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    • 14. 发明申请
    • Anodic Electrodeposition Paint, Production And Use Thereof, Use Of Lamellar Metal Pigment, And Coated Object
    • 阳极电沉积涂料,其生产和使用,使用层状金属颜料和涂层物体
    • US20080210570A1
    • 2008-09-04
    • US11913001
    • 2006-05-02
    • Thomas SchusterHarald WeissChristian SchrammRobert MaulCarolin Schmidt
    • Thomas SchusterHarald WeissChristian SchrammRobert MaulCarolin Schmidt
    • C09D5/44
    • C09C1/62C08K3/08C08K9/08C09C1/644C09D5/36C09D5/448C09D5/4484C09D7/62C09D7/69
    • The invention relates to an anodic electrophoretic paint comprising at least one binding agent for anodic electrophoretic paint and an aqueous liquid medium, which anodic electrophoretic paint additionally contains at least one platelet-type metal pigment coated with a coating composition, wherein (a) the platelet-type metal pigment has a d50 value of the cumulative size distribution curve of from 4 to 35 μm and is selected from the group consisting of leafing metal pigments, metal pigments coated with synthetic resin(s), and mixtures thereof, and (b) the coating composition is a coating composition having an organic backbone containing at least 10 carbons and possessing one or more functional groups for effecting adhesion or binding to the pigment surface, wherein the functional group is selected from the group consisting of phosphonic acids, phosphonates, phosphoric acids, phosphate esters, sulfonates, polyalcohols, and mixtures thereof, and (c) the coating composition exhibits acidic properties. The invention relates to a process for the production of the electrophoretic paint and to uses thereof.
    • 本发明涉及一种阳极电泳涂料,其包含至少一种用于阳极电泳涂料的粘合剂和一种含水液体介质,该阳极电泳涂料还含有涂覆有涂料组合物的至少一种片状金属颜料,其中(a) 型金属颜料具有4至35μm的累积尺寸分布曲线的平均值,并且选自漂浮金属颜料,涂覆有合成树脂的金属颜料,以及 其混合物,和(b)涂料组合物是具有含有至少10个碳原子并具有一个或多个用于实现与颜料表面的粘合或结合的官能团的有机骨架的涂料组合物,其中所述官能团选自 的膦酸,膦酸盐,磷酸,磷酸酯,磺酸盐,多元醇及其混合物,和(c)涂料组合物ex 喜欢酸性。 本发明涉及生产电泳漆的方法及其用途。
    • 15. 发明申请
    • Low-Power Wireless Beaconing Network Supporting Proximal Formation, Separation and Reformation
    • 支持近端形成,分离和改造的低功率无线信标网络
    • US20080095126A1
    • 2008-04-24
    • US11871553
    • 2007-10-12
    • Ronald MahanyJoseph KublerThomas Schuster
    • Ronald MahanyJoseph KublerThomas Schuster
    • H04Q7/24
    • H04W4/80H04W8/005H04W48/08H04W52/0216H04W52/0219H04W52/0274H04W76/19H04W84/12H04W84/18Y02D70/142Y02D70/144
    • A low power wireless communication (personal LAN) system includes a plurality of wireless devices with each wireless device including a radio transceiver. The radio transceiver may take the form of an insertable card that fits within a slot in the wireless device. The plurality of wireless devices establishes a wireless network with at least two of the plurality of wireless devices share beaconing responsibilities to coordinate operation of the wireless network. The beaconing responsibilities may be shared on a round robin basis or may be shared according to the operating characteristics of the wireless devices with some wireless devices assuming greater beaconing responsibilities than other of the wireless devices. One of the plurality of wireless devices may separate from the wireless network to become a separated wireless device. In such case, at least one of the wireless devices attempts to reestablish communications with the separated wireless device. Further, the separated wireless device may also attempt to reestablish communication with the wireless network. At least two of the wireless devices may separate from the wireless network to form an alternate wireless network separate from the wireless network. In such case, the at least two wireless devices of the alternate network may rejoin the wireless network after the separation. The wireless devices may establish the wireless network when proximate to one another and operating at a lower power level while continuing operation at a higher power level. The wireless devices establish the wireless network when in a first proximity to one another and continue to communicate while in a second proximity to one another.
