KR20100024197A - Transmitter and receiver module of audio frequency electrical joint apparatus with current limiting circuit - Google Patents

Abstract

PURPOSE: A transmitter and a receiver module of an audio frequency electrical joint apparatus with a current limiting circuit are provided to prevent an electric shock accident of a user by connecting a current limit circuit to a transmitting/receiving module. CONSTITUTION: A receive module of a non-insulated AF track circuit comprises an input transformer(30), amplifiers(36,42), demodulators(40,46), an AND gate(48), a relay drive unit(52), and a measurement port. The receive module receives the signal of the transmission module. The signal of the transmission module is transmitted through a track rail. A filter selectively blocks the low frequency and a high-frequency of an input transformer. The amplifier amplifies a signal. A demodulator modulates a frequency signal. The AND gate performs a logic operation of the pulse signal outputted from the demodulator. The measurement port measures output power of a receiver and a relay unit. A current limiting circuit is connected to the connection line of a secondary side of a box(4) and the input transformer. The current limiting circuit comprises a plurality of resistors.

Description

Transmitting / receiving module of non-isolated AF track circuit with current limiting circuit

The present invention relates to a transmission / reception module of a non-isolated AF track circuit having a current limiting circuit, and more particularly, by connecting a current limiting circuit having a resistance to a line of a measuring port connected to a secondary side of a transformer, thereby measuring a measurement port by a measurer. The present invention relates to a transmission / reception module of a non-isolated AF track circuit provided with a current limiting circuit such that an electric shock accident does not occur even when connected to the.

As is well known, a Swiss SIC insurance company analyzed the world's major accidents during the year (92 years) and found that on average 0.8 cases per day were sacrificed at 1,90 people. The number of accidents was 176 (35.9%) of natural disasters, with 55 road and rail accidents, 18.5%, 43 water accidents, 14.4%, 35 large fires, 11.7%, and 28 air accidents, 9.4. % Was net. More important than the number of accidents, however, is how much casualty or property damage is.

According to the data, the fatalities (dead) caused by such major accidents were followed by natural disasters caused by typhoons, floods, and earthquakes. Two to four times more casualties were reported.

In particular, most of the train accidents occur in underdeveloped countries, and the cause of the accident is that the crash or derailment of the train due to the failure of signal security accounts for the majority of the accidents. As described above, due to the characteristics of rail traffic that transports a large number of passengers and cargo, safety accidents caused by breakdowns of security devices can be catastrophic, devastating to national as well as individuals.

Here, the railway signal security device means each device related to the safe driving of a vehicle, that is, a signal device, an interlock device (mechanical linkage, electric relay interlock), a blockage device, an automatic train control device, and other devices. To operate automatically and systematically.

Among them, the track circuit device belonging to the electric relay interlock device is composed of track circuit transmitter device, bond, track insulation and track circuit receiver device, so that the vehicle running on the track cannot be detected and switched to another track. It plays a role in making electric circuits on a certain section of rail.

The conventional track circuit device includes a power module device, a transmitter device, a receiver device, and a relay device. In this case, the conventional track circuit receiver device uses a signal frequency transmitted from a transmitter device to position on a track of a vehicle. It is possible to grasp information, various fault signals, and track abnormalities. More specifically, the conventional track circuit receiver apparatus performs track circuit detection, track relay control, fuse detection, and various output voltage detection.

The conventional track circuit receiver device or the transmitter device is generally called a receiving module and a transmitting module, and the transmitting / receiving module is provided with a measuring port for detecting an output voltage and a relay output voltage generated through an input transformer, respectively. have.

However, if a problem occurs in the insulation of the input transformer of the module, a high voltage of more than the rated voltage of the secondary side is applied to the measurement port. there was.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described prior art, and connects a current limiting circuit in which resistance is connected to a line of a measuring port connected to the secondary side of a transformer so that an electric shock accident does not occur even if the measurer is connected to the measuring port. It is an object of the present invention to provide a transmission / reception module of a non-isolated AF track circuit having a current limiting circuit.

In order to achieve the above object, according to a preferred embodiment of the present invention in order to receive the signal of the transmission module transmitted through the track rail, matching the impedance between the track rail and the receiver device to minimize the loss of the signal frequency An input transformer for performing an interface; A filter for selectively blocking a low frequency and a high frequency scan of the input transformer; An amplifier for amplifying the signal passing through the filter; A demodulation unit for performing pulse code modulation to digitize a digital signal by receiving and modulating a frequency signal, which is an analog signal for orbital communication; An AND gate connected to an output side of each demodulator, for receiving a pulse signal output from the demodulator, and performing a logic operation; A relay driving unit for automatically controlling power interruptions for a later sensing circuit by a pulse signal of a receiver circuit; A receiving module of a non-isolated AF track circuit having a component or a circuit composed of a measuring port for measuring a receiver output voltage and a relay output voltage, the connection module being electrically insulated from the enclosure and the secondary side of the input transformer. Both ends of the current limiting circuit (3) through a plurality of resistors (3a) and (3a) are connected on the connection line of the port so that the total current becomes less than the electric shock current even when the input transformer is destroyed. A transmit / receive module of a non-isolated AF track circuit provided with a current limiting circuit is provided.

