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    • 1. 发明授权
    • Optical fibre bend sensor
    • 光纤弯曲传感器
    • US06621956B2
    • 2003-09-16
    • US10053900
    • 2002-01-24
    • Alan H GreenawayJames G BurnettAndrew R HarveyPaul M BlanchardPeter A LloydRoy McBridePhilip St John Russell
    • Alan H GreenawayJames G BurnettAndrew R HarveyPaul M BlanchardPeter A LloydRoy McBridePhilip St John Russell
    • G02B634
    • G01M11/083G01D5/35306G01D5/3538
    • An optical fibre bend sensor (10) measures the degree and orientation of bending present in a sensor length (30) portion of a fibre assembly (26). Within a multicored fibre (30, 32,34), cores (62, 66) are grouped in non-coplanar pairs. An arrangement of optical elements (28, 36, 38) define within each core pair (62, 66) two optical paths (122, 124) which differ along the sensor length (30): one core (62) of a pair (62, 66) is included in the first path (122), and the other core (66) in the second path (124). A general bending of the sensor region (30) will lengthen one core (62, 66) with respect to the other. Interrogation of this length differential by means of interferometry generates interferograms from which the degree of bending in the plane of the core pair is extracted. Bend orientation can be deduced from data extracted from multiple core pairs.
    • 光纤弯曲传感器(10)测量存在于光纤组件(26)的传感器长度(30)部分中的弯曲的程度和取向。 在多芯光纤(30,32,34)内,核心(62,66)被分组成非共面对。 光学元件(28,36,38)的布置在每个芯对(62,66)内限定沿着传感器长度(30)不同的两个光路(122,124):一对(62)的一个芯(62) ,66)包括在第一路径(122)中,另一个核心(66)包括在第二路径(124)中。 传感器区域(30)的一般弯曲将相对于另一个将一个芯(62,66)延长。 通过干涉测量对这种长度差分的询问产生干涉图,从中提取出核心对的平面中的弯曲程度。 弯曲取向可以从从多个核心对提取的数据中推导出来。
    • 2. 发明授权
    • Optical fiber bend sensor
    • 光纤弯曲传感器
    • US06389187B1
    • 2002-05-14
    • US09446325
    • 2000-04-21
    • Alan H GreenawayJames G BurnettAndrew R HarveyPeter A LloydRoy McBridePhilip St John RussellPaul M Blanchard
    • Alan H GreenawayJames G BurnettAndrew R HarveyPeter A LloydRoy McBridePhilip St John RussellPaul M Blanchard
    • G02B600
    • G01M11/083G01D5/35306G01D5/3538
    • An optical fiber bend sensor (10) measures the degree and orientation of bending present in a sensor length (30) portion of a fiber assembly (26). Within a multicored fiber (30, 32, 34), cores (62, 66) are grouped in non-coplanar pairs. An arrangement of optical elements (28, 36, 38) define within each core pair (62, 66) two optical paths (122, 124) which differ along the sensor length (30): one core (62) of a pair (62, 66) is included in the first path (122), and the other core (66) in the second path (124). A general bending of the sensor region (30) will lengthen one core (62, 66) with respect to the other. Interrogation of this length differential by means of interferometry generates interferograms from which the degree of bending in the plane of the core pair is extracted. Bend orientation can be deduced from data extracted from multiple core pairs.
    • 光纤弯曲传感器(10)测量存在于光纤组件(26)的传感器长度(30)部分中的弯曲的程度和取向。 在多芯光纤(30,32,34)内,核心(62,66)被分组成非共面对。 光学元件(28,36,38)的布置在每个芯对(62,66)内限定沿着传感器长度(30)不同的两个光路(122,124):一对芯(62) ,66)包括在第一路径(122)中,另一个核心(66)包括在第二路径(124)中。 传感器区域(30)的一般弯曲将相对于另一个将一个芯(62,66)延长。 通过干涉测量对这种长度差分的询问产生干涉图,从中提取出核心对的平面中的弯曲程度。 弯曲取向可以从从多个核心对提取的数据中推导出来。
    • 3. 发明授权
    • Sensor system
    • 传感器系统
    • US06137573A
    • 2000-10-24
    • US142860
    • 1998-09-16
    • David G LukeRoy McBridePeter A LloydJames G BurnettAlan H GreenawayJulian D C Jones
    • David G LukeRoy McBridePeter A LloydJames G BurnettAlan H GreenawayJulian D C Jones
    • G01D5/353G01K11/32G01L1/24G10D9/02
    • G01K11/32G01D5/35303G01D5/35316G01D5/35383G01D5/35387G01L1/242
    • A sensor system (10) incorporating an interferometer operates as an optical strain gauge. The system (10) is arranged to generate interferograms characterised by an optical path difference between light traversing a sensor arm (12) of the interferometer and light traversing a reference arm (58). Each arm incorporates a highly birefringent optical fibre (38, 58) capable of supporting light propagation at two velocities in two different polarisation modes. A first interferogram is generated between light coupled into the fast eigenmodes of each fibre and a second is generated between light coupled into the slow eigenmodes. Mean optical group delay (.tau..sub.MGD) and differential optical group delay (.tau..sub.DGD) of these interferograms are affected differently by temperature and strain and thus provide a means of discriminating between these attributes of the sensor environment. Thus simultaneous measurement of strain and temperature is achieved.
    • PCT No.PCT / GB97 / 00807 Sec。 371日期:1998年9月16日 102(e)日期1998年9月16日PCT 1997年3月24日PCT公布。 出版物WO97 / 37197 日期1997年10月9日包含干涉仪的传感器系统(10)作为光学应变计工作。 系统(10)被布置成产生干涉图,其特征在于穿过干涉仪的传感器臂(12)的光与穿过参考臂(58)的光之间的光程差。 每个臂包含能够以两种不同偏振模式支持两种速度的光传播的高双折射光纤(38,58)。 在耦合到每个光纤的快速本征模式中的光之间产生第一干涉图,而在耦合到慢本征模中的光之间产生第二干涉图。 这些干涉图的平均光学组延迟(tau MGD)和差分光学组延迟(tau DGD)受到温度和应变的不同的影响,因此提供了区分传感器环境的这些属性的手段。 因此实现了应变和温度的同时测量。