KR102091051B1 - Flashing light control system for airport aerodrome and its control method - Google Patents

Abstract

The present invention relates to a system for controlling a flashing light of an airport aerodrome and a control method thereof. To this end, according to the present invention, the system comprises: a master timer (100) receiving power from the outside to supply the power to a power supply unit (PSU), supplying a control signal for turn-on/off and a brightness level to the PSU, receiving an operation state signal of a flashing light to display a flashing light state, controlling the flashing light in accordance with a flashing light control command of a control room, and transmitting the flashing light state to the control room; and the PSU (200) performing a function of receiving flashing time and output illumination command signals from the master timer (100) to continuously and sequentially flash an LED module of a light emitting unit from the outside of an airway in accordance with a unique address, discriminated through a unique address input device attached to a power equipment controller, and determining flashing order of chained flash lights. Accordingly, the system allows the master timer and the PSU to have a cycle of an alternating current frequency synchronized with each other without modifying the frequency.

Description

Flashing light control system for airport aerodrome and its control method

An embodiment of the present invention relates to a flashlight control system for an airport aerodrome and a control method thereof, in particular, a master timer and a flashlight power supply unit (PSU) are synchronized with each other without modulating frequencies. ) To have a period of alternating frequency.

As is well known, flashing lights are lights installed on the runway entrance that tell the aircraft the direction of landing.

That is, the flashlight is a lamp installed in the entry area to inform the aircraft of the landing route as one of the “Approach Lighting Systems” of the airport. It is installed at intervals, and it is an essential air lighting facility that operates in poor visibility due to fog or before / after sunrise / sunset. Flashlights are installed in several to 31 rows according to the airport specifications, and these lights are flashed twice a second.

On the other hand, a buried LED flashlight is installed in an emergency auxiliary runway area (over run) that exceeds the end of the landing zone when the aircraft takes off and lands and must be interlocked with the exposed LED flashlight. The buried LED flash light is also a type of aviation lighting, and as a navigation safety facility to help the aviation of the aircraft by means of aviation lighting, the development of the aircraft and its operational forms is improving the quality of information provided by all weather operations and aviation lighting. In particular, the entry light system is one of the aeronautical lighting products because it leads to disasters beyond imagination when an accident occurs due to an inadequate path to the aircraft and the pilot's failure to recognize the lights. Importance is becoming the most important.

The flash lamp is composed of a light emitting unit, a power supply, and a master timer.

However, the above-described conventional flashlight control system and method have been exposed to the following problems.

That is, in the prior art, the serial communication method has a problem in that synchronization is not easy because the power source frequency is not used due to the system structure.

In addition, the communication method of the prior art has a problem that the system cost is increased because the configuration is not easy compared to the power line communication (PLC).

In addition, in the parallel communication method among the prior arts, a large problem has arisen in that the system requires the same number of control lines depending on the number of power supplies.

In addition, in the prior art, the serial communication method cannot minimize communication data due to the system structure, so that a communication error rate cannot be significantly reduced.

In addition, among the prior art, the power line communication method has a large problem in that it cannot transmit and receive data stably due to a lot of noise or interference.

In order to solve the above-mentioned problems, the following prior art documents have been developed in the prior art, but a large problem has arisen that still cannot solve the problems of the above-mentioned prior art at a time.

Republic of Korea Registered Patent Publication No. 1302521 (2013. 08. 27) has been registered. Korea Registered Patent Publication No. 1965036 (2019. 03. 27) has been registered. Korea Registered Patent Publication No. 0993869 (2010. 11. 05) has been registered. Korean Registered Patent Publication No. 1455566 (October 21, 2014) has been registered.

