WO2010064860A4 - Method and system for controlling group of lamps - Google Patents

Abstract

Provided are a method and a system for controlling a group of lamps, wherein the on/off control of the group of lamps is performed by mutually-associated network communications with respect to the group of lamps, thereby enabling the on/off control of the lamps according to the moving speed of a moving object, and a remote controller enables the interactive control of illumination and on/off function of the lamps. To this end, the system comprises: a plurality of lamps that are installed in a large indoor space such that the lamps can illuminate respective applicable parts of the indoor space; a plurality of lamp controllers that are installed corresponding respectively to the lamps, perform the sequent transmission of control signals for the on/off control of the lamps by the mutual network communications among adjacent devices on a basis of the sensing of the moving object, and control the on/off state of each of the applicable lamps; and a remote controller for generating remote control signals to remotely control the lamps by the sequent transmission of the control signals among the lamp controllers.

Description

Group control method of lighting lamp and its system

The present invention relates to a group control method and system for an illuminated lamp that enables group control of a plurality of illuminated light groups through mutually related functional network communications.

In general, an illuminating lamp installed in a room is provided with an on / off switch for lighting and off, so that the user can manually turn on / off the switch so that the illuminating lamp can be turned on and off. In recent years, a sensor for sensing human body has been developed and applied so as to turn on the corresponding illumination lamp when the human body is approached near the illumination lamp.

On the other hand, in a wide area where a plurality of lighting lamps such as a corridor, a stairway, an indoor parking lot of a building and the like are installed, there is a limit in manually operating each lighting lamp individually, The sensor is provided for each installation area of the illumination lamp so that only the illumination lamp in the area where the vehicle body approaches can be lighted.

However, in such a conventional sensor-sensitive lighting apparatus, in the case where a plurality of illumination lamps are installed in a wide-area space, since a sensing range of a sensor for sensing a moving body is relatively narrow, Only the illumination lamp is limitedly lit so that it is difficult to follow the progress speed of the person or the vehicle exactly so as to turn on the illumination lamp.

In addition, in the case of a plurality of lighting fixtures installed in a certain wide area, since the flashing function is performed independently for each lighting fixture, there is a need to adjust the illuminance of the lighting fixture as a whole or partially according to need, There is a problem in that it is difficult to substantially control the roughness.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an apparatus and a method for controlling a plurality of groups of illumination lights, And to provide a system and method for controlling a group of illumination lamps that enable an interlocking flashing operation of an illumination lamp or the like.

It is another object of the present invention to provide a group control method and system for an illuminating lamp that enables illumination control and control of various blinking functions to be interlocked through remote control using a remote control for a plurality of groups of illumination lights.

According to an aspect of the present invention, there is provided a lighting system including a plurality of illumination lamps installed in a wide-area indoor space, and a plurality of illumination lamp control devices provided corresponding to the respective illumination lamps, A group control method for a lighting system, comprising the steps of: when a moving body is detected by a specific lighting control device among the plurality of controllable lighting devices, the corresponding lighting control device of the moving body detection side lights up its own lighting lamp, A step of wirelessly transmitting a control signal for controlling lighting of a lighting unit in charge, lighting control of a corresponding lighting unit by a neighboring lighting control unit receiving a control signal from the lighting control unit for sensing a moving object, State, the moving body is moved and the moving-body-detection-side illumination lamp control device And stopping transmission of a control signal for turning on the illuminating lamp so that the adjacent illuminating lamp is turned off when the detection of the moving body of the illuminating lamp is stopped, .

