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    • 1. 发明授权
    • Portable electronic device with chip card ejecting mechanism
    • 便携式电子设备带芯片卡弹出机构
    • US08491320B2
    • 2013-07-23
    • US13453153
    • 2012-04-23
    • Shi-Hua ZhangJin-Feng Gao
    • Shi-Hua ZhangJin-Feng Gao
    • H01R13/62
    • G06K13/08
    • A chip card ejecting mechanism includes a main body, a tray slidably fixed to the main body, a latching element, a first elastic member and a second elastic member. The tray defines a latching groove. The latching element includes latching board, a latching block protruding from the latching board, and a triggering member rotatably fixed to the main body. The first elastic member is resisted between the latching board and the main body, to make the latching block latch with the latching groove. The second elastic member is fixed to the main body and is compressed by the tray. After the triggering member rotates relative to the main body to release the latching block from the latching groove, the second elastic member decompresses to drive the tray out of the main body.
    • 芯片卡弹出机构包括主体,可滑动地固定到主体的托盘,闩锁元件,第一弹性构件和第二弹性构件。 托盘限定锁定槽。 闩锁元件包括闩锁板,从闩锁板突出的闩锁块和可旋转地固定到主体的触发构件。 第一弹性构件抵抗闩锁板和主体之间,以使闭锁块与闩锁槽锁定。 第二弹性构件固定在主体上并被托盘压缩。 在触发构件相对于主体旋转以将闩锁块从闩锁槽释放之后,第二弹性构件减压以将托盘驱出主体。
    • 2. 发明申请
    • CORROSION RESISTANCE EVALUATOR
    • 耐腐蚀性评估仪
    • US20110315550A1
    • 2011-12-29
    • US13144103
    • 2010-01-04
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • G01N27/28
    • G01N17/02
    • The present invention is directed to a corrosion resistance evaluator suitable for corrosion testing coated metals substrates, such as autobodies. A corrosion resistance evaluator provided with a chamber containing electrolyte to which anode and cathode coated with protective coating being tested are exposed. These coatings are provided with predetermined and standardized defects, such as micro-holes to accelerate the corrosion of the underlying metal substrate in a predictable and repeatable manner. The coated cathode/anode pair is subject to a start-up period followed by series preset DC voltages for preset durations that are interspaced with recovery periods. The impedance date collected is then used to arrive at the corrosion performance resistance of the coating applied over the cathode/anode pair. The foregoing evaluator substantially reduces the time required to test corrosion from several days (40 plus days) to few days (about two days).
    • 本发明涉及一种适用于腐蚀试验的耐腐蚀性评价装置,其包括金属基材,例如自动载体。 一种耐腐蚀性评估器,其设置有包含电解质的室,暴露了正被涂覆有被保护涂层的阳极和阴极。 这些涂层具有预定和标准化的缺陷,例如微孔,以可预测和可重复的方式加速底层金属基底的腐蚀。 涂覆的阴极/阳极对经受启动周期,随后是预置的持续时间的串联预设直流电压,其间隔有恢复周期。 然后使用收集的阻抗日期来获得施加在阴极/阳极对上的涂层的耐腐蚀性能。 上述评估者大大减少了从几天(40天)到几天(约两天)测试腐蚀所需的时间。
    • 4. 发明授权
    • Corrosion resistance evaluator
    • 耐腐蚀性评估仪
    • US08888976B2
    • 2014-11-18
    • US13144103
    • 2010-01-04
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • G01N17/02
    • G01N17/02
    • The present invention is directed to a corrosion resistance evaluator suitable for corrosion testing coated metals substrates, such as autobodies. A corrosion resistance evaluator provided with a chamber containing electrolyte to which anode and cathode coated with protective coating being tested are exposed. These coatings are provided with predetermined and standardized defects, such as micro-holes to accelerate the corrosion of the underlying metal substrate in a predictable and repeatable manner. The coated cathode/anode pair is subject to a start-up period followed by series preset DC voltages for preset durations that are interspaced with recovery periods. The impedance date collected is then used to arrive at the corrosion performance resistance of the coating applied over the cathode/anode pair. The foregoing evaluator substantially reduces the time required to test corrosion from several days (40 plus days) to few days (about two days).
