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1. 发明申请

WO2013010095A3 INDUCTION HEATING SYSTEM EMPLOYING INDUCTION-HEATED SWITCHED-CIRCUIT VESSELS 审中-公开
标题翻译：采用感应加热开关电路容器的感应加热系统
公开(公告)号：WO2013010095A3
公开(公告)日：2013-03-07
申请号：PCT/US2012046707
申请日：2012-07-13
申请人： TSI TECHNOLOGIES LLC , CLOTHIER BRIAN L
发明人： CLOTHIER BRIAN L
IPC分类号： H05B6/02
CPC分类号： A47J36/027 , A47J36/02
摘要： An induction heatable article such as a pan is provided having a synthetic resin body with at least one susceptor coil secured to the body and operable under the influence of an induction field to generate Joule heating within the coil to thereby heat the body. The coil has a plurality of zones, each adjacent a different portion of the body and capable of providing respective, different magnitudes of Joule heating-derived energy per unit time in the zones. A multiple-pan, modular food heating/warming table includes a table supporting an array of individually controllable induction heaters with a plurality of synthetic resin, food-holding pans positionable on the table, wherein each pan has a zoned susceptor coil for induction heating of the pans
摘要翻译：提供一种感应加热制品，例如盘，其具有合成树脂体，其具有至少一个基座线圈，该基座线圈固定到主体并且可在感应场的影响下操作以在线圈内产生焦耳加热从而加热主体。线圈具有多个区域，每个区域邻近主体的不同部分并且能够在区域中每单位时间提供相应的不同量值的焦耳加热衍生能量。一种多盘模块化食品加热/加热台包括一个台，该台支持具有多个合成树脂的单独可控感应加热器的阵列，所述多个合成树脂食物保持盘可定位在台上，其中每个盘具有用于感应加热的分区感受器线圈平底锅

2. 发明申请

WO2012122258A3 MICROWIRE TEMPERATURE SENSORS CONSTRUCTED TO ELIMINATE STRESS-RELATED TEMPERATURE MEASUREMENT INACCURACIES AND METHOD OF MANUFACTURING SAID SENSORS 审中-公开
标题翻译：建立消除压力相关温度测量精度的微波温度传感器及制造传感器的方法
公开(公告)号：WO2012122258A3
公开(公告)日：2012-12-13
申请号：PCT/US2012028058
申请日：2012-03-07
申请人： TSI TECHNOLOGIES LLC , CLOTHIER BRIAN L
发明人： CLOTHIER BRIAN L
IPC分类号： G01K7/36 , G01K1/08 , G01K7/38
CPC分类号： G01K7/36 , G01K1/08 , G01K15/005
摘要： Improved, highly accurate microwire sensors (10) include a microwire assembly (14) including at least one primary, temperature-sensing microwire (16) encased within a closed-ended, stress-absorbing protective tube (12). Preferably, the sensor assembly (14) includes a plurality of microwires, e.g., a primary temperature-sensing microwire (16), a reference microwire (18), and a calibration microwire (20). The sensors (10) may be embedded within a heat-treatable or curable material (24) to monitor the temperature of the material (24) over a selected temperature range, e.g., during a pre- and/or post-curing temperature range. The tube (12) is formed of material which does not appreciably magnetically bias the microwire assembly (14), and substantially prevents forces exerted on the tube (12) from distorting the sensor assembly (14).
摘要翻译：改进的高度精确的微丝传感器（10）包括微线组件（14），其包括封装在封闭端的应力吸收保护管（12）内的至少一个初级温度感测微线（16）。优选地，传感器组件（14）包括多个微线，例如初级温度感测微线（16），参考微线（18）和校准微线（20）。传感器（10）可以嵌入在可热处理或可固化的材料（24）内，以在例如预固化和/或固化后的温度范围内在所选择的温度范围内监测材料（24）的温度。管（12）由不明显地磁力偏置微线组件（14）的材料形成，并且基本上防止施加在管（12）上的力使传感器组件（14）变形。

