KR20120089112A - Control lineless scalable illumination control system - Google Patents

Abstract

PURPOSE: A system and a method for controlling lighting are provided to reduce installation costs and construction time in an extension process by distinguishing each lamp into ID included in a lighting control signal to connect the lamp regardless of the number of ports of a controller. CONSTITUTION: An electrical grid(10) is wired in a building and facilities. A lamp(20) is connected to the electrical grid. A lighting controller(100) transmits lighting control data to an area of a higher voltage than the fundamental voltage of the power net. A micom unit(200) is connected between the electrical grid and the lamp. A dimming switch(300) inputs the dimming control of the lamp by communicating with the lighting controller through the electrical grid. An illuminometer(400) is connected to the electrical grid to sense the brightness. A detection sensor(500) senses visitors.

Description

Expandable lighting control system with no-control lines {CONTROL LINELESS SCALABLE ILLUMINATION CONTROL SYSTEM}

The present invention relates to an expandable lighting control system of a non-controlled wire type, in particular, the addition of wiring for control when adding lights such as lamps, LEDs, etc. to a building or a facility, and does not require an additional number of lighting lights. It is about the system.

As is well known, the conventional LED lighting control system, as shown in Figure 1, the LED lamp operating in and out of DC 30V, 0.2A, a converter for converting AC 220V to DC 30V, 0.2A, and the LED lamp It consists of a lighting controller for controlling the current and a switch, and an AC 220V power supply line and a communication line for dimming control (dimming) are connected to each lighting controller and each LED lighting device to control the LED lighting device. And dimming control becomes possible.

However, such a conventional LED lighting control system is to connect and control the LED lamp only within the range that can be connected to the communication interface of the lighting controller, additionally LED lamp after the construction of the LED lighting control system by wiring at the construction of the building Additional wiring is necessary to expand the lamp, and if the communication interface connection range of the constructed lighting controller is exceeded, the lighting controller must be added, and thus there is a problem in that the expansion cost and duration are increased.

In addition, the LED lamp is divided into AC 220V that can be used directly in the conventional AC 220V power grid and DC for receiving the DC power, accordingly, only the LED lamp for each LED lighting control system should be used, so do not know the system well There is a problem that the consumer can not purchase the LED lamp that does not fit the consumer's LED lighting control system when purchasing the LED lamp to replace or expand the LED lamp.

An object of the present invention is to solve the above problems, and when adding a lamp, LED, etc. to a building or facility does not require additional wiring for the control of the lights, the expansion of the control line method that can control the lights without limiting the number of lights To provide a possible lighting control system.

In addition, the present invention is to provide an expandable lighting control system of a control line method that can be connected regardless of the type of power supply of the lighting.

In order to achieve the above object, the present invention provides a lighting control system including a power grid wired to at least one of a building and a facility, a lighting lamp connected to the power grid, and a lighting controller for controlling dimming of the lighting lamp. An illumination controller based on the voltage and transmitting dimming control data to a voltage region higher than the basic voltage of the electric power grid; A microcomputer unit connected between the electric power grid and the lamp and controlling dimming of the lamp by any one of constant current control, constant voltage control, and phase control by analyzing dimming control data included in the electric power grid; A dimming switch in communication with the lighting controller through the electric grid to input dimming control of a lighting lamp; Is connected to the power grid is configured to detect the ambient light and visitors to detect the ambient brightness for automatic brightness adjustment,

The lighting controller includes a master bus modem based on a basic voltage of a power grid and transmitting dimming control data to a voltage region higher than the basic voltage of a power grid; A power grid detector that detects a load current of the grid and protects the circuit from overcurrent, and detects a state of a lamp and a dimming switch connected to the grid; The master bus modem is connected to a power grid detector, and is composed of a computer interface and a processor to generate dimming control data based on information received from a computer and a light lamp connected to a power grid, and information received from a dimming switch and transmitted through the master bus modem. An operation unit configured to perform the operation; It is composed of a converter for converting AC 220V into a voltage in the range of DC5V to DC 48V by outputting the PWM of the operation unit to increase the step up / down efficiency,

