KR102151040B1 - Rolling stock ground fault detection and railway vehicle having the same - Google Patents

Abstract

The present invention relates to a ground fault detection circuit and a railroad vehicle including the same. According to an embodiment of the present invention, a ground bus bar connected to a battery negative line of a railroad vehicle and a battery positive line of a railroad vehicle are connected to the battery positive line of a railroad vehicle and electrically connected to the ground busbar by selecting one of a plurality of power transmission paths, A low voltage ground detection switch including a plurality of switch contacts forming a plurality of power transmission paths, a first disconnection terminal block connecting the ground bus bar and the low voltage ground detection switch, and a return voltage flowing into the ground bus bar. A ground fault detection circuit comprising a second connection disconnection terminal block for controlling the low voltage ground detection switch, comprising: a first switch contact connecting a battery positive electrode of a railway vehicle and the ground bus bar; A second switch contact connecting the battery positive electrode and the ground of the railway vehicle; A third switch contact connecting the ground busbar and a ground; A fourth switch contact connecting the battery positive electrode of the railway vehicle and the ground bus bar; And a fifth switch contact connected to the ground. Includes.

Description

Ground fault detection circuit and railway vehicle including the same {ROLLING STOCK GROUND FAULT DETECTION AND RAILWAY VEHICLE HAVING THE SAME}

The present invention relates to a ground fault detection circuit and a railroad vehicle including the same.

In general, electric railroads use overhead wires or third rails and rails as power transmission paths to receive power necessary for driving railroad vehicles, and the types of power supply to railroad vehicles are largely the DC power supply method and AC power supply. It is divided in a way.

The DC power supply system is equipped with substations in every appropriate section to stably supply the prescribed voltage to the end of a long line, and the variable power station protects various facilities when a ground fault occurs due to an unexpected accident during vehicle operation. To ensure public safety, an overcurrent circuit breaker was installed to block overcurrent caused by a ground fault.

In the existing railroad car, the ground fault of the positive (+) line of the battery could be detected simply through the overcurrent circuit breaker, but this is very dangerous as it can immediately stop the function of the vehicle. Also, the ground fault of the negative (-) line of the battery could not be detected.

Korean Patent Publication No. 10-2004-0079743 (2004.09.16)

The present invention provides a ground fault detection circuit capable of detecting a ground fault without dropping an overcurrent circuit breaker even when a ground fault occurs, and a railroad vehicle including the same.

In addition, the present invention provides a ground fault detection circuit capable of not only easily finding a ground fault when a ground fault occurs in a railroad vehicle, but also preventing an accident in advance by finding a hidden ground fault, and a railway vehicle including the same. will be.

The ground fault detection circuit of the present invention is connected to the ground bus bar connected to the battery negative line of the railway vehicle and the battery positive line of the railway vehicle, and is electrically connected to the ground bus bar by selecting one of a plurality of power transmission paths. A low voltage ground detection switch including a plurality of switch contacts forming a plurality of power transmission paths, a first disconnection terminal block connecting the ground bus bar and the low voltage ground detection switch, and control of the inflow of a return voltage to the ground bus bar A ground fault detection circuit including a second disconnection terminal block, wherein the low voltage ground detection switch comprises: a first switch contact connecting a battery positive electrode of a railway vehicle and the ground bus bar; A second switch contact connecting the battery positive electrode and the ground of the railway vehicle; A third switch contact connecting the ground busbar and a ground; A fourth switch contact connecting the battery positive electrode of the railway vehicle and the ground bus bar; And a fifth switch contact connected to the ground. Includes.
The low voltage ground detection switch may set one of a negative mode, a test mode, an off mode, and a positive mode according to an operation of at least one of the first switch contact to the fourth switch contact.
The low voltage ground detection switch may set the test mode to check normal operation of the light emitting diode by operating the first switch contact and the fourth switch contact in a closed state.
The low voltage ground detection switch may set the negative mode to confirm a ground fault of a negative battery line by operating the second switch contact in a closed state.
The low voltage ground detection switch may set the positive mode to confirm a ground fault of a battery positive line by operating the third switch contact in a closed state.
The low voltage ground detection switch may set the off mode to perform periodic inspection by operating the fifth switch contact in a closed state.

