KR200391211Y1 - AI Lantern Detector - Google Patents

Abstract

The present invention is to supply power to the ballast when the abnormal condition such as low current is detected, over current is supplied, or short circuit occurs due to failure of lamps installed in tunnels or roads. The present invention relates to an artificial light column detector which is configured to automatically recover when the supply is cut off and return to a normal state, and to be displayed through a light emitting diode according to the kind of abnormal state including normal operation.

The above invention is

A power supply unit for supplying AC220V power supplied from the outside to the lamp through the ballast or supplying the internal operating power;

A signal processor for detecting an overcurrent, a lamp failure, and a short circuit through two current transformers with respect to the power input through the power supply unit;

A microprocessor for determining whether a state such as an overcurrent, a lamp failure or a short circuit, and the like is reduced to a normal state and whether the power is supplied to or disconnected from the lamp through a ballast or controlling an internal operation determined by the detection result of the signal processor;

Under the control of the microprocessor, a light emitting diode display unit may be configured to notify a normal state, an overcurrent, a lamp failure or a failure caused by a short circuit.

Description

AI Columnar Detector {omitted}

The present invention relates to an artificial light column detector, and in detail, abnormal conditions such as low current is detected, over current is supplied, or a short circuit occurs due to failure of a lamp of a column installed in a tunnel or a road. In this case, the artificial light column detector which cuts off the power supply to the lamp ballast and automatically restores it when it returns to normal state and displays it through the LED according to the kind of abnormal state including normal operation. It is about.

In general, it is well known that the column headlights installed in tunnels or roads have a lot of passages through which lamps may fail, overcurrent flow, or short circuits, and there should be a quick recovery in the event of an accident. .

However, even if managed efficiently, it is not possible to manage a lot of lamps completely, so when an abnormal condition occurs, prompt processing and recovery should be preceded accordingly.

One type of such power interruption / recovery equipment is an earth leakage circuit breaker, which reacts to an abnormal current such as over current, earth leakage current, short circuit current, and the like so that a magnetic switch (or relay) for power supply is operated in response to an abnormal current such as an over current, a leakage current, or a short circuit current. The power is cut off so that it is no longer supplied to the load.

In addition, the abnormal current may be transient due to a transient state caused by a specific cause, may be temporarily restored to a normal state, or may be permanent due to a short circuit accident that cannot be restored to a normal state.

The earth leakage breaker is equipped with a recovery manual operation lever. When the power is cut off, the user operates the recovery manual operation lever to switch the contact of the magnetic switch to the input state connecting the inlet contact and the load contact. In case of electric current, the power line is normally restored, so the circuit breaker normally reapplies the power to the load side, but if the fault current is permanent, the cause of the fault current is not cured. The magnetic switch is cut off again by abnormal current, so power is not supplied to the load side. In this case, if the abnormal state is permanent, the magnetic switch should be kept in the disconnected state, find out the cause of the abnormal state, remove it, and then reinsert the manual operation lever for recovery.

In addition, the earth leakage breaker may not be installed only in a consumer such as a home, but may be installed to protect electrical facilities of a rare place such as a pumping station, an unmanned relay station, and a street lamp. The earth leakage breaker installed in such a place has a problem that a person must visit the earth leakage breaker site in order to insert a manual operation lever for recovery to recover when the power is cut off by an abnormal current.

In order to improve this problem, when a certain time elapses after the power is cut off in abnormal state, the magnetic switch is automatically turned on, and in case of temporary abnormal state, power is supplied and permanent abnormality is not restored to normal state. In the state of the art, an automatic power off / recovery device has been developed that allows the magnetic switch to be turned off.

Utility Model Registration No. 20-0285754 is an example of such an automatic power off / recovery device.

Power is supplied or cut off from the power supply side to the load side by the blocking operation (OFF) or on (ON) of the magnetic switch.

The load current detection unit detects the overcurrent state and the short circuit state by the voltage and current of the power line on the load side, and transmits the control signal to the main control unit. The operation was performed.

In addition, the power line has an emergency recovery part composed of a power line and a switch branched in parallel with a magnetic switch to be able to input emergency recovery power by the switch, and operate the switch manually to supply power to the load side regardless of the operation of the main power control unit. Or it can be blocked.

In addition, a limit switch is connected to the main control unit in order to input the number of recovery times for the magnetic switch to be re-inserted in the state of power failure due to an abnormal state, and a delay time for re-insertion after being cut off. The groove is formed so that the driver can change input from 1 unit to 9 units.

In addition, the lightning protector was fixedly installed on the same PCB board provided with a down transformer, power stabilizer, signal safety amplifier, load current detector, and earth leakage detector.

