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    • 3. 发明申请
    • CIRCUIT BREAKER LATCHING MECHANISM
    • 电路断路器锁定机构
    • US20130228428A1
    • 2013-09-05
    • US13766963
    • 2013-02-14
    • SIEMENS AKTIENGESELLSHAFT
    • Thomas BUNKSiegfried PIRKER
    • H01H9/20
    • H01H9/20H01H71/1054H01H71/505H01H71/525H01H2071/506H01H2071/508
    • A circuit breaker includes a latching mechanism including a switching mechanism operatively connected to a tensioning element, and an unlatching mechanism by which, in response to a tripping signal, the tensioning element can be transferred from a tensioned state into an at least substantially relaxed state. The tensioning element is indirectly coupled to a tension lever which can be locked or tripped as a function of a position of a blocking pawl of the unlatching mechanism and which includes a blocking mechanism by which, in an OFF position of the latching mechanism in which the switch is open and the tensioning element is tensioned, tripping of the tension lever is prevented despite a tripping signal. The blocking mechanism of the tension lever includes a rocker arm which is fastened movably on the tension lever.
    • 断路器包括闩锁机构,其包括可操作地连接到张紧元件的切换机构,以及解锁机构,通过该解锁机构,张紧元件可以响应于脱扣信号从张紧状态转移到至少基本上松弛的状态。 张紧元件间接地联接到张力杆上,该张力杆可以根据解锁机构的阻挡爪的位置而被锁定或脱扣,并且包括阻挡机构,通过该阻塞机构,在闩锁机构的OFF位置, 开关打开,张紧元件被拉紧,尽管有跳闸信号,也可以防止拉杆的跳闸。 张力杆的阻挡机构包括可移动地紧固在张力杆上的摇臂。
    • 4. 发明授权
    • Switching Regulator
    • 开关稳压器
    • US07589985B2
    • 2009-09-15
    • US11630877
    • 2005-06-23
    • Helmuth OrlogiReinhart Weber
    • Helmuth OrlogiReinhart Weber
    • H02M3/24
    • H02M1/32H02M3/156
    • A switching regulator is configured as a fixed-voltage regulator and contains a voltage divider. The voltage divider is supplied with a voltage signal available from a regulator output via a first connection. The voltage divider feds an output signal to the driver circuit functioning as a regulating variable that is compared to a reference voltage. The switching regulator further contains a monitoring device which impinges the driver circuit with a voltage signal exceeding the reference voltage as a new regulating variable depending on the voltage signal applied to the first connection.
    • 开关稳压器配置为固定电压调节器,并包含分压器。 分压器通过第一个连接提供一个稳压器输出的电压信号。 分压器将输出信号作为与参考电压进行比较的调节变量的驱动电路。 开关调节器还包括监视装置,其根据施加到第一连接的电压信号,将驱动电路的电压信号超过参考电压作为新的调节变量。
    • 6. 发明授权
    • Postioning apparatus for tracked transport vehicles with linear motor
propulsion
    • 具有线性电机推进的跟踪运输车辆的定位装置
    • US3937431A
    • 1976-02-10
    • US505258
    • 1974-09-12
    • Herwig Guntner
    • Herwig Guntner
    • B60L13/03B60L15/00H02K41/025H02P25/06B61L3/00
    • B60L15/005B60L2200/26Y02T10/645
    • This invention concerns a positioning device for a transport vehicle, constrained to travel along a track. These transport vehicles are propelled by linear motor propulsion. Along the track are positioning points typically located at stations for entering and exiting the vehicle. Associated with the means for linear motor propulsion, stationary in the track at the positioning points are two switches, means to detect the velocity of the vehicle and a logic control circuit, so that acceleration, deceleration and zero strength excitation signals can be applied to the linear motor in the vehicle so as to cause the vehicle to come to rest at the positioning point. The apparatus controls a vehicle travelling in either direction along the track.