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The present invention can detect the ground fault without affecting the operation of the railway vehicle when there is a ground fault in the railway vehicle.

In addition, the present invention can prevent an accident of a railroad vehicle by finding a hidden ground fault in advance.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram showing the configuration of a ground fault detection circuit according to an embodiment of the present invention.
2 is a diagram showing a grounding method of a general ground fault detection circuit.
3 is a diagram showing a grounding method of a ground fault detection circuit according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail based on a preferred embodiment of the present invention. However, the following examples are only examples to aid understanding of the present invention, and thus the scope of the present invention is not reduced or limited.

1 is a diagram showing the configuration of a ground fault detection circuit according to an embodiment of the present invention.

Referring to FIG. 1, a ground fault detection circuit 100 according to an embodiment of the present invention is connected to a ground bus bar 110 connected to a battery negative line of a railway vehicle, a battery positive line of a railway vehicle, and a plurality of power transmission paths A first disconnection terminal block 130 connecting the low voltage ground detection switch 120 electrically connected to the ground bus bar 110 by selecting one of the ground bus bars 110 and the low voltage ground detection switch 120 , A second disconnection terminal block 140 for controlling the inflow of a return voltage to the ground bus bar 110, and at least one of the front and rear ends of the low voltage ground detection switch 120 to display a ground fault detection state. It may include a light emitting diode 150.

In more detail, the ground bus bar 110 may be formed of a conductor connected to a battery negative line of a railway vehicle.

The low voltage ground detection switch 120 may detect various types of ground faults according to a user's manipulation. The low voltage ground detection switch 120 may set an operation mode of the switch to OFF at normal times and perform inspection on a regular basis. In addition, the low voltage ground detection switch 120 may check whether the light emitting diode 150 is normally operated through a test mode. In addition, the low voltage ground detection switch 120 may set the operation mode of the switch to positive (POS) and check the ground fault of the positive electrode line of the battery by lighting the light emitting diode 150.

The low voltage ground detection switch 120 may include a plurality of switch contacts 121, 122, 123, 124, and 125 that form a plurality of power transmission paths according to a switching operation.

Specifically, the low voltage ground detection switch 120 includes a first switch contact 121 connecting the battery positive electrode and the ground bus bar 110 of the railway vehicle, and a second switch contact 122 connecting the battery positive electrode and the ground of the railway vehicle. ), a third switch contact 123 connecting the ground bus bar 110 and the ground, a fourth switch contact 124 connecting the battery positive electrode of the railway vehicle and the ground bus bar 110, and a fifth connected to the ground. Switch contact 125 may be included.

Here, the low voltage ground detection switch 120 is divided into negative (NEG), test (TEST), off (OFF), and positive (POS) operation modes as shown in Table 1 below, and each operation mode is a first switch contact 121 ) To the fifth switch contact 125 may be set according to each operation.

Switch contact Switch operation mode NEG TEST OFF POS One X 2 X 3 X 4 X 5 X

For example, in order to set the operation mode to TEST, the low voltage ground detection switch 120 may operate the first switch contact 121 and the fourth switch contact 124 in a closed state. In addition, in order to set the operation mode to negative (NEG) or positive (POS), the low voltage ground detection switch 120 operates the second switch contact 122 in a closed state or the third switch contact 123 ) Can be operated in the Close state. In addition, in order to set the operation mode to OFF, the low voltage ground detection switch 120 may operate the fifth switch contact 125 in a closed state.