In addition, an operation unit provided with a reset key and the like and a display unit for displaying delay time, recovery frequency and the like are provided on the outer surface of the device.

Such a conventional automatic power off / recovery device includes the following problems.

In the permanent abnormal condition, the operator should perform maintenance work. As soon as the worker removes the cause of the abnormal condition, the load side power line is switched to the energized state, so the worker has a risk of electric accident during the operation.

Lightning protector should be installed to be easy to replace because there is a high risk of lightning damage, but it is difficult to repair because it is installed on the same PCB board as other electronic circuit components.

The limit switch can be changed from 1 unit to 9 units by the driver, so the change range is limited.

The emergency recovery unit composed of a power line and a switch branched in parallel with the magnetic switch has to directly turn on / off the power line to the switch, which increases the volume occupied by the switch and may be damaged by arc or heat.

The lightning protector is installed in front of the DC power converter that converts AC power into DC power. It only protects against lightning that flows into the DC power converter. A magnetic switch operates to block the lightning that flows into the input side. There was a problem that the number of power outages increase.

The present invention is to solve the above-described problems, such as the failure of the lamp lamp installed in the tunnel or road failure or low current is detected, overcurrent supplied or short circuit occurs When a condition occurs, it cuts off the power supply to the lamp ballast and automatically restores it when it is returned to normal state and displays it through the LED according to the kind of abnormal state including normal operation. Its purpose is to provide an intelligent columnar detector.

Artificial column lamp detector of the present invention for achieving the above object,

A power supply unit for supplying AC220V power supplied from the outside to the lamp through the ballast or supplying the internal operating power;

A signal processor for detecting an overcurrent, a lamp failure, and a short circuit through two current transformers with respect to the power input through the power supply unit;

A microprocessor for determining whether a state such as an overcurrent, a lamp failure or a short circuit, and the like is reduced to a normal state and whether the power is supplied to or disconnected from the lamp through a ballast or controlling an internal operation determined by the detection result of the signal processor;

Under the control of the microprocessor, a light emitting diode display unit may be configured to notify a normal state, an overcurrent, a lamp failure or a failure caused by a short circuit.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention.

1 schematically shows the configuration of an artificial columnar detector according to the present invention,

A power supply unit 1 for supplying AC220V power supplied from the outside to the lamp 9 through the ballast 8 or to supply internal operating power;

A signal processor 7 for detecting an overcurrent, a failure of the lamp, and a short circuit through the two current transformers 5 and 6 with respect to the power inputted through the power supply 1;

Determining the state of overcurrent, lamp failure or short circuit, etc. determined by the detection result of the signal processing unit 7 and whether or not to return to normal, and supply or cut off power to the lamp 9 through the ballast 8 A microprocessor 2 for controlling the operation of,

Under the control of the microprocessor 2, the LED display unit 3 is configured to notify the LEDs of the normal state, the overcurrent, the failure of the lamp or the failure caused by a short circuit.

Figure 2 shows a more detailed configuration of the artificial columnar detector according to the present invention,

The power supply unit 1, which is supplied with AC220V power supplied from the outside, is converted into a 15V Dc power supply via the transformer T1 and the bridge diode BD1, and then again through the constant voltage IC 11 Supply the operating power of DC5V internally.

The microprocessor 2 receiving the operating power Vcc through the power supply unit 1 outputs a relay signal as “H” for 10 minutes for 1 minute and 30 seconds for internal operation. TR) is turned on so that the relay RY operates so that the normal operating power is supplied to the current transformer 5 through the relay contact SW2, and when the relay signal is output as "L", the PNP transistor TR is turned off. While the relay RY is not operating, it is possible to detect whether or not the lamp 9 returns to normal from the failure state that caused the failure by supplying the normal operating power to the current transformer 5 through the relay contact SW1. To help.

The detection current value output from the current transformer 5 is the inverting input terminal (-) and the non-inverting input terminal of the first comparator OP1 and the second comparator OP2 via the bridge diode BD2 of the signal processor 7. Enter each in +).

At the output terminal of the first comparator OP1 through which the operating power through the division resistors R1 and R2 is input to the non-inverting input terminal (+), a detection value according to whether or not overcurrent is input to the microprocessor 2.

At the output terminal of the second comparator OP2 where the operating power through the split resistors R1 and R2 is input to the inverting input terminal (-), the detection value according to whether or not the low current due to the failure of the lamp 9 is To be input to the microprocessor 2.

The detection current value output from the current transformer 6 is input to the inverting input terminal (−) of the third comparator OP3 via the bridge diode BD3 of the signal processing unit 7.

At the output terminal of the third comparator OP3, in which operating power through the division resistors R3 and R4 is input to the non-inverting input terminal (+), a detection value according to whether or not a short circuit is input to the microprocessor 2.