3. 发明申请

WO2012122258A2 MICROWIRE TEMPERATURE SENSORS CONSTRUCTED TO ELIMINATE STRESS-RELATED TEMPERATURE MEASUREMENT INACCURACIES AND METHOD OF MANUFACTURING SAID SENSORS 审中-公开
标题翻译：构建消除应力相关温度测量不准确度的微波温度传感器及制造所述传感器的方法
公开(公告)号：WO2012122258A2
公开(公告)日：2012-09-13
申请号：PCT/US2012/028058
申请日：2012-03-07
申请人： TSI TECHNOLOGIES LLC , CLOTHIER, Brian L.
发明人： CLOTHIER, Brian L.
IPC分类号： G01K7/36 , G01K7/38 , G01K1/08
CPC分类号： G01K7/36 , G01K1/08 , G01K15/005
摘要： Improved, highly accurate microwire sensors (10) include a microwire assembly (14) including at least one primary, temperature-sensing microwire (16) encased within a closed-ended, stress-absorbing protective tube (12). Preferably, the sensor assembly (14) includes a plurality of microwires, e.g., a primary temperature-sensing microwire (16), a reference microwire (18), and a calibration microwire (20). The sensors (10) may be embedded within a heat-treatable or curable material (24) to monitor the temperature of the material (24) over a selected temperature range, e.g., during a pre- and/or post-curing temperature range. The tube (12) is formed of material which does not appreciably magnetically bias the microwire assembly (14), and substantially prevents forces exerted on the tube (12) from distorting the sensor assembly (14).
摘要翻译：改进的高度精确的微丝传感器（10）包括微丝组件（14），微丝组件（14）包括至少一个主要的温度敏感微丝（16），其被封装在闭合的应力吸收保护管（ 12）。优选地，传感器组件14包括多个微丝，例如主温度检测微丝（16），参考微丝（18）和校准微丝（20）。传感器（10）可嵌入可热处理或可固化材料（24）内以在选定温度范围内（例如在固化前和/或固化后温度范围内）监测材料（24）的温度。管（12）由不明显地磁偏置微丝组件（14）的材料形成，并且基本上防止施加在管（12）上的力使传感器组件（14）扭曲。

4. 发明申请

WO2010151453A3 IMPROVED STRAIN SENSOR 审中-公开
标题翻译：改进的应变传感器
公开(公告)号：WO2010151453A3
公开(公告)日：2011-04-07
申请号：PCT/US2010038601
申请日：2010-06-15
申请人： TSI TECHNOLOGIES LLC , CLOTHIER BRIAN L , SORKINE EVGENI
发明人： CLOTHIER BRIAN L , SORKINE EVGENI
IPC分类号： G01B7/16 , G01B7/24
CPC分类号： G01B7/24
摘要： Improved microwire strain sensor elements (20, 40, 52, 62) and corresponding methods are provided, which permit accurate, wireless strain monitoring of a variety of structures, including composite structures, through use of a remote detector (28). The sensor elements (20, 40, 52, 62) have amorphous or nanocrystalline metallic alloy microwire cores (22, 48), which exhibit substantially reduced remagnetization responses when the sensor elements (20, 40, 52, 62) are coupled with a structure to be strain-monitored, and the structures are in an unstrained condition. When the monitored structure experiences a strain above a pre-selected threshold value, the microwire cores (22, 48) exhibit substantially different remagnetization responses as an indication that the monitored structure has experienced a strain above a strain threshold or over a range of strain. In use, the strain sensor elements (20, 40, 52, 62) are coupled with a structure to be monitored by application of the sensor elements (20, 40, 52, 62) to a surface of the structure, or by imbedding the sensor elements (20, 40, 52, 62) within the structure, and the coupled sensor elements are periodically interrogated by the detector (28). Preferably, the microwire cores (22, 48) are placed in compression in order to suppress the inherent remagnetization responses thereof by means of a surrounding body (26) or surrounding layers (44, 46) formed of synthetic resin material which shrinks upon curing. When the sensor elements (20, 40, 52, 62) are strained as a result of a strain experienced by the monitored structure, the remagnetization responses of the microwire cores (22, 48) are substantially increased.
摘要翻译：提供改进的微线应变传感器元件（20,40,52,62）和相应的方法，其允许通过使用远程检测器（28）对各种结构（包括复合结构）进行精确的无线应变监测。传感器元件（20,40,52,62）具有无定形或纳米晶金属合金微线芯（22,48），当传感器元件（20,40,52,62）与结构应变监测，结构处于无限制状态。当被监测的结构经受超过预选阈值的应变时，微线芯（22,48）表现出显着不同的再磁化响应，作为被监测结构已经经受应变阈值以上或应变范围以上的应变的指示。在使用中，应变传感器元件（20,40,52,62）通过将传感器元件（20,40,52,62）施加到结构的表面上而与要监控的结构相结合，或者通过将结构内的传感器元件（20,40,52,62）和耦合的传感器元件由检测器（28）周期性询问。优选地，微线芯（22,48）被置于压缩状态，以便通过由固化时收缩的合成树脂材料形成的周围的主体（26）或周围的层（44,46）来抑制其固有的再磁化响应。当传感器元件（20,40,52,62）由于所监视的结构所经受的应变而变形时，微线芯（22,48）的再磁化响应显着增加。

