KR101315178B1 - System and method of controlling a LED lighting - Google Patents

Abstract

The present invention relates to an LED lighting control system, and in particular, a traffic light controller for controlling a power supply provided by a red light or a green light of a traffic light according to a periodic or user setting; A signal lamp that lights or flashes a red or green light under the control of the traffic light controller; At least one sensor for sensing a current provided from the traffic light controller to the traffic light; And an illumination device installed adjacent to the traffic light and determining the lighting or blinking state of the traffic light from the signal sensed by the sensor, and controlling the illuminance of the LED according to the determination.

Description

LED lighting control system and method {System and method of controlling a LED lighting}

The present invention relates to a LED lighting control system, and more particularly, to a LED lighting control system and method for controlling the pedestrian protection light for protecting the pedestrians crossing the street crossing is installed.

Crosswalks, ie accidents at crossings, usually occur when pedestrians cross the road, often leading to fatal consequences. Therefore, in order to prevent such an accident, various lighting devices are installed around the crossing. Crosswalk lighting is always designed to illuminate a crossing as a means to protect pedestrians.

1 is a view showing a lighting device installed on the road crossing. Referring to FIG. 1, the traffic light 120 of the crossing is controlled to emit red or green light by the traffic light controller 130. In addition, as described above, in order to protect the pedestrians crossing the crossing, the lighting device 100 is installed in the vicinity of the crossing to illuminate the crossing.

The lighting device 100 and the traffic light controller 130 will be described in more detail with reference to FIGS. 2 and 3 as follows.

2 is a block diagram showing the structure of a lighting device for pedestrian protection. Referring to FIG. 2, the lighting device 100 installed in close proximity to a crossing for protection of a pedestrian may include a power supply 210, a light emitting diode (LED) 220, and the like. When power is supplied from the power supply unit 210 to the LED 220, the LED 220 illuminates the area around the railroad crossing.

3 is a block diagram showing the structure of a traffic light controller. Referring to FIG. 3, the traffic light controller 130 includes a main controller 310 and a power supply unit 320. The main controller 310 controls the light emission of the red or green light of the signal lamp 120 by controlling the power of the power supply unit 320. That is, the main control unit 310 controls so that power is supplied only to the line supplied with the red light of the signal light 120 in a section to be turned on periodically or the user's setting, and a signal light in a section to turn on the green light. Control so that power is supplied only to the line supplied with the green light of 120.

As shown in FIG. 1 to FIG. 3, the conventional traffic light 120 and the lighting device 100 illuminating the crossing operate separately. That is, the lighting device 100 is always illuminated at the same intensity irrespective of whether the red light or the green light of the traffic light 120 is turned on or flashing, and thus there is a problem in that power consumption is generated a lot.

On the other hand, integrating and controlling the system for controlling the lighting device 100 and the system for controlling the traffic light 120 is not easy because it requires the consultation of a complex organization. For example, since the traffic light 120 is managed by the National Police Agency, and the lighting device 100 is managed by the local government, etc., it is not easy to integrate and install the two.

Republic of Korea Utility Model Publication No. 20-0218044 (Plastic crosswalk lighting device 2001.01.12) (Patent Document 1) has a cone-shaped reflector that can adjust the angle and focus the light to focus the crosswalk as a fixed means Disclosed is a fixed pedestrian crossing lighting device. In addition, the Republic of Korea Registered Utility Model Publication No. 20-040302 (Horizontal sidewalk lighting device 2004.3.2) has an angle adjustment mechanism for adjusting the angle of the headlamp and a reflector angle adjustment for adjusting the angle of the plurality of reflectors provided on the inner wall of the lamp shade Disclosed is a pedestrian crossing illumination device having a mechanism to uniformly illuminate the entire pedestrian crossing and capable of easily adjusting the brightness locally.

However, these conventional pedestrian crossing lighting devices are designed to control the lighting device itself separately, there is a problem that there is a lot of unnecessary power loss because it does not work in conjunction with the traffic light.

Republic of Korea Utility Model Registration KR20-0218044 KR Lighting device for pedestrian crossings 2001.01.12 Republic of Korea Utility Model Publication KR20-040302 KR Crosswalk lighting system 2004.3.2

An object of the present invention is to provide a LED lighting control system and method that can reduce the power consumption of the lighting device by operating in conjunction with the traffic light controller lighting device installed around the crossing.

