KR101842509B1 - Light position setting method and light control system for performing the method - Google Patents

Abstract

The present invention relates to a method for setting a lamp position using a power line communication and a lamp control system for performing the method, and more particularly, to a lamp control system for lighting a lamp (or a fluorescent lamp) installed in a specific space, And more particularly, to a method of setting a position of a lamp that automatically maps the actual position of the lamp and the virtual position of the lamp icon.

Description

TECHNICAL FIELD [0001] The present invention relates to a light position control method, and more particularly,

The present invention relates to a lamp position setting method using a power line communication and a lamp control apparatus for performing the method. More particularly, the present invention relates to a lamp position setting method and a lamp control method for lighting / ≪ / RTI >

In general, fluorescent lamps (or lights) used indoors or outdoors are turned on and off through a central control switch that allows collective control. At this time, the central control switch is a device capable of collectively controlling the power state of the fluorescent lamp, so that a certain number of fluorescent lamps are wired for each group, and the fluorescent lamps wired for each group can be turned on and off collectively. At this time, the central control switch only turns on and off the fluorescent lamps collectively, and since it is impossible to turn them on and off individually, unnecessary power is wasted.

In order to solve the power waste, the power cable must be connected to each fluorescent lamp separately and the individual switch must be attached so that the fluorescent lamp can be individually controlled. However, this requires a large amount of power lines to be installed, and centralization is concentrated on the central switch, which complicates the wiring, which makes it difficult to manage. As the control panel of the control switch becomes larger, it becomes difficult to attach to the wall.

Recently, a technique to reduce power consumption by replacing fluorescent lamps with LEDs has been related to the technology, but it requires a lot of additional installation cost, which is difficult to adopt in most large offices.

Accordingly, there is a need for a method for enabling point / light extinguishment by individual and group, while minimizing the additional installation cost for separately controlling the fluorescent lamps that have been installed.

The present invention can provide a method for preventing unnecessary power wastage due to the inability to individually turn on and off the fluorescent lamps in a common office by controlling a fluorescent lamp of an office as a certain number of fluorescent lamps are wired for each group.

The present invention provides a method for preventing the problem that the wiring is complicated by connecting the power cable separately for each fluorescent lamp to individually turn on and off the fluorescent lamps in the offices, and consequently the operation for control is concentrated on the central switch .

According to an embodiment of the present invention, there is provided a method of setting a lamp position in a control switch panel, the method comprising: receiving a number of lamps installed in a specific space; Displaying a lamp icon to which a unique number is assigned according to an arrangement order corresponding to the number of the inputted lamps; Selecting at least one lamp icon for identifying the position of the lamp installed in the specific space among the lamp icons displayed in the array form; Confirming the installation order of the lamps whose power states are switched through the power line communication corresponding to the selected lamp icons; And resetting the unique number of the selected lamp icon to the position number of the lamp where the power state is switched when the installation order of the lamp and the arrangement order of the lamp icons are different from each other.

The step of selecting at least one lamp icon according to an exemplary embodiment may be performed by using any one of a single control method, a row / column control method, and a pattern control method using a lamp icon displayed in an array form having an M * At least one lamp icon may be selected.

The pattern control method according to an exemplary embodiment may represent a method of collectively controlling a user control group defined as a pattern for controlling a lamp installed in the specific space by the user.

The step of confirming the installation order of the lamps having the switched power state according to the embodiment may confirm the installation order of at least one lamp whose power state is switched to the same number as the selected at least one lamp icon.

According to an embodiment of the present invention, there is provided a method of setting a lamp position in a control switch panel, the method comprising: receiving a number of lamps installed in a specific space; Displaying lamp icons having the same number as the number of the inputted lamps in an array form; Changing a position number of the lamp using a preset default value according to the number of the inputted lamps; Adjusting the position number of the changed lamp in accordance with the order of installation of the lamp installed in the specific space in consideration of the arrangement order of the lamp icons displayed in the arrangement form; And resetting the position number of the adjusted lamp using the predetermined default value.

The lamp position setting method according to an embodiment of the present invention uses a PLC (Power Line Communication) modem to control a fluorescent lamp in an office, so that no separate power line for on and off is required, It can be simplified.

The lamp position setting method according to an embodiment of the present invention can turn on and off each of the fluorescent lamps of the office on the basis of the PLC modem, thereby preventing waste of unnecessary energy.

FIG. 1 is a diagram showing an overall configuration of a light control system according to an embodiment.
2 is a view for explaining a screen configuration of a control switch panel according to an embodiment.
FIG. 3 is a view for explaining an operation of resetting a unique number of a lamp icon in consideration of the installation order of lamps whose power states have been switched through power line communication according to an exemplary embodiment.
FIG. 4 is a view for explaining an operation of resetting the position number of the lamp in consideration of the arrangement order of the lamp icons according to the embodiment.
5 is a diagram for explaining a pattern control method for controlling a lamp according to an embodiment.
6 is an exemplary diagram of array data stored in a control switch panel according to an exemplary embodiment of the present invention.
7 is a flowchart illustrating an operation of a power device for a lamp constituting a light control system according to an embodiment.
8 is a flowchart for resetting a unique number of a lamp icon according to an exemplary embodiment.
9 is a flow chart for resetting the location number of a lamp according to an embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram showing an overall configuration of a light control system according to an embodiment.