The micom unit is connected to a power grid and receives power from the master BUS modem and exchanges data only with a slave BUS modem; A converter including an AD converter and a dimming control interface for inputting a microcomputer's PWM to increase step up / down efficiency and converting power suitable for a lamp; A microcomputer connected to the slave BUS modem and a converter to receive data included in a power network from the slave BUS modem to control the converter for dimming control according to the data; The type switch is installed between the converter and the lamp to receive the power type of the lamp and to pass to the converter to supply power according to the type of power of the lamp.

In addition, the present invention, if the installed power grid to supply AC power,

An illumination controller having an AC PLC configured to transmit modulation control data together with power by modulating any one of amplitude modulation, frequency modulation, and phase modulation to the power grid; A microcomputer unit connected between the electric grid and the lamp to supply power, and demodulating the dimming control data included in the electric grid to control dimming of the lamp; The dimming switch is configured to communicate with the lighting controller through the power grid to input the dimming control of the lighting lamp,

An AC PLC connected to a power grid to receive power from the lighting controller and to exchange modulated data; A converter including an AD converter and a dimming control interface for inputting a microcomputer's PWM to increase step up / down efficiency and converting power suitable for a lamp; A microcomputer connected to the AC PLC and receiving the data included in the power grid from the AC PLC to control the converter for dimming control according to the data; A type switch installed between the converter and the lamp may be configured to receive a power type of the lamp and transmit the power to the converter to supply power according to the type of the lamp.

In this way, the present invention adds and transmits a dimming control signal to a power grid constructed in a building or a facility, and thus it is possible to extend and control dimming only by connecting a lamp to a power source, thus eliminating the need for wiring additional control lines. IDs included in the signal can distinguish each lamp, so that the lights can be connected regardless of the number of interfaceable ports of the controller. Therefore, the expansion cost and construction period can be shortened when the lamps are expanded.

In addition, the present invention has the advantage of eliminating the inconvenience of having to distinguish the power supply type of the light source when purchasing the light source can operate the type switch according to the power supply type of the light source to expand the lamp. .

1 is a configuration diagram showing the configuration of a conventional lighting control system.
Figure 2 is a block diagram illustrating the overall configuration of a control panel type expandable lighting control system according to the present invention.
Figure 3 is a configuration diagram specifically illustrating the configuration of the lighting controller according to the present invention.
4 is a configuration diagram specifically illustrating a configuration of a microcomputer unit according to the present invention;
5 is a configuration diagram specifically illustrating a configuration of a dimming switch according to the present invention.

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

FIG. 2 is a block diagram showing the overall configuration of a specific embodiment of a control panel-type expandable lighting control system according to the present invention.

As can be seen from the above, the present invention is to control the dimming of the electric power grid 10, the lamp 20 connected to the electric grid 10, and the illumination lamp 20 wired to any one or more of buildings and facilities In the lighting control system composed of a lighting controller 100,

An illumination controller 100 based on the basic voltage of the power grid 10 and transmitting dimming control data to a voltage region higher than the basic voltage of the power grid 10;

Is connected between the power grid 10 and the lamp 20, and controls the dimming of the lamp 20 by any one method of constant current control, constant voltage control, phase control by analyzing the dimming control data contained in the power grid 10 With the microcomputer unit 200,

A dimming switch 300 which communicates with the lighting controller 100 through the power grid 10 to input dimming control of the lighting lamp 20;

It is connected to the power grid 10 may be composed of an illumination meter 400 for detecting the ambient brightness for automatic brightness adjustment and a sensor 500 for detecting the visitor.