The present invention has been devised to solve the problems of the prior art as described above, the master timer (Master Timer) is provided with a control panel and a control board, a transformer and a phase control module and a current transformer (CT: current transformer), A solid state relay (SSR), a control board, and an LED driving board are configured in a power supply unit (PSU), and the first purpose is to provide an LED flashlight. The second object of the present invention is to communicate through a power line. If this method is used, there is no need to install a separate communication line, and there is no communication failure due to noise, thereby providing the advantage of less communication defects. Because it uses the power frequency, it has the advantage of easy synchronization, and the fourth purpose is when it is easy to configure compared to power line communication (PLC). There is an advantage that can reduce the system cost, the fifth purpose is that the existing system requires the same number of control lines depending on the number of power supply units, but the control line of the present invention is a single-phase power supply (0V and 110V) for all power supply units. It is possible to control, and the sixth purpose is to minimize communication data, so the communication error rate can be significantly reduced compared to other communication methods, and the seventh purpose is to transmit and receive data stably without noise or interference. The eighth objective is to provide the convenience of transmitting the trigger signal of the master timer to the individual power supply unit, and not using the separate trigger signal line, but to use the input power supply line of the power supply unit to transmit it collectively. 9 Purpose: The light emitting part of the flashlight is connected to one light emitting part per power supply and emits light. The flash is 120 times per minute (2 times per second) according to the negative signal, and the specified effective light intensity, chromaticity, and light intensity level are implemented, and the 10th purpose significantly improves the quality and reliability of the flash light control system. It provides a flashlight control system for airport aerodromes and a control method so that a user can plant a good image by satisfying various needs (needs) of users.

To achieve this purpose, the present invention relates to a flashlight control system for an airport aerodrome, in which a master timer and a power supply unit (PSU) have a cycle of alternating frequency that is synchronized with each other without modulating the frequency. It is supplied with power from the outside, supplies power to the power supply, supplies control signals of on, off, and brightness levels to the power supply, receives the operating status signal of the flashlight, displays the flashlight status, and controls the flashlight control in the control room. A master timer that controls the flashlight and transmits the flashlight status to the control room according to the master timer; And a function of continuously flashing the LED modules of the light emitting unit sequentially from the outside of the runway in accordance with a unique magnetic address by receiving a flashing time point and an output light intensity command signal from the master timer and attaching it to the power supply controller. It provides a flashlight control system for airport aerodromes, characterized in that it includes a flashlight power supply unit (PSU), which can be distinguished through a unique address input device and determines a flash order of the chain flashlight.

In addition, the present invention relates to a control method of a flashlight control system for an airport aerodrome, wherein a master timer and a power supply unit (PSU) have a cycle of alternating frequency that is synchronized with each other without modulating the frequency. , (a) applying power to the master timer, and initializing H / W in the CPU of the master timer; (b) 220V supplied to the master timer and 110V of the transformer are supplied to a flashlight power supply unit (PSU: power supply unit); (c) initializing H / W in a CPU of a power supply unit (PSU); (d) synchronizing the master timer and a power supply unit (PSU) to a frequency of 110 V voltage; (e) displaying the current system status on the control panel of the master timer; (f) a master timer receiving an operation command through a remote control station or a control panel; (g) sending a chain flash command, a brightness control command and a stop command to the power supply unit (PSU) 200 from the master timer; And (h) a power supply unit (PSU: power supply unit) receiving a command to control the LED driving board to terminate the flash; providing a control method for a flashlight control system for an airport aerodrome.

As described in detail above, the present invention is provided with a control panel and a control board, a transformer, a phase control module, and a current transformer (CT) in a master timer, and a power supply unit (PSU). A solid state relay (SSR), a control board, and an LED driving board are provided in the LED flashlight.

The present invention according to the above-described technical configuration provides the advantage of less communication defects because there is no need to install a separate communication line and there is no communication obstacle caused by noise when this method is used as a method of communication through a power line.

In addition, the present invention has an advantage of easy synchronization because it uses the power frequency.

In addition, the present invention has the advantage of being able to reduce the system cost because it is easy to configure compared to power line communication (PLC).

In addition, the present invention required control lines of the same quantity according to the number of power supply units in the existing system, but the control lines of the present invention are capable of controlling all power supply units with single-phase power (0V and 110V).

In addition, the present invention is to minimize communication data, so that the communication error rate can be significantly reduced compared to other communication methods.

In particular, the present invention is to be able to transmit and receive data stably because there is no noise or interference.

In addition, the present invention is to provide the convenience of transmitting the trigger signal of the master timer is not transmitted to the individual power supply unit, and is collectively transmitted using the input power line of the power supply unit.

In addition, according to the present invention, the light-emitting portion of the flashlight is connected to one light-emitting portion per power supply unit to emit light, and the light-emitting portion flashes 120 times per minute (2 times / 1 second) according to the same signal of the power supply unit, and the specified effective brightness and chromaticity, It is intended to implement a luminosity step.