    • 本发明涉及一种适用于腐蚀试验的耐腐蚀性评价装置,其包括金属基材,例如自动载体。 一种耐腐蚀性评估器,其设置有包含电解质的室,阳极和阴极涂覆有被测试的保护涂层。 这些涂层具有预定和标准化的缺陷,例如微孔,以可预测和可重复的方式加速底层金属基底的腐蚀。 涂覆的阴极/阳极对经受启动周期,随后是预置的持续时间的串联预设直流电压,其间隔有恢复周期。 然后使用收集的阻抗日期来获得施加在阴极/阳极对上的涂层的耐腐蚀性能。 上述评估者大大减少了从几天(40天)到几天(约两天)测试腐蚀所需的时间。
    • 5. 发明申请
    • PROCESS OF EVALUATING CORROSION RESISTANCE
    • 评价耐腐蚀性的方法
    • US20140097096A1
    • 2014-04-10
    • US13996561
    • 2011-12-21
    • Shi Hua ZhangLorenz Fred PelosiRobert C. Nahas
    • Shi Hua ZhangLorenz Fred PelosiRobert C. Nahas
    • G01N27/02
    • G01N17/02G01N27/02
    • The present invention is directed to a process for evaluating corrosion resistance of coated metals substrates, such as autobodies at an accelerated rate. An anode and cathode coated with protective coating being tested are exposed to an electrolyte in a chamber of a corrosion resistance evaluator. These coatings are provided with predetermined and standardized defects, such as micro-holes to accelerate the corrosion of the underlying metal substrate in a predictable and repeatable manner. The coated cathode/anode pair is subject to a start-up period followed by series preset DC voltages modulated in triangular, truncated triangular or trapezoidal manner for preset durations that are interspaced with recovery periods. The impedance data collected are then used to arrive at the corrosion performance resistance of the coating applied over the cathode/anode pair. The foregoing evaluator substantially reduces the time required to test corrosion from several days (40 plus days) to few days (about two days).
    • 本发明涉及一种用于以加速的速度评估涂覆金属基材(例如自动载体)的耐腐蚀性的方法。 将被测试的涂有保护涂层的阳极和阴极暴露于耐腐蚀性评估器室中的电解质。 这些涂层具有预定和标准化的缺陷,例如微孔,以可预测和可重复的方式加速底层金属基底的腐蚀。 经涂覆的阴极/阳极对经受起始时间段,随后是以三角形,截头三角形或梯形方式调制的串联预设直流电压,用于与恢复周期间隔的预设持续时间。 然后使用收集的阻抗数据来获得施加在阴极/阳极对上的涂层的耐腐蚀性能。 上述评估者大大减少了从几天(40天)到几天(约两天)测试腐蚀所需的时间。
    • 7. 发明授权
    • Process for evaluating corrosion resistance of coating
    • 评估涂层耐蚀性的工艺
    • US08723535B2
    • 2014-05-13
    • US13143819
    • 2010-01-04
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • G01R27/08
    • G01N17/02
    • The present invention is directed to a process for corrosion resistance evaluation of coated metals substrates, such as autobodies. An anode and cathode coated with protective coating being tested are exposed to an electrolyte in a chamber of a corrosion resistance evaluator. These coatings are provided with predetermined and standardized defects, such as micro-holes to accelerate the corrosion of the underlying metal substrate in a predictable and repeatable manner. The coated cathode/anode pair is subject to a start-up period followed by series preset DC voltages for preset durations that are interspaced with recovery periods. The impedance data collected are then used to arrive at the corrosion performance resistance of the coating applied over the cathode/anode pair. The foregoing evaluator substantially reduces the time required to test corrosion from several days (40 plus days) to few days (about two days).
