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    • 1. 发明申请
    • ON-OFF IMPLANT FOR SUPPORTING THE TONGUE
    • 用于支持TONGUE的ON-OFF植入物
    • US20090165803A1
    • 2009-07-02
    • US12261978
    • 2008-10-30
    • NIKHIL D. BHATAnant V. HegdeKasey LiMatthew GoebelHongPeng Wang
    • NIKHIL D. BHATAnant V. HegdeKasey LiMatthew GoebelHongPeng Wang
    • A61F5/56
    • A61F5/566
    • The present invention provides an implant for stabilizing the tongue, including: a first anchoring portion for securing a first end of the implant with the mandibula; a control portion connected with the anchoring portion, configured for selectively activating the implant; a flexible portion connected at its proximal end with the control portion, the flexible portion having three-dimensional flexibility in a non-energized state and the flexible portion having a lesser three-dimensional flexibility in a energized state, the flexible portion being selectively switchable between the non-energized and energized states by the control portion, wherein the flexible portion can be an electroactive polymer element having: a composite layer having a polymer substrate and a biocompatible conductive material, wherein the composite layer also can be opposing surfaces; and a conductive polymer layer disposed on at least one of the opposing surfaces of the composite layer; and a second anchoring portion connected with the flexible portion, the second anchoring portion being configured for connecting the implant with the base of the tongue. Some embodiments include a housing designed to conform to the shape of the palate. Some embodiments include an attachment element to secure the device to tissue. Methods of treating airway disorders such as sleep apnea and snoring with the airway implant device are disclosed herein.
    • 本发明提供了一种用于稳定舌头的植入物,包括:第一锚固部分,用于固定植入物的第一端与下颌骨; 与所述锚定部分连接的控制部分,被配置为选择性地启动所述植入物; 其柔性部分在其近端处与控制部分连接,柔性部分具有处于非通电状态的三维柔性,并且柔性部分在通电状态下具有较小的三维柔性,柔性部分可选择性地在 所述柔性部分可以是电活性聚合物元件,所述电活性聚合物元件具有:具有聚合物基底和生物相容的导电材料的复合层,其中所述复合层也可以是相对的表面; 以及设置在复合层的至少一个相对表面上的导电聚合物层; 以及与所述柔性部分连接的第二锚固部分,所述第二锚固部分构造成用于将所述植入物与所述舌头的基部连接。 一些实施例包括设计成符合腭形状的外壳。 一些实施例包括用于将装置固定到组织的附接元件。 本文公开了用气道植入装置处理呼吸道疾病如睡眠呼吸暂停和打鼾的方法。
    • 2. 发明申请
    • SLEEP CONTROL DEVICE
    • 睡眠控制设备
    • US20160007914A1
    • 2016-01-14
    • US14796996
    • 2015-07-10
    • Jason XuHongpeng WangHeng CaoDavid Peng XuCien Shen
    • Jason XuHongpeng WangHeng CaoDavid Peng XuCien Shen
    • A61B5/00A61B5/0476A61B5/0402A61B5/145A61B5/11A61B3/113
    • A61B5/7455A61B5/11A61B5/4815A61B5/4818A61B7/003A61F5/56
    • Systems, apparatus, and methods of monitoring and reducing snore are discussed herein. Some embodiments may provide for a system including a snore detection module, a movement detection module, a control module, and an actuation module. The snore detection module may be configured to detect snore, such as by detecting vibrations caused by snoring. When snoring is detected, the control module may be configured to instruct the actuation module to apply stimulation to the user that is calibrated to cause the user to shift sleeping position without disturbing sleep. The movement detection module may be configured to monitor user movement. If the user fails to move in response to the actuation, the actuation module may increase the intensity of the actuation. If the user responds to the actuation, the process may be repeated after a predetermined delay to provide continuous snore monitoring and correction throughout user sleep.