The present invention is a very useful invention that enables to plant a good image by satisfying various needs (needs) of users because it greatly improves the quality and reliability of the flashlight control system due to the above-described effects.

Hereinafter, a preferred embodiment of the present invention for achieving this effect will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a flashlight control system for an airport aerodrome applied to the present invention.
2 is a detailed circuit diagram of a phase control module applied to the present invention.
Figure 3 is a phase showing the SSR1 of the present invention flash power supply unit (PSU: power supply unit)
Three circuit diagrams.
4 is a block diagram showing a control panel applied to the present invention.
5 is a waveform graph showing a communication method of a flashlight applied to the present invention, a
It has been shown to start flashing at intervals of the cycle.
6 is a graph showing the design of a flashlight communication applied to the present invention.
7 is an explanatory view showing a command of a flashlight applied to the present invention.
8 is a control method of a flashlight control system for an airport aerodrome applied to the present invention.
Flow chart shown.

A flashlight control system for an airport aerodrome applied to the present invention and a control method thereof are configured as shown in FIGS. 1 to 8.

In the following description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, the terms to be described later are terms set in consideration of the functions in the present invention, which may vary depending on the intention or custom of the producer, so the definition should be made based on the contents throughout the present specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to that shown in the drawings.

First, the present invention is to control the flashlight for an airport airfield so that the master timer 100 and the power supply unit (PSU) 200 have a period of AC frequency synchronized with each other without modulating the frequency. It is related to the system and has the following technical configuration.

That is, the present invention is supplied with power from the outside to supply power to the power supply unit, supply control signals of on, off and brightness levels to the power supply unit, receive the operating status signal of the flashlight, display the flashlight status, and control A master timer 100 is provided to control the flash lamp according to the flash lamp control command and to transmit the flash lamp status to the control room.

In particular, the master timer (Master Timer) (100) is a remote control station (e.g., CCR room or tower) or the master timer's own control device (e.g., Key Pad), the output brightness of the chain type flash light installed on the runway (e.g. : Low brightness, medium brightness, high brightness) and transmits a control command trigger signal to start flashing of the flashing light to the flashing power supply. And it can monitor the operation status of the flashlight power supply and send it to the remote control station. The master timer can be operated by variably determining the number of components of the flashlight. The trigger signal transmission of the master timer does not transmit to the individual power supply unit, but provides the convenience of batch transmission using the input power line of the power supply unit.

In addition, the present invention performs a function of continuously flashing the LED module of the light emitting unit sequentially from the outside of the runway in accordance with a unique magnetic address (Address) by receiving a flashing time point and an output light intensity command signal from the Master Timer (100) and Provides a flashlight control system for airport aerodromes that includes a flashlight power supply unit (PSU) 200 that can be distinguished through a unique address input device attached to the power supply controller and can determine the flash order of the chain flashlight. do.

At this time, the power supply unit (PSU) power supply unit (PSU) 200 receives AC220V, AC110V, and 0V from the master timer and uses AC 220V as the power of the PSU, and AC 110V is used for communication. The PSU has its own addressable switch. When the start signal (1 cycle short circuit) comes in from the master timer, it acts to flash by driving the LED driving board according to its address (own cycle). During flashing, the signal from the LED drive board and the sensors inside the PSU are read and transmitted using the SSR to transmit their state to the master timer.

On the other hand, the master timer (Master Timer) 100 applied to the present invention is provided with the following technical configuration.

That is, the present invention is a master timer operation and display device, the flash light power supply 200 is provided with a control panel 110 for displaying the operating state.

At this time, the control panel 110 is a master timer operation / display device. Numbers (1) to (32) in FIG. 4 are LED numbers indicating an operation state on a flashlight power supply (PSU) 200. If the 1st PSU is operating normally, the 1st LED is lit. 촤 Bottom ● The indicator is the operation status indicator. Various statuses such as SFL RUN (flashing light), SFL WARN (warning), and SFL ALARM (alarm) are displayed with LEDs. The central LCD (square box) and arrow keys function to determine the quantity of the PSU and set the setting menu for operation. The circular switch on the lower right is a switch for operating the master timer. REM is a remote operation and operates by receiving an operation instruction from a remote control station. From OFF to LO ME HI is a switch to operate from the master timer, not the remote. Flash off when OFF, low flash at LO, interrupt flash at ME, high flash at HI. (Currently, the picture is set in the low-level flash.)