According to another aspect of the present invention, there is provided a lighting control apparatus comprising: a plurality of illumination lamps installed in a wide-area indoor space; a plurality of illumination lamp control apparatuses provided corresponding to the respective illumination lamps, A group control method of an illuminating lamp system having a remote control for remotely controlling each of the illuminating lamp control devices, the method comprising: transmitting a remote control remote control signal for remotely controlling a specific function operation from the plurality of illuminating lamp control devices The specific lighting control device receiving the remote control remote control signal is set as a main control device and the specific lighting control device performs a specific function operation according to the remote control to control the lighting lamp in charge thereof , The remote control remote control signal is transmitted to another adjacent light control device The method of claim 1, further comprising the steps of: wirelessly transmitting a control signal for controlling operation of the functioning unit; and controlling the operation of each of the adjacent illumination lamp control units by applying a specific function operation according to the remote control, And relaying the control signal to the control unit.

In order to achieve the above object, according to the system of the present invention, there is provided a system comprising: a plurality of illumination lights installed in a wide-area indoor space to illuminate respective indoor spaces; A plurality of illumination lamp control devices for relaying control signals for controlling the blinking of an illumination lamp by mutual network communication between adjacent devices and controlling the blinking state of each illumination lamp; And a remote controller for generating a remote control remote control signal for remotely controlling the respective lighting lamps using a transmission function.

As described above, according to the present invention, it is possible to perform network communication with respect to a plurality of groups of illumination lights installed in an indoor space such as a hallway of a building, a stairway by each floor, a medium / large office, So that the blinking state of a plurality of lighting lamp groups can be controlled through a remote control using a remote controller so that the blinking state of a plurality of lighting lamp groups can be controlled in accordance with the traveling speed of the moving body, It is possible to easily control the lighting condition setting and illumination control for each illumination lamp by using a remote controller, and it is possible to provide convenience to the manager The present invention has an effect that it can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing the overall configuration of a group control system for a lighting fixture according to the present invention;

FIG. 2 is a view showing a detailed configuration of the illumination lamp control apparatus shown in FIG. 1,

3 is a diagram illustrating a remote control setting item of a remote controller according to a preferred embodiment of the present invention;

FIGS. 4 to 6 are diagrams illustrating an operation of controlling lighting of adjacent illumination lights according to a preferred embodiment of the present invention,

FIG. 7 and FIG. 8 are views for explaining an operation of controlling the lighting state of other adjacent lighting lamps by the remote control according to the preferred embodiment of the present invention.

Description of the Related Art

A1 to An: illumination light, B1 to Bn: illumination light control device,

10: SMPS, 12: illuminance controller,

14: radio transmission unit, 16: radio reception unit,

18: illuminance detection sensor, 20: fuselage sensor,

22: remote control signal receiving unit, 24: remote control signal transmitting unit,

26: Microcomputer, 100: Remote control.

Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

That is, FIG. 1 is a diagram showing the overall configuration of a group control system of a lighting lamp according to the present invention,

1, the group control system for a lighting apparatus according to the present invention includes a plurality of illumination lights A1 to An, a plurality of illumination control units B1 to Bn, and a remote controller 100 do.

The plurality of illumination lights A1 to An are installed in a relatively wide interior space such as a corridor of a building, a stairway for each floor, a medium / large-sized office, an indoor parking lot and the like and are flickered to illuminate the space. It is preferable to apply a fluorescent lamp having a short reaction time.

The plurality of light control devices B1 to Bn are installed in a number corresponding to each of the illumination lamps A1 to An and are used for controlling the blinking of each lighting lamp. And controls the grouping of the illumination lamps by relay transmission of control signals by wireless network communication with neighboring illumination lamp control devices, Control or group control, controls the blinking function of the corresponding lighting lamp, and performs wireless network communication with the adjacent lighting control device.

Here, each of the light control apparatuses B1 to Bn may set the lighting control range of adjacent illumination lights at the time of sensing the moving body to each of the illumination control apparatuses, and may be configured to receive the lighting control signal from the illumination control apparatus In the adjacent lighting control apparatus, only one of the lighting lamps in charge is controlled to be lighted in accordance with a preset lighting control range, or the same control signal is transmitted to another adjacent lighting control apparatus.

