KR101381941B1 - Dimming control system and method for led lamp tunnel light - Google Patents

Abstract

The present invention relates to a dimming control system and method such as an LED tunnel to adjust the internal luminance of the tunnel in response to a linear change in the external luminance in the tunnel. The LED tunnel light dimming control system according to the present invention is connected to the brightness sensor and the LED tunnel light, in the LED tunnel light lighting system for controlling the illumination of the LED tunnel light in accordance with the current external brightness value detected by the brightness sensor A storage unit for storing a dimming control map matching a representative external luminance value with a dimming value such as a tunnel such as the LED tunnel in the representative external luminance value; Applying the current external luminance value to the dimming control map to extract two representative external luminance values neighboring the current external luminance value and two tunnel lights corresponding to the two representative external luminance values, and extract the current external luminance value. And a control unit calculating a current tunnel lamp dimming value by applying the two representative external luminance values and the two tunnel lamp dimming values to an interpolation method. And a dimming control unit for adjusting the illuminance of the LED tunnel lamp in response to the dimming value of the current tunnel lamp.

Description

TECHNICAL FIELD [0001] The present invention relates to a dimming control system and a dimming control method,

The present invention relates to a system and method for controlling illuminance of an LED lamp tunnel, and more particularly, to a dimming control system such as an LED tunnel for adjusting the internal luminance of a tunnel by linearly responding to a change in external luminance in a tunnel. And to a method.

As the speed of increase of vehicles in Korea has increased tremendously, various roads of vehicles have been expanded, opened, and newly established. As the roads are opened or newly constructed, mountainous areas with comparatively low land costs are used according to geographical and economic conditions. As a result, most of the roads are being opened and expanded.

When the vehicle passes through a tunnel, a rapid change in the brightness of the inside and outside of the tunnel causes the driver to be temporarily unable to accurately recognize the object ahead. This complication has a problem that the driver temporarily gives visual impairment to cause a traffic accident, or the driver operates the braking device to decelerate the speed, thereby causing traffic congestion.

Fig. 1 is a view showing a configuration of a general tunnel illumination.

The inside of the tunnel is divided into a boundary portion, a transition portion, a base portion and an exit portion along the traveling direction of the vehicle, and an entrance connection portion and an exit connection portion are located at the tunnel entrance and exit. The tunnel lighting consists of a boundary lighting section that allows observation of an object inside the tunnel in a state adapted to the bright brightness of the outdoor area and an entrance lighting section which comprises a transition section illumination section for giving a luminance background to the observed object in a state of visual adaptation. An exit section illumination that provides a luminance background to overcome the visual disturbance caused by the high brightness of the outdoor visible through the tunnel exit during the daytime, And an entrance connection illumination and an exit connection illumination installed on the exit access road so that the situation inside and outside the tunnel can be determined.

Korea Industrial Standard KSC 3703 specifies the tunnel lighting standards. Entrance lighting refers to lighting installed in addition to the basic lighting for the purpose of solving the visual problem in the vicinity of the tunnel entrance during the daytime. Base lighting refers to lighting that ensures a uniform brightness over the entire length of the tunnel in order to secure the driver's visual perception in the tunnel day and night. Exit lighting refers to the lighting installed in addition to the basic sub-lighting as necessary to solve the visual problems caused by the glare of outdoor high brightness visible through the tunnel exit during the daytime.

In KSC 3703, the average road surface brightness is defined in each section of boundary / transition part / base part / exit part of the tunnel according to the luminance outside the tunnel and the average traveling speed of the vehicle on the road.

FIG. 2 is a view showing a conventional tunnel lighting system for satisfying the road surface luminance in the tunnel specified in KSC 3703 according to the luminance outside the tunnel. Conventional tunnel lighting systems control the road surface brightness in tunnels with a spike control system.

As shown in Fig. 2, in the case of the tunnel illumination system including the first to twenty-first to sixth tunnels 26 and the like, the first wiring 27 and the second tunnel 27 are provided in the first tunnel 21 to the sixth tunnel 26, And a second wiring 28 are respectively provided. 2, the first wiring 27 connects all the first tunnels 21 to the sixth tunnels 26, and the second wiring 28 connects the first tunnels 21 and the third tunnels 26, Only the tunnels 23 and the fifth tunnels 25 are connected. The controller (not shown) measures the external luminance to control the switch 29 to supply power B + to the first wiring 27 when the measured external luminance is higher than the reference luminance, thereby increasing the illuminance of the tunnel light, and measuring the external If the luminance is lower than the reference luminance, the switch 29 is controlled to supply the power B + to the second wiring 28 to lower the illuminance of the tunnel lighting.

