KR101011799B1 - Balise inspection tool using the self-power resources - Google Patents

Abstract

The present invention can transmit telegrams to the balis and receive the telegrams from the balis simply by placing the balis check tool on the balis, an independent power source that can be operated using an independent power source without the aid of an external power source. It relates to a bale check tool using, the power management unit 150 for supplying and charging the power transmitted from the outside to the circuit; A telepower transmitter 110 for receiving power from the power management unit 150 to operate the balis and transmitting the balis to the balis; A telegram receiver 120 for receiving a telegram signal emitted by Bally through a telegram loop antenna; An FSK demodulator (130) for demodulating the telegram signal modulated with the FSK signal and converting the telegram signal into a digital signal; And a telegram decoder 140 for receiving and interpreting a telegram of the encrypted state demodulated by the FSK demodulator and transmitting the telegram to the user terminal.

Bally's, Independent Power, Inspection Tool, Telegram

Description

BALISE INSPECTION TOOL USING THE SELF-POWER RESOURCES}

The present invention relates to a Bally check tool using an independent power source for programming or modifying Bally information and checking it without disassembling the Bally that delivers information to the train in the ground control room.

Recently, the Gyeongbu Line, Honam Line, High Speed Railroad, Subway Construction, etc., have installed Bally's on rails.

In order to check the failure of the balis already installed and operating on the track, it is necessary to operate a special vehicle equipped with a balse reader (motor car, etc.), so it takes a considerable time to check the balis. This is necessary, there is a problem that requires a large number of personnel due to the inspection vehicle operation.

Due to these problems, there is a need for a device that can easily and quickly maintain the ballis at the site where the ballis is operated.

Accordingly, an object of the present invention for solving the above problems is to provide a bale check tool using an independent power source to enable the bale check tool alone without an external power source.

Another object of the present invention is to provide a bale check tool using an independent power source to recognize the information of the bales through the air gap without a separate cable (wire) connection between the bale and the check tool.

Still another object of the present invention is to provide a bale check tool using an independent power supply to complete the installation of the bale check tool by simply placing it on the balse without adding a separate device to the bale check tool. .

Still another object of the present invention is to provide a bale check tool using an independent power source to enable operation at low power in order to increase the continuous use time of the bale check tool.

Still another object of the present invention is to provide a balis check tool using an independent power source that determines whether balis is broken by reading information of balis already installed and operating through air-gap.

The present invention by the above-mentioned means means the power management unit 150 for supplying and charging the power transmitted from the outside to the circuit; A telepower transmitter 110 for receiving power from the power management unit to operate the balis and transmitting the balis to the balis; A telegram receiver 120 for receiving a telegram signal emitted by Bally through a telegram loop antenna; An FSK demodulator (130) for demodulating the telegram signal modulated with the FSK signal and converting the telegram signal into a digital signal; The FSK demodulator is achieved by the Bally check tool using an independent power source, characterized in that it comprises a telegram decoder 140 that receives and interprets the telegram of the encrypted state demodulated and transmitted to the user terminal.

Bally check tool using the independent power supply of the present invention by the above-mentioned problem solving means can send a telegram to the balis and receive the telegram from the balis simply by placing the balis check tool on the balis, It can be operated by using independent power source without the help of external power source, and it can be used even in rainy weather with IP67 waterproof function.

In addition, the Bally Check Tool maintains a weight of about 6.2Kg, allowing users to easily check the Bally's already installed and running.

In addition, the power management unit used in the BALLS check tool enables the BALLS check tool to be used without connecting an external power source and maintains the charging time of the rechargeable battery within 2 hours, enabling rapid charging, limiting the charging current to 1A, and charging When complete, the charge current can be cut off to protect the bale check tool from overcharging.

In addition, the Bally Check Tool has a shield plate that electrically shields between the loop antenna that emits the telepower and the PCB, thus enhancing the reliability of the equipment by protecting the Bally Check tool from electromagnetic radiation emitted from the telepower. .

BRIEF DESCRIPTION OF THE DRAWINGS It is a circuit block diagram of the bale check tool which used the independent power supply of this invention.

As seen in FIG. Bally check tool 100 of the present invention is a telepower transmitter 110, telegram receiver 120, FSK demodulator 130, telegram decoder 140, power management unit 150, rechargeable battery 160 The communication port 170 for the user interface, the status display LED 180 for displaying the battery status, the Bally wired connection 190, the user terminal 10, the shield plate 101 is composed of.