As shown in FIG. 2, each of the illumination control devices B1 to Bn includes a Switching Mode Power Surge (SMPS) 10, a roughness controller 12, a wireless transmission unit 14, An illuminance detection sensor 18, a moving body detection sensor 20, a remote control signal receiving unit 22, a remote control signal transmitting unit 24, and a microcomputer 26.

The SMPS 10 receives an AC power source 220V and supplies necessary operating power to each operation circuit of the apparatus and supplies power necessary for lighting the respective lamps A1 to An.

The illuminance controller 12 adjusts the amount of power supplied from the SMPS 10 to the illuminating lamp according to illuminance control from the microcomputer 26 to adjust the illuminance of the illuminating lamp , It is desirable to apply an electronic ballast.

The wireless transmission unit 14 is for transmitting a function control signal related to the blinking function of the illuminated lamp in the form of a wireless signal to another adjacent lighting control apparatus, and comprises an infrared transmission unit for transmitting the wireless signal through an infrared signal.

The wireless receiving unit 16 is for receiving a function control signal in the form of a wireless signal from another adjacent lighting control unit, and comprises an infrared receiving unit for receiving a wireless signal as an infrared signal.

Here, it is preferable that the infrared signal is transmitted or received by a Manchster coding / decoding method using an infrared optical signal having a carrier frequency of 38 KHz.

The illuminance detection sensor 18 detects the ambient illuminance of the corresponding illuminated lamp and generates an illuminance detection signal corresponding thereto, and it is preferable that the illuminance detection sensor 18 comprises a Cds cell brightness detection sensor.

The moving body detection sensor 20 senses a state of approaching a moving body such as a person or a vehicle within a certain range around the corresponding illuminating lamp and generates a moving body detecting signal accordingly. The sensor detects a low frequency wave, Various types of sensors can be applied, such as an infrared sensor, a reflective sensor, a reflective infrared sensor, a thermal infrared sensor, and an ultrasonic sensor.

 The remote control signal receiving unit 22 wirelessly receives a remote control signal transmitted from the remote control 100. The remote control signal receiving unit 22 may be any of an infrared receiving unit and an ultrasonic receiving unit.

The remote control signal transmission unit 24 is for wirelessly transmitting a remote control completion confirmation signal as a signal indicating completion of the function operation by the remote controller control from the microcomputer 26. The remote control signal transmission unit 24 is an infrared May be applied.

In the present invention, the remote control signal receiving unit 22 and the remote control signal transmitting unit 24 are configured separately from the wireless transmitting unit 14 and the wireless receiving unit 16. However, the present invention is not limited thereto, And the remote control signal transmitting unit 24 are implemented as the transmitting / receiving method of the infrared signal, the frequencies of the infrared signal for transmitting / receiving the infrared signal and the remote control signal for communication with the other illumination control apparatus are set differently It is also possible to make it possible to transmit and receive a remote control signal to both the radio transmitter 14 and the radio receiver 16 as well.

The microcomputer 26 controls the intensity controller 12 to control the illumination of the illuminated lamp and adjust the illuminance according to the illuminance detection signal from the illuminance detection sensor 18, Controls the illuminance controller 12 to turn on and off the illuminated lamp according to the signal and also transmits the lighting control signal of the illuminating lamp according to the detection of the moving object to the adjacent illuminating lamp control device via the radio transmitter 14 by radio Lt; / RTI >

When the microcomputer 26 receives a function control signal from another adjacent lighting control apparatus received from the wireless receiving unit 16, the microcomputer 26 performs control of blinking or lighting control of the lighting lamp in charge according to the control function , And also performs control to transfer the corresponding function control signal to other adjacent light control apparatuses.

Upon receiving the remote control remote control signal from the remote control 100 through the remote control signal receiving unit 22, the microcomputer 26 performs control of blinking or lighting control of the illuminating lamp in accordance with the remote control function , And performs control for transmitting a function control signal having data contents corresponding to the remote control remote control to another adjacent control apparatus.