Referring to FIG. 1, the light control system may include a control switch panel 101 and a lighting device connection device 106. The light control system can be turned on or off individually or by group for the electric lamp 104 installed in the specific space 105 by using the control switch panel 101 and the electric connection device 106. [

Specifically, the control switch panel 101 may include an industrial PC including a touch panel and a PLC modem connection device. Here, the industrial PC can manage the operations related to the lamp icon controlled through the touch panel, and the PLC modem access device can transmit / receive data according to the command to the power source connection device 106 using the power line communication. In this case, the power line communication may be a service for transmitting power and communication data through a power line and controlling an electronic device connected to the power line. For example, the powerline communication may include a Power Line Communication (PLC) modem to remotely control a particular machine or electronic device.

The front access device 106 may include an MCU including a memory (EEPROM), a PLC modem, a power source, and a relay. Here, the MCU can manage information such as the location number of the electric lamp in which the connection access device 106 is stored, the unique number of the lamp icon mapped to the electric lamp, and the like. The PCL modem can perform power line communication with the control switch panel 101, and the power source and the relay can control the electric power of the electric lamp.

The control switch panel 101 can turn on and off the lamps 104 installed in the specific space 105 individually or by group by power line communication. At this time, the control switch panel 101 can display a lamp icon 103 displayed in an array form corresponding to the lamp 104 installed in the specific space 105 on the screen. Then, the user can select the lamp icon 103 displayed on the screen of the control switch panel 101. [ Here, the light icon 103 may mean a toggle switch that is repeatedly turned on or off according to a touch. The control switch panel 101 may transmit a command for controlling the power state of the lamp corresponding to the lamp icon 102 selected by the user to the power device 106 via the power line communication. At this time, the control switch panel 101 can transmit the command to the electric power device 106 installed in the electric lamp mapped to the selected electric lamp icon 102.

In other words, when the light icon is selected by the user, the control switch panel 101 displays a map of the lamp mapped to the light icon 102 using the file in which the mapping relationship between the light icon and the light bulb stored in the memory of the industrial PC is recorded Information can be obtained. The control switch panel 101 can transmit the information obtained through the PLC modem connection device to the power device 106 for electric power installed in the electric power through the power line communication and transmit it.

The power device 106 for electric power, which receives the command from the control switch panel 101 through the power line communication, can control the power state of the corresponding electric lamp in response to the transmitted command. In other words, the electric power device 106 can perform the control for turning on or off the electric lamp according to the transmitted command. The electric power device 106 for the electric power can be installed corresponding to each of the electric lamps installed in the specific space, and the power device 106 for electric power can control the electric power state through electric power line communication with the installed electric power.

Here, in order to control the power state of the lamp using the control switch panel 101 and the power device 106 for the lamp, the lamp control system can set a mapping relationship between an arbitrary lamp and a lamp icon. The lamp control system controls the lamps 104 in consideration of the installation order of the lamps 104 installed in the specific space 105 or the arrangement order of the lamp icons 103 displayed on the screen 102 of the light control device 101 ) And a light icon can be re-established.

Specifically, the control switch panel 101 can receive the number K of the electric lamps 104 installed in the specific space 105. At this time, the number K of the lamps 104 may mean the total number of lamps installed in the specific space 105 or the number of the specific lamps that the user desires to control according to lighting and lighting. The control switch panel 101 can receive the number of the lamps 104 to be controlled through the screen 102 from the user as rows and columns (M * N). The control switch panel 101 can configure the number and arrangement order of the lamps according to the inputted rows and columns. The control switch panel 101 can store information on the rows and columns received from the user as a file in a memory as shown in FIG. 6A.

At this time, the control switch panel 101 can store and manage information about rows and columns by using the memory of the industrial PC. For example, the control switch panel 101 can store information such as the number and arrangement order of lamps according to rows and columns inputted from a user, in a memory of an industrial PC, and manage information about a lamp to be controlled.

The control switch panel 101 may automatically assign a unique number to each of the lamp icons 103 according to the arrangement order formed by rows and columns. In other words, the control switch panel 101 can sequentially assign the unique number of the lamp icon 103 according to the arrangement order displayed on the screen 102. [ At this time, the lamp icon 103 may be mapped to the lamp 104 having the position number arbitrarily arranged corresponding to the unique number given by the control switch panel 101. [ For example, when the number of electric lamps is inputted from the user, the control switch panel 101 can retrieve the ID of the electric power device 106 installed on the electric power connected to the power source through the power line communication. The control switch panel 101 can arbitrarily map to the lamp icons corresponding to IDs of the power devices 106 for power searched through the power line communication.

The control switch panel 101 may store the unique number of the lamp icon and the position number of the lamp according to the ID of the power device 106 for power saving in the memory of the industrial PC in an ordered pair form. For example, the control switch panel 101 arbitrarily maps lamps having a position number (j) corresponding to a lamp icon having a unique number (i) displayed on the screen 102, It can be stored in the PC's memory. The ordered pairs can be stored and managed in a file in the form of a file as shown in FIG. 6 (b).

Thereafter, the user can select at least one lamp icon for identifying the position of the lamp installed in the specific space among the lamp icons displayed on the screen of the control switch panel 101 in an array form. At this time, the user can select a button for resetting the position number of the lamp 104 or the unique number of the lamp icon 103 in a state in which the lamp 104 is mapped arbitrarily between the lamp 103 and the lamp 103. For example, the control switch panel 101 may provide an interface for resetting the mapping relationship between the lamp and the lamp icon, and the user may select an ID reset button among the interfaces provided through the control switch panel 101. For example, the user can reset the mapping relationship between the lamp and the lamp icon by selecting the ID reset button displayed on the screen of the control switch panel 101. In addition, the lamp icon whose mapping relationship has been reset can be displayed by changing the color from red to blue so that the user can recognize whether or not the resetting has been performed.

