KR101665559B1 - Method and apparatus for controlling LED lights - Google Patents

Abstract

Provided are a method and an apparatus for controlling an LED light. According to an embodiment of the present invention, the method for controlling the LED light includes: a plurality of LED lights having an ID; and a remote controller for controlling the plurality of LED lights according to the ID. The remote controller stores the ID of the LED light designated by group setting selected by a user in response to information by group, transmits the information by group to the plurality of the LED lights when the LED light in any group is controlled, and operates depending on whether the plurality of LED lights is included in the transmitted information by group.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a method and an apparatus for controlling an LED lighting lamp, and more particularly, to an LED lighting control method and apparatus for individually controlling or grouping LED lighting lamps using a remote controller using infrared communication.

Generally, indoor lighting such as a fluorescent lamp, an incandescent lamp and a halogen lamp is attached to a ceiling or a wall surface of a room in the home or office, but the LED lighting In order to increase the productivity.

On the other hand, as the number of lights installed in the room increases, a plurality of switches for lighting and extinguishing each of the lights are installed in the form of being buried in the wall, or a switch for turning on or off all or a part of the switches is installed.

However, when a plurality of switches are installed, the user must be aware of the switches of the corresponding lamps, and if a batch switch is provided, the lamps can not be selected and turned on / off arbitrarily.

In recent years, there has been an increasing number of cases in which a control box capable of controlling a plurality of lights is installed for the convenience of the user. However, such a control box is also installed on the wall surface of each zone, and further, it is structured in the form of a wire, so that it is difficult to change the structure.

KR 2015-0019122 A

In order to solve the problems of the related art as described above, an embodiment of the present invention is to provide an LED lighting control method and apparatus capable of controlling LED lighting lamps individually or in groups by using a remote controller using infrared communication.

According to an aspect of the present invention, there is provided an LED lighting control apparatus. The LED lamp control device includes a plurality of LED lamps having IDs for identifying the lamps; And a remote controller for controlling the plurality of LED lamps according to the ID by infrared communication, wherein the remote controller stores the IDs of LED lighting lamps designated according to the group setting selected by the user corresponding to the group-specific information, The control unit transmits the group-specific information to the plurality of LED lamps, and the plurality of LED lamps operate according to whether or not the LED lamps are included in the transmitted group-specific information.

In one embodiment, the remote controller transmits the stored group-by-group information to the plurality of LED lamps, each of the plurality of LED lamps stores only the designated group information, and the remote controller is connected to the plurality of LED lamps At the time of control, only the corresponding group information can be transmitted.

In one embodiment, the remote controller may transmit a plurality of IDs assigned to the group when controlling the group of the plurality of LED lighting lamps.

In one embodiment, the remote controller assigns group-specific priorities when group information is set, and each of the plurality of LED illumination lights is controlled according to the priority when the plurality of LED lighting lights are assigned to a plurality of groups.

In one embodiment, the remote controller sets a group according to the position of the plurality of LED lighting lamps, stores operation information on at least one of ON / OFF time, power amount, and light amount of the group, And may transmit the operation information to the plurality of LED illumination lamps.

In one embodiment, each of the plurality of LED illumination lights includes a sensor unit for sensing at least one of illuminance and human body, and each of the plurality of LED illumination lights is provided with a plurality of LED illumination lights, They can be individually controlled in priority.

In one embodiment, the individually controlled LED lighting lamp transmits individual control information to other LED lighting lamps in the group when the group is set, and when the LED lighting lamps in the corresponding group are compared with preset information, . ≪ / RTI >

In one embodiment, the plurality of LED illumination lamps can be individually controlled so that at least one of on / off time, illumination, amount of power, and amount of light according to the detection result of the sensor unit satisfies predetermined conditions.

In one embodiment, some of the plurality of LED illumination lamps function as masters in a certain area, and the remaining LED illumination lamps in the certain area function as slaves, and the master receives group settings from the remote controller, Lt; / RTI >

In one embodiment, the remote controller can set a group for each zone by the position of the master.