In addition, in the present invention, the SSR1 of the phase control module is always ON to flow most of the current before the short circuit through SSR1, and to short-circuit 110V and 0V, SSR1 is turned OFF and SSR2 is ON, so that the control board 120 to short circuit the circuit It is provided.

In addition, the present invention generates AC110V by receiving AC220V power, and AC 110V is provided with a transformer 130 used for communication.

In addition, the present invention is provided with a phase control module 140 that serves to receive the signal from the master timer control board and send it to the flashlight power supply.

At this time, the method for sending the signal is as follows. Turn on SSR1 of the phase control module at all times so that most of the current flows through SSR1 before short circuit. To short-circuit 110V and 0V, SSR1 is turned OFF and SSR2 is turned ON, so the circuit is shorted. At this time, since 110V and 0V are short-circuited through the circuit protection resistor, a current flows, and the circuit is safely shorted. The master timer sends a command by shorting the voltage in units of one cycle.

And the present invention provides a flashlight control system for an airport aerodrome that includes a CT (current transformer) 150 that serves to sense the current of the AC110V line.

At this time, the current flowing through AC110V of the current transformer (CT) 150 is when the SSR of the PSU shorts AC110V with 0V, and this is how the PSU sends a normal signal.

On the other hand, the flashlight power supply unit (PSU: power supply unit) 200 applied to the present invention is provided with the following technical configuration.

That is, the present invention is a device for sending a signal from a power supply unit (PSU) 200 to a master timer 100, receiving a signal from a PSU control board and shorting AC110V 0V to generate a solid state that generates current. A solid state relay (SSR) 210 is provided.

At this time, since the solid state relay (SSR) 210 generates current in a cycle corresponding to its address, the master timer reads the current through the CT (current transformer) 150 and determines the corresponding address. You can.

In addition, the present invention is a board for controlling a power supply unit (PSU) 200 of a flashlight, and a control board 220 for analyzing a signal of a master timer by reading the phase of AC110V is provided.

At this time, the analysis calculates the time when the AC110V is short-circuited, calculates the time using the timer interrupt, and calculates the time to find the cycle. When the start command is transmitted from the master timer, flashing starts at its own cycle and the LED driving board is turned on to flash. In addition, it monitors the LED driving board and monitors the PSU status and transmits it to the master timer.

And the present invention is provided with an LED driving board 230 for controlling the flashlight 240.

In addition, the present invention provides a flashlight control system for an airport aerodrome including a flashlight 240 that uses a long life and low power as the LED light emitting part, flashes with power supplied from a power supply, and flashes with high brightness, medium brightness, and low brightness. .

On the other hand, the present invention can be variously modified in taking the above-described components and can take various forms.

And it should be understood that the present invention is not limited to the particular forms mentioned in the detailed description above, but rather includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims. It should be understood as.

When explaining the operational effects of the flashlight control system for the airport aerodrome and the control method of the present invention configured as described above are as follows.

First, the present invention does not modulate the frequency so that the master timer (Master Timer) and the flash light power supply unit (PSU: power supply unit) has a period of alternating frequency synchronized with each other.

To this end, FIG. 1 applied to the present invention is a configuration diagram of a flashlight control system for an airport aerodrome applied to the present invention.

The above method is similar to the existing P.L.C (power line communication) method in that it uses an AC voltage, but has a large difference in that the frequency is used without being modulated. The master timer 100 shorts 110V and 0V of the transformer 130 through the phase control module 140 of FIG. 1.

2 is a detailed circuit diagram of a phase control module applied to the present invention, and a method of shorting 110 V and 0 V of the transformer 130 through the phase control module 140 is as follows. That is, the phase control module 140 is composed of two SSR (SSR1, SSR2) and two resistors as shown in FIG.

Therefore, the control board 120 of the master timer 100 turns on SSR1 of the phase control module 140 at all times so that most of the current flows through SSR1 before a short circuit. To short-circuit 110V and 0V, SSR1 is turned OFF and SSR2 is turned ON, so the circuit is shorted. At this time, 110V and 0V are short-circuited through the circuit protection resistor, so current flows and the circuit is safely shorted.