As described above, in the conventional tunnel lighting system, a plurality of wirings are pre-installed in a plurality of tunnels and the like, so that power is supplied to one of the plurality of wirings according to the external luminance to control the illuminance of the tunnel lighting. Adjust road brightness. In FIG. 2, two wirings are installed, but the actual tunnel lighting system is very complicated in consideration of external luminance variation according to night / day, season, weather, and switching to a preliminary tunnel when some tunnels fail. Is made of.

That is, the conventional tunnel lighting system has a problem in that the wiring of the entire lighting system is complicated because two or more wirings must be connected to one tunnel. Also, as shown in FIG. 2, six tunnel lights are turned on when the external luminance is brighter than the reference luminance, and three tunnel lights are turned on when the external luminance is darker than the reference luminance. It is not possible to achieve internal tunnel brightness.

That is, in the conventional tunnel lighting system, when the external luminance is slightly brighter than the reference luminance, not only all six tunnel lamps are lit but only five tunnel lamps are lit, but wiring corresponding to five tunnel lamps is provided. Since the six tunnel lights are turned on, there is a problem in that unnecessary power is wasted. In addition, if the external luminance is slightly darker than the standard luminance, turning on the three tunnel lights may be a little dark, which may cause a visual problem to the driver.However, since the wiring corresponding to the lighting of the four tunnel lights is not installed, the three tunnel lights There is a problem that causes the visual impairment of the driver by lighting the bay. However, if the wiring for the lighting of the four and five tunnel lights separately installed, there is a problem that the design and maintenance is difficult because the wiring state is complicated.

In addition, when only three tunnel lights are turned on due to a high intensity while six tunnel lights are arranged in a row, the driver's eyes move repeatedly inside the tunnel and face a relatively dark section and a relatively bright section. It can cause discomfort by increasing the fatigue of people, and eventually there is a problem that causes traffic obstacles.

An object of the present invention has been made in order to solve the above-mentioned problems of the prior art, by dimming the LED tunnel, etc. consisting of the LED lamp to adjust the internal luminance of the tunnel in response to the linear change in the external luminance in the tunnel It is to provide a dimming control system and method such as a tunnel.

LED tunnel light dimming control system according to the present invention for achieving the object of the present invention, is connected to the brightness sensor and the LED tunnel, and controls the illuminance of the LED tunnel light in accordance with the current external brightness value detected by the brightness sensor An LED tunnel lighting system, comprising: a storage unit for storing a dimming control map matching a representative external luminance value with a dimming value of a tunnel lamp such as the LED tunnel light at the representative external luminance value; Applying the current external luminance value to the dimming control map to extract two representative external luminance values neighboring the current external luminance value and two tunnel lights corresponding to the two representative external luminance values, and extract the current external luminance value. And a control unit calculating a current tunnel lamp dimming value by applying the two representative external luminance values and the two tunnel lamp dimming values to an interpolation method. It characterized in that it comprises a dimming control unit for adjusting the illuminance of the LED tunnel light in response to the dimming value of the current tunnel.

The LED tunnel light dimming control method according to the present invention is connected to a brightness sensor and an LED tunnel light, and dimming control in which a representative external brightness value and a dimming value such as a tunnel light of the LED tunnel light in the representative external brightness value are matched and stored. In the LED tunnel light dimming control method of the LED tunnel light lighting system to control the illuminance of the LED tunnel light according to the current external brightness value detected by the brightness sensor using a map, the illumination system is to adjust the current external brightness value A first step of extracting two representative external luminance values neighboring the current external luminance value and two tunnel light dimming values corresponding to the two representative external luminance values by applying to the dimming control map; A second step of the illumination system calculating a current tunnel light dimming value by applying the current external brightness value, the two representative external brightness values, and the two tunnel light dimming values to an interpolation method; And a third step of the illumination system adjusting the illuminance of the LED tunnel light in response to the dimming value of the current tunnel light.

As described above, according to the present invention, dimming values such as tunnels according to some external luminance values are stored in advance as dimming control maps, and the currently measured external luminance values are applied to the dimming control map and interpolation to obtain tunnels according to the currently measured external luminance values. By calculating the dimming value and controlling the illuminance of the LED tunnel and the like, there is an advantage in that it is possible to provide an optimal driving environment to the driver.

