induction of MI triploid shrimp, the triploid induction methods for different shrimp and the development and utilization of revulsants for triploid shrimp. The triploid of cold-water shrimps were obtained by collecting the fertilized eggs and heat shock treatment; while the triploid induction of tropical shrimps were obtained with collection of the fertilized eggs, treatment of the revulsants or cold shock. The advantages of the invention are as follows: it has determined the optimal-inducing processes and methods for different species of shrimps, and led to the inducing rate increased distinctly; It also has determined the optimal-inducing methods for MI triploid shrimp, and led to the inducing rate increased distinctly without the destroy of eggs; The revulsants which led to high inducing efficiency in this invention are nontoxic, so the operation security and the safety to environment are improved.
    • 本发明涉及不同虾类的三倍体育种方法,特别是冷热水虾和热带物种的三倍体生产,包括MI三倍体虾的诱导,不同虾的三倍体诱导方法,以及开发利用雷诺 三倍体虾。 通过收集受精卵和热休克处理获得冷水虾三倍体; 而通过收集受精卵,治疗感冒者或冷休克获得三倍体诱导的热带虾。 本发明的优点如下:确定了不同品种虾的最佳诱导过程和方法,导致诱导率明显增加; 也确定了MI三倍体虾的最佳诱导方法,导致诱导率明显提高而不破坏鸡蛋; 在本发明中导致高诱导效率的反应物是无毒的,因此提高了操作安全性和对环境的安全性。