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Subsection split phase automatic-passing system of electric railway and split phase automatic-passing method thereof

An automatic over-phase, electrified railway technology, applied in power lines, transportation and packaging, vehicle components, etc., can solve the problem that the current transformer cannot detect the train passing signal, reduce the train speed and capacity, and the train cannot receive current. , to achieve the effect of reliable uninterrupted power, automatic over-phase, simple structure and control, and fewer actions

Active Publication Date: 2014-03-12
SOUTHWEST JIAOTONG UNIV +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

If the electric train does not receive current before the phase separation, but needs to receive current when it reaches the neutral section. At this time, the two switches connected to the neutral section are in the off state, and the current transformer cannot detect the train passing signal. As a result, the train cannot receive current when passing through the entire neutral section, resulting in power supply blind spots, reducing train speed and traffic capacity
At the same time, the application still requires the switching action of two switches when the train in the sub-area automatically passes the phase, and the operation is relatively complicated.

Method used

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  • Subsection split phase automatic-passing system of electric railway and split phase automatic-passing method thereof
  • Subsection split phase automatic-passing system of electric railway and split phase automatic-passing method thereof
  • Subsection split phase automatic-passing system of electric railway and split phase automatic-passing method thereof

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Embodiment

[0036] figure 1 , 2 It shows that a specific embodiment of the present invention is an automatic phase separation system for electrified railway divisions, including catenary one T1, catenary two T2, and neutral section T0, and catenary one T1 passes through electric segment one S1 Connected with the neutral section T0, catenary two T2 is connected with the neutral section T0 through the electric section two S2, wherein: the catenary one T1 is connected in series with the current transformer one H1 near the electric section one S1; the current transformer two H2 and normally open switch one K1 are connected in series and then connected in parallel on electric segment one S1; current transformer three H3 and normally closed switch two K2 are connected in series and then connected in parallel on electric segment two S2; current transformer one H1 Pantograph Detector 1 V1 is installed on the pillar of S1, Pantograph Detector 2 V2 is installed on the pillar at Electric Section 1 ...

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Abstract

The invention discloses a subsection split phase automatic-passing system of an electric railway and a split phase automatic-passing method of the subsection split phase automatic-passing system of the electric railway. According to the subsection split phase automatic-passing system of the electric railway, a first catenary and a second catenary are connected with a neutral section through a first electric subsection and a second electric subsection respectively, a first current transformer is connected to the portion, close to the first electric subsection, of the first catenary in series, a second current transformer and a first normally-open switch are connected in series, and then are connected to the first electric subsection in parallel, and a third current transformer and a second normally-closed switch are connected in series, and then are connected to the second electric subsection in parallel; a first voltage transformer and a second voltage transformer are connected with the tail end of the first catenary and the tail end of the second catenary respectively; a first pantograph detector is installed on a supporting column of the first current transformer, a second pantograph detector is installed on the first electric subsection, and a third pantograph detector is installed on the second electric subsection; the first current transformer, the second current transformer, the third current transformer, the first pantograph detector, the second pantograph detector, the third pantograph detector, the first voltage transformer, the second voltage transformer and the first normally-open switch are connected with a control unit. The subsection split phase automatic-passing system of the electric railway is simple in structure, small in investment and convenient to implement, subsection split phase automatic-passing operation of the electric railway can be achieved completely and more reliably, and the lockout function is achieved when the subsection split phase automatic-passing system is abnormal.

Description

technical field [0001] The invention relates to an automatic phase separation system and an automatic phase separation method for electrified railway divisions. Background technique [0002] my country's electrified railway generally adopts single-phase power frequency AC system. In order to make the three-phase load of the power system as balanced as possible, the electrified railway often adopts the scheme of alternating phase sequence and phase-separated partition power supply. The adjacent power supply intervals at the phase-separation partition are divided by air or insulators to form insulating electrical phase separation, referred to as electrical phase separation or phase separation. [0003] In order to prevent electric locomotives from burning out catenary suspension components due to arcing through phase separation, and even causing accidents such as phase-to-phase short circuit, when the train is over-phase-splitting, the driver needs a series of manual operation...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60M3/04
Inventor 李群湛赵元哲吴积钦吴命利李子晗易东李亚楠周福林张丽艳
Owner SOUTHWEST JIAOTONG UNIV
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