KR101320450B1 - System for controlling a lot illumination installed and method thereof - Google Patents

Abstract

Provided are a lighting control system and a control method for collectively controlling a number of lighting points / lightings and brightness adjustments installed in a large area such as a park or an assembly building in accordance with the presence or absence of a moving body and a moving direction of the moving body. The lighting control system may include: a body detector having at least two detectors installed at a predetermined interval in a large area to detect movement of surrounding objects and output body motion detection signals; The moving direction of the object is analyzed by the fuselage detection signal which is installed in proximity to the fuselage detector and outputs the result, and the lighting lamp is turned on / off in response to the fuselage detection signal or the lamp on / off signal input from the outside. A plurality of lighting devices which are extinguished and which control brightness of the lighting lamps by adapting the amount of current flowing through the lighting lamps; And a light control computer outputting a lighting signal to a neighboring lighting device installed adjacent to the moving direction in response to the object moving direction signal output from the lighting device, and outputting a dimming control signal to the lighting device.

Description

Lighting control system for controlling a plurality of lights collectively and a control method thereof

The present invention relates to a lighting control system, and more particularly, to the presence or absence of object moving and moving the body of the lights (dimming) of a plurality of lights installed in a large area, such as parks, assembly buildings The present invention relates to a lighting control system and a control method for collective control according to the direction.

In many places where people live, many lighting devices are installed to reflect, refract, and transmit light from a light source. Examples of such lighting devices may be classified into garden lights, street lights (road lights), ceilings installed on the ceiling, and the like, depending on the purpose of use. Among the above lighting devices, road lights (street lights) are electrical facilities installed along the roadside for street lighting, traffic safety, or aesthetics of places such as parks. There are a variety of methods such as, 式, suspension ceremony, and douche ceremony.

Such lighting devices are generally provided with a plurality of, for example, tens or hundreds along the horizontal, so that they can be turned on or off at once in the central control or main switchboard, or a Cds (cadmium sulfide) cell or the like. A driving method is applied to automatically turn on only at night by using a photoconductive device.

In general, a lighting device installed in a park or a street having a relatively large area is automatically turned on at night by using a photoconductive device such as a Cds (cadmium sulfide) cell. As described above, the method of turning on / off the lighting device by using a photoconductive device such as a Cds cell can control the lighting and turning off of the lighting device depending on the day and night. Even without this, there is a problem that power is unnecessarily wasted at night by keeping the lamps of all lighting apparatuses turned on all the time.

In addition, the lighting devices installed in a large assembly building such as a school is configured to be turned on and off by turning on / off the switch of the individual or group switchboard and the main switchboard. In such lighting devices, when some lights are turned on or off, the user must directly move to individual or group switchboards and operate each switch. Therefore, there was an inconvenience that the user has to move and operate to the place where the switch of the lighting to be controlled is installed.

In addition, the underground facilities of the super-large assembly building, for example, the underground parking lot, have been kept in a state where all the lamps of the lighting device are turned on for 24 hours due to the problem of security and safety. Therefore, all lamps remain lit regardless of whether there is a moving fuselage, resulting in a large waste of power and a problem of wasting energy resources.

Therefore, the present invention has been made to solve the above problems, the point / turn off, the brightness of the lighting device installed a plurality of lights spaced apart in a large area of the area and the presence or absence of the fuselage around the lighting device (dimming) The present invention provides an illumination control system and a control method for collective control according to the moving direction.

Another object of the present invention is to detect the presence of the fuselage and its moving direction by the fuselage sensor installed in the vicinity of the lighting device to collectively control the lighting, turn off and brightness of the lighting device and another lighting device adjacent to the lighting device An illumination control system and a control method thereof are provided.

The lighting control system of the present invention for achieving the above object is a body detector having at least two detectors are installed at a predetermined interval in a large area to detect the movement of the surrounding objects and output the body motion detection signals; The moving direction of the object is analyzed by the fuselage detection signal which is installed in proximity to the fuselage detector and outputs the result, and the lighting lamp is turned on / off in response to the fuselage detection signal or the lamp on / off signal input from the outside. A plurality of lighting devices which are extinguished and which control brightness of the lighting lamps by adapting the amount of current flowing through the lighting lamps; And a control computer outputting a lighting signal to a neighboring lighting device installed adjacent to the moving direction in response to an object moving direction signal output from the lighting device, and outputting a dimming control signal to the lighting device.