3 is a detailed circuit diagram showing SSR1 of a power supply unit (PSU) of the present invention.

That is, the power supply unit (PSU) power supply unit (PSU) 200 can monitor / detect the status of the LED module. The current flowing through the circuit when flashing through the current sensor in the LED driving board 230 is controlled by the control board ( 220) to check whether the LED is open or shorted. In addition, it monitors whether the door is opened through a power supply unit (PSU) 200 and a door sensor installed in the LED light emitting unit. If the door is opened, both the input power (AC220V) of the power supply unit (PSU) 200 and the input power (DC48V) of the LED module are cut off.

At this time, the power supply unit (PSU) power supply unit (PSU) 200 generates a current by shorting 110V and 0V in a period corresponding to its address when there is no problem with the LED module and the power supply.

That is, when SSR1 of FIG. 3 is turned on in the control board 220 of the power supply unit (PSU) power supply 200, 110 V and 0 V are short-circuited through a resistor, and current flows in the circuit.

4 is a block diagram showing a control panel 110 applied to the present invention.

That is, the control panel 110 is an operation / display device of a master timer, and is an LED number indicating an operation state to a flashlight power supply (PSU) 200 from numbers 1 to 32. If the 1st PSU is operating normally, the 1st LED is lit. 촤 Bottom ● The indicator is the operation status indicator. Various statuses such as SFL RUN (flashing light), SFL WARN (warning), and SFL ALARM (alarm) are displayed with LEDs. The central LCD (square box) and arrow keys function to determine the quantity of the PSU and set the setting menu for operation. The circular switch on the lower right is a switch for operating the master timer. REM is a remote operation and operates by receiving an operation instruction from a remote control station. From OFF to LO ME HI is a switch to operate from the master timer, not the remote. Flash off when OFF, low flash at LO, interrupt flash at ME, high flash flash at HI (FIG. 4 is set for low flash).

If the LED of the LED module is short-circuited by 25% or more, or the circuit is open, and a problem occurs in the power supply, and the signal is not generated, the master timer 100 calculates the period at which the signal is not received, It recognizes the number of the failed flashlight power supply unit (PSU) 200 and displays the status on the LED of the control panel 110 and transmits the status of the flashlight to the upper server through the REMOTE contact.

5 is a waveform graph showing a communication method of a flashlight applied to the present invention, showing that flashing is started at intervals of one cycle.

That is, the master timer 100 transmits a command by shorting the voltage in units of one cycle, and the power supply unit (PSU) 200 calculates the time when the voltage is shorted using a timer interrupt. When the command is recognized in the calculated cycle, and when one cycle is short-circuited, all flash power supply units (PSUs) 200 from the next cycle perform chain flash according to their addresses, and at intervals of one cycle. Start flashing.

At this time, the red curve in the communication method of the starlight indicates the phase of AC110V. The part represented by a straight line in one cycle is a waveform drawn when AC110V is shorted for one cycle time in the master timer 100. When the first cycle is shorted, the power supply unit (PSU) 200 of No. 1 starts flashing in the next cycle, and the second time is the subsequent cycle, followed by a series of flashes. In the 7th cycle, the 6th power supply unit (PSU) 200 flashed, and the 1st power supply unit (PSU) 200 starts detection.

6 is a graph showing the design of a flashlight communication applied to the present invention.

That is, when there is no abnormality in the power supply unit, the power supply unit (PSU) 200 generates a current and sends a signal from the 7th cycle, and the power supply unit (PSU) 200 Starting from 1, signals are sent at intervals of three cycles. At this time, the master timer 100 senses the current flowing through the circuit through the CT (current transformer) 150, and the flash light power supply unit (PSU) in which the current flows (power supply unit) (200) It can be seen that the normal operation.

At this time, the cycle is one cycle of the sinusoidal frequency, and in the case of 60 Hz, 16.6666 ms is set to one cycle of 20 ms in the case of 60 Hz. In FIG. 6, 30 cycles were flowed for 0.5 second.

And the master timer marks the short circuit in the first cycle.

In addition, the flash expresses the PSU flash 1 times in 2 cycles, the PSU flash 2 times in 3 cycles, and then sequentially flashes.