Preferably, the current limiting circuit 3 is provided with a transmitting / receiving module of a non-isolated AF track circuit with a current limiting circuit, characterized in that the circuit is a plurality of resistors 3a, 3a connected in parallel.

The transmission / reception module of the non-isolated AF track circuit provided with the current limiting circuit according to the present invention omits the grounding of the enclosure, so that the insulation of the input transformer is destroyed by surges and the like, even if a voltage higher than the rated voltage is applied to the secondary side of the transformer. The current of the enclosure is limited to less than the electric shock current by the current limiting circuit and the measuring port is also less than the electric shock current, there is an advantage that the body is safe to touch the enclosure or the measuring port.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

1 is a perspective view showing the external appearance of the receiving module of the non-isolated AF track circuit with a current limiting circuit according to an embodiment of the present invention, Figure 2 is a non-current limiting circuit according to an embodiment of the present invention Fig. 1 is a block diagram showing the circuit configuration of the receiving module of the isolated AF track circuit.

First, since the receiving module and the transmitting module of the non-isolated AF track circuit provided with the current limiting circuit according to the embodiment of the present invention are provided with the same measuring port, only the receiving module will be described below for the convenience of the present invention. Let's explain.

Receiving module 2 of the non-isolated AF track circuit with a current limiting circuit according to an embodiment of the present invention is provided with a housing (4) constituting the receiving module (2) by embedding the circuit and various boards and chips, On the front of the enclosure 4, a display panel 6 for displaying the driving state of the receiving module 2 is provided.

The display panel 6 is provided with reception sensitivity setting switches 24a, 24b, and 24c that can easily change the connection according to the reception sensitivity by easily switching the reception sensitivity. A fuse display section 8 for displaying; Receiver input power (voltage / current) display units 10 and 14 for indicating whether the receiver input voltage and current are normally applied; Relay voltage / operation status indicators 16 and 18 for indicating relay voltage status and operating status, display unit 12 for performing a restart operation of the monitoring device, whether the sensing device is loaded, and the receiver output voltage and relay output. Measurement ports 26 and 28 for measuring voltage are configured on the front side.

On the other hand, the receiving module 2 of the non-isolated AF track circuit with a current limiting circuit according to an embodiment of the present invention is the reception sensitivity setting switch (24a, 24b, 24c), the input transformer 30, the high pass filter ( High pass filter 32, low pass filter 34, amplifiers 36 and 42, filters 38 and 44, demodulators 40 and 46, and gate 48 and delay units 50, the relay drive part 52, and the display panel 6 are comprised.

The reception sensitivity setting switches 24a, 24b, and 24c are respectively configured in the primary windings of the input transformer 30 and are configured to control reception sensitivity by switching within different reception sensitivity bands.

The input transformer 30 is a means for performing a frequency interface to match the impedance between the track rail (not shown) and the receiver device 2 to minimize signal loss.

In addition, the high pass filter (32) is configured on the secondary side of the input transformer 30 as a means (HPF) for passing only the high frequency (High) and the low frequency (Low) to cut off, And a low pass filter (34) configured on the secondary side of the input transformer (30) to pass a low frequency (Low) and to block a high frequency (High). (LPF).

The amplifiers 36 and 42 are configured at the rear ends of the high pass filter 32 and the low pass filter 34, respectively, and the high pass filter 32 is provided. And a low pass filter (34) means for amplifying the signal.

The filters 38 and 44 are connected to the output terminals of the amplifiers 36 and 42 to filter noise signals included in the signals passing through the amplifiers 36 and 42, and are means for signal matching. (40, 46) (Demodulator) is a means for performing pulse code modulation for digitizing a digital signal by receiving and modulating a frequency signal, which is an analog signal for orbital communication.

The AND gate 48 is connected to an output side of each of the demodulators 40 and 46, and is a means for performing logic operation by receiving a pulse signal output from the demodulators 40 and 46. Reference numeral 50 is a means for being connected to the output side of the end gate 48 to perform a signal delay of 2 seconds or more, and the relay driving part 52 is connected to an output terminal of the delay part 50, It is a means for automatically controlling the power interruption to a later sensing circuit (not shown) by receiving a high signal and a high signal by a pulse signal of a receiver circuit.

The display panel 6 is a panel which is connected to a circuit of the receiver device and displays a driving state of the receiver device. The reception sensitivity setting section 24a can change the connection according to the reception sensitivity by easily switching the reception sensitivity. , 24b and 24c are connected to the primary side of the input transformer 30, respectively, and can set different reception sensitivity as they are switched.

In addition, a fuse display portion 8 is formed in the display panel 6 to display the fusion state of the fuse through the blinking of the LED. The fuse display portion 8 is a fuse (not shown) connected to the power supply end of the circuit. LED is connected to the ground side of the fuse to turn off the fuse, and the receiver input power (voltage / current) display unit 10 or 14 for indicating whether the receiver input voltage and current are normally applied is configured. The LED is connected to the power supply terminal of the circuit through a resistor, and the output side of the corresponding LED is grounded to be configured to light when a constant voltage and current are applied.

