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    • 1. 发明公开
    • Insulating support flange for current loop system
    • 用于电流回路系统的绝缘支撑法兰
    • EP2492929A3
    • 2017-12-20
    • EP12157122.8
    • 2012-02-27
    • Rockwell Automation Technologies, Inc.
    • MacLennan, David ScottWentzell, Mariana
    • H01F27/06H01F30/04H01F38/28H01B17/26H01B17/58H01B11/00H03K17/10
    • H01F27/324H01F27/06H01F30/04H01F38/28H01F2038/305H03K2217/0081Y10T16/05
    • The present invention relates generally to systems and methods for isolating a current loop conductor of a current loop system of a pre-charge circuit from a plurality of current transformers disposed around the current loop conductor. In particular, the embodiments described herein include an insulating support flange having a first tubular section, a second tubular section radially disposed around the first tubular section and connected to the first tubular section via a solid annular section extending radially outward from the first tubular section to a first end of the second tubular section, an annular base extending radially outward from a second end of the second tubular section, and a plurality of prongs extending axially from or near to an outer circumference of the annular base, wherein each of the prongs comprises an end face that is angled toward the second tubular section. The insulating support flanges are configured to mate with each other along an axial direction of the current loop conductor. In addition, each of the plurality of current transformers is installed (i.e., held in place) between the prongs, annular base, and second annular section of its respective insulating support flange. As such, a fixed open air space between the first and second annular sections of the insulating support flanges isolates the current transformers from the current loop conductor, thereby reducing the possibility of discharge between the current transformers and the current loop conductor.
    • 本发明总体上涉及用于从布置在电流回路导体周围的多个电流互感器中隔离预充电电路的电流回路系统的电流回路导体的系统和方法。 特别地,本文描述的实施例包括绝缘支撑凸缘,该绝缘支撑凸缘具有第一管状部分,第二管状部分,该第二管状部分径向布置在第一管状部分周围并且经由从第一管状部分径向向外延伸的实心环形部分连接到第一管状部分, 所述第二管状部分的第一端,从所述第二管状部分的第二端径向向外延伸的环形基部,以及多个从所述环形基部的外周轴向延伸或接近所述环形基部的外周延伸的叉,其中每个所述叉包括 朝向第二管状部分倾斜的端面。 绝缘支撑凸缘被构造成沿着电流回路导体的轴向相互配合。 此外,多个电流互感器中的每一个均安装(即保持在其位置上)其各自的绝缘支撑凸缘的插脚,环形基座和第二环形部分之间。 这样,绝缘支撑法兰的第一和第二环形部分之间的固定的敞开空间将电流互感器与电流环路导体隔离,从而降低了电流互感器和电流环路导体之间放电的可能性。
    • 3. 发明公开
    • MULTI-PULSE ELECTROMAGNETIC DEVICE INCLUDING A LINEAR MAGNETIC CORE CONFIGURATION
    • 多脉冲电磁装置,包括线性磁芯配置
    • EP3193345A1
    • 2017-07-19
    • EP16195663.6
    • 2016-10-26
    • The Boeing Company
    • Peck, James L., Jr
    • H01F30/04H01F30/06H01F27/245
    • H01F27/2823H01F27/245H01F30/04H01F30/06H01F41/02
    • An electromagnetic device may include an elongated core in which a magnetic flux in generable. The electromagnetic device may also include a first channel formed through the elongated core and a second channel formed through the elongated core. An inner core member is provided between the first channel and the second channel. The electromagnetic device may also include a primary winding wound around the inner core member and a plurality of secondary windings wound around the inner core member. An electric current flowing through the primary winding generates a magnetic field about the primary winding and the magnetic field is absorbed by the elongated core to generate the magnetic flux in the elongated core. The magnetic flux flowing in the elongated core causes an electric current to flow in each of the plurality of secondary windings.
    • 电磁装置可以包括其中可生成磁通量的细长芯。 电磁装置还可以包括穿过细长芯形成的第一通道和穿过细长芯形成的第二通道。 内芯构件设置在第一通道和第二通道之间。 电磁装置还可以包括缠绕在内芯件上的初级绕组和缠绕在内芯件上的多个次级绕组。 流过初级绕组的电流在初级绕组周围产生磁场,并且磁场被细长磁芯吸收以在细长磁芯中产生磁通量。 在细长芯中流动的磁通量导致电流在多个次级绕组中的每一个中流动。
    • 10. 发明公开
    • Insulating support flange for current loop system
    • IsolerenderStützflanschfürStromkreissystem
    • EP2492929A2
    • 2012-08-29
    • EP12157122.8
    • 2012-02-27
    • Rockwell Automation Technologies, Inc.
    • MacLennan, David ScottWentzell, Mariana
    • H01F27/06H01F30/04H01F38/28
    • H01F27/324H01F27/06H01F30/04H01F38/28H01F2038/305H03K2217/0081Y10T16/05
    • The present invention relates generally to systems and methods for isolating a current loop conductor of a current loop system of a pre-charge circuit from a plurality of current transformers disposed around the current loop conductor. In particular, the embodiments described herein include an insulating support flange having a first tubular section, a second tubular section radially disposed around the first tubular section and connected to the first tubular section via a solid annular section extending radially outward from the first tubular section to a first end of the second tubular section, an annular base extending radially outward from a second end of the second tubular section, and a plurality of prongs extending axially from or near to an outer circumference of the annular base, wherein each of the prongs comprises an end face that is angled toward the second tubular section. The insulating support flanges are configured to mate with each other along an axial direction of the current loop conductor. In addition, each of the plurality of current transformers is installed (i.e., held in place) between the prongs, annular base, and second annular section of its respective insulating support flange. As such, a fixed open air space between the first and second annular sections of the insulating support flanges isolates the current transformers from the current loop conductor, thereby reducing the possibility of discharge between the current transformers and the current loop conductor.
    • 本发明一般涉及用于从设置在电流回路导体周围的多个电流互感器隔离预充电电路的电流回路系统的电流回路导体的系统和方法。 特别地,本文所述的实施例包括具有第一管状部分的绝缘支撑凸缘,围绕第一管状部分径向设置的第二管状部分,并且经由从第一管状部分径向向外延伸的固体环形部分连接到第一管状部分 所述第二管状部分的第一端,从所述第二管状部分的第二端径向向外延伸的环形基部,以及从所述环形基部的外周向轴向延伸或靠近所述环形基部的外圆周延伸的多个尖头,其中每个所述插脚包括 端面朝向第二管状部分成角度。 绝缘支撑凸缘构造成沿着电流环导体的轴向彼此配合。 此外,多个电流互感器中的每一个被安装(即保持就位)在其各自的绝缘支撑凸缘的插脚,环形基座和第二环形部分之间。 因此,绝缘支撑凸缘的第一和第二环形部分之间的固定露天空间将电流互感器与电流环路导体隔离,从而减小了电流互感器和电流环路导体之间放电的可能性。