When the light icon is selected by the user, the control switch panel 101 may deliver a command to the power device 106 for lighting to switch the power state of the light mapped to the selected light icon 103. [ For example, when a light icon having the unique number i is selected, the control switch panel 101 controls the power state of the light with the position number j corresponding to the light icon having the unique number i through power line communication To the power device 106 for electric power.

The electric power apparatus 106 for electric power can control the electric power state of the electric lamp in accordance with the command received from the control switch panel 101. [ Specifically, the power device 106 for electric power can receive the command from the control switch panel 101 via the PLC modem and retrieve information related to the electric lamp stored in the memory of the MCU based on the received command. Here, the information related to the lamp may include an ID (position number of the lamp) for identifying the power device 106 for the lamp, a unique number of the lamp icon mapped to the lamp, and the like. Then, when the received command includes the unique number of the lamp icon mapped to the lamp, the lamp power device 106 can control the power state of the lamp according to the command.

When the electric power state of the electric lamp is switched by the power device 106 for the electric power, the user can visually confirm whether the installation order of the electric lamps whose power state is controlled and the arrangement order of the electric lamp icons are the same or the user desires. The user can control the light control system so that the position number of the lamp and the unique number of the lamp icon can be matched by comparing the installation order of the lamp with the arrangement order of the lamp icons.

At this time, the light control system is configured to fix the position number of the lamp installed in the specific space and reset the unique number of the lamp icon according to the user's operation, ii) a method of fixing the position of the lamp icon, It is possible to control the control switch panel 101 and the electric power device 106 for electric power so that the position number of the electric lamp and the unique number of the electric lamp icon coincide with each other by using a method of resetting the position number of the installed electric lamp.

① How to reset the unique number for the lamp icon

Specifically, when the electric power state of the electric lamp is switched by the power device for electric power 106, the user confirms visually whether the installation order of the electric lamps whose power state is controlled is the same as the arrangement order of the electric lamp icons .

At this time, when the installation order and the placement order are different, the user can select a lamp icon having the same number as the position number of the lamp controlled by the selected lamp icon among the lamp icons displayed on the screen of the control switch panel 101. In other words, it is assumed that the unique number of the lamp icon selected by the control switch panel 101 is '2' in order to determine the position of the lamp installed in the specific space, and the control switch panel 101 displays the position of the lamp corresponding to the selected lamp icon The command for switching the power state can be transmitted to the electric power device 106 arbitrarily mapped to the unique number of the lamp icon. That is, when the lamp icon is selected, the control switch panel 101 can confirm the ordered pair of the lamp icons stored in the memory and deliver the command to the power device 106 for the lamp having the position number of the lamp. Here, the ordered pair can be stored in the order of the unique number of the lamp icon, the position number of the mapped lamp, and can be array data.

The power device 106 for the electric power can control the power state of the electric lamp having the position number '7' in response to the command transmitted through the power line communication from the control switch panel 101. At this time, the unique number (2) of the lamp icon selected by the control switch panel (101) from the user and the position number (7) of the lamp whose power state is controlled can be different from each other.

Accordingly, in order to match the logical position of the lamp icon displayed on the control switch panel 101 with the physical position of the lamp installed in the specific space, the user inputs the position number 7 of the lamp among the lamp icons displayed on the control switch panel 101 The user can touch the lamp icon indicating the same position as the lamp icon. Here, the user may select not to map the lamp icon corresponding to the position number 7 of the lamp, but to indicate that the lamp mapped to the unique number 2 of the lamp icon is No. 7.

The control switch panel 101 can store in the memory an ordered pair of (2,7) that seven lamps are controlled corresponding to the selected two lamp icons in order to locate the lamp. As a result, the control switch panel 101 can fix the position number of the lamp installed in the specific space and reset the unique number for the lamp icon.

Here, prior to resetting, an ordered pair can represent arbitrarily defined states according to the array inputs. In other words, at the time when the user inputs the array for the light control, the user is only provided with the lamp icon corresponding to the lamp through the control switch panel 101. Actually, in response to the lamp icon displayed on the screen, Can be checked. Therefore, the light control system can reset the mapping relationship between the lamp and the lamp icon based on arbitrarily defined ordered pairs in consideration of the state of the user. A more detailed configuration will be described with reference to FIG.

② How to reset the location number of the lamp installed in a specific space

Specifically, when the electric power state of the electric lamp is switched by the power device for electric power 106, the user confirms visually whether the installation order of the electric lamps whose power state is controlled is the same as the arrangement order of the electric lamp icons . At this time, when the installation order and the placement order are different, the user can reset the position number of the lamp in accordance with the arrangement order of the lamp icons displayed on the screen of the control switch panel 101. [

In other words, it is assumed that the unique number of the lamp icon selected by the control switch panel 101 is '2' in order to determine the position of the lamp installed in the specific space, and the control switch panel 101 displays the position of the lamp corresponding to the selected lamp icon And may transmit an instruction to switch the power state to the power device 106 for power.

The electric power device 106 for electric power supply corresponds to a command transmitted from the control switch panel 101 via the power line communication, and supplies electric power to the electric power source having the position number '7' installed in the third leftmost installation order in FIG. 3 (b) The state can be controlled. At this time, the unique number (2) of the lamp icon selected by the control switch panel (101) from the user and the position number (7) of the lamp whose power state is controlled can be different from each other.

The user selects the lamp icon corresponding to the installation order 3 of the lamp whose power state is controlled among the lamp icons displayed on the control switch panel 101 to match the logical position of the lamp icon with the physical position of the lamp installed in the specific space 3).

