KR20110059172A - Tunnel illumination apparatus and method based on external illuminance - Google Patents

Abstract

PURPOSE: A tunnel illumination apparatus and method based on external illuminance is provided to reduce fatigue to a user eye by adjusting the illumination of the light unit inside a tunnel to be matched with the illumination of the external light. CONSTITUTION: In a tunnel illumination apparatus and method based on external illuminance, a sensor(70) senses the illuminance of light outside an tunnel and outputs a sensor diction value. A lighting-emitting unit(100) comprises a plurality of luminous units(110,120,130) which are installed inside the tunnel. A controller(20) calculates the illumination value of the external light and controls the luminous units based on the illumination value of the external light. .

Description

Tunnel lighting device and lighting method interworking with external illuminance {TUNNEL ILLUMINATION APPARATUS AND METHOD BASED ON EXTERNAL ILLUMINANCE}

The present invention relates to a tunnel lighting device and an illumination method that cooperate with the external illuminance.

Generally, lamps installed inside the tunnel include high-pressure mercury lamps, fluorescent lamps, sodium lamps, metal lamps, and the like. It is important.

The reason is that the driver of the vehicle enters the tunnel and drives the vehicle along the tunnel under the illumination of the light installed in the tunnel. In this case, it is not possible to adjust the brightness of the light of the tunnel lighting device to tire the eyes of the vehicle driver, and may cause snow whitening when entering or exiting the tunnel.

In other words, if there is a big difference between the illumination of the tunnel and the sunlight, the bleaching lasts for a long time, and this phenomenon carries the risk of an accident.

Therefore, it is important to adjust the illuminance of the illumination in the tunnel to suit the illuminance of the light outside the tunnel.

Accordingly, it is an object of the present invention to provide a tunnel lighting device and an illumination method that cooperate with external illuminance.

Tunnel lighting apparatus according to an aspect of the present invention for achieving the above object is a sensor for detecting the illumination of the light outside the tunnel and outputs a sensor detection value, and a plurality of light emitting units installed at predetermined intervals along the tunnel length direction inside the tunnel And a light emitting unit including the light emitting unit, and calculating the illuminance value of the external light according to the sensor detection value when the sensor sensing value is received from the sensor. When the calculated illuminance value is larger than a predetermined threshold value, the illuminance of the light emitting units of the light emitting unit is externally determined. And a control unit for controlling based on the illuminance value of the light.

Here, when the calculated illuminance value is less than or equal to a predetermined threshold value, the controller may control the illuminance of the light emitting units of the light emitting unit on a predetermined basis.

Here, the control unit may adjust the illuminance of the plurality of light emitting units of the light emitting unit at a predetermined ratio of the illuminance value of the external light.

Here, the predetermined ratio may be 1/10 of the illuminance value of the external light.

Here, the light emitting unit includes a first light emitting group including light emitting units disposed at a tunnel inlet or an outlet, and a second light emitting group including light emitting units not disposed at the tunnel inlet or outlet but affected by light outside the tunnel. And a third light emitting unit group including light emitting units that are not affected by the light outside the tunnel.

Here, the control unit adjusts the illuminance of the light emitting units included in the first light emitting unit group of the light emitting unit at a first ratio of the illuminance value of the external light, and the illuminance of the light emitting units included in the second light emitting unit group of the light emitting unit. May be adjusted to the second ratio of the illuminance value of the external light, and the illuminance of the light emitting units included in the third light emitting unit group of the light emitter may be adjusted to the third ratio of the illuminance value of the external light.

The first ratio is 1/20 of the illuminance value of the external light, the second ratio is 1/15 of the illuminance value of the external light, and the first ratio is 1/10 of the illuminance value of the external light. Can be.

Here, the tunnel lighting device may further include an emergency battery for supplying power in the event of a power outage, and an emergency induction lamp that is turned on in an emergency situation.

The tunnel lighting apparatus may further include a display board installed at the entrance of the tunnel and a memory configured to store the guide message in response to the plurality of interrupt signals, and the controller may provide an interrupt signal indicating an accident or a disaster. Upon reception, a guide message corresponding to the interrupt signal may be read from the memory and displayed on the display board.

According to an aspect of the present invention for achieving the above object, an illumination method in a tunnel lighting apparatus having a light emitting unit including a plurality of light emitting units installed inside the tunnel is a sensor sensing value by detecting the illumination of the light outside the tunnel through the sensor Outputting the light, calculating the illuminance value of the external light of the tunnel according to the sensor detection value, and when the calculated illuminance value is greater than a predetermined threshold value, illuminance of the light emitting units of the light emitting unit based on the illuminance value of the external light. Controlling.