In addition, an object of the present invention is to operate the lighting device installed in the vicinity of the crosswalk in conjunction with the traffic light controller, and when the red light is turned on the crossing signal, by lowering the illuminance of the lighting device than when the green light is turned on the lighting device To provide a LED lighting control system and method that can reduce the power consumption of the.

In addition, an object of the present invention is to operate the lighting device installed in the vicinity of the railroad crossing in conjunction with the traffic light controller, LED lights that can reduce the power consumption of the lighting device by flashing the lighting device, when the red light on the crossing signal lights The present invention provides a control system and method.

It is also an object of the present invention to provide an LED lighting control system and method for controlling the two systems to operate in conjunction without the integrated management of the system for controlling the lighting device and the system for controlling the traffic light controller.

In order to achieve the above object, the LED lighting control system according to the present invention comprises: a signal light controller for controlling a power supply provided by a red light or a green light of a traffic light according to a periodic or user setting; A signal lamp that lights or flashes a red or green light under the control of the traffic light controller; At least one sensor for sensing a current provided from the traffic light controller to the traffic light; And an illumination device installed adjacent to the traffic light and determining the lighting or blinking state of the traffic light from the signal sensed by the sensor, and controlling the illuminance of the LED according to the determination.

In this case, when it is determined that the red light is turned on in the signal lamp from the signal received from the sensor, the lighting device switches from the normal mode to the power saving mode, and sets the illumination of the LED to be lower than the brightness of the normal mode. It features.

On the other hand, the sensor is characterized in that for transmitting the signal sensed by the short-range wired and wireless communication means to the lighting device.

In addition, the sensor is provided with a solar charging means, characterized in that for supplying power by the solar cell itself.

In addition, when it is determined that the lighting state of the traffic light is not the normal state from the signal received from the sensor, the lighting device switches from the normal mode to the emergency mode to set the illumination of the LED higher than the brightness of the normal mode. It is characterized by.

In order to achieve the above object, the LED lighting control method according to the present invention comprises the steps of: sensing the current provided to the traffic light from the traffic light controller by at least one sensor installed; When the sensor detects a change in the lighting state of the traffic light from the sensed signal, transmitting the state signal to a lighting device installed adjacent to the traffic light; Receiving a state signal of the traffic light at the lighting device and determining a lighting or blinking state of the traffic light; And controlling the illuminance of the LED according to the determination in the lighting device.

According to the present invention, there is an advantage that the unnecessary power consumption of the lighting device can be reduced by operating in conjunction with the traffic light controller the lighting device installed around the crossing.

In addition, according to the present invention, by operating the lighting device installed around the crossings in conjunction with the traffic light controller, when the red light is turned on the crossing signal, by lowering or illuminating the illumination of the lighting device than when the green light is turned on There is an advantage that can reduce the power consumption of the lighting device.

In addition, according to the present invention, by controlling the two systems to operate in conjunction without the integrated management of the system for controlling the lighting device and the traffic light controller, it can be implemented without the need for complex consultation of the related organizations managing each system have.

1 is a view showing a lighting device installed on the road crossing.
2 is a block diagram showing the structure of a pedestrian protective lighting device;
3 is a block diagram showing the structure of a traffic light controller;
4 shows a lighting control system according to the invention.
5 is a diagram showing a detailed structure of a lighting control system according to an embodiment of the present invention.
6 is a flow chart illustrating a lighting control procedure in accordance with the present invention.

The present invention relates to a system for controlling a lighting device and the like through the inspection of a short circuit or the amount of current. In particular, the present invention relates to a system for interlocking control with a traffic light installed at a crossing and a crossing lighting device installed to protect a pedestrian crossing the crossing.

Therefore, the present invention proposes a lighting control system for effectively controlling the illuminance of the crossing lighting device by sensing the short circuit or the amount of current supplied to the red or green light of the traffic light installed on the crossing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

4 is a view showing a lighting control system according to the present invention.

Referring to FIG. 4, the lighting control system according to the present invention includes a sensor 440 for sensing a current state supplied from the traffic light controller 130 to the crossing signal light 12, and a current sensed from the sensor 440. It may be configured to include a pedestrian lighting device 440 including a receiving unit 430 for receiving a value.

That is, in the present invention, the sensor 440a, 440b is installed in each line supplied from the traffic light controller 130 to the red light or the green light of the traffic light 120, and the lighting device is sensed by the value sensed by the sensor 440. The illuminance of the LED 400 illumination of 400 is controlled.

The traffic light controller 130 generally includes a main control unit 310 and a power supply unit 320, and supplies power to each line of the traffic light 120 from the power supply unit 320 according to signal control of the main control unit 310. Supply. That is, the angles of the traffic lights and the like are controlled by turning on / off the power supplied to each line.