Meanwhile, when the microcomputer 26 performs wireless communication (for example, infrared signal communication) through the wireless transmitter 14 and the wireless receiver 16, the microcomputer 26 prevents data collision with the wireless signal from another light controller It checks whether a radio signal is received and starts transmission of a target signal only during a period in which there is no signal. If a bit frame collision of data is confirmed during transmission of a signal, it stands by for a random time and retransmits the target signal again.

Here, it is preferable that the signal for the wireless communication (for example, an infrared signal) is repeatedly transmitted at least three times to minimize the transmission error rate.

1, the remote controller 100 transmits a remote control remote control signal to a specific light control unit among the plurality of light control units B1 to Bn to entirely turn on or control the respective light units A1 to An, And has a plurality of function key buttons for various remote control of the illumination lamp, and it is possible to apply any of an infrared signal system and an ultrasonic signal system.

As shown in FIG. 3, the remote controller 100 includes a full illuminance illuminance setting function, a partial illuminance illuminance setting function, a total illuminating illuminating time setting function, a part of illuminating illuminating time setting function, an illuminating lamp blinking step setting function, An on / off setting function, and a device control time setting function, and transmits the data code according to the setting function to the carrier lamp of the infrared signal frequency and transmits the data code to the specific illumination lamp control device side.

The entire illuminance illuminance setting function is for setting the illuminance of the whole of the illumination lamps Al to An at a certain level, This is to set the illumination for a specified part of the illumination lamp to a certain level.

The entire lighting lamp lighting time setting function is for setting a permissible time range for the lighting possible time of the entire lighting lamps Al to An and the partial lighting lamp lighting time setting function is for setting the entire lighting lamps A 1 to An, The allowable time range of the allowable lighting time for some of the lighting lamps specified by the control unit 100 is set.

The illuminating lamp blinking step setting function is for setting a blinking step for turning on or off the progressive brightness of all or a part of each of the illumination lamps Al to An and the moving object detection mode on / The device control time setting function is used to set a control function responsive to the detection of the moving body of the sensor 20 by turning on / This is for setting the time interval.

Further, after transmitting the remote control remote control signal to the specific illuminance control device, the remote control 100 receives a remote control completion confirmation signal for informing completion of the functional operation according to the remote control of the remote control from the specific illumination control device And to check the status of remote control completion.

The confirmation of the completion of the remote control completion can be confirmed through a speaker (not shown) of the remote controller 100 through a beep sound or voice guidance, and can be confirmed through a separate display unit (not shown) It is also possible to display the completion status of the function in a character or graphic form.

Here, the specific lighting control apparatuses receiving the remote control remote control signals from the remote control 100 are set as the main control apparatuses, and the lighting control apparatuses B1 to Bn control the other light control apparatuses So that the control signal related to the data command of the remote control remote control signal can be wirelessly transmitted by network communication.

On the other hand, the remote controller 100 is capable of setting a remote control range from a specific lighting control apparatus to other adjacent lighting control apparatuses, and each lighting control apparatus corresponds to a remote control range set by the remote control 100 And relays the control signal to the illumination lamp control device in the range set on the basis of the specific illumination lamp control device which is the main control device.

Next, the operation of the present invention as described above will be described in detail with reference to FIGS. 4 to 6, and FIGS. 7 and 8. FIG.

First, among the entire illumination lamps (A1 to An) and all the illumination lamp control devices (B1 to Bn), a plurality of fifth to ninth illumination lamps (A5 to A9) and respective illumination lamps A corresponding plurality of fifth to ninth illumination control devices B5 to B9 will be described as an example.