To describe this in more detail for each component, the power grid 10 may be AC 220V used in a typical building or facility, the building or facility using an LED lamp using a DC voltage as a lamp 20. It may be a power grid 10 buried to supply a DC voltage, which is according to the power grid 10 buried in buildings, facilities, and the like.

As illustrated in FIG. 3, the lighting controller 100 connected to the electric power grid 10 is based on a basic voltage of the electric power grid 10 and is controlled in a voltage region higher than the basic voltage of the electric power grid 10. Master BUS modem 110 for transmitting data,

A power grid detector 120 for detecting a load current of the grid 10 to protect a circuit from overcurrent, and detecting a state of a lamp 20 and a dimming switch 300 connected to the grid 10;

The master BUS modem 110 and the power grid detector 120 is connected, and composed of a computer interface and a processor, such as information received from an external computer connected to the processor through the computer interface and the illumination lamp connected to the power grid 10 20, an operation unit 130 for generating dimming control data based on the information received from the dimming switch 300 and transmitting it through the master BUS modem 110;

The converter 140 may be configured to receive a PWM of the operation unit 130 and increase the step up / down efficiency to convert the AC 220V into a voltage ranging from DC5V to DC 48V and output the converted voltage.

Here, the master bus modem 110 has a communication 9600BPS half-duplex type, and supplies a power supply to the lamp 20 with a DC voltage of 24V to 30V at the same time, and a base voltage of logic " 0 " In order to communicate by transmitting the data having a logic “1” (HIGH) in the high voltage range of DC 31V to DC48V through the power grid 10 together with the basic voltage, this is dependent on the type of power grid 10 that is already installed. If the installed power grid 10 is a power grid 10 for supplying general AC, not the power grid 10 for supplying DC, the lighting controller 100 is amplitude modulation, frequency modulation, An AC PLC may be configured to modulate by any one of phase modulation and transmit dimming control data together with electric power. The microcomputer 200 also includes dimming control data included in the power grid 10. Demodulating the AC PLC may be configured to control the dimming of the light 20. The

Slave BUS modems 210 and 310 are configured on the terminal side (illuminator 20, dimming switch 300, illuminometer 400, detection sensor 500, etc.) for communication with the master BUS modem 110, respectively. In addition, the lamp 20 may be a DC LED lamp that is generally operated at about DC 30V, 2mA, or may be a lamp such as an AC LED lamp or a light bulb or a fluorescent lamp that receives AC 220V.

In addition, the microcomputer unit 200 connected between the power grid 10 and the lamp 20 is connected to the power grid 10 as shown in FIG. 4 to receive power from the master BUS modem 110 and receive data. Slave BUS modem 210 to exchange,

A converter 240 including an AD converter and a dimming control interface for inputting the PWM of the microcomputer 230 to be described later to increase the step up / down efficiency and converting power suitable for the lamp 20;

The slave BUS modem 210 and the converter 240 are connected to receive data included in the power grid 10 from the slave BUS modem 210 to control the converter 240 for dimming control according to the data. It may be configured as a microcomputer (230).

The microcomputer unit 200 is installed between the converter 240 and the lamp 20 in consideration of the power supply type of the lamp 20 to be connected to receive the power type of the lamp 20 is transmitted to the converter 240. Type switch 220 may be configured to supply power according to the power supply type of the lamp 20, the microcomputer unit 200 is the master BUS modem 110 and the slave BUS modem of the lighting controller 100 ( Since 210 communicates with the power supply to illuminate the lamp 20 from the lighting controller 100 through the connected power grid 10, it is possible to control the dimming of the lamp 20 by receiving dimming control data.