The process of determining whether the overcurrent or the lamp is broken is performed three times as necessary.

In the microprocessor 2 to which the reset circuit 21 and the oscillator 22 are connected when the power is first supplied, the light emitting diode display unit is detected by the detected value from the signal processor 7. Through (3), the green light emitting diode LED1 is turned on in the normal state, the red light emitting diode LED2 is turned on when an overcurrent is detected by a short circuit, etc., and the orange light is emitted when it is detected as a failure of the lamp 9 When the diode LED3 is turned on and a short circuit or a reverse current is detected, the blue light emitting diode LED4 is turned on to inform the outside whether the operation is normal.

When the detection result of the signal processor 7 detects a fault condition such as an overcurrent, a lamp failure or a short circuit, it outputs "H" and turns off the thyristor SCR through the diode D to supply power to the ballast 8. While not being supplied, while recognizing that it is reduced to a normal state, it outputs "L" to turn on the thyristor (SCR) through the diode (D) so that power is normally supplied to the ballast (8).

As described in detail above, according to the artificial columnar detector according to the present invention, lamps installed in tunnels or roads cause failures such as low current being detected, overcurrent supplied, or short circuit occurring. When the condition occurs, it cuts off the power supply to the lamp ballast and automatically restores it when it returns to the normal state and displays it through the LED according to the kind of abnormal state including normal operation. It can be controlled by automation, and it has the effect that it can be quickly repaired by judging the status according to whether the power is cut off completely, prevention of energy consumption due to short circuit, fire prevention and external failure.

1 is a block diagram schematically showing the configuration of an artificial columnar detector according to the present invention.

Figure 2 is a circuit diagram showing a more detailed configuration of the artificial columnar detector according to the present invention.

Explanation of symbols on the main parts of the drawings

1: power supply 2: microprocessor

3: light emitting diode display

5, 6: Current transformer 7: Signal processing unit

Claims (4)

A power supply unit 1 for supplying AC220V power supplied from the outside to the lamp 9 through the ballast 8 or to supply internal operating power; A signal processor 7 for detecting an overcurrent, a failure of the lamp, and a short circuit through the two current transformers 5 and 6 with respect to the power inputted through the power supply 1; Determining the state of overcurrent, lamp failure or short circuit, etc. determined by the detection result of the signal processing unit 7 and whether or not to return to normal, and supply or cut off power to the lamp 9 through the ballast 8 A microprocessor 2 for controlling the operation of, The artificial light column detector which is configured by the light emitting diode display unit 3 to notify the status of the steady state, overcurrent, lamp failure or failure due to the short circuit under the control of the microprocessor (2) . The method of claim 1, The current transformer 5, When the microprocessor 2 outputs the relay signal as "H" for 10 minutes in 1 minute 30 seconds, the PNP transistor TR is turned on to operate the relay RY while operating normally through the relay contact SW2. To be powered on, When the relay signal is output as "L", the PNP transistor TR is turned off so that the normal operation power is not supplied to the current transformer 5 through the relay contact SW1 without the relay RY operating. Intelligent columnar detector, characterized in that it is possible to detect whether or not to return to normal from the state of the fault that caused the failure. The method of claim 1, The signal processing unit 7 is The detection current value output from the current transformer 5 is input to the inverting input terminal (-) and the non-inverting input terminal (+) of the first comparator OP1 and the second comparator OP2 via the bridge diode BD2, respectively. , At the output terminal of the first comparator OP1, in which operating power through the division resistors R1 and R2 is input to the non-inverting input terminal (+), a detection value according to whether or not overcurrent is input to the microprocessor 2, At the output terminal of the second comparator OP2 where the operating power through the split resistors R1 and R2 is input to the inverting input terminal (-), the detection value according to whether or not the low current due to the failure of the lamp 9 is Input to the microprocessor (2), The detection current value output from the current transformer 6 is input to the inverting input terminal (-) of the third comparator OP3 via the bridge diode BD3 of the signal processor 7, In the output terminal of the third comparator OP3 through which the operating power through the division resistors R3 and R4 is input to the non-inverting input terminal (+), a detection value according to whether a short circuit is input to the microprocessor 2 is configured. An artificial intelligent column detector. The method of claim 1, The light emitting diode display unit 3, In the microprocessor 2, the green light emitting diode LED1 is turned on in the normal state by the detection value from the signal processor 7, and when the overcurrent is detected by a short circuit, the red light emitting diode LED2 is turned on. When it is detected that the lamp 9 is broken, the orange light emitting diode LED3 is turned on, and when it is detected as a short circuit or reverse current, the blue light emitting diode LED4 is turned on to inform the outside of normal operation. Artificial column light detector, characterized in that.