Here, the tunnel illumination method further includes the step of controlling the illuminance of the light emitting units of the light emitting part on a predetermined basis if the calculated illuminance value is less than or equal to a predetermined threshold value.

Here, the controlling is a step of adjusting the illuminance of the plurality of light emitting units of the light emitting part at a predetermined ratio of the illuminance value of the external light.

Here, the predetermined ratio is 1/10 of the illuminance value of the external light.

Here, the controlling may include adjusting illuminance of the light emitting units included in the first light emitting unit group disposed at the entrance or exit of the tunnel among the plurality of light emitting units of the light emitting unit to a first ratio of the illuminance value of the external light; Adjusting the illuminance of the light emitting units included in the second light emitting group of the light emitting unit which is not disposed at the entrance or the exit but is affected by the light outside the tunnel at a second ratio of the illuminance value of the external light; And adjusting the illuminance of the light emitting units included in the third light emitting group of the light emitting unit not affected by the third ratio of the illuminance value of the external light.

Here, the first ratio is 1/20 of the illuminance value of the external light, the second ratio is 1/15 of the illuminance value of the external light, and the first ratio is 1/10 of the illuminance value of the external light. .

The tunnel lighting method further includes supplying power from an emergency battery that supplies emergency power to an emergency induction lamp that is turned on in an emergency situation when a power failure occurs.

Here, the tunnel lighting method further includes the step of displaying a guide message corresponding to the interrupt signal installed on the tunnel entrance and displaying the guide message upon receiving an interrupt signal indicating an accident or disaster occurrence.

According to the tunnel lighting apparatus and the lighting method of the present invention, since the illuminance of the light emitting unit installed in the tunnel is adjusted according to the illuminance of the light outside the tunnel, there is an effect of reducing a lot of eyestrain of the user.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. Like reference numerals are used for like elements in describing each drawing.

The terms first, second, A, B, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and, unless expressly defined in this application, are construed in ideal or excessively formal meanings. It doesn't work.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a tunnel lighting apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 1, the tunnel lighting apparatus according to the present invention includes a light emitting unit 100, a control unit 20, a memory 30, an emergency battery 40, an emergency induction lamp 60, a sensor unit 70, and an electric signboard ( 80).

The tunnel lighting apparatus according to the present invention measures the illuminance of the light outside the tunnel and adjusts the illuminance of the light emitting unit 100 installed inside the tunnel based on the measured illuminance of the outside light.

The light emitting unit 100 includes a plurality of light emitting units. The light emitting units are installed at predetermined intervals along the tunnel length direction to emit light inside the tunnel.

However, the light emitting units disposed at the entrance or exit of the tunnel are affected by external light, and the light emitting units are not affected by the light outside the tunnel as they enter the tunnel.

The present invention adjusts the illuminance of the light emitting units disposed at the tunnel inlet or outlet or affected by the light outside the tunnel based on the illuminance of the light outside the tunnel.

In the present invention, the light emitting units disposed at the entrance or exit of the tunnel among the light emitting units included in the light emitting unit 100 are grouped into the first light emitting unit group 110. In addition, the light emitting units which are not disposed at the tunnel inlet or the outlet but are affected by the light outside the tunnel are grouped into the second light emitting group 120. In addition, the light emitting units not affected by the light outside the tunnel are grouped into the third light emitting group 130.

2 is a view showing the light emitting unit and the light emitting plate of the light emitting unit of the tunnel lighting apparatus according to the present invention.

As shown in FIG. 2, the light emitting units 111, 112, 113, and 114 of the light emitting unit 100 installed at the entrance or exit of the tunnel constitute the first light emitting unit group 110. Further, the light emitting units 121,..., Etc., which are not disposed at the tunnel inlet or the exit but are affected by the light outside the tunnel, constitute the second light emitting group 120.

Although the light emitting units are classified into three groups according to the arrangement position in the present embodiment, it is apparent to those skilled in the art that the present invention can be variously grouped according to the efficiency of the tunnel lighting device and its design method, without being limited thereto.

The sensor unit 70 is installed outside the tunnel and detects the illuminance of the detected light to provide a sensor detection value to the control unit 20.

When the controller 20 receives the detection value from the sensor unit 70, the controller 20 calculates an illuminance value of the external light according to the sensor detection value. Subsequently, the controller 20 determines whether the illuminance value of the external light is larger than a predetermined threshold value.

If the calculated illuminance value is greater than the predetermined threshold value, the controller 20 controls the illuminance of the light emitting unit 100 installed in the tunnel based on the illuminance value of the external light.