The slave BUS modem 210 is a modem that receives power from the master BUS modem 110 connected to the power grid 10 in a terminal form and exchanges data only. When the voltage level of the power grid 10 is DC 24V, which is a basic voltage, the high voltage is converted to the operating power of the components of the lamp 20 and the microcomputer 200 connected to the slave BUS modem 210. , DC 48V higher than the basic voltage is to transfer to the connected microcomputer 230 so that the dimming control signal is interpreted using a logic of "LOW",

The converter 240 receives power from the power grid 10 to supply the operating power of the microcomputer 230 and the lamp 20, and inputs the power type of the lamp 20 connected through the type switch 220. It will be able to supply the corresponding power, so that when the addition of the lamp 20, the control line for the dimming control of the lamp 20 is added to the lamp 20 to be added without additional work, such as wiring, embedding, extension, etc. Just by connecting the microcomputer 200 only between the lamp 20 and the power grid 10, the power supply and dimming control are made at the same time, so that the addition and removal of the lamp 20 is free and construction is simplified. In addition, the construction period can be shortened and the cost can be reduced, as well as the power supply of the power supply type of the lamp 20 added by the operation of the type switch 220 can be supplied to the power supply type of the lamp 20 at the time of purchase of the lamp 20 Sphere It will be able to solve the inconvenience to be separated.

In addition, as shown in FIG. 5, the dimming switch 300 is connected to a power grid 10 to receive power from the master BUS modem 110 and to exchange only data with a slave BUS modem 310;

A touch panel 340 for adjusting the dimming of the set lamp 20 by detecting a touch position using a digital output of the microcomputer 330 and a data bus with a backlit resistive touch panel 340;

It may be configured as a microcomputer 330 for transmitting and receiving data through the slave BUS modem 310 and controls the touch panel 340 and the backlight,

The slave BUS modem 310 is a modem that receives power from the master BUS modem 110 connected to the power grid 10 in a terminal form and exchanges data only. If the voltage level of the power grid 10 is DC 24V, which is the basic voltage, while converting and supplying 24V power to the operating power of the components of the dimming switch 300 connected to the slave BUS modem 310, " HIGH " If the high DC 48V is a function to transmit to the microcomputer 330 connected to the dimming control signal is interpreted by using the logic "LOW",

The touch panel 340 is an input device for adjusting the dimming control degree of the corresponding illumination lamp 20 that is already programmed. Referring to the case of the resistive touch panel 340 as an example, the size of the touch panel 340 may vary. A plurality of dots intersected by XY are evenly distributed, and the X-axis end of one side is X +, the X-axis end of the other side is X-, the Y-axis end of one Y-orthogonal to the X-axis is Y +, and the other Y-axis end is In case of Y-, apply voltage temporarily between X + Y + / XY- periodically (approximately 10mS), and use potential as coordinates by reading potential between X + Y + / XY- touched next time with A / D converter. Therefore, the touch position can be determined, so that dimming of the lamp 10 is adjusted as the upper or lower portion of the touch panel 340 is touched, or an image such as a button whose function is set according to the position in the touch panel 340. Is configured, as the image of the touch panel 340 is touched The lighting and dimming control of myeongdeung 10 is capable of generating the operation information, so that.

When the dimming switch 300 is manipulated by an operator, the dimming switch 300 transmits the manipulated contents together with the unique ID information of the dimming switch 300 to the lighting controller 100 through the electric power grid 10 to cause the lighting controller 100 to dimm the light. Since the dimming control data for the lighting and dimming control of the lamp 20 associated with the ID information of the switch 300 is generated, the dimming switch 300 does not need to include an illumination controller 100 for dimming control. One controller 100 can process the input of a plurality of dimming switch 300, such a dimming switch 300 can be set to control the lighting and dimming of one or more lamps 20, for example For example, the lighting and dimming can be adjusted by selecting all the lights 20 installed in a room or a certain area at the same time or respectively.