The telepower transmitter 110 includes a clock generator, a band pass filter, a power amplifier, and a telepower loop antenna to function to transmit power required by the balis to operate the balis.

To this end, the telepower transmitter 110 has a clock generator of 27.095 MHz and a passive band pass filter for making it a sine wave, as shown in FIG.

27.095Mhz, which is made of sine wave through the band pass filter, is amplified through a power amplifier composed of FETs and transmits telepower to balis through a telepower loop antenna.

The telegram receiver 120 receives a telegram signal emitted by the balis through a telegram loop antenna and transmits the signal to the FSK demodulator 130 as shown in FIG. 3.

To effectively receive the low level telegram signal emitted by the balis, the telegram loop antenna achieves L / C resonance at 4.234 MHz and its impedance is adjusted from 50 ohms to 600 ohms.

As shown in FIG. 3, the FSK demodulator 130 demodulates a telegram signal modulated with an FSK signal to convert the signal into a digital signal that can be recognized by the telegram decoder 140.

The FSK demodulator has a built-in L / C tank and demodulates using a demodulation method using a phase difference of the FSK signal, and the comparator converts the demodulated signal to a TTL level that can be recognized by the telegram decoder.

The telegram decoder 140 receives and interprets the telegram demodulated by the FSK demodulator.

The telegram demodulated by the FSK demodulator 130 is encrypted so that the user cannot know its contents.

The telegram decoder 140 interprets the encrypted telegram in real time and transmits the contents to the user terminal 10.

The power management unit 150 is configured to include a power controller and a rechargeable battery to function to manage the power required by the ballistics check tool as shown in FIG.

The ballistics checking tool may be operated by connecting an external power source with the help of a power controller, or may be operated using an independent power source without an external power source.

For this reason, the ballistics check tool has a built-in rechargeable battery therein, and the power management unit 150 operates the ballistics check tool using an external power source when an external power source is connected, and simultaneously charges the rechargeable battery. When it is not connected, it has a function to automatically switch to operate the Bally's check tool using the power of the rechargeable battery.

In addition, the power management unit 150 has a function to automatically adjust to use the external power of a wide range of DC10V ~ DC28V.

The communication port 170 has a function of maintaining the communication between the balis check tool 100 and the user terminal 10.

To this end, the communication port 170 provides two communication methods.

One is RS232 (171), which supports communication speeds up to 38400bps, and the other is Ethernet (172) of 10 Mpbs.

The ballistics checking tool 100 selects one of these two communication methods and transmits the telegram received from the ballistics 20 to the user terminal 10 and also from the user terminal 10. You can also receive control commands.

The status display LED 180 is connected to the power controller as shown in Figure 4 and serves to display the power state of the rechargeable battery 160.

At this time, three states of charging, charging completion, and discharging were displayed.

The wired connection unit 190 has a function of checking the bales by directly connecting the balis and the balse check tool with a cable as shown in FIG. 5.

That is, by connecting the valley 20 and the valley check tool 100 by wire, power is supplied to the valley 20 through this cable.

In addition, there is a function of checking the integrity of the programmed telegram by programming a new telegram on the ballis 20 and reading it again through the wired connection unit 190.

In addition, the wired connection portion 190 to satisfy the IP67 to be used even in rainy weather.

The user terminal 10 is a function that is connected in communication with the check check tool as shown in Figure 5 so that the user can effectively use the check check tool 100.

For example, user terminal can be used to check balis through user program in Windows environment.

The shield plate 101 electrically shields the PCB embedded in the balis check tool from the telegram loop antenna and the telepower loop antenna, thereby protecting the balis check tool from electromagnetic waves emitted from the telepower. It can increase the reliability of the equipment.

By protecting the various configurations of the above-described bale check tool from electromagnetic waves generated from the telegram loop antenna and the telepower loop antenna, the reliability of the bale check tool can be ensured.

As described above, in the present development, the Bally check tool can transmit a telegram to the Bally and receive a telegram from the Bally simply by placing the Bally check tool on the Bally as shown in FIG. It can be operated by using independent power source without help and also has waterproof function of IP67 and can be used in rainy weather.

Balancing check tool maintains the weight of about 6.2Kg, so the user can easily carry and check the balisy that is already installed and operated.

The power management unit used in the ballistics checking tool has the advantage of enabling rapid charging by maintaining the charging time of the rechargeable battery within 2 hours and enabling the ballistics checking tool to be connected without an external power source. In addition, the charging current is limited to 1A, and when the charging is completed, the charging current is cut off to protect the check tool against overcharging.