First, when a moving body such as a vehicle moves along an indoor space provided with a plurality of fifth to ninth illumination lamps A5 to A9, the moving body is moved to the position of the fifth illumination lamp A5 The microcomputer 26 detects the moving body by detecting the moving body from the moving body detecting sensor 20 of the fifth illuminating lamp control unit B5 and controls the illuminance controller 12 in the microcomputer 26, And transmits the lighting control signal of the lighting lamp corresponding to the detection of the moving body to the adjacent lighting control apparatus side in the form of a radio signal through the wireless transmission unit 14. [

The wireless receiving unit 16 of the sixth illumination control unit B6 receives the illumination light control signal from the fifth illumination control unit B5 and the microcomputer 26 controls the illumination controller 16, So that the sixth illumination light A6 is turned on.

The illumination conditions of the fifth illumination light B5 and the sixth illumination light B6 are set such that the ambient illumination is darkened to a certain level or lower by the illumination sensor 18 of each of the illumination control devices B5 and B6 And the detection is premised.

6, when the moving body moves to approach the position of the sixth illumination light A6, the moving body detection sensor 20 of the sixth illumination control device B6 detects the moving body And the microcomputer 26 maintains the lighting state of the sixth illumination light A6 and controls the light emission control signal of the illumination light according to the detection of the moving body through the wireless transmission unit 14 To the fifth and fifth illuminating control devices B5 and B7 adjacent to each other in the form of a radio signal.

The fifth lighting control unit B5 maintains the lighting state of the corresponding lighting unit B5 and the microcomputer 26 of the seventh control unit B7 controls the corresponding seventh lighting unit A7, .

6, when the moving body approaches the position of the eighth illumination light A8 through the seventh illumination light A7, the moving body detection sensor 20 of the eighth illumination control unit B8 The microcomputer 26 controls the lighting state of the corresponding eighth illuminating lamp A8 to be maintained according to the detection of the moving object and also controls the operation of the seventh illuminating lamp control And transmits the lighting control signal of the illumination lamp to the device B7 and the ninth lighting control device B9.

The ninth illumination light A9 is illuminated by the ninth illumination light control device B9, but the fifth illumination light A5 and the sixth illumination light A9 are illuminated by the ninth illumination light control device B9. The illumination light A6 does not receive the control signal from the other illumination light control device and is turned off under the control of each microcomputer 26. [

In the meantime, in the embodiment of the present invention, the control signal through the wireless network communication is limited to only one illumination control device on each side from the illumination control device directly sensing the moving body, but the present invention is not limited thereto It is also possible to transmit the same control signal to at least two or more luminaire control devices according to the setting items programmed in the microcomputer 26.

7, when the remote control 100 is operated to control the blinking function for the whole illumination lamp through the remote control of the remote controller 100, The seventh illumination lamp control device B7 is set as a main control device for the entire illumination lamp control device and the radio transmission device 14 is controlled by the control device B7, A control signal for controlling the function operation corresponding to the contents of the data of the remote control remote control signal is transmitted to the adjoining other illumination control apparatuses (i.e., the sixth and eighth illumination control apparatuses B6 and B8) send.

When the control is normally performed, the seventh illumination control apparatus B & tilde & transmits the remote control completion confirmation signal to the remote control 100 through the remote control signal transmission unit 24, Upon receipt of the control completion confirmation signal, the user is notified by voice that the remote control has been completed, or displayed on the display unit (not shown).

Items that can be remotely controlled by the remote controller 100 include not only the illumination control of each illumination lamp shown in FIG. 7 but also the setting of the lighting time for the whole illumination lamp or a part of the illumination lamp, Setting of the moving body detection mode by the moving body detection sensor 20, and the like.

8, when the remote control 100 is operated to set the control time between each of the apparatuses for the light control apparatuses by remote control of the remote control 100, When the control unit B7 generates a remote control remote control signal having data contents in which the control time of the device for a specific function operation is set, the seventh control unit B7 controls the main lighting control unit And the microcomputer 26 of the seventh illuminance control device B7 counts the device control time set by the remote controller 100. [

The microcomputer 26 of the seventh illumination control unit B7 determines whether the device control time has elapsed from the result of counting the device control time set by the remote control 100, And transmits a control signal for controlling the function corresponding to the function operation to be remotely controlled from the remote control 100 to the apparatus (that is, the sixth illumination control device B6 and the eighth illumination control device B8).