In one embodiment, the remote controller selects and sets slaves in the zone separately when setting the group, and the master can forward the group setting only to the slave set.

According to an aspect of the present invention, a method of controlling an LED lighting lamp is provided. The LED lighting control method includes: setting information for each group according to an ID identifying the plurality of LED lighting lamps; Storing the set group-specific information; And a group control step of controlling the LED lighting lamps included in the group by transmitting the group-specific information to the plurality of LED lighting lamps by infrared communication, and in the group control step, each of the plurality of LED lighting lamps And is included in the group-specific information.

In one embodiment, the group control step may transmit a plurality of IDs assigned to the group.

In one embodiment, transmitting the stored group-specific information to the plurality of LED lamps; And each of the plurality of LED illumination lamps stores only the designated group information, and the control step for each group can transmit only the corresponding group information.

In one embodiment, the setting step sets a group according to a position of the plurality of LED lighting lamps, stores operation information on at least one of on / off time, a power amount, and a light amount of the group, May transmit the operation information to the plurality of LED illumination lamps.

In one embodiment, the setting step specifies priority by group, and the group control step may control according to the priority when each of the plurality of LED illumination lights is assigned to a plurality of groups.

In one embodiment, each of the plurality of LED illumination lights senses either illuminance or the human body; And individually controlling each of the plurality of LED illumination lights prior to the control for each group when the detection result is equal to or higher than a predetermined level.

In one embodiment, if the individual controlled LED lighting lamps are grouped, sending individual control information to the other LED lighting lamps in the group; And controlling another LED illumination lamp in the corresponding group according to the individual control information when the transmitted information is different from the predetermined information.

In one embodiment, the individual controlling may control at least one of ON / OFF time, illuminance, power amount, and light amount to satisfy predetermined conditions according to the detection result.

In one embodiment, some of the plurality of LED illumination lamps function as masters in a certain area, and the remaining LED illumination lamps in the certain area function as slaves, and in the control step for each group, the master receives group setting To the plurality of slaves.

In one embodiment, the setting of the group-specific information may be performed by the remote controller in units of zones corresponding to the positions of the masters.

In one embodiment, the step of setting the group-specific information individually selects and sets slaves in a corresponding area when the remote controller sets a group, and the step of controlling each group includes transmitting the group setting to the slave .

The LED lighting control method and apparatus according to an embodiment of the present invention can easily adjust the illuminance, the light amount, and the like through individual or group control according to the needs of the user.

Further, since the embodiment of the present invention is installed in a wireless modular form, it is easy to install and change, and it is easy to maintain and repair.

1 is a block diagram schematically showing an LED lighting control apparatus according to an embodiment of the present invention.
2 is a block diagram showing a detailed configuration of the LED lighting lamp of FIG.
3 is a block diagram showing the detailed configuration of the remote controller of Fig.
FIG. 4 is a flowchart illustrating an example of a LED lighting control method according to an embodiment of the present invention.
5 is a flowchart showing another example of the LED lighting control method according to the embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Hereinafter, an LED lighting control device according to an embodiment of the present invention will be described in detail with reference to the drawings. 2 is a block diagram showing a detailed configuration of the LED lighting lamp of FIG. 1, and FIG. 3 is a block diagram showing the detailed configuration of the remote controller of FIG. 1, and FIG. Fig.

Referring to FIG. 1, a plurality of LED illumination lamps 100 having IDs that are different from each other are provided, and a remote controller 200 capable of dividing and controlling a plurality of LED illumination lamps 100 according to IDs is provided do. At this time, preferably, the remote controller 200 can use infrared communication.

Referring to FIG. 1, an LED lighting control apparatus 10 according to an embodiment of the present invention includes an LED lighting lamp 100 and a remote controller 200.

A plurality of the LED illumination lamps 100 may be installed within a predetermined area on the visible range. The LED lighting lamp 100 can operate according to whether or not an ID exists in the group-specific information transmitted by the remote controller 200. At this time, the LED lighting lamp 100 may store group information including its own ID.