In detail, when the illuminance of the external light is greater than the threshold value, for example, it may be a bright day time period, and accordingly, the controller 20 may be connected to the first light emitter group 110 of the light emitter 100 installed at the entrance or exit of the tunnel. The illuminance of the included light emitting units is adjusted to a first ratio of the illuminance value of the external light, for example, 1/20. In addition, the control unit 20 may determine the illuminance of the light emitting units included in the second light emitting unit group 120 of the light emitting unit 100 which is not installed at the entrance or exit of the tunnel but is affected by the light outside the tunnel. To a second ratio, for example 1/15. Finally, the controller 20 may determine the illuminance of the light emitting units included in the third light emitting group 130 of the light emitting unit 100 that is not affected by the light outside the tunnel, for example, a third ratio of the illuminance value of the external light, for example, Adjust to 1/10.

If the calculated illuminance value is less than or equal to the predetermined threshold value, the controller 20 controls the illuminance of the light emitting unit 100 installed in the tunnel to the preset illuminance value.

When the illuminance of the light outside the tunnel is lower than the threshold means a dawn, dusk, or night time zone, the control unit 20 presets the illuminance of the light emitting units of the light emitting unit 100 installed inside the tunnel regardless of the illuminance value of the external light. Adjust to the set illuminance value.

According to another embodiment, if the illuminance value of the external light is greater than the predetermined threshold value, the control unit 20 controls the illuminance of the light emitting unit 100 installed inside the tunnel at a preset ratio, for example, 1/10 of the illuminance value of the external light. do. In this case, unlike the above-described embodiment, the light emitting units included in the light emitting unit 100 are not grouped according to their installation positions.

In addition, the controller 20 receives an interrupt signal from an external interrupter. The external interrupter can be a power device that powers the tunnel lighting device or a disaster center to signal a disaster situation. The external interrupter notifies the control unit 20 when an accident or disaster related to the tunnel occurs. An accident or disaster can be a fire or landslide.

If the power device notifies the control unit 20 that the power failure occurs, the control unit 20 receives power from the emergency battery 40, and from the emergency battery 40 to the emergency induction lamp 60 installed inside the tunnel. Supply power. To this end, the control unit 20 turns on the switch 50 installed between the emergency battery 40 and the emergency induction lamp 60.

If an accident or disaster occurs and receives an interrupt signal from the disaster center, the controller 20 displays the contents related to evacuation induction or the disaster contents on the electric sign board 80. The display board 80 may be installed at the tunnel entrance as shown in FIG. 2. The memory 30 stores guide messages and the like corresponding to the plurality of interrupt signals. When the controller 20 receives the interrupt signal, the controller 20 may read a guide message corresponding to the interrupt signal from the memory 30 and display it on the electronic display panel 80. Even in an accident or disaster, the controller 20 may emit the emergency induction lamp 60.

The operation of the tunnel lighting device will be described with reference to FIG. 3.

3 is a flowchart illustrating a tunnel lighting method interworking with an external illuminance according to an embodiment of the present invention.

Referring to FIG. 3, the tunnel lighting apparatus determines whether to detect a sensor detection value in step 210. The tunnel lighting device may detect the sensor detection value at preset time intervals. The preset time interval may be set short in a time zone in which light intensity changes rapidly, such as morning or evening, and may be set long in a time zone in which light intensity rarely changes, such as daytime.

When the tunnel lighting apparatus detects a sensor detection value at a preset time interval, the tunnel lighting apparatus calculates an illuminance value of external light according to the sensor detection value in step 220. Subsequently, in operation 230, the tunnel lighting apparatus determines whether the illuminance value of the external light is greater than a predetermined threshold value.

If the calculated illuminance value is less than or equal to the predetermined threshold value, the tunnel lighting apparatus controls the illuminance of the light emitting unit installed in the tunnel at a predetermined illuminance value in step 240. In addition, when the calculated illuminance value is larger than the predetermined threshold value, the tunnel lighting apparatus controls the illuminance of the light emitting unit installed in the tunnel in operation 250 based on the illuminance value of the external light.

4 is a flowchart illustrating a tunnel lighting method interworking with an external illuminance according to another embodiment of the present invention.

Referring to FIG. 4, the tunnel lighting apparatus determines whether to detect a sensor detection value in step 310. The tunnel lighting device may detect the sensor detection value at preset time intervals. When the tunnel lighting apparatus detects a sensor detection value at a preset time interval, the tunnel lighting apparatus calculates an illuminance value of external light according to the sensor detection value in step 320. In operation 330, the tunnel lighting apparatus determines whether the illuminance value of the external light is greater than a predetermined threshold value.