In addition, the illuminometer 400 is connected to the slave BUS modems 210 and 310 connected to the power grid 10 to sense ambient illumination and transmit illuminance data to the power grid 10 through the slave BUS modems 210 and 310. The illuminance meter 400 may detect the ambient illuminance and transmit the illuminance data detected to the electric grid 10 through the slaveBUS modems 210 and 310 to transmit such illuminance data to the electric grid 10. When the power grid detector 120 of the lighting controller 100 that monitors this is recognized and generates appropriate dimming control data through the operation unit 130 and transmits it to the power grid 10 through the master BUS modem 110, such dimming control. The slave BUS modem 210 receiving the data transmits the dimming control data to the microcomputer 230 to control the dimming of the corresponding lamp 20 so that the dimming control of the lamp 20 can be performed automatically according to the ambient illumination. It will be.

In addition, the sensor 500 is connected to the slave bus modem (210, 310) connected to the power grid 10 for transmitting the sensed data to detect the human body in the infrared via the slave bus modem (210, 310) to the power grid (10) When the human body is recognized by the detection sensor 500, the sensing data is transmitted to the power grid 10 through the slave BUS modems 210 and 310, and the illumination to monitor the power grid 10. The power grid detector 120 of the master BUS modem 110 of the controller 100 recognizes this, and generates data to turn on the lamp 20 or increase the dimming of the lamp 20 through the operation unit 130, thereby reproducing the master BUS. Receive such dimming control data from the microcomputer 200 connected to the corresponding lamp 20 transmitted to the power grid 10 through the modem 110 to turn on the lamp 20 or to increase the dimming, on the contrary Detection sensor (500) When the human body is detected that there is off the illuminator 20 through the same process or to reduce the light modulation.

In addition, according to the present invention, the control line-type expandable lighting control system includes a) the lighting controller 100 receives AC power from the outside and converts it into DC, and converts the basic voltage converted into DC into the lighting lamp 20. The dimming control data, which is supplied to the power supply and has a base voltage of logic “0” and a logic section “1” in a DC 31V to DC48V section, which is a voltage region higher than the base voltage, is connected to the power grid 10 together with the base voltage. Transmitting,

 b) the microcomputer 200 connecting the lamp 20 to the power grid 10 receives power and data transmitted from the a) through the power grid 10 to supply power to the lamp 20, and the data And controlling dimming of the lamp 20 according to the present invention.

c) the dimming switch 300 according to the operation of the dimming switch 300 transmits the operation to the lighting controller 100 via the power grid 10 so that the lighting controller 100 generates dimming control data Steps,

d) the microcomputer unit 200 to which the lamp 20 is connected to the power grid 10 is further connected, and the added microcomputer unit 200 is set in the lighting controller 100 and added by the a) and b). The dimming of the lamp 20 connected to the microcomputer 200 may be controlled, so that a control line or a signal line for a separate dimming control is not required through the a), b), and c). The dimming control of the lamp 20 is enabled, and when the lamp 20 is added by the step d), the microcomputer 200 is added and the microcomputer 200 is added without the need for wiring work or the addition of a control line. By only setting the lighting controller 100) will be able to add as many lights 20 as necessary.

In addition, since the microcomputer 200 and the lamp 20 added as described above are managed by ID, the microcomputer unit 200 and the lamp 20 are not limited to the limited interface port.

In addition, the b) is a microcomputer 200 is connected to the lamp 20 through the type switch 220 receives the power type of the lamp 20 is connected to the type switch 220 is the converter 240 It may be provided to deliver to the power supply according to the power supply type of the lamp 20, the lamp 10 because the power grid 10 and the power supply type can be connected to use even if you purchase a different lamp (20) ), The inconvenience of having to distinguish the power supply type can be eliminated.

As described above, the present invention is not limited to the above-described embodiments, but can be variously changed within the spirit and concept of the present invention.