The control switch panel 101 may transmit a result obtained by adding the predetermined default value according to the number of the touched electric lamp icon and the number of electric lamps to the power device 106 for electric power installed in the electric power source controlled by the power switch. The electric power device 106 for electric power can replace the result delivered from the control switch panel 101 with the position number of the corresponding electric lamp. That is, the power device 106 for electric power can replace the position number of the electric lamp stored in the memory of the MCU with the result of '7' (the unique number (2) + default value of the electric lamp icon) and then store it.

As a result, the light control system can fix the position of the lamp icon and reset the position number of the lamp installed in the specific space. The detailed configuration will be described with reference to FIG.

The light control system proposed by the present invention can provide the electric power control device for the electric power instead of the switch for each of the electric lamps, Control may be possible.

Further, the lamp control system sets the ID set in the memory of the electric power device 106 for electric power to the position number of the electric lamp corresponding to the electric power line communication, so that the electric power can be outputted through the ID of the electric power device 106 The light of the light source can be identified.

2 is a view for explaining a screen configuration of a light control device according to an embodiment.

Referring to FIG. 2, the control switch panel 200 may transmit commands for turning on / off the lamps installed in a specific space individually or in groups, corresponding to the lamp icons displayed on the screen based on the power line communication. For this purpose, the control switch panel 200 includes an industrial PC for managing operations related to a lamp icon controlled through a touch panel, and a PLC modem connection / reception unit for transmitting / receiving data according to a command with the power- Device.

The control switch panel 200 may display a lamp icon mapped to a lamp installed in a specific space, and the screen displaying the lamp icon may operate in a touch screen manner. The control switch panel 200 may provide the following functions.

(1) Switching function and ID reset function according to lighting and lighting of individual and group

The control switch panel 200 provides a GUI of a touch screen type and can provide a switching function according to lighting and lighting of lights installed in a specific space according to a user's selection based on a provided GUI. At this time, the control switch panel 200 does not actually perform the switching operation for the electric lamps, but transmits a command to the electric power devices 208 installed in the electric lamps so that the electric lamps can be switched can do. The control switch panel 200 receives the status information of the controlled lamp according to the command from the power device 208 for power supply and converts the image of the corresponding lamp icon according to the transmitted status information and provides the converted image to the user .

In other words, the control switch panel 200 may generate a command for controlling the power state of a lamp installed in a specific space corresponding to the lamp icon selected by the user. Here, the power supply state of the electric lamp may be divided into an ON state and an OFF state, and the control switch panel 200 may control the ON / OFF state of the lamp icon based on the state information on the electric lamp transmitted from the power device 208 The respective states can be displayed separately by the lamp icon 202 and the lamp icon 201 in the OFF state.

The control switch panel 200 may display at least one lamp icon according to a control method of a single control method, a row / column control method, or a pattern control method using a lamp icon displayed in an array form having an M * N matrix It is possible to provide a switching function.

① Single control method

The single control method may mean a method of controlling the power state of one lamp corresponding to one lamp icon. Specifically, the control switch panel 200 may generate an instruction related to switching for turning on or off for a lamp corresponding to each selected lamp icon as each lamp icon is selected by the user. Then, the control switch panel 200 can transmit the command generated by the power line communication to the electric power device 208 installed in the lamp.

The electric power device 208 for the electric power can control the electric power state of the electric lamp in accordance with the command received from the control switch panel 200. That is, the light control system can be individually turned on or off for the lamps corresponding to the single control type electric lamp icons through the power line communication between the control switch panel 200 and the power device 208 for the electric power.

② Row / column control method

The row / column control scheme may refer to a method of controlling the power state of the lamp corresponding to each row or each column of the array having the M * N matrix. Specifically, the control switch panel 200 can perform a switching function for the entire column or the entire row using the X-axis icon 203 and the Y-axis icon 204 of the lamp icon. Here, the X-axis icon 203 of the light icon may be an icon that controls the entire light on or off for each row of the light icon. The Y axis icon 204 of the light icon may be an icon that controls the entire light on or off for each column of the light icon.

For example, when the user selects the Y-axis icon 204 corresponding to one column, the control switch panel 200 displays the unique number of the lamp icon stored in the memory corresponding to the Y-axis icon 204 corresponding to one column selected by the user You can see the number (1,2,3). Thereafter, the control switch panel 200 can confirm the order pairs on each identified lamp icon and deliver the command to the lamp power device installed in the lamp mapped to each lamp icon.

Basically, the control switch panel 200 can basically transmit a command for turning on / off the whole electric lamp icons for the M * N matrix collectively to the power device for electric power. The control switch panel 200 transmits a lighting command or a light-off command to all electric lamps to the electric power devices of all the electric lamps when a lamp icon indicating ON and OFF displayed on the screen is selected, The lamps can be controlled collectively.

③ Pattern control method

It may mean a method of collectively controlling according to a user control group defined for controlling a lamp installed in the specific space by a user. Here, the user control group 206 may be a result that is partially grouped with respect to the lamp the user wants to control. A user control group 206 defined by the user may be displayed on the screen of the control switch panel 200 for each. The control switch panel 200 may turn on and off the lamps corresponding to the plurality of lamp icons grouped corresponding to the user-defined group selected by the user. The detailed configuration of the pattern control method will be described with reference to FIG.

Here, the control switch panel 200 can image the state of whether the lamp is turned on or off corresponding to the lamp icon selected by the user through the respective lamp icons. For example, when the lamp is lit, the control switch panel 200 can display the corresponding lamp icon in an inactive state. Conversely, when the lamp is off, the control switch panel 200 activates the corresponding lamp icon Can be displayed.

The control switch panel 200 may provide an ID reset function to provide a switching function for turning on and off each individual and group. Detailed configuration will be described with reference to Figs. 3 to 4. Fig.