At this time, according to the present invention, the short circuit or the amount of current in each line supplied from the power supply unit 320 is sensed by each of the sensors 440a and 440b and provided to the receiver 430 of the lighting device 400.

The lighting device 400 may include a power supply unit 410, an LED 420, a receiver 430, and the like. The receiving unit 430 receives a short circuit or a current amount of the current supplied to the signal lamp 120 sensed from each sensor 440a and 440b, and cuts off the power supplied to the LED 420 or through the LED 420. Adjust the brightness of the light (e.g. dimming).

That is, as a result of sensing from the sensors 440a and 440b, when the current supplied to the red light of the traffic light 120 is short-circuited and the current supplied to the green light flows, the green light is turned on at the crossing. The receiver 430 controls the power supply of the power supply unit 410 so that the illuminance of the light emitted through the LED 420 becomes a normal brightness.

On the other hand, as a result of sensing from the sensors 440a and 440b, if the current supplied to the green light of the traffic light 120 is short-circuited and the current supplied to the red light flows, the red light is turned on at the crossing. The receiver 430 controls the power supply of the power supply unit 410 so that the illuminance of light emitted through the LED 420 is lower than the normal brightness, or blinks the LED 420 by cutting off the power supply to the LED 420. Let's do it. By doing so, when the red light is turned on at the crossing and pedestrians cannot cross, the lighting device 400 is not unnecessarily turned on or the illumination is reduced, thereby reducing power consumption.

Hereinafter, detailed configurations of the sensor 440 and the lighting device 400 will be described in detail with reference to FIG. 5.

5 is a view showing a detailed structure of a lighting control system according to an embodiment of the present invention. Referring to FIG. 5, the sensor 440 may include a current sensor 510, a controller 520, a signal transmitter 530, a power supply 540, and the like, and the lighting device 400 may include a receiver. 430, the LED controller 500 and the LED 420 may be configured to be included.

The current sensor unit 510 senses a current amount of each line supplied from the traffic light controller 130 to the traffic light 120. The value sensed by the current sensor unit 510 may be configured in the form of a message through the control unit 520, and transmits it to the lighting device 400 through the signal transmitter 530. The power supply unit 540 supplies power required for the operation of each functional unit of the sensor 440 to each functional unit. In this case, the current sensor unit 510 may be configured as a Hall magnetic sensor that can check the on / off state of the current without breaking the power line.

Meanwhile, the sensor 440 may transmit the current value sensed by the current sensor unit 510 to the lighting device 400 as it is, and the analog or digital signal indicating the specific value of the sensed current value by the controller 520. Can also be converted and sent to.

In another method, the controller 520 checks the on-off state of each line from the current sensor unit 510, and when an event occurs (that is, the line changes from the on state to the off state or from the off state). The signal transmitter 530 may be controlled to transmit a signal for a corresponding state only when the signal is changed to).

The power supply unit 540 is a device for supplying power to each component of the sensor 440, by using a solar cell can supply power semi-permanently without a separate external power supply. That is, since the amount of power required by the sensor 440 is extremely small, it is possible to supply sufficient power for the sensor 440 to operate even with a solar panel having a suitable size. Accordingly, the power supply unit 540 may further include a solar panel, a charger, a power control unit, and the like.

The receiver 430 of the lighting device 400 receives a signal transmitted from the signal transmitter 530 of the sensor 440, and the LED controller 500 receives an LED by the signal received from the receiver 430. The illuminance of 420 is controlled. That is, when it is determined that the green light is turned on in the signal lamp 120 from the signal received by the receiver 430, the LED controller 500 controls the power supply so that the LED 420 lights up at normal illuminance. On the other hand, when it is determined that the red light is turned on in the signal lamp 120 from the signal received by the receiver 430, the LED controller 500 controls the power supply so that the LED 420 lights at a relatively low illuminance. By controlling the power supplied to the LED 420, the LED 420 is controlled to blink.

4 and 5, the sensor 440 and the lighting device 400 are shown to be connected by a wired line, but a signal may be transmitted through a wireless communication means as well as a wired line.

For example, to transmit signals through various communication networks such as a personal area network (PAN), a local area network (LAN), a metropolitan area network (MAN), and a wide area network (WAN). Can be configured. In addition, it is also possible to use a wireless transmission technology used for short-range communication such as infrared data (Infrared Data Assosiation (IrDA), Bluetooth, ZigBee, etc.), according to the system characteristics of the present invention, ZigBee or It is preferable to use a standardized communication module such as RFID.