In addition, the LED illumination lamp 100 includes a sensor unit for sensing at least one of illuminance and human body. If information sensed from the sensor unit is above a predetermined level, individual control may be performed prior to control by group according to the setting . Here, the LED lighting lamp 100 may control at least one of on / off time, illuminance, amount of power, and amount of light according to operation information transmitted from the remote controller 200.

On the other hand, the individually controlled LED lighting lamps 100 can transmit the individual control information to the other LED lighting lamps 100 in the group when set to a specific group. At this time, the other LED illumination lamp 100 receiving the individual control information can operate in accordance with the received individual control information, when compared with predetermined information.

In addition, the LED lighting lamp 100 may function as a master and a slave in a certain area. For example, at least one LED illumination lamp 100 functions as a master in each zone, and the remaining LED illumination lights 100 in the zone can function as slaves. At this time, the master LED lighting lamp 100 receives the group setting from the remote controller 100, and can transmit the group setting to the plurality of slave LED lighting lamps 100 in the corresponding area. At this time, when an individual slave in a certain area is designated at the time of group setting, the master LED lighting lamp 100 can transmit the group setting up to the set slave.

With such a configuration, the group setting for the corresponding zone can be performed collectively through the master LED illumination lamp 100. [

The remote controller 200 can control the LED lighting lamp 100 provided in the area on the visible range according to the ID. At this time, the remote controller 200 can store the ID of the LED lighting lamp 100 designated by the group setting selected by the user in association with the group-specific information. Alternatively, when the master and the slave are designated for each zone, the remote controller 200 can collectively set the group for each zone by the position of the master. At this time, the remote controller 200 can individually select and set slaves in the area. For example, if it is desired to set only a part of the LEDs within a certain area as a group control, the master LED lighting lamp 100 may be selected and then the individual slave LED lighting lamp 100 may be further selected.

When the group setting is completed as described above, the remote controller 200 can collectively transmit the group-specific information to the plurality of LED lighting lamps 100. [ Alternatively, the remote controller 200 may transmit the ID of the LED lighting lamp 100 designated as the corresponding group when it is selected to control an arbitrary group.

In addition, when the remote controller 200 includes an arbitrary LED illumination lamp 100 in a plurality of groups, the remote controller 200 can designate priorities for each group to prevent confusion of control. At this time, the LED lighting lamps 100 belonging to the plurality of groups can be controlled according to the priority order designated by the remote controller 200. [

Also, the remote controller 200 can set a plurality of groups each having a specific number of the LED lighting lamps 100 as a group according to the positions of the plurality of LED lighting lamps 100. [ As an example, as shown in Fig. 1, group A may be the window of the office, group B may be the screen side of the room, and group C and group D may be department in the office. At this time, the remote controller 200 stores operation information on at least one of the ON / OFF time, the power amount, and the light amount of the set group of the LED lighting lamps 100, and transmits operation information to the LED lighting lamp 100 .

2, the LED lighting lamp 100 includes a communication unit 110, a sensor unit 120, a controller 130, an LED lighting module 140, and a storage unit 150.

The communication unit 110 can communicate with the plurality of LED lighting lamps 100 or the remote controller 200 through infrared communication. Here, the communication unit 110 can perform communication using another communication method, for example, by visible light communication.

The sensor unit 120 may include an illuminance sensor or a motion detection sensor. Here, the motion detection sensor may be any one of a light sensor, a thermal sensor, a proximity sensor, and an infrared (IR) sensor, and may sense human motion. The illuminance sensor can detect the amount of ambient light, and in particular, can detect the amount of natural light. The sensor unit 120 is not limited to this, and may further include a sensor capable of sensing a specific situation.

The control unit 130 may determine whether or not the ID of the group received from the remote controller 200 is included in the group information and control the operation of each group according to the setting of the remote controller 200 when the ID is included. Here, when the group information set by the remote controller 200 is collectively transmitted, the controller 130 may extract and store group information including its own ID.