(2) Statistical function of electric power usage status by lamp usage

The light control device 200 can provide information related to the electric lamp through the screen by controlling the electric lamp through the electric lamp icon. The information provided for this may be as follows.

① Display the lighting time for each light installed in a specific space

② Indication of daily, monthly and year power usage for each light installed in a specific space

③ Display of power usage for the entire lamp installed in a specific space

That is, the MCU of the control switch panel 200 records and statistically manages the states of the respective lamps installed in a specific space, and counts the ON / OFF times for the respective lamps based on the states, Cumulative usage can be displayed. In addition, the MCU of the control switch panel 200 can provide more sophisticated information by filtering the unnecessary information in the memory in managing the states of the respective lamps.

(3) Personal use information display function

The control switch panel 200 can be connected to the Internet to provide detailed information such as real-time announcements, outside temperature, weather, air pollution degree, etc. incidentally required in a specific space. For example, the information related to the electric lamp currently in use through the upper end 205 or the lower end 207 of the screen of the control switch panel 200 may be various information such as the amount of electricity used all day, the amount of electricity used today, And information related to a personal schedule such as restaurant menu, commute record, and the like.

FIG. 3 is a view for explaining an operation of resetting a unique number of a lamp icon in consideration of the installation order of lamps whose power states have been switched through power line communication according to an exemplary embodiment.

Referring to FIG. 3, the control switch panel can reset the unique number of the lamp icon in order to reset the mapping relationship between the lamp icon and the lamp, taking into consideration the installation order of the lamp whose power state has changed.

3 (a), the control switch panel can receive the number of lamps installed in a specific space. In addition, the control switch panel can display a lamp icon having a unique number assigned in accordance with the arrangement order corresponding to the number of the inputted lamps on the screen. For example, the light control device can display the number of the lamp icons corresponding to the number of the inputted lamps in an array form together with the unique number. Information on this can be stored and managed in the memory of the control switch panel.

Here, the lamp icons may be arbitrarily mapped corresponding to the lamps installed in the specific space, and it may be assumed that the lamps installed in the specific space are installed in an arbitrary arrangement order. Each of the light icons and light bulbs can be stored in the memory of the control switch panel in pairs ordered by batch number and installation order.

The user can select the ID reset button displayed on the control switch panel to reset the mapping relationship between the lamp icon and the lamp. When the ID reset button is selected, the control switch panel can transmit an instruction to each power device for power to turn off the current power state for all the lamps. Each electric power apparatus for electric power can control the current state of the electric lamp in the OFF state according to a command transmitted from the control switch panel.

Thereafter, the control switch panel generates a command so that the lamp corresponding to the lamp icon can be turned on in turn according to the arrangement order of the lamp icons displayed on the screen, and transmits the generated command to the power device for power, The light power device can control the state of the corresponding lamp to the ON state in the transmitted command. At this time, the lamp icon mapped to the lamp turned to the ON state can be imaged in the form of blinking red on the screen of the control switch panel.

Here, the lamp icon blinking in red is a lamp icon that can be reset to the ordered pair, and can be imaged in a form differentiated from other lamp icons to inform the user that the lamp is in a standby state.

Then, the user can visually confirm the installation order of the lamp whose power state has been changed corresponding to the lamp icon blinking in red. Then, the user can judge whether or not the installation order of the lamps is the same or different from the arrangement order of the lamp icons.

If the installation order and placement order are the same, the user touches the blinking lamp icon on the control switch panel screen, the control switch panel maintains the mapping relationship of the touched lamp icon, and the current lamp icon is blinking blue , And the lamp icon corresponding to the next step can be imaged in the form of blinking in red. For example, if the installation order and the placement order are the same, the control switch panel can store arbitrarily set ordered pairs in the memory with the same value without a separate reset operation. In other words, the control switch panel can be stored in memory in the order of pairs of red (flashing red light icon icons, touched light icon), and if the installation order and placement order are the same, .

On the other hand, when the installation order and the installation order are not the same, the user can select a lamp icon indicating the same value as the installation number of the lamp whose power state has been switched on the screen of the control switch panel, as shown in Fig. The control switch panel can be stored in the memory in the order of pairs of red flashing light icons (the unique number of the flashing red light icon, the touched light icon). In this case, Lt; / RTI >

That is, as shown in FIG. 3, the seventh lamp may be turned on / off corresponding to the second lamp icon selected by the user. As a result, the user identifies the position of the lamp whose power state has been switched corresponding to the lamp icon selected by the user, and then resets the unique number of the lamp icon selected as the position number of the lamp whose power state has been switched as shown in FIG. can do.

That is, when the installation order of the lamps and the arrangement order of the lamp icons are different according to the mapping relationship between the control switch panel light icon and the lamp, the unique number of the selected lamp icon is reset to the position number of the lamp, The power state of a physically corresponding electric lamp can be controlled by using a logically reset displayed electric lamp icon.

The control switch panel can reset the ID to match the logical location of the lamp icon and the physical location of the lamp by repeating the process described in FIG. 3 by the number of the lamp icons displayed on the screen. As a result, the control switch panel can reset the ID to have the position number according to the arrangement order of the lamps with respect to the unique number arbitrarily given to the lamp icon.

Here, the light control system can match the mapping relationship between the lamp and the lamp icon by fixing the position number of the lamp installed in the specific space and resetting the unique number for the lamp icon.

FIG. 4 is a view for explaining an operation of resetting the position number of the lamp in consideration of the arrangement order of the lamp icons according to the embodiment.

