KR200458238Y1 - A Sensing Apparatus of Leakage Current on Track Circuit - Google Patents

Abstract

The present invention is a device for detecting the leakage current of a track circuit consisting of a connection structure such as a rail joint insulator and a track insulator connected to the track and the track, so that when the insulation is defective, it can detect and detect the leakage current of the train. The present invention relates to a leakage current detecting device for a track circuit that can detect an entry state of a train due to an axle short circuit.

Description

A Sensing Apparatus of Leakage Current on Track Circuit

The present invention is a device for detecting the leakage current of a track circuit composed of a connection structure such as a rail joint insulator and a track insulator connected to the track and the track, so that it can detect and detect when the insulator is defective so that The present invention relates to a leakage current detecting device for a track circuit that can detect an entry state of a train due to an axle short circuit.

In general, the AF track circuit device is a device that automatically detects the position of the train in all tracks using the railroad and serves as a pipeline for transmitting information from the ground to the vehicle.

Such an AF track circuit device is configured to transmit track information on the ground and receive track information on a vehicle using AF (Audio Frequency).

In this AF track circuit device, the tracks are electrically separated by impedance bonds for each track, and the tracks are divided into oil-insulated sections and non-insulated sections.

The AF track circuit device transmits a preset frequency to one track circuit, and the output frequency is modulated by the track detection frequency, the on-vehicle signal frequency, and the train speed code frequency. It is received by the receiver.

The received signal detects the orbital frequency and speed code frequency through demodulation, compares the orbital frequency and code frequency with the transmitted signal, checks the reception level if the information is consistent, and operates the orbital relay if the level is normal. The track indicates that there is no abnormality.

In addition, when the train enters the track, it transmits the vehicle signal and transmits the speed code and information instructed by the ground.

Impedance bond is used to distinguish signal current and tram line retrace current by installing at the boundary point between track circuits, and generate the occupied or non-occupied signal of the train depending on whether the train is located on the track circuit. It is a device to perform the desired control function and is installed between rail edge or rail.

In the related art, a receiver for an A-F orbital circuit is disclosed in Korean Patent Laid-Open Publication No. 1999-11655, the configuration of which is as shown in Fig. 1, the transformer unit 20 for adjusting to a predetermined number of turns; A filter unit 21 for receiving a signal output from the transformer unit 20 and filtering the signal, and selecting one of four frequency signals from a transmitter and tuning to the signal; An amplifier 22 which receives the signal output from the filter unit 21 and amplifies the current signal level; A demodulator (23) for receiving a signal from the amplifier (22) and demodulating it to output a square wave having a predetermined width; An output filter unit 24 which receives a square wave output from the demodulator 23 and filters the square wave to pass only a direct current; It is made as a relay driver 25 for receiving a signal output from the output filter unit 24 to rectify it to output a signal that can excite the orbital relay.

However, the detector as described above has a disadvantage in that the insulation state of the insulation portion cannot be accurately determined by the magnetic field caused by the S bond when the S bond passes close.

An object of the present invention for improving the conventional problems as described above, by accurately detecting the rail track circuit insulation state irrespective of the proximity of the S-bond adjacent to the rail track circuit, by a detector consisting of a simple configuration The present invention provides a device for detecting leakage current of an orbital circuit through which an S-bond can pass, which enables not only battery consumption during the operation of an insulation sensor, but also rapid output of an indication value.

In order to achieve the above object, the present invention provides an on / off switch, a mode setting switch for setting an output current, a button for checking a battery voltage state, a button for displaying an on state of a power supply, and a buzzer operating when an indication value is higher than a set value. The output unit is provided with a lamp that is sequentially turned on according to the indication value; And,

It provides a leakage current detection device of the orbital circuit passing through the S-bond having a configuration connected to the output unit and comprising a control unit which is installed to compensate for gains in the vicinity of the S-bond.