Each of the plurality of lighting devices stabilizes and outputs an input power supply voltage to a constant voltage in response to a lamp control signal, and changes the level of the output voltage according to a brightness control signal to a lamp driver and an output node of the lamp driver. A lamp string connected and driven by a voltage output therefrom; A body moving direction connected between the lamp string and the ground to sense a current flowing through the lamp string and outputting the current sensor, and a body moving direction by analyzing the body detecting signals output from the detectors in the body detector and outputting a body moving direction detection signal. A lamp control signal is provided to the lamp driver in response to a detector, a lamp lighting signal transmitted from the control computer and the fuselage sensing signal, and corresponding to the dimming control signal output from the control computer and the amount of current sensed by the current sensor. And a lamp controller which outputs a brightness control signal to the lamp driver and transmits a body movement direction detection signal output from the body movement direction detector to the control computer.

According to another aspect of the present invention, a lighting control method includes a fuselage detector that detects movement of an object at regular intervals over a large area, and turns off a lamp by an output from the fuselage detector and a command from the outside around the fuselage detector. A plurality of lighting devices for controlling the brightness are installed in pairs, and are usefully used in lighting systems having a light control computer for collectively controlling the plurality of lighting devices. The lighting apparatus includes a lamp lighting process of lighting a lamp and adjusting brightness in response to a lighting command and a dimming control signal; A fuselage detecting process of lighting the lamp when the fuselage is detected in the vicinity and detecting a moving direction of the detected fuselage; A brightness adjusting step of adjusting the brightness of the lit lamp to a brightness corresponding to the amount of current flowing into the lit lamp; If the fuselage is not detected in the periphery, the lamp is turned off and lamp status information is output. The light control computer includes a direction of movement when the moving direction of the fuselage is detected in the fuselage detection process of a lighting device. And transmitting a lighting command to a neighboring lighting device installed in the lighting device, and transmitting a dimming control signal to the lighting device.

The lighting control system and the lighting control method according to an embodiment of the present invention comprises a fuselage detector and a lighting device in pairs and are installed at regular intervals in a large area, and automatically the point of the lighting device along the moving wire moving the fuselage, By controlling the lighting and brightness, the power consumed in an assembly building or a park installed in a plurality of lighting devices can be minimized.

1 is a schematic diagram of a park to which the lighting control system according to the preferred embodiment of the present invention is applied.
2 is a block diagram of a lighting control system according to a preferred embodiment of the present invention.
3 is a control flow diagram of the lighting apparatus shown in FIG.
FIG. 4 is a control flowchart of the light control computer shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are intended to sufficiently convey the spirit of the present invention to those skilled in the art.

Referring to FIG. 1, the lighting control system of the present invention is usefully applied in a park 10 or the like having a large area. The park 10 is divided into a forest district 12 and a landscape region 14 where many people can rest, and the forest district 12 and the landscape region 14 have a body detector 20 at regular intervals. And a lighting device 30 are installed in pairs. In FIG. 1, two fuselage detectors 20 are installed for one lighting device 30.

The lighting and turning off of the plurality of lighting devices 30 shown in FIG. 1 and their brightness are controlled by the fuselage sensor 20 installed at the periphery, and are simultaneously controlled by the light control inspection computer 40. That is, the lighting control devices 30i and 30j (where i and j are integers i ≠ j and 30ij includes 30i and 30j) are ramped in response to a lighting or extinguishing command transmitted from the light control computer 40. Is turned on and off, and the brightness of the lamp lit by the dimming control signal (DCS) from the light control computer 40 is adjusted.

When a moving object, for example, a person enters the walkway TR of FIG. 1, the fuselage sensor 20 at the forefront detects this and outputs a fuselage detection signal to a lighting device 30 installed adjacent thereto. At this time, the lighting device 30 turns on the lamp in response to the fuselage detection signal, and analyzes the fuselage detection signal to detect the fuselage moving direction. At this time, the lighting device 30 transmits data corresponding to the detected moving body moving direction to the light control computer 40.

The light control computer 40 analyzes the fuselage moving direction data output from the lighting device 30ij and outputs a lighting control signal to another lighting device 30ij installed in the moving direction of the fuselage. 30, a dimming control signal DCS is output to control the brightness of the lamp to dim as time passes.

When a person walks along the walkway TR of the park 10 by the above operation, a plurality of lighting devices 30ij spaced apart from the park 10 are sequentially turned on and darkened in accordance with the movement of the person. By turning off, unnecessary power consumption can be eliminated. This operation will be more clearly understood by the following description.

When power is supplied to the park 10 illustrated in FIG. 1, the plurality of lighting devices 30i spaced apart from each other in the park 10 may output a fuselage detection signal from neighboring fuselage detectors 20 and 22. It is checked whether the lamp lighting command has been sent from the control computer 40. At this time, each of the lighting device (30i) is given a unique identification (identification) to be able to perform data communication with the light control computer 40 individually.

The lamp controller 35 in the lighting device 30i checks whether a lighting command is received from the light control computer 40 in step S12 of FIG. If it is determined that the lighting command is received, the lamp controller 35 outputs a lamp control signal (LCS: Lamp Control Signals) for lighting the lamp to the lamp driver 31 in step S14.