And the monitoring / detection, the PSU flashed well, and if there is no abnormality in the power supply, PSU 1 shorts the SSR 210 in the 7th cycle to make a current, sends a signal to the master timer 100, and then 2 to the 10th cycle. It is expressed by PSU times, and then sends signals at intervals of 3 cycles.

7 is an explanatory view showing a command of a flashlight applied to the present invention.

In other words, the master timer 100 can control a variety of flash light power supply units (PSUs) 200 according to the airport's terrain and circumstances. Up to 32 can be controlled, and the first flash light is installed. When the number of flashlights 240 to be used at the airport is entered and set in the menus of the city master timer 100 and the control panel 110, the power supply unit (PSU) 200 of the flashlight is operated. Status can be monitored and managed.

At this time, the master timer 100 transmits a start command once every 0.5 seconds, and repeats and sends commands from start 1 to start 4 to maintain flash, control brightness, or stop flashing. Send the command together.

This will be described in more detail as follows.

That is, if it is assumed that flash is performed using a commercial power supply of 60 Hz, and 20 power supply units (PSUs) 200 are used, 0.5 seconds has a total of 30 cycles.

At this time, when the master timer 100 short-circuits the first cycle, the flashing power supply unit (PSU) 200 flashes from its own number from the second cycle, and continues until the 30th cycle. It will flash (because it is 20 PSUs, it flashes until 21 cycles and there is no flash from 22 to 30)

Therefore, after 30 cycles, 0.5 seconds passed, and all the power supply units (PSUs) 200 finished flashing once. Then, the master timer 100 short-circuits 2 cycles to signal a flash start signal again. When 1 cycle is short-circuited, the power supply unit (PSU) 200 starts flashing once again from the next cycle. Is done. Then, after 0.5 seconds, all flash light power supply units (PSUs) 200 are subjected to two consecutive flashes for one second.

On the other hand, Figure 8 is a flow chart showing a control method of a flashlight control system for an airport aerodrome applied to the present invention.

That is, the present invention does not modulate the frequency of the flashlight control for airport airfields so that the master timer 100 and the power supply unit (PSU) 200 have a period of alternating frequency synchronized with each other. The following is a more detailed description of the system control method.

(a) Power is applied to the master timer 100, and a step of initializing H / W in the CPU of the master timer 100 is performed.

(b) 220V supplied to the master timer 100 and 110V of the transformer 130 are subjected to a step of being supplied to a power supply unit (PSU) 200.

(c) H / W is initialized in the CPU of the flashlight power supply unit (PSU) 200.

(d) The master timer 100 and the power supply unit (PSU) 200 are synchronized to a frequency of 110 V voltage.

(e) through the step of displaying the current state of the system on the control panel 110 of the master timer 100.

(f) The master timer 100 undergoes a step of receiving an operation command through a remote control station or a control panel.

(g) The master timer 100 passes a step of sending a chain flash command, a brightness control command, and a stop command to the power supply unit (PSU) 200.

(h) The power supply unit (PSU) 200 receives the command and controls the LED driving board to end the flash, thereby controlling the flashlight control system for the airport aerodrome.

At this time, the communication between the master timer 100 applied to the present invention and a flashlight power supply unit (PSU) 200 is performed through an AC voltage.

In addition, since the AC voltage supplied from the transformer of the master timer is connected in parallel to all flash light power supply units (PSUs) 200, the master timer 100 and all flash light power supply units (PSUs) are supplied. 200 has a period of AC frequency synchronized with each other.

In addition, the master timer 100 transmits a command by shorting the voltage in units of one cycle, and the power supply unit (PSU) 200 calculates the time when the voltage is shorted using a timer interrupt. , Recognizes the command at the calculated cycle, and when one cycle is shorted, all flash light power supply units (PSUs) 200 from the next cycle perform chain flash according to their address and flash at intervals of one cycle. Will start.

And when there is no abnormality in the power supply, the flashlight power supply unit (PSU) 200 generates a current and sends a signal from the 7th cycle, 1 of the flashlight power supply unit (PSU) 200 Signals are sent at intervals of three cycles starting from the first time. At this time, the master timer 100 senses the current flowing through the circuit through the CT (current transformer) 150, and the flashing light power supply (PSU :) in which the current flows. power supply unit) 200 so that it can be seen that it is operating normally.