5. 发明申请

WO2011019865A3 ONE-TIME SENSOR DEVICE 审中-公开
公开(公告)号：WO2011019865A3
公开(公告)日：2011-02-17
申请号：PCT/US2010/045253
申请日：2010-08-12
申请人： TSI TECHNOLOGIES LLC , SORKINE, Evgeni , CLOTHIER, Brian, L.
发明人： SORKINE, Evgeni , CLOTHIER, Brian, L.
IPC分类号： G01K7/36 , G01K1/14 , G01R33/00 , H01F1/153 , H01F1/12 , H01B7/00 , C22C45/04
摘要： One-time, single-use sensor elements (22, 46) are provided for detecting the occurrence of predetermined conditions such as temperature and elapsed time- temperature. The sensor elements (22, 46) preferably comprise elongated, glass-coated, metal alloy, amorphous or nanocrystalline microwires (30, 48), which can be placed in a position to detect the predetermined condition of interest. An alternating magnetic field detector (28) may be used to continuously or periodically interrogate the sensor elements (22, 46) to determine if the predetermined condition has occurred. In one aspect of the invention, the microwires (30, 48) experience a change in configuration upon the occurrence of the predetermined condition, and have correspondingly different induced remagnetization responses. In another embodiment, a static microwire is provided having an initial bi-stable single domain; when a predetermined time-temperature condition is experienced, multiple domains are established in the microwire, and this can be detected by the detector (28).

6. 发明申请

WO2011019865A2 ONE-TIME SENSOR DEVICE 审中-公开
标题翻译：一次传感器装置
公开(公告)号：WO2011019865A2
公开(公告)日：2011-02-17
申请号：PCT/US2010045253
申请日：2010-08-12
申请人： TSI TECHNOLOGIES LLC , SORKINE EVGENI , CLOTHIER BRIAN L
发明人： SORKINE EVGENI , CLOTHIER BRIAN L
IPC分类号： G01K7/36 , C22C45/04 , G01K1/14 , G01R33/00 , H01B7/00 , H01F1/12 , H01F1/153
CPC分类号： G01R33/02 , C22C45/04 , G01K3/04 , G01K5/48 , G01K7/36 , H01F1/0308 , H01F1/15316 , H01F1/15333 , H01F1/15391
摘要： One-time, single-use sensor elements (22, 46) are provided for detecting the occurrence of predetermined conditions such as temperature and elapsed time- temperature. The sensor elements (22, 46) preferably comprise elongated, glass-coated, metal alloy, amorphous or nanocrystalline microwires (30, 48), which can be placed in a position to detect the predetermined condition of interest. An alternating magnetic field detector (28) may be used to continuously or periodically interrogate the sensor elements (22, 46) to determine if the predetermined condition has occurred. In one aspect of the invention, the microwires (30, 48) experience a change in configuration upon the occurrence of the predetermined condition, and have correspondingly different induced remagnetization responses. In another embodiment, a static microwire is provided having an initial bi-stable single domain; when a predetermined time-temperature condition is experienced, multiple domains are established in the microwire, and this can be detected by the detector (28).
摘要翻译：提供一次性的一次性传感器元件（22,46），用于检测诸如温度和经过的时间温度的预定条件的发生。传感器元件（22,46）优选地包括细长的玻璃涂覆的金属合金，无定形或纳米晶体微线（30,48），其可被放置在检测预定感兴趣条件的位置。可以使用交变磁场检测器（28）来连续或周期性地询问传感器元件（22,46）以确定是否已经发生了预定条件。在本发明的一个方面，微线（30,48）在出现预定条件时经历配置变化，并具有相应不同的诱导再磁化响应。在另一个实施例中，提供具有初始双稳态单域的静态微线; 当经历预定的时间温度条件时，在微线中建立多个域，并且这可以由检测器（28）检测。

