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    • 1. 发明申请
    • MAGNETIC FIELD SHIELDING DEVICE OF ON-LINE ELECTRIC VEHICLE
    • 在线电动车的磁场屏蔽装置
    • WO2011081461A3
    • 2011-11-03
    • PCT/KR2010009525
    • 2010-12-29
    • KOREA ADVANCED INST SCI & TECHSUH NAM PYOCHANG SUN HEUNGCHO DONG HOYIM JAE HACHUN YANG BAE
    • SUH NAM PYOCHANG SUN HEUNGCHO DONG HOYIM JAE HACHUN YANG BAE
    • B60L11/18H02J17/00
    • B60L9/005B60L2200/26
    • Disclosed is a magnetic field shielding device of an on-line electric vehicle. More specifically, in order to shield unnecessary magnetic fields generated in a power supply device and a shield device, a magnetic field shielding device for the power supply section and the power collection section of an on-line electric vehicle shields the power collecting device of the power collecting section and the power supply device of a power supply railway line simultaneously. The magnetic field shielding device includes: stainless steel punching plates buried under a road at both sides of the power supply section to be separated from each other by a predetermined distance, and having a structure in which a plurality of perforations are formed; and metal brushes provided at both sides of the power collecting section, formed of one or more twisted steel wires facing the ground surface, and electrically connected to the extension sections of the stainless steel punching plates. Therefore, it is possible to effectively shield the magnetic fields generated in the power supply section by the steel punching plate and the metal brushes which are mounted in the power supply section and the power collecting section of an on-line electric vehicle.
    • 公开了一种在线电动车辆的磁场屏蔽装置。 更具体地说,为了屏蔽在电源装置和屏蔽装置中产生的不必要的磁场,用于电力供应部和在线电动车辆的电力收集部的磁场屏蔽装置屏蔽集电装置的集电装置 集电部和供电铁路线的供电装置同时进行。 所述磁场屏蔽装置包括:不锈钢冲孔板,所述不锈钢冲孔板被埋设在所述电源部的两侧的道路上,并相互隔开预定距离,并且具有形成有多个穿孔的结构; 以及设置在所述集电部两侧的金属刷,所述金属刷由面向地面的一条或多条绞合钢丝形成,并且电连接到不锈钢冲孔板的延伸部分。 因此,可以有效地屏蔽由安装在电力供应部和在线电动车辆的集电部中的钢冲板和金属刷在电力供应部中产生的磁场。
    • 2. 发明申请
    • NON-CONTACT SEGMENT BLOCK FOR ELECTRIC VEHICLE
    • 电动车辆用非接触式分段装置
    • WO2011081479A3
    • 2011-11-03
    • PCT/KR2010009569
    • 2010-12-30
    • KOREA ADVANCED INST SCI & TECHSUH NAM PYOCHANG SUN HEUNGCHO DONG HOYIM JAE HA
    • SUH NAM PYOCHANG SUN HEUNGCHO DONG HOYIM JAE HA
    • B60L11/18H02J17/00
    • B60L11/182B60L11/1831B60L11/1838Y02T10/7005Y02T10/7072Y02T90/121Y02T90/122Y02T90/125Y02T90/128Y02T90/14Y02T90/163
    • The present invention opens a feeding segment for electric vehicles. In more detail, the present invention relates to a non-contact feeding segment block for online electric vehicles, wherein the segment block and a main power supply means for supplying power to the same are embodied in a non-contact method without using a connector in a method for supplying power to an electric vehicle in a magnetic induction method with one or more feeding segment blocks embedded under the road. The feeding device of an online electric vehicle comprises a main power line segment block which is connected to an inverter and generates a magnetic field when recognizing the moving of the vehicle; and a feeding segment block which is installed in the upper part of the main power segment block at a fixed distance and supplies power for the magnetic field to the vehicle. According to the embodiment of the present invention, it is able to facilitate installation and minimize failure, and reduce operation costs since various sizes of the feeding segment block can be mass-produced at a factory and a mechanical connection means such as a connector can be minimized according to the request of the customer by physically separating the segment feeding block and the main power line of a conventional online electric vehicle for the formation of the main power segment block.
    • 本发明打开了电动车辆的馈送段。 更详细地说,本发明涉及一种用于在线电动车辆的非接触式供电段模块,其中,用于向其供电的分段模块和主供电装置以非接触方式实施,而不使用连接器 一种以磁感应方法向电动车辆供电的方法,其中一个或多个馈送段模块嵌入在道路下方。 一种在线电动车辆的馈电装置,包括:主动力线段模块,其连接到逆变器并且在识别车辆的移动时产生磁场; 以及以固定距离安装在主动力分段块的上部中并且为磁场向车辆供电的供电分段块。 根据本发明的实施例,由于各种尺寸的供给段块可以在工厂大量生产并且诸如连接器的机械连接装置可以是根据本发明的实施例,所以能够便于安装并且使故障最小化并且降低操作成本 通过物理分离传统的在线电动车辆的分段供电块和主电力线以形成主动力分段块,根据客户的要求最小化。