Particularly, in the step (g), the commands of starting 1, 2, 3, and 4 are sequentially transmitted from the master timer 100 to the power supply unit (PSU) 200; Then, the power supply unit (PSU) power supply unit (PSU) 200 receives a command to control the LED driving board to flash; Subsequently, the power supply unit (PSU) power supply unit (PSU) 200 monitors and detects the status of the LED driving unit and the power supply unit and sends it to the master timer 100; includes,

Sequentially sending commands of low, medium, and high brightness from the master timer 100 to the power supply unit (PSU) 200; Thereafter, the power supply unit (PSU) power supply unit (PSU) 200 receives the command to control the LED driving board to flash; Subsequently, a step (PSU) power supply unit (PSU) 200 monitors and detects the state of the LED driving unit and the power unit and sends it to the master timer 100; includes, and in addition

It goes without saying that the master timer 100 sends a flash stop command to the power supply unit (PSU) 200.

Therefore, the master timer 100 applied to the present invention transmits a start command once every 0.5 seconds, and repeatedly transmits a command from start 1 to start 4 to maintain a flash, and transmit a command to control brightness or stop flashing. do.

The cycle applied to the present invention is one cycle of the sinusoidal frequency, and in the case of 60 Hz, 16.6666 ms is set to one cycle in the case of 50 Hz.

And synchronization is to calculate the rising period of the input commercial power frequency with a timer so that the master timer and the PSU share the correct time (cycle).

In addition, H / W initialization is a preset of the H / W of the master timer and the H / W of the PSU, the IO pin of the MICOM (DSP Chip) of the master timer, the IO pin of the PSU MICOM (AVR Chip) and the status of the peripheral circuit. It is initialized with a value.

And the frequency is the frequency of commercial power, 50Hz, 60Hz.

In addition, the monitoring is to read the current generated in the PSU through the CT (current transformer) of the master timer, calculate the relevant cycle, and monitor how many times the PSU has occurred.

And the status display is to display the status of the monitored PSU on the LED of the control panel (normal PSU number LED is ON and abnormal PSU number LED is OFF).

In addition, monitoring and detection monitors the status of the LED module and the power supply unit of the PSU and generates a current at a cycle corresponding to its address through the PSU SSR1 so that the master timer can know.

As a result of the above, the present invention provides an effect that the master timer and the power supply unit (PSU) have a period of alternating frequency synchronized with each other without modulating the frequency.

The technical idea of the flashlight control system and control method for the airport aerodrome of the present invention is that the same result can be repeatedly executed. In particular, it is possible to promote technological development by contributing to the invention of the present invention and contribute to industrial development. have.

<Explanation of reference numerals for main parts of drawings>
100: Master Timer
110: control panel
120: control board
130: transformer
140: phase control module
150: current transformer (CT)
200: power supply unit (PSU)
210: solid state relay (SSR)
220: control board
230: LED drive board
240: flash light

Claims (6)