Fig. 1 is a view showing a configuration of a general tunnel illumination.
FIG. 2 is a view showing a conventional tunnel lighting system for satisfying the road surface luminance in the tunnel specified in KSC 3703 according to the luminance outside the tunnel.
3 is a block diagram of the LED tunnel light lighting system according to the present invention.
4 is an operation flowchart of the LED tunnel light lighting method according to the present invention.

Hereinafter, a dimming control system and method according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of the LED tunnel light lighting system according to the present invention. The LED tunnel light lighting system includes a luminance sensor 310, an LED tunnel light dimming control system, and a plurality of LED tunnel lights 340. The dimming control system such as an LED tunnel includes a master device 320 and a plurality of slave devices 330.

The luminance sensor 310 is mounted outside the tunnel to sense external luminance. The master device 320 outputs a control signal to the plurality of slave devices 330 based on external brightness information input from the brightness sensor 310 and receives a state signal such as an LED tunnel through the plurality of slave devices. Each slave device 330 controls on / off and illumination of at least one LED tunnel light 340 and collects state information of the LED tunnel light 340 and outputs it to the master device 320.

The master device 320 includes a control unit 321, a storage unit 322, and a master transmitter / receiver 323. The slave device 330 includes a slave transmitter / receiver 331, a dimming controller 332, The storage unit 333 is included.

The master transmitter / receiver 323 and the slave transmitter / receiver 331 transmit and receive signals to and from each other, and may be implemented by conventional wireless communication, wired communication, and power line communication.

The storage unit 322 of the master device 320 or the storage unit 333 of the slave device 330 according to the present invention stores a dimming control map for controlling the dimming value of the LED tunnel light 340. The dimming control map matches and stores the representative external luminance value and the dimming value of the tunnel lamp of the LED tunnel light 340 when the external luminance is the representative external luminance value. The representative external luminance value stored in the dimming control map and the corresponding dimming value of the tunnel are discrete values and do not store the dimming value of the tunnel according to the external luminance value of the entire section.

The control unit 321 of the master device 320 or the dimming control unit 332 of the slave device 330 according to the present invention uses the dimming control map and interpolation to determine the current external luminance value measured by the luminance sensor 310. Calculate the dimming value such as the tunnel corresponding to the luminance value. That is, according to the ratio of the two neighboring external luminance values of the current external luminance value and the current external luminance value, the two dimming values, such as two tunnels corresponding to the two neighboring external luminance values, are divided to correspond to the current external luminance value. Calculate the dimming value such as the current tunnel.

As a first embodiment of the present invention, the storage unit 322 of the master device 320 stores the dimming control map of the LED tunnel light 340, the control unit 321 of the master device 320 is the luminance sensor 310 The dimming value of the current tunnel light of the LED tunnel light 340 is calculated according to the current external luminance value, and is provided to the slave device 330. The dimming controller 332 of the slave device 330 controls the illumination of the LED tunnel light 340 in response to the dimming value of the current tunnel light.

As a second embodiment of the present invention, the storage unit 322 of the master device 320 stores the dimming control map of the LED tunnel light 340, the control unit 321 of the master device 320 is the luminance sensor 310 The slave device 330 provides the slave device 330 with the current external luminance value measured in step 2), two representative external luminance values of the current external luminance value, and two corresponding tunnel dimming values. The dimming control unit 332 of the slave device 330 applies a current external luminance value input from the master device 320, two representative external luminance values, and dimming values such as two tunnels corresponding thereto according to the current external luminance value. The dimming value of the current tunnel light of the LED tunnel light 340 is calculated, and the illuminance of the LED tunnel light 340 is controlled in response to the calculated current tunnel light dimming value.

As a third embodiment of the present invention, the storage unit 333 of the slave device 330 stores the dimming control map of the LED tunnel light 340. The controller 321 of the master device 320 provides the slave device 330 with the current external luminance value measured by the brightness sensor 310. The dimming control unit 332 of the slave device 330 applies the current external luminance value input from the master device 320 to the dimming control map, so that the two neighboring representative external luminance values of the current external luminance value and the corresponding two tunnels are corresponding. The dimming value is extracted to calculate the dimming value of the current tunnel light of the LED tunnel light 340 according to the current external luminance value, and the illumination of the LED tunnel light 340 is controlled in response to the calculated dimming value of the tunnel light. .

4 is an operation flowchart of the LED tunnel light lighting method according to the present invention.

The LED tunnel light illumination method according to the present invention uses a dimming control map in which a representative external luminance value and a dimming value of a tunnel light such as an LED tunnel are matched and stored.

First, the controller detects the current external luminance value through the luminance sensor (S41).