In addition, the control unit 130 may control the LED lighting module 140 according to the detection result of the sensor unit 120. For example, in the case of normal operation, the control unit 130 may turn on the LED lighting module 140 when the sensor unit 120 detects that a person enters the corresponding area, The LED lighting module 140 can be turned off. At this time, when the corresponding LED lighting lamp 100 is set as a specific group, the control unit 130 may transmit the individual control information so that the other LED lighting lamp 100 operates in the same condition.

The LED lighting module 140 may be turned on and off according to a control command of the controller 130 based on a result sensed by the sensor unit 120. [

The storage unit 150 may store the group information set from the remote controller 200. Here, the group information to be stored may be group information including its ID.

3, the remote controller 200 includes an input unit 210, a communication unit 220, a control unit 230, a display unit 240, and a storage unit 250.

The input unit 210 receives information for the user to control the LED lighting lamp 100. The input information may be control information for the LED illumination lamp 100 such as ID information, group information, on / off time, illumination or power amount of the LED illumination lamp 100, light amount control, and the like.

The communication unit 220 can perform communication with a plurality of the LED lighting lamps 100 or the remote controller 200 through infrared communication. Here, the communication unit 110 can perform communication using another communication method, for example, by visible light communication.

The control unit 230 may set individual or group control of the LED illumination lamps 100 installed within the visible range and may perform individual or group control according to the user's selection. .

The registering unit 232 may control to store the ID of the LED lighting lamp 100 in association with the group-specific information according to the group setting of the user. When the group setting is completed, the registering unit 232 can control to transmit the group-specific information to the plurality of LED lighting lamps 100 collectively.

The execution unit 234 may transmit the related operation information and the group information according to the user's individual or group selection. At this time, when the user desires to select and control a specific group, the execution unit 234 can control the IDs included in the group to be transmitted to the plurality of LED lighting lamps 100. [

The display unit 240 may display the information of the position information of the LED lighting lamp or the set group information for group setting.

The storage unit 250 may store the group-specific information registered by the registration unit 232. Here, the information of each group to be stored may include the ID of the LED lighting lamp 100 designated as the corresponding group.

The LED lighting control method according to the embodiment of the present invention will now be described with reference to FIGS. 4 and 5. FIG. FIG. 4 is a flowchart illustrating an example of a LED lighting control method according to an embodiment of the present invention.

The LED lighting control method 400 includes a step S401 of setting a lighting lamp group, a step S402 of storing information per group, a step S403 of transmitting and storing information per group, and a step of performing control per group S404).

More specifically, first, a group for the LED illumination lamp 100 is set using the remote controller 200 (step S401). At this time, the user can set group-specific information according to IDs capable of identifying the plurality of LED lighting lamps 100. [ Such group setting may be performed according to the position, and may include operation information including at least one of on / off time, power amount, and light amount of the group. In addition, when an arbitrary LED illumination lamp 100 belongs to a plurality of groups, the priority order of group control in the corresponding LED illumination lamp 100 can be specified.

Alternatively, when the LED lighting lamp 100 is set to function as a master and a slave in a certain area, a group can be set for each zone by a position of the master. At this time, if it is desired to set only a part of the LEDs in a certain area, the corresponding master LED illumination lamp 100 may be selected and then the individual slave LED illumination lamp 100 may be further selected and set.

Next, the group-specific information set in the remote controller 200 is stored (step S402). At this time, the information of the group to be stored may include the ID of the LED lighting lamp 100 designated as the corresponding group.

Next, the group-specific information is collectively transmitted to the LED lighting lamp 100, and the information for each group is stored in the LED lighting lamp 100 (step S403). That is, when the remote controller 200 completes the setting for each group, the IDs of the LED lighting lamps 100 included in each group can be collectively transmitted to the LED lighting lamp 100. In addition, the LED lighting lamp 100 can extract and store information on the group to which the LED lighting lamp 100 belongs based on the received information for each group. Alternatively, step S403 may be omitted if the corresponding ID is to be sent out for group control.