6 is a flowchart illustrating a lighting control procedure according to the present invention.

Referring to FIG. 6, first, a red traffic light power state S601 and a green traffic light power state S602 are determined from a signal sensed by a sensor.

As a result of the determination, when the power supply state of the green traffic light is in the on state (S603), the lighting device is operated in the normal mode (S604), and the power is controlled to illuminate the LED of the lighting device at the normal brightness.

On the other hand, when the power state of the green traffic light is not on (S603) state (that is, when the power state of the red traffic light is on), the LED is controlled to operate in a power saving mode and illuminate at a relatively dark brightness, or Flashes by cutting off the power supply.

On the other hand, the normal mode is set to a bright state such as LED, the power saving mode can be set to less than 50% of the brightness of the normal mode brightness.

According to another embodiment of the present invention, due to natural disasters or other reasons, the red light and green light are both flashed because normal current is not supplied to the traffic light 120, or red light and green light are depending on the situation. When all lights are on or each lamp is in a warning state of lighting and blinking repeatedly, it is also possible to switch to the emergency mode and control to be set to be brighter than the brightness of the normal mode for the safety of pedestrians.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: lighting device 120: traffic light
130: traffic light controller 210: power supply
220: LED 310: main control
320: power supply 400: lighting device
410: power supply unit 420: LED
430: receiver 440: sensor
500: LED control unit 510: current sensor unit
520: control unit 530: signal transmission unit
540: power supply

Claims (7)

With the red light and green light of the traffic light controller to control the power supply provided by the red light or green light of the traffic light periodically or according to the user's setting, and the red or green light on or flashing by the control of the traffic light controller. In the LED lighting control system that senses the supplied current value and controls the illumination in conjunction with the flashing of the red light and green light in accordance with the sensed current value,
At least one sensor installed in a line for supplying power from the traffic light controller to the red and green lights of the traffic light and sensing current values provided to the red and green lights; And
A lighting device installed adjacent to the traffic light and determining a blinking state of a red light and a green light of the traffic light from a current value sensed by the sensor, and controlling an illuminance of the LED based thereon;
When the current is sensed by the sensor to the red light of the traffic light is cut off and the current is supplied to the green light is determined that the green light of the traffic light is turned on the illumination of the LED 420 in the normal mode To brightness of
When the current is supplied from the current value sensed by the sensor to the red light of the traffic light, and the current to the green light is cut off and it is determined that the red light of the traffic light is turned on, it is switched to the power saving mode from the normal mode. And setting the illuminance of the LED to be lower than the brightness of the normal mode.
delete The LED lighting control system according to claim 1, wherein the sensor transmits a current value sensed by short-range wired or wireless communication means to the lighting device.
The method of claim 1, wherein the sensor,
An LED lighting control system having solar charging means and supplying power by itself by a solar cell.
The method of claim 1, wherein the lighting device,
When it is determined that the lighting state of the traffic light is not the normal state from the current value sensed by the sensor, by switching from the normal mode to the emergency mode, the LED is characterized in that the brightness of the LED is set higher than the brightness of the normal mode Lighting control system.
In the LED lighting control method for sensing the current value supplied to the red and green light of the traffic light in accordance with the sensed current value to control the illuminance of the lighting device installed adjacent to the traffic light in conjunction with the flashing of the red light and green light. In
Sensing current values provided from the traffic light controller to the red and green lights of the traffic light respectively by at least one sensor installed in a line supplying power to the red and green lights of the traffic light;
When the sensor detects a change in a lighting state of a red light and a green light of a traffic light from the sensed current value, transmitting the state signal to a lighting device installed adjacent to the traffic light;
Receiving a state signal of the traffic light and determining a lighting state of a red light and a green light of the traffic light in the lighting device; And
Controlling the illuminance of the LED according to the determination in the lighting device;
As a result of the determination, when it is determined that the green light is turned on from the signal received from the sensor, the illuminance of the LED is set to the brightness of the normal mode,
As a result of the determination, when it is determined that the red light is turned on from the signal received from the sensor, the light mode of the LED is switched to the power saving mode by setting the illuminance of the LED to be lower than the brightness of the normal mode. LED lighting control method.
The method of claim 6,
When it is determined that the lighting state of the traffic light is not a normal state from the signal received from the sensor, by switching from the normal mode to the emergency mode, the LED illumination control, characterized in that to set the illuminance of the LED higher than the brightness of the normal mode Way.

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