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
    • 11. 发明授权
    • FOCUSING WATERPROOF FLASHLIGHT
    • 重点水密手提灯
    • EP1307686B1
    • 2008-01-23
    • EP01987860.2
    • 2001-08-09
    • Steger, Wilfried
    • Steger, Wilfried
    • F21L4/00F21V14/02
    • F21L4/00F21L2/00F21L15/02F21V14/025F21V19/02F21V23/0414
    • An underwater flashlight (10) has an adjustable focusing beam and a waterproof battery pack (12) which can be removably changed underwater. The flashlight includes a watertight housing (11) having a slidably mounted lamp (18) therein slidable by an external sliding focus member (14) having a permanent magnet (35 & 36) mounted therein. The permanent magnet (35 & 36) moves an internal sliding focusing member (38) also having a magnet (37) therein coacting with the external magnet (35 & 36). The slidable inside focusing member (38) is connected by a link (41) to the lamp (18) for moving the lamp into and out of a reflector (16) when focusing the lamp. An on/off switch (27) is attached to the slidable outside focusing member (14) and has a magnet (26) mounted therein for actuating a pickup coil (32) attached to the slidable inside focusing member (38). The flashlight includes a waterproof attachable battery pack (12) which has a magnetic switch (52) therein actuated by a magnet (54) in the watertight housing (11) of the flashlight so that the batteries (47 & 50) do not provide an electrical connection until the contacts are brought together.
    • 14. 发明公开
    • Refining member clash control method
    • Kontrollsystem zur Vermeidung der Kollision von Mahlplatten
    • EP1793033A1
    • 2007-06-06
    • EP06025119.6
    • 2006-12-05
    • GL&V Management Hungary Kft., Luxembourg Branch
    • Crossley, Bruce R.Shelomis, Dwight
    • D21D1/00D21D1/30
    • D21D1/002D21D1/30
    • A method and a control system for a refiner for pulp or like materials, the control system (100) comprising a sensor (90) mounted in direct mechanical connection to a non-rotating refining member (26) so that the sensor is responsive to axial vibration movement of the support (12), and an analog to digital converter (96) connected to the output of the sensor (90). The method and control system also include a controller (97) connected to the analog to digital converter (96) and responsive to the analog to digital converter to compare the amplitude of the output signal (90) from the sensor to a baseline value based on the level of vibration associated with the pulp refiner when it is operating without plate clashing. When the signal exceeds the baseline value, an action is taken to help alleviate the plate clashing.
    • 一种用于纸浆或类似材料的精磨机的方法和控制系统,所述控制系统(100)包括安装成与非旋转精炼部件(26)直接机械连接的传感器(90),使得传感器响应轴向 支撑件(12)的振动运动,以及连接到传感器(90)的输出的模数转换器(96)。 方法和控制系统还包括连接到模数转换器(96)的控制器(97),并且响应于模数转换器将来自传感器的输出信号(90)的振幅与基于基准值 与纸浆精炼机相关的振动水平在没有板碰撞的情况下运行。 当信号超过基准值时,采取行动来帮助缓解板块冲突。
    • 17. 发明授权
    • MODEL RAILROAD DETECTION EQUIPMENT
    • 检测仪器模型铁路
    • EP1198380B1
    • 2007-03-14
    • EP00947190.5
    • 2000-07-07
    • Ireland, Anthony J.
    • Ireland, Anthony J.
    • A63H19/24
    • A63H19/24
    • A system for detecting and identifying a transponder device (11) on a model railroad layout (4) includes a transponder device (11) and a transponder detector. The transponder device (11) is provided with a transponder current generating component and a transponder timing generator component; and the transponder detector is provided with a current sensor (5), a conditioning device (6), a decoding component (7) and a decision logic component (9). The transponder device and the transponder detector are arranged to detect a unique sequence of transponder current pulses (Ia) with controlled magnitudes and durations in the same direction as a reference track current at predefined time periods and to reject current echos (Ie). The system can be configured to operate with multiple information cources, and the transponder decoding component (7) can also be configured to decode an output of a transponder acknowledgement detector (13, 17) at predefined periods that are not related to an interrogation of transponder device address.
    • 19. 发明公开
    • Recording method for phase-change recording medium
    • AufzeichnungsverfahrenfüreinPhasenänderungsaufzeichnungsmedium
    • EP1117094A3
    • 2006-11-15
    • EP01100223.5
    • 2001-01-02
    • Mitsubishi Kagaku Media Co., Ltd.
    • Ohno, Takashi, c/o Yokohama Research Center
    • G11B7/006
    • G11B7/0062G11B7/00454G11B7/006G11B7/126G11B7/243G11B2007/0013G11B2007/24314G11B2007/24316
    • In a recording method for a rewritable optical recording medium, immediately before a prospective leading pulse (1) that is a time section where recording light of write power Pw irradiates a phase-change recording layer for the first time as a front low-power energy irradiating step, light of bias power Pb irradiates the phase-change recording layer for a first set time length yT as a preceding low-power energy irradiation step. And immediately after the leading pulse (1), the light of bias power Pb irradiates the phase-change recording layer for a set time length xT as a succeeding low-power energy irradiation step. The relation between x and y satisfies : 0.95 ≦ x+0.7∗y ≦ 2.5. The high-power energy beam irradiates the recording medium in such a manner that a period of irradiation for pulses subsequent to the leading pulse (1) is in a range of from 0.5T to 2.5T. The result is that it is possible to facilitate forming/erasing amorphous marks even in a phase-change recording medium devoid of a reflective layer, without any risk of narrowing the range of effective crystallization speeds.
    • 在可重写光记录介质的记录方法中,紧接在作为记录写入功率Pw的光的时间段的预期前导脉冲(1)首次作为前向低功率能量照射相变记录层 照射步骤,偏置功率Pb的光照射第一设定时间长度yT的相变记录层作为前一个低功率能量照射步骤。 并且在引导脉冲(1)之后,偏置功率Pb的光照射设定时间长度xT的相变记录层作为随后的低功率能量照射步骤。 x和y之间的关系满足:0.95‰| x + 0.7-y‰| 2.5。 大功率能量束以这样的方式照射记录介质,使得在超前脉冲(1)之后的脉冲的照射周期在0.5T至2.5T的范围内。 结果是,即使在没有反射层的相变记录介质中也可以促进无定形痕迹的形成/擦除,而不会使有效结晶速度的范围变窄。