7. 发明申请

WO2013010095A2 INDUCTION HEATING SYSTEM EMPLOYING INDUCTION-HEATED SWITCHED-CIRCUIT VESSELS 审中-公开
标题翻译：使用感应加热开关电路的感应加热系统
公开(公告)号：WO2013010095A2
公开(公告)日：2013-01-17
申请号：PCT/US2012/046707
申请日：2012-07-13
申请人： TSI TECHNOLOGIES LLC , CLOTHIER, Brian L.
发明人： CLOTHIER, Brian L.
IPC分类号： H05B6/02
CPC分类号： A47J36/027 , A47J36/02
摘要： An induction heatable article such as a pan is provided having a synthetic resin body with at least one susceptor coil secured to the body and operable under the influence of an induction field to generate Joule heating within the coil to thereby heat the body. The coil has a plurality of zones, each adjacent a different portion of the body and capable of providing respective, different magnitudes of Joule heating-derived energy per unit time in the zones. A multiple-pan, modular food heating/warming table includes a table supporting an array of individually controllable induction heaters with a plurality of synthetic resin, food-holding pans positionable on the table, wherein each pan has a zoned susceptor coil for induction heating of the pans
摘要翻译：提供了诸如盘的感应加热制品，其具有合成树脂体，所述合成树脂体具有固定到主体上的至少一个基座线圈，并且在感应场的影响下可操作以在线圈内产生焦耳加热，从而加热身体。线圈具有多个区域，每个区域各自相邻于主体的不同部分，并且能够在区域中每单位时间提供相应的不同大小的焦耳加热导出的能量。多盘模块化食品加热/升温台包括一个桌子，其支撑具有多个合成树脂的可独立控制的感应加热器阵列，可放置在桌子上的食物保持盘，其中每个盘具有用于感应加热的分区感应线圈平底锅

8. 发明申请

WO2011049846A3 EDDY CURRENT THERMOMETER 审中-公开
标题翻译： EDDY电流温度计
公开(公告)号：WO2011049846A3
公开(公告)日：2011-08-04
申请号：PCT/US2010053001
申请日：2010-10-18
申请人： TSI TECHNOLOGIES LLC , MALYSHEV VLADIMIR , SORKINE EVGENI
发明人： MALYSHEV VLADIMIR , SORKINE EVGENI
IPC分类号： G01K7/36 , G01K13/10
CPC分类号： G01K7/36 , G01K2207/02 , G01K2207/06 , G01R33/0283
摘要： A remote, noncontact temperature determination method and apparatus is provided, which is operable to determine the temperature of a conducting member forming a part of or in operative thermal communication with an object of interest. The method comprises the steps of first inducing a closed vortex eddy current (28) in a conducting member (16, 38, 44) by subjecting the member (16, 38, 44) to a magnetic field, such that the corresponding eddy current magnitude changes exponentially over time. A characteristic time constant of the exponential current magnitude changes is then determined, and this is used to calculate the temperature of the object. The apparatus (24) includes a field transmitting coil (14) coupled with a waveform generator (12) for inducing the eddy current (28), and a field receiving coil assembly (18) which detects the corresponding magnetic field induced by the eddy current (28). Using the invention, temperature determinations can be made which are substantially independent of the relative distance and/or angular orientation between the conducting member (16, 38, 44) and the field receiving coil assembly (18).
摘要翻译：提供远程非接触式温度测定方法和装置，其可操作以确定形成感兴趣对象的一部分或与之有效热连通的导电构件的温度。该方法包括以下步骤：首先通过对构件（16,38,44）施加磁场来引起导电构件（16,38,44）中的闭合涡流涡流（28），使得相应的涡流大小随时间呈指数变化。然后确定指数电流幅度变化的特征时间常数，并且这用于计算物体的温度。装置（24）包括与用于感应涡流（28）的波形发生器（12）耦合的场发射线圈（14），以及一个场接收线圈组件（18），其检测由涡流引起的相应磁场（28）。使用本发明，可以进行基本上与导电构件（16,38,44）和场接收线圈组件（18）之间的相对距离和/或角度取向无关的温度测定。