    • 低功率无线通信(个人LAN)系统包括多个无线设备,每个无线设备包括无线电收发器。 无线电收发机可以采用适合于无线设备中的时隙内的可插入卡的形式。 所述多个无线设备建立无线网络,所述多个无线设备中的至少两个共享信标责任以协调无线网络的操作。 信标职责可以以循环方式共享,或者可以根据具有一些无线设备的无线设备的操作特性来共享,假设比其他无线设备具有更大的信标责任。 多个无线设备中的一个可以与无线网络分离成为分离的无线设备。 在这种情况下,至少一个无线设备尝试重新建立与分离的无线设备的通信。 此外,分离的无线设备还可以尝试重新建立与无线网络的通信。 无线设备中的至少两个可以与无线网络分离以形成与无线网络分离的备用无线网络。 在这种情况下,备用网络的至少两个无线设备可以在分离之后重新加入无线网络。 无线设备可以在彼此靠近并且在较低功率水平下操作时建立无线网络,同时在较高功率水平下继续操作。 无线设备在彼此彼此接近时建立无线网络,并且在彼此彼此接近的同时继续通信。
    • 16. 发明申请
    • Thin Covering Aluminum Pigments, Process For The Production Thereof, And Use Of Said Aluminum Pigments
    • 薄覆盖铝颜料,其制造方法和所述铝颜料的使用
    • US20070199478A1
    • 2007-08-30
    • US10552116
    • 2004-04-02
    • Thomas SchleglStefan TrummerFrank HengleinRalph SchneiderThomas Schuster
    • Thomas SchleglStefan TrummerFrank HengleinRalph SchneiderThomas Schuster
    • C09D11/00A61K8/00C09C1/62
    • C09D11/50A61K8/26A61K2800/43A61Q3/02B22F1/0011C01P2004/54C01P2006/12C09C1/64C09C1/644C09D5/028C09D5/032C09D5/36C09D11/037
    • The invention relates to aluminum pigments which are at least partially coated with lubricants, wherein said aluminum pigment have a) a water coverage between 40,000 and 130,000 cm2/g, b) a mean thickness h of less than 100 to 30 nm, as calculated from the water coverage as well as the h50 value determined from the cumulative breakthrough curve of a scanning electron microscope thickness count, c) as determined by a scanning electron microscope thickness count, a relative width of the distribution of thicknesses Δh between 70% and 140%, which is calculated on the basis of the corresponding cumulative breakthrough curve of the relative frequencies according to the formula Δ ⁢   ⁢ h = 100 × h 90 - h 10 h 50 , , d) an aspect ratio d50/h of more than 200, e) a roughness value of from 0.30 to 0.9, calculated from the specific surface area, as determined by the BET test method, and the water coverage according to the following formula BET value/2×water coverage. The invention also relates to a process for the manufacture of said aluminum pigments and to the use thereof.
    • 本发明涉及至少部分涂覆有润滑剂的铝颜料,其中所述铝颜料具有a)水覆盖在40,000和130,000cm 2 / g之间,b)平均厚度h小于 根据扫描电子显微镜厚度计数的累积穿透曲线确定的从水覆盖率计算的100至30nm,以及由扫描电子显微镜厚度计数确定的c) 根据公式 Delta > d)宽高比d <50> / h 大于200,e)通过BET测试方法测定的比表面积计算的粗糙度为0.30至0.9,根据下式BET值/ 2x水覆盖率的水覆盖率。 本发明还涉及制造所述铝颜料的方法及其用途。
        • 20. 发明授权
        • System and method for detecting and influencing the phase position of an internal combustion engine
        • 用于检测和影响内燃机的相位的系统和方法
        • US06484691B1
        • 2002-11-26
        • US09763744
        • 2001-02-26
        • Thomas SchusterIngolf RuppAndreas Roth
        • Thomas SchusterIngolf RuppAndreas Roth
        • F02P1704
        • F02D41/009F02D41/3809F02D2041/0092F02D2041/389F02D2200/0602
        • The invention relates to an apparatus and a method for controlling and regulating an internal combustion engine 6; via a transducer disk 16 on the crankshaft 12 and a pickup 15, the annular position of the crankshaft 12 is ascertained continuously, with gasoline direct injection valves, in which the fuel injection valves 5 receive the fuel 1 from a pressure-imposing electric fuel pump 9 via a fuel rail 7. A control unit 25 evaluates the output signals of the pickup 15 to determine the annular position and to ascertain the rpm; depending on the annular position, the control unit 25 trips injection and/or ignition pulses. According to the invention, to detect the phase relationship of the engine 6, the pressure course in the fuel rail sensor 8 is evaluated. Upon blowback at compression counterpressure of fuel-air mixture into one of the injection valves in the event of an incorrect phase relationship offset by 360° KW, this leads to a significant pressure increase in the fuel rail sensor 8; the fuel rail sensor signal is delivered to the control unit 25, and as a result by means of the control unit a reverse synchronization by 360° KW of the ignition and injection is effected, and the affected fuel injection valve 5 into which the blowback takes place is immediately closed.
        • 本发明涉及一种用于控制和调节内燃机6的装置和方法; 通过曲轴12上的传感器盘16和拾取器15,利用汽油直接喷射阀连续地确定曲轴12的环形位置,其中燃料喷射阀5从施加压力的电动燃料泵接收燃料1 控制单元25评估拾取器15的输出信号以确定环形位置并确定转速; 取决于环形位置,控制单元25跳过喷射和/或点火脉冲。 根据本发明,为了检测发动机6的相位关系,评价燃料轨道传感器8中的压力路线。 在错误相位关系偏移360°KW的情况下,在燃料 - 空气混合物的压缩反压力回吹到一个喷射阀中时,这导致燃料轨道传感器8的显着的压力增加; 燃料轨道传感器信号被传送到控制单元25,结果通过控制单元实现360°KW的点火和喷射的反向同步,并且进行回吹的受影响的燃料喷射阀5 地方立即关闭。