Referring to FIG. 4, the control switch panel can fix the position of the lamp icon and reset the ID (position number) of the lamp installed in the specific space. Here, the location number of the lamp may include a location number irrelevant to the installation order installed in the specific space. The control switch panel can perform the following operations to match the logical position of the lamp icon with the physical position of the lamp.

The user can select the ID reset button displayed on the control switch panel to reset the mapping relationship between the lamp icon and the lamp. When the ID reset button is selected, the control switch panel can transmit an instruction to each power device for power to turn off the current power state for all the lamps. Each electric power apparatus for electric power can control the current state of the electric lamp in the OFF state according to a command transmitted from the control switch panel.

Referring to FIG. 4 (a), the control switch panel can confirm the position number actually assigned to the electric power device of the electric lamp before changing the position number assigned to the electric lamp. At this time, the control switch panel can receive the position number of the electric lamp assigned to each electric power device for all electric power through the power line communication.

Then, the control switch panel generates an instruction so that the lamp corresponding to the lamp icon can be sequentially switched to the ON state according to the arrangement order of the lamp icons displayed on the screen, and transmits the generated instruction to the power device for electric power, The light power device can control the state of the corresponding lamp to the ON state in the transmitted command. At this time, the lamp icon mapped to the lamp turned to the ON state can be imaged in the form of blinking red on the screen of the control switch panel.

The user can visually check the installation order of the lamp whose power state has been converted corresponding to the lamp icon blinking in red. Then, the user can judge whether or not the installation order of the lamps is the same or different from the arrangement order of the lamp icons.

If the installation order and placement order are the same, the user touches the blinking lamp icon on the control switch panel screen, the control switch panel maintains the mapping relationship of the touched lamp icon, and the current lamp icon is blinking blue , And the lamp icon corresponding to the next step can be imaged in the form of blinking in red.

Conversely, when the installation order and the placement order are not the same, the user can reset the position number of the lamp in accordance with the arrangement order of the lamp icons displayed on the screen of the control switch panel 101. [

In other words, referring to FIG. 4B, it is assumed that the unique number of the lamp icon selected in the control switch panel is '2' to grasp the position of the lamp installed in the specific space, and the control switch panel corresponds to the selected lamp icon A command for switching the power state of the lamp to be transmitted to the power device for lighting. The power device for the electric lamp can control the power state of the electric lamp having the position number '5' installed in the first row / second row in response to the command transmitted through the power line communication from the control switch panel. At this time, the arrangement order of the lamp icons selected by the user from the control switch panel and the installation order of the lamps whose power state is controlled may differ from each other.

In order to match the logical position of the lamp icon with the physical position of the lamp installed in the specific space, the user corresponds to the installation order (first column / second row) of the lamp whose power state is controlled among the lamp icons displayed on the control switch panel The user can touch the lamp icon 3 to be displayed.

The control switch panel can transmit the result of summing the default values according to the number of the touched lamp icon and the number of lamps to the electric power device installed in the power-controlled lamp. The electric power device for the electric lamp can replace the result delivered from the control switch panel by the position number of the corresponding electric lamp. That is, the electric power device for electric lamp can replace the position number of the electric lamp stored in the memory of the MCU with the result of '5' (the unique number (3) + default value of the electric lamp icon), and then store it.

In this case, the control switch panel can be set to a different default value in consideration of the number of lamps, and a value obtained by adding any number greater than the number of lamps according to the position number of the lamp can be used. For example, the control switch panel may use a value obtained by adding 10 to the position number when the number of the lamps is less than 10, and a value obtained by adding 100 to the position number when the number of the lamps is 10 or more. The control switch panel can then deliver the command to the power device so that any additional default value can be assigned to the new position number for each lamp.

Thereafter, the control switch panel can reset the ID to match the logical position of the lamp icon and the physical position of the lamp by repeating the process as many as the number of lamp icons displayed on the screen.

Referring to (c) of FIG. 4, when resetting of all the lamp icons is completed, the control switch panel transmits a command subtracting the default value from the reset result to the electric power device for electric power, The control switch panel is able to set the final position number for the lamp by subtracting the default value from the position number to which the default value has been added via Figure 4 (b) By transmitting to the device, the power device for the lamp can reset the location number for the lamp.

5 is a diagram for explaining a pattern control method for controlling a lamp according to an embodiment.

Referring to FIG. 5, the user can define a group to be controlled by the user. In other words, the user can set a user control group defined to control a light installed in a specific space based on the M * N matrix. The light control device can collectively control the plurality of lamps constituting the user control group by using the user control group defined by the user.

In detail, a user can form a user control group that is partially grouped through a lamp icon for a lamp to be controlled by a user. At this time, the user control group can be managed through the respective files as information saved in the memory of the control switch panel. In other words, the user control group includes a unique number of the lamp icon to be controlled, and the control switch panel can manage the user control group grouped with the unique number of the lamp icon through a separate file.

User control groups defined by the user can be displayed on the screen of the light control device for each. Then, the light control device can turn on and off the lamps corresponding to the plurality of grouped lamp icons corresponding to the user-defined group selected by the user.

For example, referring to FIG. 5 (a), the user control group may include 2, 3, 5, 6, and 8 as unique numbers of the lamp icons. Then, the control switch panel can display a user control group including 2, 3, 5, 6, and 8 as a unique number of the lamp icon on the screen. When a button for the user control group is selected by the user, the control switch panel can collectively activate lamp icons of 2, 3, 5, 6, and 8 for the lamp icons of the M * N matrix displayed on the screen . In other words, the control switch panel can generate an instruction to perform an operation of collectively selecting the lamp icons included in the user control group having a certain pattern. Each user control group can be stored in a memory in the form of a file as shown in FIG. 6C and managed.