In addition, the controller of the present invention is installed so as to use a similar gain up to the frequency of 9.5Khz ~ 16.5Khz, and the leakage current detection device of the orbital circuit passing through the S-bond to adjust the sensitivity of each step to unify the gain value. To provide.

As described above, according to the present invention, it is possible to accurately check the insulation state of the rail track circuit regardless of the proximity state of the S-bond adjacent to the rail track circuit, and the insulation state of the rail track circuit can be checked by the simple configuration of the detector. In addition, during the operation of the insulation sensor, as well as the consumption of the battery, it is possible to quickly output the indication value.

Fig. 1 is a block diagram showing a receiver for a conventional AFC track circuit.
Figure 2 is a perspective view showing a detector for the AF track circuit according to the present invention.
3 is a block diagram showing a detector for an AF track circuit according to the present invention.
Figure 4 is a block diagram showing the output of the detector for AF track circuit according to the present invention.
5 is a graph illustrating a gain compensation state of the AF track circuit detector according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a detector for the AF track circuit according to the present invention, Figure 3 is a block diagram showing a detector for the AF track circuit according to the present invention, Figure 4 is a detector for the AF track circuit according to the present invention Fig. 5 is a block diagram showing the output unit, and Fig. 5 is a graph showing the gain compensation state of the detector for AF track circuit according to the present invention.

The detector 100 of the present invention is provided with an output unit 200 on one side of the handle 135 while the terminal 133 is connected to the detector body 130, and the output unit 200 and the terminal 133 and The control unit 300 to be connected is installed inside the detector body 130.

At this time, the terminal 133 and the detector body 130 is connected through a multi-stage adjustment bar 150 is installed so that the interval adjustment is positioned when the adjustment nut 155 is rotated.

In addition, the output unit 200, the on / off switch 210, the mode setting switch 230 for setting the output current, the voltage state check button 250, the indication value is set while displaying the on state of the power supply The buzzer 290 is operated when the value is equal to or greater than the value, and the lamp 220 sequentially lighted according to the indication value.

The control unit 300 connected to the output unit is installed to connect the value input through the terminal 133 through the filtering / amplifying unit / rectifier 400 and the correction unit 500.

In addition, the controller 300 is installed to compensate for gains in the vicinity of the S-bond.

In addition, the control unit 300 of the present invention is installed to make a similar gain to the frequency of 9.5Khz ~ 16.5Khz to use.

In addition, the control unit 300 is provided to adjust the sensitivity of each step to unify the gain value.

It describes the operation of the present invention made of the configuration as described above.

2 to 5, the detector 100 of the present invention detects the insulation state of the track circuit by operating the on / off switch 210 of the output unit 200 provided in the detector body 130. do.

In addition, the terminal 133 and the detector body 130 are fixed and fixed in a state in which a gap between the terminal and the detector body is adjusted by moving the adjustment bar 150 of the multi-stage when the adjusting nut 155 is loosened and fixed. 100 matches the user's body type.

In addition, the measured value input through the terminal 133 is converted into a signal suitable for the output through the filtering / amplifier / rectifier 400 is output to the desired measured value through the correction unit 500.

At this time, when the terminal 133 installed on one side of the detector body 130 contacts the rail forming the track circuit, the insulation state and the leakage state can be checked through the lamp 220 of the output unit 200. do.

In addition, the lamp 220 is instructed to be sensed through the terminal 133 in such a way that the number of lighting is gradually increased when the plurality of lamps arranged along the arc are sequentially turned on while being connected to the controller 300. It turns on sequentially according to the value so that the magnitude of leakage can be known.

That is, a plurality of lamps are provided in one arc so as to be sequentially lit according to the indication value sensed through the terminal 133 and connected to the control unit 300 so as to be sequentially lit.

In addition, the button 250 is connected to the control unit 300 to check the voltage state while being provided with a lamp integrally to display the on-state of the power source, and when the button is pressed, the lamp 220 is sequentially charged according to the voltage charged. It turns on so that it is possible to check the state of charge.