    • 本文讨论了监测和减少打鼾的系统,装置和方法。 一些实施例可以提供包括打鼾检测模块,移动检测模块,控制模块和致动模块的系统。 打鼾检测模块可以被配置为检测打鼾,例如通过检测由打鼾引起的振动。 当检测到打鼾时,控制模块可以被配置为指示致动模块对被校准的用户施加刺激,以使用户移动睡眠位置而不干扰睡眠。 移动检测模块可以被配置为监视用户移动。 如果用户响应于致动而不能移动,则致动模块可以增加致动的强度。 如果用户响应于致动,则可以在预定的延迟之后重复该过程,以在整个用户睡眠期间提供连续的打鼾监测和校正。
    • 4. 发明申请
    • Control System of Multi-Shaft Servo Motor
    • 多轴伺服电机控制系统
    • US20110127942A1
    • 2011-06-02
    • US13056308
    • 2008-11-11
    • Zhaoyong ZhouYajing LiuTiecai LiYan ZhangGuijie YangHongpeng Wang
    • Zhaoyong ZhouYajing LiuTiecai LiYan ZhangGuijie YangHongpeng Wang
    • G05B11/32
    • G05B19/414G05B19/4144G05B19/416G05B2219/42062G05B2219/42237H02P23/0004H02P25/03
    • The present invention relates to a control system of multi-shaft servo motor, wherein, comprises a position loop module (400) for receiving a position loop given value and a position feedback value of respective shelves and figuring out a velocity loop given value; a velocity loop module (500) for receiving the velocity loop given value and a velocity feedback value of respective shelves and figuring out a current loop given value; a current loop module (200) for receiving the current loop given value and a current feedback value of respective shelves and outputting a current loop output value; a PWM signal generation module (300) for receiving the current loop output value from the current loop module (200) and generating a PWM signal for controlling respective shelves of the servo motor; and a multi-shaft time sequence control module (700) for controlling the position loop module (400), the velocity loop module (500), the current loop module (200) and the PWM signal generation module to receive and process the signals.
    • 本发明涉及一种多轴伺服电动机的控制系统,其中包括位置环模块(400),用于接收位置环给定值和各个货架的位置反馈值,并计算速度环给定值; 速度环模块(500),用于接收速度环给定值和各个货架的速度反馈值,并计算当前回路给定值; 电流环模块(200),用于接收电流回路给定值和各个搁架的电流反馈值,并输出电流环路输出值; PWM信号生成模块(300),用于从电流回路模块(200)接收电流环路输出值,并生成用于控制伺服电动机的各个架子的PWM信号; 以及用于控制位置环模块(400),速度环模块(500),电流环模块(200)和PWM信号生成模块的多轴时序控制模块(700),用于接收和处理信号。
    • 5. 发明申请
    • INHERENTLY SAFE THERMO-RESPONSIVE GEL ELECTROLYTES FOR ELECTROCHEMICAL DEVICES
    • 电化学装置的安全热稳定凝胶电解液
    • US20160093923A1
    • 2016-03-31
    • US14868071
    • 2015-09-28
    • HongPeng WangChun-Yi Liang
    • HongPeng WangChun-Yi Liang
    • H01M10/42H01M10/0565
    • H01M10/4235H01M10/052H01M10/0565H01M2300/0085
    • Techniques for providing phase change electrolytes that can be used to improve safety of electrochemical devices, such as lithium batteries, are disclosed herein. At normal operation temperature, the phase change electrolyte is capable of switching “on” with high ionic conductivities in a liquid state. When an electrochemical device system (filled with the phase change electrolyte) encounters abnormal high temperature due to overcharge or shorting, the phase change electrolyte inside the device is capable of switching “off” with low ionic conductivities in a gel state and shut down ionic conductive flow to prevent disastrous electrochemical or chemical events, such as thermal runaway and explosion. When temperature of the electrochemical device returns to normal, the phase change material inside the electrochemical device can switch back to “on” with high ionic conductivities in a liquid state, thereby providing electrochemical devices with inherent safety, especially for rechargeable lithium batteries.
    • 本文公开了用于提供可用于改善诸如锂电池的电化学装置的安全性的相变电解质的技术。 在正常工作温度下,相变电解液能够在液态下以高离子电导率“开”。 当电化学装置系统(填充有相变电解质)由于过充电或短路而遇到异常高温时,装置内的相变电解质能够以低离子电导率在凝胶状态下切断,并关闭离子导电 流动以防止灾难性的电化学或化学事件,例如热失控和爆炸。 当电化学装置的温度恢复正常时,电化学装置内的相变材料可以以液体状态的高离子电导率回到“开”状态,从而为电化学装置提供固有的安全性,特别是对于可再充电的锂电池。