In addition, the control switch panel can transmit a command for switching the power state of the lamp to the power devices of the respective lamps corresponding to the lamp icons selected at once. Then, the electric power device for the electric lamp can switch the power state of the electric lamp corresponding to the electric lamp icon selected at once according to the command of the electric lamp control device.

In addition, the control switch panel can image and display the status of whether the lamp is turned on or off corresponding to the lamp icon selected by the user through each lamp icon. For example, when the light is on, the control switch panel may display the corresponding light icon inactive, and conversely, when the light is off, the control switch panel may mark the corresponding light icon as active. The activated lamp icon can be expressed in a specific pattern depending on whether it is displayed or not.

In the case of FIGS. 5B and 5C, when the button for the user control group is selected by the user as described above, corresponding to the position number of the lamp icon included in each user control group, .

7 is a flowchart illustrating an operation of a power device for a lamp constituting a light control system according to an embodiment.

In step 701, the power device for lighting may perform booting to the light control system. In other words, the power device for an electric lamp can set the state of the power supply and the relay.

In steps 702 to 704, the power-use power device can be set to a configuration including an MCU, a PLC modem, a UART, and a receive interrupt, including a memory (EEPROM) constituting a power device for a power device.

In step 705, the power-use power device can perform an ID read, an ON / OFF, an ID change operation, and an ID mapping operation according to a function value according to an instruction. In other words, the electric power device can classify the items required by the command in response to the command received from the control switch panel constituting the light control system.

In step 706, the power device for electric power can perform an ID read operation. Here, the ID read may be an operation of confirming the ID of the electric power device for electric power according to the command received from the control switch panel. Then, the electric power device for the electric power can transmit the ID of the electric power device for the confirmed electric power to the control switch panel.

In step 707, the power device for electric power can perform the ON / OFF operation. ON / OFF may be an operation to switch the power state of the lamp to the command received from the control switch panel.

In step 708, the power device for electric power can perform the ID change operation. The ID changing operation may be an operation of fixing the position of the lamp icon and changing the ID when the position number of the lamp installed in the specific space is reset. At this time, the electric power device for the electric power can change the ID for the electric lamp by the ID transmitted from the control switch panel.

In step 709, the power device for electric power can perform an ID mapping operation. The ID mapping operation may be a final mapping operation by resetting the position number of the lamp. In other words, the power device for the light may mean increasing or decreasing the default value to prevent duplication occurring during the change according to the position number of the lamp.

In step 710, the power device for electricity can be stored in the memory of the power device for electric power corresponding to each result operated through steps 706 to 709.

8 is a flowchart for resetting a unique number of a lamp icon according to an exemplary embodiment.

In step 801, an ID reset button is selected from the user by the control switch panel, and thus the operation can be performed in the CALIBRATION mode (ID reset mode). In addition, the control switch panel can transmit a command for batch-processing the state of the lamp to OFF state to reset the mapping relationship between the lamp and the lamp icon to all power devices.

In step 802, the control switch panel receives the M * N matrix from the user and grasps the number of lamps according to the inputted order.

In step 803, the control switch panel displays the lamp icons in an array form corresponding to the number of lamps detected through the screen, and assigns a unique number according to the arrangement order of the lamp icons displayed on the screen. At this time, the control switch panel can assign the unique number of the lamp icon to 1.

In step 803, the control switch panel can determine whether the maximum number of lamps and the number assigned to the lamp icon are large. Here, the control switch panel can repeatedly operate the ID change mode for the lamp icon displayed on the screen from ID = 1 to MAX (maximum number of lamps).

If the inherent number is small, the control switch panel may perform operations to match the logical position of the light icon assigned with the current unique number to the physical position of the light installed in the specific space in steps 806 through 807.

In step 808, the control switch panel may store in the ARRAY DATA of the memory in the order of (2,7) that the seven lamps are controlled corresponding to the selected second lamp icon to locate the lamp. As a result, the control switch panel can fix the position number of the lamp installed in a specific space, and can reset the unique number for the lamp icon.

In step 809, the control switch panel may increase the ID.

9 is a flow chart for resetting the location number of a lamp according to an embodiment.

In step 901, an ID reset button is selected from the user by the control switch panel, and the operation can be performed in the CALIBRATION mode. In addition, the control switch panel can transmit a command for batch-processing the state of the lamp to OFF state to reset the mapping relationship between the lamp and the lamp icon to all power devices.

In step 902, the control switch panel receives the M * N matrix from the user and grasps the number of lamps according to the input command.

In step 903, the control switch panel displays the lamp icons in an array form corresponding to the number of lamps detected through the screen, and assigns a unique number according to the arrangement order of the lamp icons displayed on the screen. At this time, the control switch panel can assign the unique number of the lamp icon to 1.

In step 904, the control switch panel can determine whether the maximum number of lamps and the number assigned to the lamp icon are large. Here, the control switch panel can repeatedly operate the ID change mode for the lamp icon displayed on the screen from ID = 1 to MAX (maximum number of lamps).

If so, in step 907, the control switch panel may deliver the unique number of the currently selected light icon to the power device for lighting. Then, the user can grasp the position of the electric power source whose power state has been switched by the power device for electric power.

In step 908, the control switch panel may touch a lamp icon corresponding to the position of the lamp where the power state is turned on by the user, and may transmit the unique number of the touched lamp icon to the power device for lighting. The power device for the light can set the installation number for the lamp whose power state is controlled to be the result of the unique number of the touched light icon + default value.

In step 909, the control switch panel may receive the results set for the lamp from the power device for the lamp and store information about it in the memory.

In step 909, the control switch panel may increase the ID.

