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    • 3. 发明申请
    • DENTAL IMPLANT SYSTEM AND METHOD OF USE
    • 牙齿植入系统及其使用方法
    • US20160022385A1
    • 2016-01-28
    • US14810118
    • 2015-07-27
    • Kun Zhao
    • Kun Zhao
    • A61C8/00A61C13/00A61C9/00A61B6/14A61C13/30A61C13/08
    • A61C8/0031A61B6/14A61C8/0012A61C8/0016A61C8/0048A61C8/005A61C9/004A61C13/0004G16H20/40
    • A dental implant system including a prosthodontic base having first and second opposing surfaces, the first surface configured to conform to and abut an edentulous ridge of a patient, the second surface having a post extending outwardly therefrom, the prosthodontic base defining at least one hole for receiving an implant. The system further including a restoration having at least one artificial tooth, the restoration defining an opening to receive the post, the restoration being attachable to the post. The system further includes an implant having a head and a body, the body of the implant insertable through the hole in the prosthodontic base and into a bone of the patient for attaching the prosthodontic base to the edentulous ridge. The dental implant system providing for efficient, minimum invasive and permanent teeth replacement for the patient. A method of providing one or more teeth replacement for a patient is also disclosed.
    • 一种牙科植入物系统,其包括具有第一和第二相对表面的修复基底,所述第一表面被构造成符合并邻接患者的无牙齿脊,所述第二表面具有从其向外延伸的柱,所述修复基底限定至少一个孔, 接受植入物。 所述系统还包括具有至少一个人造牙齿的修复物,所述修复体限定用于接收所述柱的开口,所述修复物可附接到所述柱上。 所述系统还包括具有头部和身体的植入物,所述植入体可通过所述修复基底中的孔插入到所述患者的骨骼中,以将所述修复基底附接到所述无牙齿脊。 牙科植入系统为患者提供有效,最小侵入性和永久性牙齿更换。 还公开了为患者提供一个或多个牙齿置换的方法。
    • 6. 发明授权
    • Device and method for detecting orientation of radioactive material
    • 用于检测放射性物质取向的装置和方法
    • US08247776B2
    • 2012-08-21
    • US12341219
    • 2008-12-22
    • Hua PengKun ZhaoYu HeMing Ruan
    • Hua PengKun ZhaoYu HeMing Ruan
    • G01T1/169
    • G01T7/00G01T3/00
    • Disclosed is a device for detecting orientation of a radioactive material to determine presence and position of the radioactive material, comprising: at least one first radiation detector; at least one second radiation detector, each of said at least one second radiation detector and each of said at least one first radiation detector being arranged side by side and in pairs, detection surfaces of said first and second radiation detector being in the same plane to receive radiation from the same direction in the same manner and to generate a first detection signal and a second detection signal, respectively; a shielding plate, said shielding plate being arranged between said first radiation detector and said second radiation detector arranged in a pair and extending forward beyond said detection surfaces; and a determination device for receiving the first and second detection signals from said first and second radiation detector, and determining whether a radioactive material exists or not according to said first and second detection signals and simultaneously determining the orientation of the radioactive material according to the difference between said first detection signal and said second detection signal. Also disclosed is a method for detecting orientation of a radioactive material.
    • 公开了一种用于检测放射性材料的取向以确定放射性材料的存在和位置的装置,包括:至少一个第一辐射检测器; 至少一个第二辐射检测器,所述至少一个第二辐射检测器中的每一个和所述至少一个第一辐射检测器中的每一个并排并成对地布置,所述第一和第二辐射检测器的检测表面位于同一平面内 以相同的方式从同一方向接收辐射并分别产生第一检测信号和第二检测信号; 屏蔽板,所述屏蔽板布置在所述第一辐射检测器和所述第二辐射检测器之间,所述第一辐射检测器布置成一对并向前延伸超​​过所述检测表面; 以及确定装置,用于从所述第一和第二辐射检测器接收第一和第二检测信号,并且根据所述第一和第二检测信号确定放射性物质是否存在,并且根据差异同时确定放射性物质的取向 在所述第一检测信号和所述第二检测信号之间。 还公开了一种用于检测放射性物质的取向的方法。
    • 7. 发明申请
    • YELLOW LIGHT AFTERGLOW MATERIAL AND PREPARATION METHOD THEREOF AS WELL AS LED ILLUMINATING DEVICE USING SAME
    • 黄光后材料及其制备方法以及使用其的LED照明装置
    • US20120181566A1
    • 2012-07-19
    • US13497129
    • 2009-11-09
    • Hongjie ZhangMing ZhangChengyu LiKun ZhaoHao Zhang
    • Hongjie ZhangMing ZhangChengyu LiKun ZhaoHao Zhang
    • H01L33/50C09K11/81
    • C09K11/7774H01L25/0753H01L33/502
    • The invention relates to a yellow light afterglow material and a preparation method thereof as well as an LED illuminating device using the same. The yellow light afterglow material comprises the chemical formula of aY2O3.bAl2O3.cSiO2:mCe.nB.xNa.yP, where a, b, c, m, n, x and y are coefficients, and a is not less than 1 but not more than 2, b is not less than 2 but not more than 3, c is not less than 0.001 but not more than 1, m is not less than 0.0001 but not more than 0.6, n is not less than 0.0001 but not more than 0.5, x is not less than 0.0001 but not more than 0.2, and y is not less than 0.0001 but not more than 0.5; wherein Y, Al and Si are substrate elements, and Ce, B, Na and P are activators. The yellow light afterglow material is prepared by the following steps: weighing oxides of elements or materials which can generate oxides at high temperature by molar ratio as raw materials, evenly mixing and then sintering the raw materials at 1200-1700° in a reducing atmosphere.