9. 发明申请

WO2023069999A1 IN-SITU MONITORING AND CONTROL OF INDUCTION WELDING OF THERMOPLASTIC COMPOSITES USING AMORPHOUS OR NANOCRYSTALLINE MICROWIRE TEMPERATURE SENSORS AND SELF-CENTERING ANTENNAE RAIL SYSTEM 审中-公开
公开(公告)号：WO2023069999A1
公开(公告)日：2023-04-27
申请号：PCT/US2022/078379
申请日：2022-10-19
申请人： TSI TECHNOLOGIES LLC , CLOTHIER, Brian Lee , BOURKE III, Michael J. , MALYSHEV, Vladimir
发明人： CLOTHIER, Brian Lee , BOURKE III, Michael J. , MALYSHEV, Vladimir
IPC分类号： B29C65/00 , H01Q1/00 , B29C65/36 , H05B6/36 , B29C65/08 , B29C65/16
摘要： A thermoplastic composite welding microwire temperature measurement system broadly comprises a plurality of moveable antennae configured to transmit interrogation signals, a rail system including a motorized linear stage configured to move the antennae along a weld line, and a reader or processor configured to determine a position of the microwire temperature sensor and determine a welding temperature based on response signals of the sensor. The interrogation signal corresponds to two different maximum ramp current amplitudes to create two re-magnetization pulses non-overlapping in the time domain.

10. 发明申请

WO2012138391A1 MICRO-THERMOCOUPLE 审中-公开
标题翻译： MICRO-热电偶
公开(公告)号：WO2012138391A1
公开(公告)日：2012-10-11
申请号：PCT/US2011/063952
申请日：2011-12-08
申请人： TSI TECHNOLOGIES LLC , SORKINE, Evgeni
发明人： SORKINE, Evgeni
IPC分类号： H01L35/02
CPC分类号： G01K7/028 , Y10T29/49117
摘要： Improved, high-strength micro-thermocouples (10) are provided, which include first and second microwires (12, 14) each preferably in the form of an elongated metallic core (18, 22), with an outer glass coating (20, 24); at least one of the microwires (12, 14) is an amorphous microwire (12), and in preferred forms the other microwire is a crystalline microwire (14). The thermocouple junction (16) is formed by stripping the distal ends of the microwires (12, 14) to provide stripped ends (18a, 22a). The stripped crystalline microwire end (22a) is wrapped about the stripped amorphous microwire end (18a) to form a series of abutting convolutions (30). The micro-thermocouples (10) find particular utility in the fabrication and repair of carbon fiber composite materials, such as airplane components.
摘要翻译：提供了改进的高强度微热电偶（10），其包括优选为细长金属芯（18,22）形式的第一和第二微丝（12,14），其中外玻璃涂层（20,24））; 微线（12,14）中的至少一个是非晶微导线（12），并且优选形式中，另一微线是晶体微线（14）。通过剥离微线（12,14）的远端以提供剥离端（18a，22a）来形成热电偶结（16）。剥离的结晶微线端部（22a）围绕剥离的无定形微线端部（18a）缠绕以形成一系列邻接的卷绕体（30）。微型热电偶（10）在碳纤维复合材料（如飞机部件）的制造和修理中尤其有用。

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