In addition, the output unit 200 is installed so that the buzzer 290 is operated when the indication value is greater than or equal to the set value, and the buzzer sounds even if the instruction value is greater than or equal to the setting value. Is made possible.

In addition, the control unit 300 of the present invention, as shown in Figure 5, is installed so as to use a similar gain up to the frequency of 9.5Khz ~ 16.5Khz, the gain value is adjacent to the S-bond gain value of 100% When the distance between the insulation of the inner rail of the S bond and the S bond is about 30CM, the gain value is maintained about 40 to 50%, and the program that calculates the average value of about 70% as the effective gain value is input. .

That is, as shown in FIG. 5, the control unit 300 generates a gain when the S bond is adjacent to the track circuit in proportion to the distance between the rail and the S bond, and when the rail forming the track circuit is adjacent to the S bond, the gain is increased. Using the phenomenon of approaching 100% and becoming far from 0%, only 70% or more of S-bond's adjacent gain is judged to be a valid gain value, and the lower value is 0% to determine gain. Installed so as not to count.

When the operation of the mode setting switch 230 for setting the output current puts the detector on the normal rail, the controller 300 displays the total gain as 0 to 100 mA and sets the sensitivity to 100 mA as the sensitivity of the display gain. The mode provided in the switch 230, that is, adjusted to 1 to 3 are used.

That is, when the mode setting switch 230 is 1, the gain is displayed as 100 mA, the sensitivity is adjusted, and when the second stage is set, the gain is displayed as 80 mA. Done.

By adjusting the sensitivity by the operation of the mode setting switch 230 and the control unit 300 as described above, the gain display is set to 100 mA, and when placed on the insulation inside the S-bond, only 70% or more of the gain is used as interference. The display of the gain is not displayed and the output voltage of the mode setting switch 230 is set to correspond to the change of the S-bond generated in proportion to the rail length, and only 70% or more is used in comparison with the gain of the normal rail. .

With the above configuration, it is possible to check the insulation state of the track circuit regardless of the magnetic field strength of the S bond in the track circuit adjacent to the S bond.

100 ... detector 133 ... terminal
135 Handle 200 Output
230 ... Mode setting switch 290 ... Buzzer
300 control unit 530

Claims (7)

A terminal 133 for grounding and a detector body 130 to which the terminal is connected;
On / off switch, mode setting switch for setting output current, button for checking battery voltage status, button for displaying on state of power supply, buzzer operating when the indicated value is over the set value, lamp which is turned on sequentially according to the indicated value At least one of the output unit provided in the detector body; And,
And a control unit connected to the output unit, the control unit being configured to compensate for gain along the vicinity of the S bond while controlling the output unit. The leakage current detection device of a track circuit according to claim 1, wherein the control unit is installed so as to use a gain having a frequency of 9.5 kHz to 16.5 kHz similarly. The method of claim 1, wherein the control unit is installed so as to adjust the sensitivity of each step to unify the gain value, S bonds, characterized in that installed only to determine the effective gain value of 70% or more in the vicinity of the S bond passes. Leakage current detection device of track circuit. According to claim 1, wherein the terminal and the detector body, the leakage current detection of the track circuit passing through the S-bonds, characterized in that connected via a multi-stage adjusting bar which is positioned so that the interval adjustment is possible when the adjustment nut is rotated. Device. The method of claim 1, wherein the lamp of the output unit is sequentially turned on according to the indication value sensed so that a plurality of lamps are provided in one arc so as to be connected to the control unit so as to be sequentially turned on to be installed A leakage current detecting device for a track circuit through which an S bond passes. The method of claim 1, wherein the button of the output unit is integrally provided with a lamp to display the on state of the power supply,
Leakage current detection device of the track circuit passing through the S bond, characterized in that it is installed to be connected to the lamp through the control unit. 2. The leakage current detection device of a track circuit according to claim 1, wherein the buzzer of the output unit is connected to the control unit and installed to operate when the indication value is greater than or equal to a set value.

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