The sixth lighting control device B6 and the eighth lighting control device B8 which have received the control signal from the seventh lighting control device B7 which is the main control device transmit the same control signal to the other adjacent lighting control device B8 .

Here, when the remote control 100 is set to perform a different function operation at a device control time set by limiting only a part of the illumination lights, that is, the sixth to eighth illumination lights A6 to A8, the sixth illumination control device B6 ) And the eighth illumination control unit B8 receive the control signal from the seventh illumination control unit B7 and then apply control functions only to the illuminated lamps A6 and A8 in charge and to control The signal is not transmitted.

While specific embodiments of the invention have been described and shown above, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, but should be regarded as belonging to the claims attached hereto.

Claims (11)

A group control method for an illumination lamp system having a plurality of illumination lamps installed in a wide-range indoor space, and a plurality of illumination lamp control devices provided corresponding to the respective illumination lamps and controlling the blinking state of the illumination lamps, When a moving body is detected by a specific lighting control apparatus among the plurality of control apparatuses, the moving body lighting control apparatus illuminates its own lighting lamp, and a control signal The method comprising the steps of: A second step in which a neighboring other light control device which receives a control signal from the moving body detection side illumination control device turns on the corresponding illumination light; And When the moving body is moved and the detection of a moving body of the moving body detection side illumination light control device is stopped in the lighting state of the moving body sensing side illumination lamp and the adjacent illumination light, the illumination light of its own illumination is turned off and the control signal And a third step of stopping the transmission so that the adjacent lighting lamp is turned off. The method according to claim 1, Wherein the lighting condition of the moving object sensing side lighting lamp and the adjacent lighting lamp is detected when the ambient illuminance is lower than a predetermined level in the first and second steps. The method according to claim 1, Further comprising the step of setting a lighting control range of other adjacent lighting lamps at the time of detecting a moving object to each of the lighting control devices before the first step, In the first step, the adjacent lighting control apparatus receiving the lighting control signal from the moving-body detection-side illumination control apparatus turns on only one of the lighting units in charge according to the preset lighting control range, And transmitting the signal to the control unit. A plurality of lighting control devices installed in a wide-range indoor space for controlling the blinking state of the lighting lamps installed in correspondence with the respective lighting lamps, group control of an illumination lamp system having a remote control for remotely controlling the respective lighting control devices In the method, A first step of transmitting a remote control remote control signal for remotely controlling a specific function operation from the plurality of light control devices to the specific light control device; The specific illuminant control device receiving the remote control remote control signal is set as the main control device and the specific illuminant control device applies a specific function operation according to the remote control to control its own illuminating lamp to blink, A second step of wirelessly transmitting a control signal for controlling the same function operation as the remote control remote control signal to the illumination light control device; And And a third step of applying a specific function operation according to the remote control in the neighboring other light control device so as to control each of the lighting lights in charge and relaying the control signal to other adjacent light control devices Wherein the light source is a light source. 5. The method of claim 4, Wherein the function operation to remotely control the remote controller in the first step includes a total illuminating illuminance setting function for setting the illuminance of the entire illuminating lamp at a constant level, Set the illumination time setting function of the whole lamp to set the allowable time range for the allowable lighting time of all the lamps, and the allowable time range of the lighting time for all the lamps specified by the corresponding remote control from among all the lamps An illumination lamp flashing step setting function for setting a flashing step for turning on or off the progressive brightness of all or a part of each illumination lamp, Detecting the body that turns the control function on / off And a device control time setting function for setting a control signal transmission time interval between the device and the other light control device from the specific light control device receiving the remote control remote control. Control method. 