Next, control is performed for each group using the transmitted group-specific information (step S404). At this time, the remote controller 200 can transmit only the group information when the group-specific information is transmitted in a lump in advance as in step S403. Alternatively, when step S403 is omitted, the remote controller 200 can transmit all the IDs of the LED illumination lamps 100 belonging to the control target group.

On the other hand, the LED lighting lamp 100 determines whether or not the ID information is included in the group information received from the remote controller 200, and includes the ID of the user, and can be turned on / off according to the operation information.

Alternatively, when set to function as a master and a slave in a certain area, the master LED illumination lamp 100 may transmit the group setting received from the remote controller 200 to another slave LED illumination lamp 100 in the corresponding area. At this time, when the slaves in the area are individually selected and set, the master LED lighting lamp 100 can transmit the group setting only up to the individually set slave LED lighting lamp 100.

5 is a flowchart showing another example of the LED lighting control method according to the embodiment of the present invention.

The LED lighting control method 500 includes steps S501 to S501 of illuminance and human body, steps S502 and S503 of individually controlling the detection result, and step S504 to S504, S508.

In more detail, first, the illuminance of the corresponding area and the presence of a human body are detected (step S501). At this time, the LED illumination lamp 100 can operate according to preset control conditions, and performs sensing using the sensor unit according to the operation setting.

Next, it is determined whether the detection result is equal to or higher than a predetermined level (step S502). If it is determined that the detection result is not equal to or higher than the predetermined level, that is, the detection result does not satisfy the preset control condition, the detection can be continuously performed.

As a result of the determination in step S502, if it is determined that the detection result is equal to or higher than the predetermined level, that is, if the detection result satisfies the predetermined control condition, the LED illumination lamp 100 can be individually controlled according to the predetermined control condition S503). Here, the individual control of the LED illumination lamp 100 may control at least one of ON / OFF time, illuminance, power amount, and light amount according to the detection result. For example, when the sensed illuminance is equal to or higher than a certain level, the light amount of the LED illumination lamp 100 can be controlled to be reduced. At this time, when the LED lighting lamp 100 is set to a specific group, individual control can be performed in preference to the control of the set group.

Next, it is determined whether the individually controlled LED lighting lamps 100 are set to an arbitrary group (step S504), and if the group setting is not made, individual control by sensing of the sensor can be continuously performed.

If it is determined in step S504 that the corresponding LED illumination lamp 100 is set as an arbitrary group, the individual control information is transmitted to the other LED illumination lamps 100 in the corresponding group (step S505). That is, the individual control information of the corresponding LED lighting lamp 100 can be transmitted to the other LED lighting lamp 100 so that the group to which the individually controlled LED lighting lamp 100 belongs can be controlled in the same manner according to the detection result of the sensor.

Next, the other LED illumination lamp 100 receiving the individual control information compares the received information with predetermined information (step S506). In the case where the LED lighting lamp 100 includes the sensor unit, the LED lighting lamp 100 may be individually controlled as in steps S502 to S503. However, if the individual control is not normally performed due to an abnormality of the sensor unit, The LED lighting lamps 100 can be controlled to be different from each other, so that control information can be transmitted and compared between the LED lighting lamps 100 in order to weave them.

If it is determined that the predetermined information is different from the received information in step S507, that is, if the LED illumination lamp 100 is controlled in the same manner as the individual control in step S503, It is possible to continuously perform sensing and individual control by the user.

As a result of the determination in step S507, if it is determined that the predetermined information is different from the received information, that is, if there is an LED illumination lamp 100 that operates differently in the group, the LED illumination lamp 100 transmits the received control Can be individually controlled according to the information.

An example of application of the LED lighting control method as described above may be A, B, C, and D groups shown in FIG. First, examples of the A group and the B group will be described in detail.