If the calculated illuminance value is less than or equal to the predetermined threshold value, the tunnel lighting apparatus controls the illuminance of the light emitting unit installed in the tunnel at a predetermined illuminance value in step 340.

In addition, when the calculated illuminance value is greater than the predetermined threshold value, the tunnel lighting apparatus determines the illuminance of the light emitting units included in the first light emitting unit group installed at the entrance or exit of the tunnel among the light emitting units installed in the tunnel in operation 350. The first ratio of the illuminance value of the external light, for example, 1/20, is adjusted.

Subsequently, the tunnel lighting apparatus, in step 360, is not installed at the tunnel entrance or exit, but the illuminance of the light emitting units included in the second light emitting unit group of the light emitting unit affected by the tunnel external light, for example, a second ratio of the illuminance value of the external light, for example, , Adjust to 1/15. Finally, the tunnel lighting apparatus adjusts the illuminance of the light emitting units included in the third light emitting unit group of the light emitting unit which is not affected by the light outside the tunnel at step 370, for example, to a third ratio of the illuminance value of the external light, for example, 1/10. do.

Hereinafter, the operation at the time of emergency occurrence in the tunnel lighting device will be described.

5 is a flowchart illustrating an operation in an emergency situation in a tunnel lighting apparatus according to an embodiment of the present invention.

Referring to FIG. 5, in operation 410, the tunnel lighting apparatus determines whether an interrupt signal is received from an external interrupter. As described above, the external interrupter may be a power device for powering the tunnel lighting device or a disaster center for notifying a disaster situation. The external interrupter notifies the tunnel lighting device in the event of an accident or disaster involving the tunnel.

When the tunnel lighting apparatus receives the interrupt signal from the external interrupter, the process proceeds to step 420 to determine whether a power failure has occurred based on the interrupt signal. If a power outage occurs, the tunnel lighting device turns on the emergency induction light at step 430. In this case, the tunnel lighting device supplies power from the emergency battery to the emergency induction lamp.

If the interrupt signal is not caused by a power failure, the tunnel lighting apparatus proceeds to step 440 to read a guide message corresponding to the interrupt signal from the memory. The memory of the tunnel lighting device stores a guide message and the like in response to the interrupt signal. Such guidance message may include contents related to evacuation induction or disaster details.

When the tunnel lighting apparatus reads the guidance message corresponding to the interrupt signal from the memory, the tunnel lighting apparatus displays the guidance message on the electronic display board installed in the tunnel entrance at step 450.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

1 is a block diagram of a tunnel lighting apparatus according to a preferred embodiment of the present invention.

2 is a view showing the light emitting unit and the light emitting plate of the light emitting unit of the tunnel lighting apparatus according to the present invention.

3 is a flowchart illustrating a tunnel lighting method interworking with an external illuminance according to an embodiment of the present invention.

4 is a flowchart illustrating a tunnel lighting method interworking with an external illuminance according to another embodiment of the present invention.

5 is a flowchart illustrating an operation in an emergency situation in a tunnel lighting apparatus according to an embodiment of the present invention.

Claims (21)