In addition, the relay voltage / operation state display units 16 and 18 for displaying the relay voltage state and the operation state have an LED connected to the output side of the relay driver 52 via a resistor, and the output side of the LED is grounded so that the relay is grounded. It is turned on during normal driving of the lamp, and is turned on when the normal voltage flows into the relay.

In addition, the display unit 12 for performing a restart operation of the monitoring device and whether or not the sensing device is loaded is configured, and the LED is connected to the load side of the monitoring device (not shown) connected to the relay driver 52. The grounding device is configured in parallel with the monitoring device, and is configured to turn on when the monitoring device is normally driven. The measurement ports 26 and 28 for measuring the receiver output voltage and the relay output voltage are configured.

At this time, since the measuring ports 26 and 28 are connected to the secondary side of the input transformer 30, when the insulation of the input transformer 30 is insulated, the measuring device 26 and 28 easily detects the voltage through the measuring ports 26 and 28. There was a risk of electric shock.

Therefore, the receiving module 2 of the non-isolated AF track circuit with the current limiting circuit according to the embodiment of the present invention constitutes the current limiting circuit 3 on the connection line of the measuring ports 26 and 28. .

More specifically, the current limiting circuit 3 in which a plurality of resistors 3a and 3a are connected in parallel to each of the electrically insulated enclosure 4 and the secondary side of the input transformer 30 is connected.

The current limiting circuit 3 is connected to the parallel connection circuit of other resistors even if some of the resistors are disconnected so that the total current becomes less than the electric shock current even when a voltage higher than the rated voltage of the secondary side of the input transformer 30 is applied to one end thereof. Each of the resistors 3a and 3a is selected so that the current becomes less than the electric shock current.

Thus, by omitting the ground in the housing 4 of the receiving module 2, even if the insulation of the input transformer 30 is destroyed by a surge or the like, even if a voltage higher than the rated voltage is applied to the secondary side of the transformer 30, Since the current of the enclosure 4 is limited to the electric shock current or less by the current limiting circuit 3 and the measurement ports 26 and 28 also become the electric shock current or less, the enclosure 4 or the measurement ports 26 and 28. Safe to touch your body.

As described above, according to the present invention, the current flowing through the enclosure 4 or the measurement ports 26 and 28 is always kept below the electric shock current by the current limiting circuit 3, so that the grounding of the enclosure 4 is safe even if omitted. .

Further, according to the present invention, the current limiting circuit 3 is composed of a parallel connection circuit of a plurality of resistors 3a and 3a, and even if some of the resistors are disconnected, the current limiting circuit 3 is connected to the housing 4 or the measuring ports 26 and 28. The flowing current is further limited to the electric shock current or less by other resistors, further increasing safety.

On the other hand, the transmission and reception module of the non-isolated AF track circuit with a current limiting circuit according to an embodiment of the present invention is not limited only to the above embodiment, but various modifications can be made without departing from the technical gist thereof. .

1 is a perspective view showing the external appearance of a receiving module of a non-isolated AF track circuit having a current limiting circuit according to an embodiment of the present invention;

FIG. 2 is a block diagram illustrating a circuit configuration of a receiving module of a non-isolated AF track circuit having a current limiting circuit according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

3: current limiting circuit, 3a, 3b: resistance,

4: enclosure, 8: fuse display,

10: receiver input power display unit (voltage), 12: monitoring unit check unit,

14: Receiver input power display (current), 16: relay voltage display,

18: Relay operation status display section, 26, 28: Receive entry / exit measurement port,

24a, 24b, 24c: Receive sensitivity setting switch.

Claims (2)

An input transformer for performing a frequency interface to match a impedance between the track rail and a receiver device to minimize a signal loss to receive a signal of a transmission module transmitted through the track rail; A filter for selectively blocking a low frequency and a high frequency scan of the input transformer; An amplifier for amplifying the signal passing through the filter; A demodulation unit for performing pulse code modulation to digitize a digital signal by receiving and modulating a frequency signal, which is an analog signal for orbital communication; An AND gate connected to an output side of each demodulator, for receiving a pulse signal output from the demodulator, and performing a logic operation; A relay driving unit for automatically controlling power interruptions for a later sensing circuit by a pulse signal of a receiver circuit; In a receiving module of a non-isolated AF track circuit having a component or a circuit composed of a measuring port for measuring the receiver output voltage and the relay output voltage, the interior of the enclosure, The breakdown of the input transformer is connected by connecting both ends of the current limiting circuit 3 through the plurality of resistors 3a and 3a to the electrically insulated housing, the secondary side of the input transformer and the connection line of the connection port, respectively. The transmission / reception module of the non-isolated AF track circuit with a current limiting circuit, wherein all currents are equal to or less than the electric shock current. The transmission / reception module according to claim 1, wherein the current limiting circuit (3) is a circuit in which a plurality of resistors (3a) (3a) are connected in parallel.

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