    • 本发明涉及一种用于耐腐蚀性评价的涂覆金属基材例如自动化体系的方法。 将被测试的涂有保护涂层的阳极和阴极暴露于耐腐蚀性评估器室中的电解质。 这些涂层具有预定和标准化的缺陷,例如微孔,以可预测和可重复的方式加速底层金属基底的腐蚀。 涂覆的阴极/阳极对经受启动周期,随后是预置的持续时间的串联预设直流电压,其间隔有恢复周期。 然后使用收集的阻抗数据来获得施加在阴极/阳极对上的涂层的耐腐蚀性能。 上述评估者大大减少了从几天(40天)到几天(约两天)测试腐蚀所需的时间。
    • 8. 发明申请
    • PORTABLE ELECTRONIC DEVICE WITH CHIP CARD EJECTING MECHANISM
    • 便携式电子设备与芯片卡出口机制
    • US20130164958A1
    • 2013-06-27
    • US13453153
    • 2012-04-23
    • SHI-HUA ZHANGJIN-FENG GAO
    • SHI-HUA ZHANGJIN-FENG GAO
    • H01R13/62
    • G06K13/08
    • A chip card ejecting mechanism includes a main body, a tray slidably fixed to the main body, a latching element, a first elastic member and a second elastic member. The tray defines a latching groove. The latching element includes latching board, a latching block protruding from the latching board, and a triggering member rotatably fixed to the main body. The first elastic member is resisted between the latching board and the main body, to make the latching block latch with the latching groove. The second elastic member is fixed to the main body and is compressed by the tray. After the triggering member rotates relative to the main body to release the latching block from the latching groove, the second elastic member decompresses to drive the tray out of the main body.
    • 芯片卡弹出机构包括主体,可滑动地固定到主体的托盘,闩锁元件,第一弹性构件和第二弹性构件。 托盘限定锁定槽。 闩锁元件包括闩锁板,从闩锁板突出的闩锁块和可旋转地固定到主体的触发构件。 第一弹性构件抵抗闩锁板和主体之间,以使闭锁块与闩锁槽锁定。 第二弹性构件固定在主体上并被托盘压缩。 在触发构件相对于主体旋转以将闩锁块从闩锁槽释放之后,第二弹性构件减压以将托盘驱出主体。
    • 9. 发明申请
    • PROCESS FOR EVALUATING CORROSION RESISTANCE OF COATING
    • 评估涂层耐腐蚀性的方法
    • US20120095698A1
    • 2012-04-19
    • US13143819
    • 2010-01-04
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • Shi Hua ZhangLorenzo Fred PelosiRobert C. Nahas
    • G06F19/00
    • G01N17/02
    • The present invention is directed to a process for corrosion resistance evaluation of coated metals substrates, such as autobodies. An anode and cathode coated with protective coating being tested are exposed to an electrolyte in a chamber of a corrosion resistance evaluator. These coatings are provided with predetermined and standardized defects, such as micro-holes to accelerate the corrosion of the underlying metal substrate in a predictable and repeatable manner. The coated cathode/anode pair is subject to a start-up period followed by series preset DC voltages for preset durations that are interspaced with recovery periods. The impedance data collected are then used to arrive at the corrosion performance resistance of the coating applied over the cathode/anode pair. The foregoing evaluator substantially reduces the time required to test corrosion from several days (40 plus days) to few days (about two days).
    • 本发明涉及一种用于耐腐蚀性评价的涂覆金属基材例如自动化体系的方法。 将被测试的涂有保护涂层的阳极和阴极暴露于耐腐蚀性评估器室中的电解质。 这些涂层具有预定和标准化的缺陷,例如微孔,以可预测和可重复的方式加速底层金属基底的腐蚀。 涂覆的阴极/阳极对经受启动周期,随后是预置的持续时间的串联预设直流电压,其间隔有恢复周期。 然后使用收集的阻抗数据来获得施加在阴极/阳极对上的涂层的耐腐蚀性能。 上述评估者大大减少了从几天(40天)到几天(约两天)测试腐蚀所需的时间。