In a tunnel lighting device, A sensor that detects the illuminance of the light outside the tunnel and outputs a sensor detection value; A light emitting unit including a plurality of light emitting units disposed in the tunnel at predetermined intervals along the tunnel length direction; When the sensor detection value is received from the sensor, the illuminance value of the external light is calculated according to the sensor detection value. When the calculated illuminance value is larger than a predetermined threshold value, the illuminance of the light emitting units of the light emitting unit is based on the illuminance value of the external light. Tunnel lighting device comprising a control unit for controlling. The tunnel lighting apparatus of claim 1, wherein the controller controls the illuminance of the light emitting units of the light emitting unit based on a predetermined basis when the calculated illuminance value is less than or equal to a predetermined threshold value. The tunnel lighting apparatus of claim 1, wherein the controller adjusts illuminance of the plurality of light emitting units of the light emitting unit at a predetermined ratio of the illuminance value of the external light. 4. A tunnel lighting device according to claim 3, wherein said predetermined ratio is 1/10 of the illuminance value of said external light. The method of claim 1, wherein the light emitting unit A first light emitting group including light emitting units disposed at a tunnel entrance or exit; A second light emitting group comprising light emitting units not disposed at the tunnel entrance or exit but affected by light outside the tunnel; And a third light emitting group including light emitting units that are not affected by the light outside the tunnel. The light emitting device of claim 5, wherein the controller is configured to adjust the illuminance of the light emitting units included in the first light emitting unit group of the light emitting unit to a first ratio of the illuminance value of the external light, and to emit light included in the second light emitting unit group of the light emitting unit. And adjust the illuminance of the units to a second ratio of the illuminance value of the external light, and to adjust the illuminance of the light emitting units included in the third light emitting unit group of the light emitter to the third ratio of the illuminance value of the external light. Lighting device. The method of claim 6, wherein the first ratio is 1/20 of the illuminance value of the external light, the second ratio is 1/15 of the illuminance value of the external light, and the first ratio is 1 of the illuminance value of the external light. Tunnel lighting apparatus characterized in that / 10. The method of claim 1, An emergency battery that supplies power in the event of a power outage; Tunnel lighting apparatus further comprises an emergency induction light that is turned on in an emergency situation. The method of claim 8, Electronic display board installed at the entrance of the tunnel to display the guidance message, and The memory device may further include a memory configured to store a guide message in response to the plurality of interrupt signals. And the control unit reads a guide message corresponding to the interrupt signal from the memory and displays it on the display when receiving an interrupt signal indicating an accident or disaster. An illumination method in a tunnel lighting apparatus having a light emitting unit including a plurality of light emitting units provided inside a tunnel, Detecting the illuminance of the light outside the tunnel through the sensor and outputting a sensor detection value; Calculating an illuminance value of the light outside the tunnel according to the sensor detection value; And if the calculated illuminance value is greater than a predetermined threshold value, controlling the illuminance of the light emitting units of the light emitting unit based on the illuminance value of the external light. The method of claim 10, And if the calculated illuminance value is less than or equal to a predetermined threshold value, controlling the illuminance of the light emitting units of the light emitting portion on a predetermined basis. The tunnel lighting method as claimed in claim 10, wherein the controlling of the light is performed by adjusting illuminance of the plurality of light emitting units of the light emitting unit at a predetermined ratio of the illuminance value of the external light. 13. A tunnel illumination method according to claim 12, wherein the predetermined ratio is 1/10 of the illuminance value of the external light. The method of claim 10, wherein the controlling step Adjusting the illuminance of the light emitting units included in the first light emitting unit group disposed at the entrance or exit of the tunnel among the plurality of light emitting units of the light emitting unit at a first ratio of the illuminance value of the external light; Adjusting illuminance of the light emitting units included in the second light emitting group of the light emitting unit which is not disposed at the inlet or the outlet but is affected by the light outside the tunnel at a second ratio of the illuminance value of the external light; And adjusting the illuminance of the light emitting units included in the third light emitting group of the light emitting unit not affected by the external light of the tunnel at a third ratio of the illuminance value of the external light. 15. The method of claim 14, wherein the first ratio is 1/20 of the illuminance value of the external light, the second ratio is 1/15 of the illuminance value of the external light, and the first ratio is 1 of the illuminance value of the external light. Tunnel illumination method characterized in that / 10. The method of claim 10, And when a power failure occurs, supplying power from an emergency battery for supplying emergency power to an emergency induction lamp that is lit in an emergency situation. The method of claim 10, And receiving a guide message corresponding to the interrupt signal at a tunnel entrance when receiving an interrupt signal indicating an accident or disaster, and displaying the guide message on a display board displaying the guide message. In a tunnel lighting device, A sensor that detects the illuminance of the light outside the tunnel and outputs a sensor detection value; And a plurality of light emitting units installed at predetermined intervals along the tunnel length direction inside the tunnel, wherein the plurality of light emitting units include light emitting units divided into a plurality of groups according to their installation positions; When the sensor detection value is received from the sensor, the illuminance value of the external light is calculated according to the sensor detection value. When the calculated illuminance value is larger than a predetermined threshold value, the illuminance of the light emitting units of the light emitting unit is based on the illuminance value of the external light. Tunnel lighting device comprising a control unit for controlling. The tunnel lighting apparatus of claim 18, wherein the controller is configured to control the illuminance of the light emitting units to different illuminance values for each group of the light emitting units based on the illuminance value of the external light. An illumination method in a tunnel lighting apparatus having a light emitting unit including a plurality of light emitting units provided inside a tunnel, Dividing the plurality of light emitting units into a plurality of groups according to their installation positions; Detecting the illuminance of the light outside the tunnel through the sensor and outputting a sensor detection value; Calculating an illuminance value of the light outside the tunnel according to the sensor detection value; And if the calculated illuminance value is greater than a predetermined threshold value, controlling the illuminance of the light emitting units of the light emitting unit based on the illuminance value of the external light. The tunnel lighting method according to claim 20, wherein the controlling comprises controlling the illuminance of the light emitting units to different illuminance values for each group of the light emitting units based on the illuminance value of the external light.

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