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
    • 6. 发明授权
    • Implant wear debris detection apparatus and method
    • 植入物磨损检测装置及方法
    • US06413215B1
    • 2002-07-02
    • US09660639
    • 2000-09-13
    • Junru WuEric M. WeissmanElmer D. Dickens, Jr.
    • Junru WuEric M. WeissmanElmer D. Dickens, Jr.
    • A61B800
    • A61B8/08
    • A system for detecting wear debris particulate from a medical implant within the body of a living animal is provided. The system includes an acoustic transmitter for transmitting acoustic energy from outside the body to a soft tissue region proximate the medical implant containing wear debris particles; an acoustic receiver located outside the body to detect resultant acoustic energy generated by the wear debris particles and produce a received signal indicative thereof; a processor for processing the received signal to evaluate at least one parameter associated with the wear debris particles; and an output for indicating the at least one parameter.
    • 提供了一种用于从动物体内的医疗植入物检测磨损颗粒的系统。 该系统包括用于将声能从身体外部传递到靠近包含磨损颗粒的医疗植入物的软组织区域的声发射器; 位于身体外部的声学接收器,用于检测由磨损碎片颗粒产生的合成声能并产生指示其的接收信号; 用于处理所接收的信号以评估与所述磨损碎片颗粒相关联的至少一个参数的处理器; 以及用于指示所述至少一个参数的输出。
    • 10. 发明授权
    • Magnetized material having enhanced magnetic pull strength and process
and apparatus for the multipolor magnetization of the material
    • 具有增强的磁力强度的磁化材料以及用于材料的多色磁化的工艺和装置
    • US5428332A
    • 1995-06-27
    • US249668
    • 1994-05-26
    • Raymond C. SrailRichard A. GloverThomas R. SzczepanskiEric M. WeissmanFrederic W. Kunig
    • Raymond C. SrailRichard A. GloverThomas R. SzczepanskiEric M. WeissmanFrederic W. Kunig
    • H01F1/113H01F7/02H01F13/00H01F41/02H01F7/20H01H47/00
    • H01F7/0215H01F13/003Y10S264/58
    • A process and apparatus for permitting the magnetization of flexible hard magnetic materials in the form of sheets or strips, such as magnetic rubber, wherein opposing arrays formed from alternating magnetic disks and flux conducting elements are use in sets of two with opposing polar moments such as to induce a magnetic flux in the gap between the discs. The width of the magnetic disk and flux conducting elements, respectively, are selected to optimize the magnetic pull strength of the material. At the array ends are flux conducting elements that are about 1/2 (i.e., from about 0.25 to about 0.75, and preferably from about 0.4 to 0.6) of the width of the internal flux conducting elements. A material to be magnetized is passed between the array sets in contrast with both disks and consequently imprinted with magnetic poles. The magnetized properties of the material is enhanced by passing the material through a second set of arrays which are axially offset with respect to the first set of arrays. This enhances the residual induction of the sample, the shape of the Br.sup.2 versus distance curve, and significantly improves the pull strength of the material. A device is provided for the production of the material, and further can be used without modification to imprint nontraversing magnetization by biasing the material to one of the arrays of the second, i.e. exiting, set of arrays.
    • 用于允许以片或条形式(例如磁性橡胶)形式的柔性硬磁材料的磁化的方法和装置,其中由交替的磁盘和磁通传导元件形成的相对阵列以两个相反的极性力矩组合使用,例如 以在盘之间的间隙中引起磁通量。 分别选择磁盘和磁通传导元件的宽度以优化材料的磁拉力。 在阵列端部是通量传导元件,其为内部通量传导元件的宽度的约1/2(即约0.25至约0.75,优选约0.4至0.6)。 与两个磁盘相比,要被磁化的材料在阵列组之间通过,并因此被磁极印制。 通过使材料通过相对于第一组阵列轴向偏移的第二组阵列来增强材料的磁化特性。 这增强了样品的残留感应,Br2对距离曲线的形状,并显着提高了材料的拉伸强度。 提供了一种用于生产材料的装置,并且还可以在不改变的情况下使用来通过将材料偏压到第二阵列,即退出的阵列组中的一个而不影响非运动磁化。