    • 本发明涉及用于运输车辆的定位装置,其被限制为沿轨道行进。 这些运输车辆由直线电动机推进推进。 沿着轨道是通常位于用于进入和离开车辆的站的定位点。 与用于线性电动机推进的装置相关联,在定位点处的轨道中静止的是两个开关,用于检测车辆速度和逻辑控制电路的装置,使得可以将加速度,减速度和零强度激励信号应用于 车辆中的线性电动机,以使车辆在定位点停下来。 该装置控制沿轨道沿任一方向行驶的车辆。
    • 9. 发明授权
    • Coil assembly for guiding a magnetic object in a workspace
    • 用于在工作空间中引导磁性物体的线圈组件
    • US08452377B2
    • 2013-05-28
    • US13254132
    • 2010-02-12
    • Johannes Reinschke
    • Johannes Reinschke
    • H01F5/00A61B5/05A61B6/00A61M25/00
    • A61B34/73A61B34/70A61B2034/732
    • A coil assembly for guiding a magnetic object, such as an endoscopy capsule, in a workspace, wherein the magnetic object exhibits a magnetic dipole, includes different versions of coil assemblies having a number of individual coils and corresponding activation units for feeding current to the respective coils. The coil arrangement can have exactly eleven individual coils and eight power amplifiers, nine individual coils and seven power amplifiers, eight individual coils with six or seven power amplifiers, six individual coils with five power amplifiers, and five individual coils with five power amplifiers.
    • 一种用于在工作空间中引导诸如内窥镜胶囊的磁性物体的线圈组件,其中所述磁性物体表现出磁偶极子,包括具有多个单独线圈的不同形式的线圈组件和用于将电流馈送到相应的线圈组件的相应激活单元 线圈 线圈装置可以具有正好十一个单独的线圈和八个功率放大器,九个单独的线圈和七个功率放大器,八个具有六个或七个功率放大器的单独线圈,六个具有五个功率放大器的单独线圈以及五个具有五个功率放大器的单独线圈。
    • 10. 发明授权
    • Method and device for carrying out a thermodynamic cyclic process
    • 用于进行热力学循环过程的方法和装置
    • US08272217B2
    • 2012-09-25
    • US10558894
    • 2005-04-13
    • Jörg Lengert
    • Jörg Lengert
    • F01K25/06
    • F01K25/065
    • In accordance with the invention, to reduce the complexity of a cycle process, a liquid working medium flow (13) is brought up to an increased pressure and through part condensation of an expanded working medium flow (12) a first partly vaporized working medium flow (15) is created. Through further vaporization of the first partly vaporized working medium flow (15) with heat which is transferred from an external heat source (20), a second at least partly vaporized working medium flow (18) is created. In this second at least partly vaporized working medium flow (18) the vapor phase (10) is separated from the liquid phase (10), subsequently the energy of the vapor phase (10) is converted into a usable form and an expanded vapor phase (11) created. The expanded vapor phase (11) is mixed with the liquid phase (19) and the expanded working medium flow (12) is formed. Through complete condensation of the partly condensed, expanded working medium flow (12a) the liquid working medium flow (13) is obtained in its turn.
    • 根据本发明,为了降低循环过程的复杂性,使液体工作介质流(13)升高到压力,并通过膨胀的工作介质流(12)的部分冷凝,第一部分蒸发的工作介质流 (15)被创建。 通过从外部热源(20)转移的热量使第一部分蒸发的工作介质流(15)进一步蒸发,产生第二至少部分蒸发的工作介质流(18)。 在该第二至少部分蒸发的工作介质流(18)中,气相(10)与液相(10)分离,随后将气相(10)的能量转化为可用形式和膨胀气相 (11)创建。 将膨胀的气相(11)与液相(19)混合,并形成膨胀的工作介质流(12)。 通过部分冷凝的膨胀的工作介质流(12a)的完全冷凝,依次获得液体工作介质流(13)。