Next, the controller extracts two representative external luminance values neighboring the current external luminance value by applying the current external luminance value to the dimming control map, and extracts the dimming value such as two tunnels corresponding to the extracted two representative external luminance values. (S42).

Next, the control unit calculates the current tunnel lamp dimming value by applying the current external luminance value, two representative external luminance values, and two tunnel lamp dimming values to the interpolation method (S43). As the interpolation method, linear interpolation, quadratic function interpolation, or the like may be used.

Next, the dimming control unit adjusts the illuminance of the LED tunnel light in response to the dimming value of the current tunnel light (S44).

The luminance sensor is connected to the master device and the LED tunnel light is configured to be connected to the slave device.

As a first embodiment of the present invention, steps S41 to S43 may be performed in the master device, and step S44 may be implemented in the slave device.

As a second embodiment of the present invention, steps S41 and S42 may be implemented in the master device, and steps S43 and S44 may be implemented in the slave device.

As a third embodiment of the present invention, step S41 may be implemented in the master device, and steps S42 to S44 may be implemented in the slave device.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but this is by way of example only for describing the best embodiment of the present invention and not for limiting the present invention. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

310: luminance sensor 320: master device
321 control unit 322 storage unit
323: master transceiver 330: slave device
331: slave transmission and reception unit 332: dimming control unit
333: storage unit 340: LED tunnel light

Claims (8)

Current external light detected by the brightness sensor, connected to the brightness sensor and LED tunnel, etc.
In the dimming control system of the LED tunnel light for controlling the illuminance of the LED tunnel light according to the degree value,
A storage unit for storing a dimming control map matching a representative external luminance value with a dimming value such as a tunnel such as the LED tunnel in the representative external luminance value;
Applying the current external luminance value to the dimming control map to extract two representative external luminance values neighboring the current external luminance value and two tunnel lights corresponding to the two representative external luminance values, and extract the current external luminance value. And the two representative external luminance values corresponding to the two representative external luminance values according to the ratio of the two representative external luminance values and the current external luminance value by applying the two representative external luminance values and the dimming values such as the two tunnels. A control unit for dividing a network value and calculating a dimming value such as a current tunnel corresponding to the current external luminance value;
It includes a dimming control unit for adjusting the illuminance of the LED tunnel light in response to the dimming value of the current tunnel,
LED dimming control system, characterized in that the dimming value of the tunnel and the like corresponding to the representative external luminance value stored in the storage unit is a discrete value. The dimming control of an LED tunnel light according to claim 1, wherein the master device receiving the current external luminance value and the slave device connected to the LED tunnel light communicate with each other, and the storage unit is located in the master device. system. The dimming control system according to claim 2, wherein the control unit is located in a master device. The method of claim 2, wherein the control unit is located in the master device and the slave device,
The controller of the master device applies the current external luminance value to the dimming control map to extract two representative external luminance values neighboring the current external luminance value and two tunnel external dimming values corresponding to the two representative external luminance values. And the controller of the slave device calculates a current tunnel light dimming value by applying the current external brightness value, the two representative external brightness values, and the two tunnel light dimming values to an interpolation method. The dimming control of an LED tunnel light according to claim 1, wherein the master device receiving the current external luminance value and the slave device connected to the LED tunnel light communicate with each other, and the storage unit is located in the slave device. system. 6. The method according to any one of claims 2 to 5,
Dimming control system, such as LED tunnel, characterized in that the master device and the slave device performs power line communication. 6. The method according to any one of claims 2 to 5,
Dimming control system, such as an LED tunnel, characterized in that the master device and the slave device performs wireless communication. The LED tunnel light is connected to the LED tunnel light according to the current external brightness value by using a dimming control map that matches a representative external luminance value and a dimming value of the tunnel light of the LED tunnel light at the representative external luminance value. In the LED tunnel light dimming control method of the LED tunnel light lighting system for controlling the illuminance,
A first system for extracting two representative external luminance values neighboring the current external luminance value and two tunnel external dimming values corresponding to the two representative external luminance values by applying the current external luminance value to the dimming control map Steps;
The illumination system applies the current external luminance value, the two representative external luminance values, and the dimming value of the two tunnels, etc. to an interpolation method, and the two representative external luminances according to the ratio of the two representative external luminance values and the current external luminance value. Calculating a dimming value of a current tunnel light corresponding to the current external luminance value by dividing between two tunnel light values corresponding to a value;
The lighting system includes a third step of adjusting the illuminance of the LED tunnel light in response to the dimming value of the current tunnel,
And a dimming value of the tunnel light corresponding to the representative external luminance value and the representative external luminance value stored in the dimming control map is a discrete value.

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