The low voltage ground detection switch 120 may detect various types of ground faults according to the user's manipulation of the switch. Such a low voltage ground detection switch 120 may perform periodic inspection while leaving an operation mode of the switch in an OFF state during normal times. In addition, the low voltage ground detection switch 120 may check whether the light emitting diode 150 is normally operated through a test mode. In addition, the low voltage ground detection switch 120 may check the ground fault of the battery positive line through the lighting of the light emitting diode 150 by positioning the switch operation mode as positive (POS). At this time, by turning down at least one switch of the first disconnection terminal block 130 and the second disconnection terminal block 140 one by one, it is possible to know in which line the ground fault has occurred. In addition, the ground fault of the battery negative line can be detected in the same manner as the ground fault of the battery positive line.

Hereinafter, a grounding method of a grounding detection circuit according to an embodiment of the present invention will be compared with a general grounding method with reference to FIGS. 2 and 3.

2 is a diagram illustrating a grounding method of a general ground fault detection circuit, and FIG. 3 is a diagram illustrating a grounding method of a ground fault detection circuit according to an embodiment of the present invention.

The conventional ground fault detection circuit is connected to the ground box 500 by using a ground cable 300 as shown in FIG. 2, which may mean grounding with the vehicle body 200 of a railway vehicle.

However, the ground fault detection circuit according to an embodiment of the present invention is made in a floating grounding method, and as shown in FIG. 3, a high voltage ground plate 400 or a plurality of grounding boxes within the vehicle body 200 of a railway vehicle Not connected with 500.

Accordingly, in the present invention, when there is a ground fault in a railway vehicle, it does not affect the operation of the railway vehicle and detects a ground fault so that it may not interfere with the business operation of the railway vehicle.

In addition, the present invention can prevent an accident of a railroad vehicle by finding a hidden ground fault in advance.

Although the technical idea of the present invention has been described above with reference to the accompanying drawings, this is illustrative of a preferred embodiment of the present invention and does not limit the present invention. In addition, it is a clear fact that anyone of ordinary skill in the art can perform various modifications and imitations without departing from the scope of the technical idea of the present invention.

100: ground fault detection circuit
110: ground busbar
120: low voltage ground detection switch
130,140: disconnect terminal block
200: body
300: ground cable
400: high voltage ground plate
500: ground box

Claims (10)

delete delete delete The ground busbar connected to the battery negative line of the railway vehicle and the battery positive line of the railway vehicle are connected to the battery positive line of the railway vehicle and electrically connected to the ground busbar by selecting one of a plurality of power transmission paths, forming a plurality of power transmission paths according to the switching operation A low-voltage ground detection switch including a plurality of switch contacts, a first disconnection terminal block connecting the ground busbar and the low-voltage ground detection switch, and a second disconnection terminal block controlling the inflow of a return voltage to the ground busbar. In the ground fault detection circuit comprising a,
The low voltage ground detection switch may include: a first switch contact connecting a positive electrode of a battery of a railway vehicle and the ground bus bar; A second switch contact connecting the battery positive electrode and the ground of the railway vehicle; A third switch contact connecting the ground busbar and a ground; A fourth switch contact connecting the battery positive electrode of the railway vehicle and the ground bus bar; And a fifth switch contact connected to the ground. Containing, ground fault detection circuit.
The method of claim 4,
The low voltage ground detection switch sets one of a negative mode, a test mode, an off mode, and a positive mode according to an operation of at least one of the first switch contact to the fourth switch contact.
The method of claim 5,
The low voltage ground detection switch sets the test mode to confirm normal operation of the light emitting diode by operating the first switch contact and the fourth switch contact in a closed state.
The method of claim 5,
The low voltage ground detection switch operates the second switch contact in a closed state to set the negative mode to confirm a ground fault of a negative battery line.
The method of claim 5,
The low voltage ground detection switch sets the positive mode to confirm a ground fault of a battery positive line by operating the third switch contact in a closed state.
The method of claim 5,
The low voltage ground detection switch sets the off mode to perform periodic inspection by operating the fifth switch contact in a closed state.
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