Group A is a group of 100 LED lights (100) installed in a window in an office, and group B is a group of 100 LED lights (100) near a screen where a video image is displayed when a beam projector is operated for presentation in a conference room. In the case of the group A, it is preferable that the LED illumination lamp 100 installed at the window is controlled to have a lower illuminance than the inner LED illumination lamp 100 because the brightness of the light coming through the window is strong. Accordingly, it is possible to group the LED lighting lamps 100 installed at the window into A groups so as to lower the illuminance altogether. On the other hand, when the beam projector is operated to make a meeting in a conference room, generally, the brightness of the screen side illumination is reduced or turned off, thereby enhancing the clarity of the screen image. Accordingly, the LED illumination lamps 100 installed on the screen side can be grouped into B groups so that the illuminance can be lowered or turned off altogether.

Next, examples of the C group and the D group will be described in detail.

The C group and the D group are groups of the LED lighting lamps 100 set in each department in the office. For groups C and D, working hours may vary even if you work in the same office. In this case, it is necessary to extinguish only the LED illumination lamp 100 of the department not working. Therefore, they can be grouped by department or by specific positions and set to operate in a batch.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: LED array 100: LED lighting device
110: communication unit 120:
130: control unit 140: LED lighting module
150: storage unit 200: remote control
210: input unit 220:
230: control unit 232: registration unit
234: Execution unit 240: Display unit
250:

Claims (22)