5. The method of claim 4, Wherein in the first step, a function operation for remotely controlling the remote controller is configured to set a remote control range from the specific illuminating lamp control device to another illuminating lamp control device adjacent thereto, Wherein, in the third step, each of the lamp control units relays a control signal to an adjacent lamp control unit according to a remote control range set from the remote control. 5. The method of claim 4, Transmitting a remote controller control completion confirmation signal informing completion of the functional operation according to the remote control to the remote controller from the specific lighting control apparatus set to the main controller after the third step; Further comprising the step of informing the user of the control completion status through either a voice guidance or a confirmation display through a display unit upon receiving the remote control completion confirmation signal from the remote controller. A plurality of illuminating lamps installed in a wide-area indoor space for illuminating respective indoor spaces; And a control unit for performing relay transmission of a control signal for flicker control of the illumination lamp by mutual network communication between devices adjacent to each other based on the detection of the moving body and controlling the blinking state of each lighting lamp A plurality of light control devices; And And a remote controller for generating a remote control remote control signal for remotely controlling the respective lighting lamps by using a relay transmission function of control signals between the respective lighting control apparatuses. 9. The method of claim 8, Each of the illumination light control devices includes an SMPS that receives AC power and supplies power to the operation circuit of the device and supplies power required for lighting the illumination lamps, A light intensity controller for adjusting the amount of power supplied from the SMPS to the illumination lamp to adjust the lighting / A wireless transmission unit for wirelessly transmitting a control signal from the microcomputer to another adjacent light control device, A wireless receiving unit for wirelessly receiving a control signal transmitted from another adjacent lighting control unit, An illuminance detection sensor for detecting the ambient illuminance of the corresponding illuminating lamp and generating an illuminance detecting signal corresponding thereto, A moving body detection sensor for detecting a state in which the moving body approaches within a certain range around the corresponding lighting and generating a moving body detection signal, A remote control signal receiver for wirelessly receiving a remote control remote control signal transmitted from the remote controller, A remote control signal transmitter for wirelessly transmitting a remote control completion confirmation signal as a signal indicating completion of the function operation by the remote controller control from the microcomputer, And controls the illuminance controller to control the illuminating and illuminance of the illuminating lamp according to the illuminance detecting signal from the illuminance detecting sensor and the moving body detecting signal from the moving body detecting sensor, And controls the illuminating lamp to be turned on or off according to a control signal from the adjacent illuminating lamp control device received from the radio receiving section and controls the adjacent illuminating lamp control device And controls the illuminating lamp to be illuminated according to the remote control remote control signal from the remote control signal receiving unit or controls the illuminance adjustment and controls the adjacent control unit to perform a function corresponding to the remote control remote control Lt; RTI ID = 0.0 > Lighting control system of the group, characterized in that configured to hereinafter. 10. The method of claim 9, The remote control signal transmitting unit and the remote control signal receiving unit are composed of a transmitting / receiving method of an infrared signal, Wherein the wireless transmitting unit and the wireless receiving unit are both used as the remote control signal transmitting unit and the remote control signal receiving unit provided that the frequencies of the infrared signal are differently set. 9. The method of claim 8, The remote controller may include a total illumination illumination setting function for setting the illuminance of the entire illumination lamp to a predetermined level, a partial illumination illumination setting function for setting the illuminance of some illumination lights specified by the corresponding remote illumination to a certain level among all the illumination lights, A total illumination light time setting function that sets the allowable time range for the available time, a partial lighting time setting function that sets the allowable time range of the available lighting time for some of the whole lights specified by the corresponding remote controller, On / off setting for turning on / off a control function responsive to the detection of a moving object of a moving object detection sensor provided in each of the illumination light control devices, a flashing step setting function for setting a blinking step for turning on / off a part of progressive brightness, Off setting function, Remote control remote control And a device control time setting function for setting a time interval for transmitting the control signal from the specific lighting control device to the other lighting control device.

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