When the power flows to the power management unit 150 through a connection with an external power supply, the ballistics check tool is operated and at the same time, the rechargeable battery is charged therein.

When the external power or the charging power is supplied to the telepower transmitter 110, the power is converted into power for operating the balis.

Therefore, the power becomes 27.095Mhz made of sine wave through the band pass filter through the clock generator of the telepower transmitter 110, and is amplified through a power amplifier composed of FETs and converted into telepower to convert the telepower loop antenna. It is sent to Bally through.

In the state where power is supplied to the balis check tool and the balis as described above, the telegram signal radiated from the balis is received through the telegram loop antenna of the telegram receiver 120 and transmitted to the FSK demodulator 130. do.

The telegram signal modulated by the FSK signal is demodulated by the FSK demodulator 130 to become a digital signal that can be recognized by the telegram decoder 140.

That is, the FSK signal is demodulated through the phase difference by the L / C tank of the FSK demodulator and then transferred to the comparator, and the demodulated signal is converted into a TTL level that can be recognized by the telegram decoder in the comparator.

The telegram signal demodulated by the FSK demodulator is encrypted and transmitted to the telegram decoder 140 and interpreted in real time, and the contents are transmitted to the user terminal 10.

At this time, the interpreted telegram signal is transmitted to the user terminal through RS232 or Ethernet through the communication port 170.

1 is an overall circuit configuration of a bale check tool using an independent power supply of the present invention,

2 is a circuit diagram of the telepower transmitter of FIG. 1;

3 is a configuration diagram of F and demodulator of FIG.

4 is a configuration diagram of a power management unit of FIG. 1;

5 is a state in which the Bally check tool of FIG.

* Description of the drawing symbols *

100: Bally check tool 110: Telepower transmission unit

120: telegram receiver 130: FSK demodulator

140: telegram decoder 150: power management unit

160: rechargeable battery 170: communication port

180: status display LED 190: wired connection

Claims (9)

A power management unit 150 for supplying and charging power transmitted from the outside to the circuit; A telepower transmitter 110 for receiving power from the power management unit 150 to operate the balis and transmitting the balis to the balis; A telegram receiver 120 for receiving a telegram signal emitted by Bally through a telegram loop antenna; An FSK demodulator (130) for demodulating the telegram signal modulated with the FSK signal and converting the telegram signal into a digital signal; And a telegram decoder (140) for receiving and interpreting the telegram of the encrypted state demodulated by the FSK demodulator and transmitting the telegram to the user terminal. The method of claim 1, The tele power transmission unit 110, A clock generator for generating a clock signal of 27.095 MHz when external power or charging power is supplied from the power manager 150; A passive band pass filter for making the clock signal into a sine wave; A power amplifier configured with an FET to amplify the 27.095 MHz clock signal made of the sine wave; Bally check tool using an independent power supply, characterized in that consisting of a telepower loop antenna for transmitting the amplified clock signal to the balis. The method of claim 1, The telegram receiver 120 constitutes a telegram loop antenna to receive a low level telegram signal emitted by the balis, and forms an L / C resonance at 4.234 MHz and its impedance is between 50 ohms and 600 ohms. Bally check tool using independent power supply, characterized in that the adjustment. The method according to claim 1 or 3, The FSK demodulator, An L / C tank that demodulates a telegram signal by using a phase difference of the telegram signal in the form of the FSK signal received from the telegram loop antenna; And a comparator for converting the demodulated signal to a TTL level that can be recognized by a telegram decoder. The method of claim 1, The power management unit Bally check tool using an independent power source, characterized in that automatically adjusts to use an external power supply in the region of DC10V ~ DC28V. The method of claim 1, Further comprising a communication port 170 between the telegram decoder 140 and the user terminal so that the telegram signal transmitted from the telegram decoder 140 is transmitted to the user terminal using any one of RS232 or Ethernet. Bally check tool using independent power source, characterized in that the configuration. The method of claim 1, The power management unit 150, A power controller connected to an external power source to receive power and supply the power to a circuit; Bally check tool using an independent power source, characterized in that it comprises a rechargeable battery that receives the external power transmitted from the power controller to charge it. The method of claim 7, wherein Bally check tool using an independent power supply, characterized in that it further comprises a status display LED (180) connected to the power controller to display the power state of the rechargeable battery. 3. The method of claim 2, And further comprising a shield plate 101 for shielding the bale check tool from electromagnetic waves emitted from the telepower to electrically shield the PCB embedded in the bale check tool from the telegram loop antenna and the telepower loop antenna. Balancing tool using independent power source.

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