The lamp driver 31 converts the power voltage VDC input from the outside into a stable voltage in response to the lamp control signal LCS to supply the lamp string 32 to light the lamp in the lamp string 32. . At this time, the lamp in the lamp string 32 may use a high brightness light emitting diode (LED), the lamp driver 31 has a SMPS (Switching Mode Power) having a PWM driver for changing the pulse width in accordance with the control voltage therein Supply can be used. The SMPS as described above supplies the voltage having a constant voltage to the lamp string 32 by an enable signal, for example, a lamp control signal LCS, and by brightness control signals BCS. Adjust the level of output voltage. The brightness control signal BCS is input to the control voltage of the PWM driver.

When the lamp controller 35 performing the step S14 detects whether or not the dimming control signal DCS is transmitted from the light control computer 40 in step S16, when the dimming control signal DCS is not received, the step S12 is performed. Repeat this. However, when it is determined in step S14 that the dimming control signal DCS is received, the lamp controller 35 jumps to step S30 to output the brightness control signal BCS corresponding to the received dimming control signal DCS. Output to (31) to lower the level of the voltage supplied to the lamp string 32 to adjust the brightness.

However, if the lighting command is not received from the light control computer 40 in step S12 described above, the lamp controller 35 receives an object moving direction detection signal (OMDS) from the fuselage moving direction detector 34 in step S18. Signal) is output.

The moving body moving direction detector 34 shown in FIG. 2 analyzes the moving body detecting signal output from the sensors S1 to S4 in the moving body detectors 20 and 22 spaced apart from the periphery of the lighting device 30i, and moves the moving object. A body movement direction detection signal (OMDS) indicating the movement direction of the signal is output to the lamp controller 35.

For example, if the object is moving from the detector S1 to the direction of the detector S4, data including the fuselage detection signal is output to indicate that the object is moving in the first direction, and the object is detected from the detector S4. When moving in the direction of S1, data indicating that the object is moving in the second direction is output.

Therefore, the lamp controller 35 can detect the presence or absence of the body and the moving direction of the body by reading the output of the body movement direction detector 34. It is obvious that the sensors S1 to S4 can be implemented using various sensors such as pyroelectric sensors, ultrasonic sensors, and infrared sensors.

If it is determined in step S18 that the fuselage is detected, the lamp controller 35 reads the output of the current sensor 33 in step S20 and searches whether the lamp in the lamp string 32 is turned on. When the lamp is turned off in the search result of step S20, the lamp controller 35 outputs a lamp control signal LCS to the lamp driver 31 to turn on the lamp in step S22. By such an operation, when a person passes around the lighting device 30 of FIG. 1, a lamp is automatically turned on to brighten the surroundings.

If the lamp is turned on in step S20, the lamp controller 35 detects a moving direction by analyzing the body moving direction detection signal OMDS output from the body moving direction detector 34 in step S24, and moves in step S26. The data indicating the direction is transmitted to the light control computer 40.

Thereafter, the lamp controller 35 reads the output of the current sensor 33 to detect a current value. At this time, the current sensor 33 is a current-voltage conversion resistor connected between the cathode of the LED lamp constituting the lamp string 32 and the ground to convert the current flowing through the lamp into a voltage. The lamp controller 35, which detects the current flowing to the lamp string 32 in step S28, outputs a brightness control signal BCS corresponding to the detected current value to the lamp driver 31, thereby increasing the brightness of the lamp 32. To control.

At this time, the brightness control signal BCS adjusted by the current value and output from the lamp controller 35 is to adjust the brightness of the lamp string 32 constantly, and the lamp is controlled by the dimming control signal DCS described above. The brightness control signal BCS output from the controller 35 is to make the brightness of the lamp string 32 minimum brightness. That is, when receiving the dimming control signal DCS from the light control computer 40, the lamp controller 35 outputs the brightness control signal BSC for minimizing the brightness of the lamp string 32.

If the body movement direction detection signal OMDS output from the body movement direction detector 34 is in a non-activation state in step S18, there is no object such as a person moving around the lighting device 30i. In step S32, the controller determines whether the lamp is turned on.

If the lamp in the search result of step S32 is turned on, the lamp controller 35 blocks the lamp control signal LCS output to the lamp driver 31 in step S34, and then the lamp of the lamp string 32 is turned off in step S36. Outputs status data indicating that the lamp is off. At this time, the lamp driver 31 shown in FIG. 2 turns off the lamp by cutting off the power voltage supplied to the lamp string 32 in response to the blocking of the lamp control signal LCS.

Therefore, according to the above operation, the lighting device 30i according to the embodiment of the present invention is a lamp according to whether the fuser sensor 20, 22 installed on or off of the lighting control computer 40 of the remote control or installed in the vicinity. It can be seen that the lamps in the string 32 are turned on / off and the data indicating the moving body movement in the vicinity is transmitted to the light control computer 40.