    • 本发明涉及一种黄光余辉材料及其制备方法以及使用其的LED照明装置。 黄光余辉材料包括aY2O3.bAl2O3.cSiO2:mCe.nB.xNa.yP的化学式:其中a,b,c,m,n,x和y是系数,a不小于1但不是 大于2,b不小于2,但不大于3,c不小于0.001,但不大于1,m不小于0.0001,但不大于0.6,n不小于0.0001,但不大于 0.5,x不小于0.0001但不大于0.2,y不小于0.0001但不大于0.5; 其中Y,Al和Si是底物,Ce,B,Na和P是活化剂。 黄光余辉材料通过以下步骤制备:将以高摩尔比生成氧化物的元素或材料的氧化物称重为原料,均匀混合,然后在还原气氛中在1200-1700℃下烧结原料。
    • 8. 发明授权
    • Multichannel analyzer and method for real-time correction of peak shift
    • 用于实时校正峰值偏移的多通道分析仪和方法
    • US07825371B2
    • 2010-11-02
    • US12342592
    • 2008-12-23
    • Ming RuanYingrong JianKun ZhaoYali XieJin Lin
    • Ming RuanYingrong JianKun ZhaoYali XieJin Lin
    • G01D18/00
    • G01T1/362G01T1/40
    • The invention provides a multichannel analyzer for use in a multichannel spectrometer, which comprises a standard spectrum calibrator for obtaining energy calibration parameters of said multichannel spectrometer; an environment background spectrum calibrator for obtaining parameters of a current and a previous environment background spectrum; a peak shift detector for analyzing the parameters of the current and previous environment background spectrum to determine whether a peak shift occurs between them and to determine a correction coefficient of the peak shift; and a parameter corrector for correcting the energy calibration parameters of said multichannel spectrometer using said peak shift correction coefficient. The invention also provides a method for correcting a peak shift of a multichannel spectrometer adapted in the multichannel analyzer. The method for correcting and the multichannel analyzer can correct and monitor the peak shift of the multichannel spectrometer in real time.
    • 本发明提供一种用于多通道光谱仪的多通道分析仪,其包括用于获得所述多通道光谱仪的能量校准参数的标准光谱校准器; 环境背景光谱校准器,用于获得当前和先前环境背景光谱的参数; 峰值移位检测器,用于分析当前和以前的环境背景谱的参数,以确定它们之间是否发生峰值偏移,并确定峰值偏移的校正系数; 以及参数校正器,用于使用所述峰值偏移校正系数校正所述多通道光谱仪的能量校准参数。 本发明还提供了一种用于校正适用于多通道分析仪的多通道光谱仪的峰值偏移的方法。 校正方法和多通道分析仪可以实时校正和监测多通道光谱仪的峰值偏移。
    • 10. 发明授权
    • Yellow light afterglow material and preparation method thereof as well as LED illuminating device using same
    • 黄光余辉材料及其制备方法以及使用其的LED照明装置
    • US09045689B2
    • 2015-06-02
    • US13497129
    • 2009-11-09
    • Hongjie ZhangMing ZhangChengyu LiKun ZhaoHao Zhang
    • Hongjie ZhangMing ZhangChengyu LiKun ZhaoHao Zhang
    • C09K11/80H01L33/00C09K11/77H01L33/50
    • C09K11/7774H01L25/0753H01L33/502
    • The invention relates to a yellow light afterglow material and a preparation method thereof as well as an LED illuminating device using the same. The yellow light afterglow material comprises the chemical formula of aY2O3.bAl2O3.cSiO2:mCe.nB.xNa.yP, where a, b, c, m, n, x and y are coefficients, and a is not less than 1 but not more than 2, b is not less than 2 but not more than 3, c is not less than 0.001 but not more than 1, m is not less than 0.0001 but not more than 0.6, n is not less than 0.0001 but not more than 0.5, x is not less than 0.0001 but not more than 0.2, and y is not less than 0.0001 but not more than 0.5; wherein Y, Al and Si are substrate elements, and Ce, B, Na and P are activators. The yellow light afterglow material is prepared by the following steps: weighing oxides of elements or materials which can generate oxides at high temperature by molar ratio as raw materials, evenly mixing and then sintering the raw materials at 1200-1700° in a reducing atmosphere.
    • 本发明涉及一种黄光余辉材料及其制备方法以及使用其的LED照明装置。 黄光余辉材料包括aY2O3.bAl2O3.cSiO2:mCe.nB.xNa.yP的化学式:其中a,b,c,m,n,x和y是系数,a不小于1但不是 大于2,b不小于2,但不大于3,c不小于0.001,但不大于1,m不小于0.0001,但不大于0.6,n不小于0.0001,但不大于 0.5,x不小于0.0001但不大于0.2,y不小于0.0001但不大于0.5; 其中Y,Al和Si是底物,Ce,B,Na和P是活化剂。 黄光余辉材料通过以下步骤制备:将以高摩尔比生成氧化物的元素或材料的氧化物称重为原料,均匀混合,然后在还原气氛中在1200-1700℃下烧结原料。