A plurality of LED illumination lights including a sensor portion for sensing at least one of illuminance and human body, and having an ID for identifying each of the LED illumination lights; And
And a remote controller for controlling the plurality of LED lamps according to the ID by infrared communication,
Wherein the remote controller stores the IDs of LED lighting lamps designated according to the group setting selected by the user in correspondence with the group-specific information, and transmits the group-specific information to the plurality of LED lighting lamps when controlling an arbitrary group of LED lighting lamps,
Wherein the plurality of LED illumination lamps operate according to whether or not they are included in the transmitted group-
Wherein each of the plurality of LED illumination lamps is individually controlled such that at least one of on / off time, illuminance, power amount, and light amount satisfies predetermined conditions when the detection result of the sensor unit is higher than a predetermined level, And when the individual controlled LED lighting lamps are set as a group, individual control information is transmitted to another LED lighting lamp in the corresponding group so that the corresponding group operates under the same condition, and the other LED lighting lamps in the corresponding group are compared with preset information And operates in accordance with the corresponding individual control information,
Wherein the plurality of LED illumination lamps function as a master in a certain area, and the remaining LED illumination lamps in the predetermined area function as a slave, the master receives a group setting from the remote controller and transmits the group setting to the plurality of slaves, When the remote controller selects and sets slaves in the corresponding zone separately when the remote controller sets a group, the master transmits the group setting to the set slave only,
The slaves are individually selected in the group, and when the master is a plurality of slaves, the slaves can be set into a plurality of groups, The plurality of LED lighting lamps may be present in a plurality of groups according to their positions, and when each of the slaves belongs to the plurality of groups, the LED lighting lamps are controlled according to the priority, Is controlled in the order of the individual control and the group control according to the priority order when belonging to the plurality of groups,
The LED lighting lamp includes the sensor unit so that the sensor unit and the LED lighting lamp are provided as an integrated wireless module that is easy to install and change,
When the individual control is not normally performed due to the abnormality of the sensor unit, the control information is transmitted and compared among the LED illumination lamps belonging to the group,
Group A belongs to a plurality of groups, group A belongs to a window of a lighted office, group B a screen side on which a beam projector is operated, and group C belongs to a department inside the office, The LED illuminating lamp of the group A is set to lower the illuminance altogether, and when the beam projector is operated, the brightness of the incoming light is controlled to be lower than that of the LED illuminating lamp of the internal department, The brightness of the screen image is increased by decreasing or eliminating the brightness of the illumination of the B group, and the LED illuminating lamp of the B group is set to lower or turn off the illuminance collectively, And controls according to the priority order when belonging to the B group. The method according to claim 1,
Wherein the remote controller transmits the stored group-specific information to the plurality of LED lamps,
Wherein each of the plurality of LED illumination lamps stores only the designated group information,
Wherein the remote controller transmits only the corresponding group information when controlling the plurality of LED lighting lamps by group. The method according to claim 1,
Wherein the remote controller transmits a plurality of IDs assigned to the group when controlling the groups of the plurality of LED lighting lamps. The method according to claim 1,
The remote controller designates a priority for each group when group information is set,
Wherein each of the plurality of LED illumination lights is controlled according to the priority when the plurality of LED illumination lights are assigned to a plurality of groups. The method according to claim 1,
Wherein the remote controller sets a group according to a position of the plurality of LED lighting lamps, stores operation information on at least one of an on / off time, a power amount, and a light amount of the group, LED lighting control unit to transmit to LED lighting. delete delete delete delete delete delete Setting group-specific information according to IDs identifying a plurality of LED lighting lamps using a remote controller;
Storing the set group-specific information;
A group control step of controlling the LED lighting lamp included in the group by transmitting the group-specific information to the plurality of LED lighting lamps by infrared communication of the remote controller;
Each of the plurality of LED illumination lights sensing one of illuminance and human body;
And controlling each of the plurality of LED illuminating lamps individually in priority to the group control when the detection result is equal to or more than a predetermined level, wherein at least one of on / off time, illuminance, ;
Transmitting the individual control information to the other LED lighting lamps in the group when the individual LED lighting lamps are set as a group; And
And controlling other LED illumination lamps in the corresponding group according to the individual control information if the transmitted information differs from the predetermined information,
Wherein the group control step operates according to whether or not each of the plurality of LED illumination lights is included in the transmitted group-by-group information,
Wherein the plurality of LED lighting lamps function as a master in a certain area, and the remaining LED lighting lamps in the predetermined area function as slaves, and the group control step is a step in which the master receives group setting from the remote controller, Lt; / RTI &
Wherein the setting of the group-specific information includes setting the group of the remote controllers collectively for each zone by the location of the master, and when the remote controller selects and sets slaves in the zone separately when setting the group, The control step is for the master to forward the group setting to the set slave only,
The slaves are individually selected in the group, and when the master is a plurality of slaves, the slaves can be set into a plurality of groups, The plurality of LED lighting lamps may be present in a plurality of groups according to their positions, and when each of the slaves belongs to the plurality of groups, the LED lighting lamps are controlled according to the priority, Is controlled in the order of the individual control and the group control according to the priority order when belonging to the plurality of groups,
Since the LED lighting lamp includes a sensor unit, the sensor unit and the LED lighting lamp are provided as an integrated wireless module that is easy to install and change,
When the individual control is not normally performed due to the abnormality of the sensor unit, the control information is transmitted and compared among the LED lights belonging to the group,
Group A belongs to a plurality of groups, group A belongs to a window of a lighted office, group B a screen side on which a beam projector is operated, and group C belongs to a department inside the office, The LED illuminating lamp of the group A is set to lower the illuminance altogether, and when the beam projector is operated, the brightness of the incoming light is controlled to be lower than that of the LED illuminating lamp of the internal department, The brightness of the screen image is increased by decreasing or eliminating the brightness of the illumination of the B group, and the LED illuminating lamp of the B group is set to lower or turn off the illuminance collectively, And if the LED belongs to the B group, controls according to the priority. 13. The method of claim 12,
And the group control step transmits a plurality of IDs assigned to the group. 13. The method of claim 12,
Transmitting the stored group-specific information to the plurality of LED lamps; And
Wherein each of the plurality of LED illumination lamps further includes the step of storing only the designated group information,
Wherein the group control step transmits only the corresponding group information. 13. The method of claim 12,
Wherein the setting step sets a group according to a position of the plurality of LED lighting lamps, stores operation information on at least one of an on / off time, a power amount, and a light amount of the group,
And the group control step transmits the operation information to the plurality of LED lamps. 13. The method of claim 12,
Wherein the setting step specifies a priority for each group,
Wherein the group controlling step controls the LED lighting lamps according to the priority when each of the plurality of LED lighting lamps is assigned to a plurality of groups. delete delete delete delete delete delete

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