Regarding a flashlight control system for an airport aerodrome, in which the master timer 100 and the power supply unit (PSU) 200 have a period of alternating frequency that is synchronized with each other without modulating the frequency.
It receives power from the outside to supply power to the power supply, supplies control signals of on, off and brightness levels to the power supply, receives the operating status signal of the flashlight, displays the flashlight status, and responds to the control command of the flashlight in the control room. A master timer (100) for controlling the flash light and transmitting the flash light state to the control room; And receiving a flash point of time and an output light intensity command signal from the master timer (100), sequentially performing a function of continuously flashing the LED modules of the light emitting unit from the outside of the runway according to a unique address. It can be distinguished through a unique address input device attached to the controller, a flash light power supply unit (PSU: power supply unit) (200) that can determine the flash order of the chain flash; includes;
The flash power supply unit (PSU: power supply unit) (200), a flash power supply unit (PSU: power supply unit) (200) for transmitting a signal from the master timer 100 to the signal from the PSU control board A solid state relay (SSR) 210 receiving and shorting AC110V 0V to generate a current; A board for controlling a power supply unit (PSU) 200, a control board 220 for reading the phase of AC110V and analyzing the signal of the master timer; LED driving board 230 for controlling the flashlight 240; And a flash lamp 240 that uses long life and low power as the LED light emitting unit, flashes with power supplied from a power supply, and flashes with high brightness, medium brightness, and low brightness; and a flashlight control system for an airport aerodrome.
The method according to claim 1,
In the master timer (Master Timer) (100),
Control panel 110 for displaying and operating the flashlight power supply 200, the operation and display device of the master timer;
A control board 120 that causes the circuit to be short-circuited by turning on SSR1 of the phase control module at all times so that current before short-circuit flows through SSR1, and SSR1 is turned OFF and SSR2 is turned ON to short-circuit 110V and 0V; And
AC220V is generated by receiving AC220V power, and AC 110V is a transformer 130 used for communication;
A phase control module 140 that serves to receive a signal from the master timer control board and send it to the flashlight power supply; And
Flashlight control system for airport aerodrome, characterized in that it includes; CT (current transformer) 150, which serves to sense the current of the AC110V line.
delete The control panel 110, the control board 120, the transformer 130, the phase control module 140 and the master timer 100 including the CT 150, the solid state relay 210, the control board 220 , The master timer 100 and the flashlight power supply unit (PSU) without modulating the frequency while the flashlight power supply 200 including the LED driving board 230 and the flashlight 240 is provided It relates to a control method of a flashlight control system for an airport aerodrome so that the 200 has a period of alternating frequency synchronized with each other,
(a) power is applied to the master timer 100, and initializing H / W in the CPU of the master timer 100;
(b) supplying 220V supplied to the master timer 100 and 110V of the transformer 130 to a power supply unit (PSU) 200;
(c) initializing the H / W in the CPU of the power supply unit (PSU) 200;
(d) synchronizing the master timer 100 and a flashlight power supply unit (PSU) 200 to a frequency of 110 V voltage;
(e) displaying the current state of the system on the control panel 110 of the master timer 100;
(f) the master timer 100 receiving an operation command through a remote control station or a control panel;
(g) sending a chain flash command, a brightness control command and a stop command from the master timer 100 to a power supply unit (PSU) 200; And
(h) the power supply unit (PSU) power supply unit (PSU) 200 receives a command to control the LED driving board to terminate the flash; so, the master timer 100 shorts the voltage in units of one cycle The power supply unit (PSU) 200 calculates the time when the voltage is short-circuited using a timer interrupt, recognizes the command at the calculated cycle, and when one cycle is short-circuited From the next cycle, all flashlight power supply units (PSUs) 200 perform chain flashing according to their address, and start flashing at intervals of one cycle. (PSU: power supply unit) (200) generates a current and sends a signal from the 7th cycle, starting at 1 of the flash power supply unit (PSU: power supply unit) (200) and sending a signal at three intervals The master timer 100 An airport characterized in that the current flowing through the CT (current transformer) 150 is sensed so that it can be seen that the flash power supply unit (PSU) 200 of the cycle in which the current flows is operating normally. Control method of flashlight control system for aerodrome.
The method according to claim 4,
In the step (g),
Sequentially sending commands 1, 2, 3, and 4 from the master timer 100 to a power supply unit (PSU) 200; Then, the power supply unit (PSU) power supply unit (PSU) 200 receives a command to control the LED driving board to flash; Subsequently, the power supply unit (PSU) power supply unit (PSU) 200 monitors and detects the status of the LED driving unit and the power supply unit and sends it to the master timer 100; includes,
Sequentially sending commands of low, medium, and high brightness from the master timer 100 to the power supply unit (PSU) 200; Then, the power supply unit (PSU) power supply unit (PSU) 200 receives a command to control the LED driving board to flash; Subsequently, the power supply unit (PSU) power supply unit (PSU) 200 monitors / detects the status of the LED driving unit and the power unit and sends it to the master timer 100.
A method of controlling a flashlight control system for an airport aerodrome, comprising: sending a stop flashing command from the master timer 100 to a power supply unit (PSU) 200.
The method according to claim 4,
The master timer 100,
Control of a flashlight control system for an airport aerodrome, characterized in that it transmits a start command once every 0.5 seconds, sends a command from start 1 to start 4 repeatedly to maintain flash, and sends a command to control brightness or stop flashing. Way.

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