The light control computer 40 shown in FIG. 2 shows whether data is received from a plurality of lighting devices shown in FIG. 1 (where k denotes any one of reference numerals 30, 30i, and 30j). Search in step S40.

If it is determined in step S40 that data is received from the lighting device 30ij, the light control computer 40 searches for moving direction data indicating a moving direction of the fuselage in step S42, and if it is not the moving direction data, step S48. Process the data received from. In this case, the data transmitted from the lighting device 30ij may be a signal such as disconnection of the lamp string 32.

If it is determined that the data received in the step S42 is the movement direction data, the light control computer 40 moves to the lighting device 30ij ㅁ m installed in the direction proceeding from the ij th lighting device 30ij in step S44. Send the lighting command. For example, when the body moves in the direction of the lighting device 30j around the lighting device 30i, the light control computer 40 transmits a lighting command to the lighting device 30j in step S44, and step S46. Outputs a dimming control signal DCS to the lighting device 30i.

When a person enters the vicinity of the lighting device 30i and moves in the direction of the lighting device 30j by the control operation as described above, the lamp of the lighting device 30i is turned on. It can be seen that after the lamp of the lighting device 30j is turned on, the lamp of the lighting device 30i is turned off after the lamp of the lighting device 30i is darkly controlled.

Therefore, when the lighting control system and the control method according to an embodiment of the present invention is installed in a plurality of lighting devices in a large area, the lighting, dimming, and extinguishing of the plurality of lighting devices are sequentially controlled according to the movement of the fuselage in the corresponding area. By properly controlling the brightness of the power consumption can be eliminated.

In the embodiment of the present invention has been given an example in which a plurality of lighting devices (30ij) is installed in the park (1), it should be appreciated that the present invention can be applied to the same building.

10: park, 12: forest district,
14: landscape area, 20: fuselage detector,
30, 30i, 30j: lighting device, 31: lamp driver,
32: lamp string, 33: current sensor,
34: body movement detector, 35: lamp controller,
40: light control computer, TR: trail.

Claims (4)

An illumination control system, comprising: a body detector having at least two detectors installed at a predetermined interval in a large area to detect movement of surrounding objects and output body motion detection signals; The moving direction of the object is analyzed by the fuselage detection signal which is installed in proximity to the fuselage detector and outputs the result, and the lighting lamp is turned on / off in response to the fuselage detection signal or the lamp on / off signal input from the outside. A plurality of lighting devices which are extinguished and which control brightness of the lighting lamps by adapting the amount of current flowing through the lighting lamps; And a lighting control computer for outputting a lighting signal to a neighboring lighting device installed adjacent to the moving direction in response to an object moving direction signal output from the lighting device, and outputting a dimming control signal to the lighting device. Each of the devices is connected to and outputs from a lamp driver which stabilizes and outputs an input power supply voltage to a constant voltage in response to a lamp control signal, and varies the level of the output voltage according to a brightness control signal, and an output node of the lamp driver. A lamp string driven by the voltage to be provided; A body moving direction connected between the lamp string and the ground to sense a current flowing through the lamp string and outputting the current sensor, and a body moving direction by analyzing the body detecting signals output from the detectors in the body detector and outputting a body moving direction detection signal. A lamp control signal is provided to the lamp driver in response to a detector, a lamp lighting signal transmitted from the control computer and the fuselage sensing signal, and corresponding to the dimming control signal output from the control computer and the amount of current sensed by the current sensor. And a lamp controller which outputs a brightness control signal to the lamp driver and transmits a body movement direction detection signal output from the body movement direction detector to the control computer.
delete The fuselage detector which detects the movement of an object at regular intervals in a large area and the lighting device which turns on and off the lamp by the command of the output of the fuselage sensor and the command from the outside in the vicinity of the fuselage detector are paired. A control method of a lighting control system having a light control computer installed in a plurality, and controlling a plurality of lighting devices collectively, wherein the lighting device turns on a lamp and adjusts brightness in response to a lighting command and a dimming control signal. Lamp lighting process; A fuselage detecting process of lighting the lamp when the fuselage is detected in the vicinity and detecting a moving direction of the detected fuselage; If the fuselage is not detected in the vicinity, the lamp is turned off and outputs the lamp status information, and the lamp control computer, the light control computer is detected in the moving direction of the fuselage in the fuselage detection process of the lighting device in the direction of movement Transmitting a lighting command to an installed neighboring lighting device and transmitting a dimming control signal to the lighting device; And the lighting apparatus comprises a brightness adjusting process of adjusting the brightness of the lit lamp to a brightness corresponding to the amount of current flowing into the lit lamp.
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