If the ID is greater than MAX, then in step 905, the control switch panel determines that resetting of the IDs for all the lamp icons is completed, and sends a command to subtract the default value for the result stored in the power device for power, .

The methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill 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. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

101: Light control device
102: Screen
103: Electric light icon
104: Light fixture
105: Specific space

Claims (5)

In a method of setting a lamp position to be performed in a control switch panel,
Receiving a number of electric lamps installed in a specific space;
Displaying lamp icons having a unique number according to an arrangement order corresponding to the number of the inputted lamps in an array form;
Setting an ordered pair arbitrarily defined between a unique number of the lamp icon and a position number of the lamp to control a lamp installed in a specific space corresponding to the lamp icon;
Controlling a power state of a lamp installed in the specific space to be in an OFF state through a power line communication in order to reset a mapping relationship between the lamp icon and the lamp based on the set order pair;
Selecting at least one lamp icon for identifying the position of the lamp installed in the specific space among the lamp icons displayed in the array form; lighting the lamp corresponding to the selected at least one lamp icon, And the lamp icon corresponding to the lamp controlled to the ON state in the power state is blinked in red on the screen of the control switch panel so that the lamp icon is differentiated from the lamp icon corresponding to the lamp controlled in the OFF state. ;
Confirming an installation order of at least one electric power source whose power state is switched to the same number as the selected one of the at least one electric light icon through power line communication based on the set ordered pair;
If the installation order of the lamps is the same as the arrangement order of the lamp icons, a lamp icon blinking in red on the screen of the control switch panel is selected to maintain the mapping relationship between the position number of the selected lamp icon and the unique number of the lamp icon Wherein the lamp icon in which the mapping relationship is maintained is blinked in blue on the screen of the control switch panel so that the mapping relationship is differentiated from the predetermined lamp icon; And
The position numbers of the lamps whose power states are switched according to the ordered pairs are fixed and when the arrangement order of the lamp icons is different from that of the lamps, The unique number of the selected lamp icon is changed to the position number of the lamp whose power state has been switched so that the power state of the lamp corresponding to the lamp icon is switched, Resetting the IDs of the electric power devices for electric power by re-setting the IDs of the electric power devices for the electric power, respectively, wherein the electric power devices for the electric power are installed in electric lamps connected by power line communication using a control switch panel, The position number of the electric lamp and the position of the electric lamp icon according to the mapping relation of the electric lamp icon Being reset to the number matches with the same number and the position number of the power state is switched light ordered pairs -
Lt; / RTI >
The unique number of the lamp icon is reset so as to be equal to the position number of the lamp installed in the specific space according to the power state of the lamp,
Wherein the lamp icon is logically reset with the unique number of the lamp icon to control the power state of a physically corresponding lamp according to the reset unique number. The method according to claim 1,
Wherein the step of selecting the at least one lamp icon comprises:
Wherein at least one lamp icon is selected according to a control method of a single control method, a row / column control method, or a pattern control method using a lamp icon displayed in an array form having M * N matrices. 3. The method of claim 2,
In the pattern control method,
Wherein the control unit collectively controls a light source installed in the specific space by a user according to a user control group defined for controlling the light source. delete In a method of setting a lamp position to be performed in a control switch panel,
Receiving a number of electric lamps installed in a specific space;
Displaying lamp icons having the same number as the number of the inputted lamps in the form of an array, the lamp icons being given unique numbers according to the arrangement order displayed in an array form;
Controlling the power state of the lamp installed in the specific space to be in the OFF state through the power line communication to reset the mapping relationship between the lamp icon and the lamp;
Receiving a position number assigned to the electric lamp through a power line communication from a power device for electric power for interlocking with the electric lamp installed in the specific space, the electric power corresponding to the position number is controlled to be ON state by power line communication , The lamp icon corresponding to the lamp controlled to the ON state in the power state is blinked in red on the screen of the control switch panel and images are differentiated from the lamp icon corresponding to the lamp controlled in OFF state;
Selecting at least one lamp icon for identifying the position of the lamp installed in the specific space among the lamp icons and confirming the installation order of the lamps whose power state is switched through the power line communication corresponding to the selected lamp icon;
If the installation order of the lamps is the same as the arrangement order of the lamp icons, a lamp icon blinking in red on the screen of the control switch panel is selected to maintain the mapping relationship between the position number of the selected lamp icon and the unique number of the lamp icon Wherein the lamp icon in which the mapping relationship is maintained is blinked in blue on the screen of the control switch panel so that the mapping relationship is differentiated from the predetermined lamp icon; And
When the installation order of the lamps is different from the order of arranging the lamp icons, the position number of the lamp icon corresponding to the lamp whose power state is switched according to the ordered pair is fixed, and the preset default value is used according to the number of the inputted lamps Resetting the position numbers of the lamps to reset the IDs of the power devices for the lamps, respectively, the power devices being installed in a lamp connected to a power source via power line communication using a control switch panel, Each of the IDs of the apparatuses is reset by the same number as the position number of the lamp and the unique number of the lamp icon according to the mapping relationship of the lamp and the lamp icon to the same number as the position number of the lamp icon corresponding to the lamp whose power state has been switched being-
Lt; / RTI >
Wherein the resetting of the position number comprises:
And transmits the sum of the predetermined default value and the unique number of the selected lamp icon to the electric power device for electric power linking with the electric power source through the power line communication
The electric power device for electric power resets the result delivered from the control switch panel to the position number of the electric lamp,
Resetting the position number by resetting the position number by transmitting an instruction to subtract the summed value from the position number of the resetted lamp to the power device for electric power transmitting the summed result,
Wherein the position number of the lamp is reset to be the same as the unique number of the selected lamp icon according to the power state of the lamp.

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