10: power grid 20: lighting
100: lighting controller 110: master bus modem
120: power grid detector 130: computing unit
140: converter 200: microcomputer unit
210: slave bus modem 220: type switch
230: microcomputer 240: converter
300: Dimming switch 310: Slave BUS modem
320: converter 330: microcomputer
340: touch panel 400: illuminometer
500: detection sensor

Claims (10)

In the lighting control system comprising a power grid wired to at least one of buildings, facilities, lighting lamps connected to the power grid, and a lighting controller for controlling dimming of the lighting lamps,
The power grid supplies DC power,
An illumination controller based on a base voltage of the power grid and transmitting dimming control data to a voltage region higher than the base voltage of the power grid;
A microcomputer unit connected between the electric power grid and the lamp and controlling dimming of the lamp by any one of constant current control, constant voltage control, and phase control by analyzing dimming control data included in the electric power grid;
And a dimming switch configured to communicate with the lighting controller through the electric grid to input dimming control of a lighting lamp. The method of claim 1,
The lighting controller is based on the base voltage of the power grid, the master BUS modem for transmitting dimming control data in a voltage region higher than the base voltage of the power grid,
A power grid detector for detecting a load current of the grid and protecting a circuit from overcurrent, and detecting a state of a lamp and a dimming switch connected to the grid;
The master bus modem is connected to a power grid detector, and is composed of a computer interface and a processor to generate dimming control data based on information received from a computer and a light lamp connected to a power grid, and information received from a dimming switch and transmitted through the master bus modem. An operation unit to make it possible,
Control panel type expandable lighting control system characterized in that it is configured to convert the AC 220V to a voltage of DC5V to DC 48V output by increasing the step-up / down efficiency by receiving the PWM of the operation unit. The method of claim 2,
The master BUS modem supplies DC 24V to 30V as a basic voltage and supplies power to a lamp, while the base voltage is a logic "0" base and a DC 31V to DC48V section that is higher than the base voltage as logic "1". And a control line-type expandable lighting control system which transmits data together with the basic voltage through the power grid. The method of claim 2,
The microcomputer unit is connected to a power grid and receives power from the master BUS modem and exchanges only data with a slave BUS modem;
A converter including an AD converter and a dimming control interface that converts power suitable for lighting by receiving a microcomputer's PWM and increasing step-up / down efficiency;
The slave bus modem and the converter is connected to receive the data contained in the power grid from the slave BUS modem to control the converter for dimming control according to the data, characterized in that the microcomputer can be extended by the control line method Lighting control system. The method of claim 4, wherein
And a type switch installed between the converter and the lamp and configured to receive a power type of the lamp and transmit the power type to the converter to supply power according to the power type of the lamp. The method of claim 2,
The dimming switch is connected to an electric power grid and receives a power from the master BUS modem and exchanges data only with a slave BUS modem;
Touch panel with backlight resistive touch panel that controls the dimming of the set lighting by detecting the touch position using the digital output and data bus of the microcomputer,
And a microcomputer that transmits and receives data through the slave BUS modem and controls the touch panel and the backlight. 7. The method according to any one of claims 1 to 6,
And an illuminometer connected to the slave BUS modem connected to the power grid to sense ambient illuminance and transmit illuminance data to the power grid through the slave BUS modem. 7. The method according to any one of claims 1 to 6,
And a sensing sensor connected to the slave BUS modem connected to the power grid to transmit sensing data that detects a human body with infrared rays to the power grid through the slave BUS modem. In the lighting control system comprising a power grid wired to at least one of buildings, facilities, lighting lamps connected to the power grid, and a lighting controller for controlling dimming of the lighting lamps,
The power grid supplies AC power,
An illumination controller provided with an AC PLC for modulating any one of amplitude modulation, frequency modulation, and phase modulation to the power grid to transmit dimming control data together with power;
A microcomputer unit connected between the electric power grid and the lamp to supply power, and demodulating the dimming control data included in the electric power grid to control dimming of the lamp;
The dimming switch is configured to communicate with the lighting controller through the power grid to input the dimming control of the lighting lamp,
The microcomputer unit is connected to a power grid and receives power from the lighting controller, AC PLC for exchanging the modulated data,
A converter including an AD converter and a dimming control interface that converts power suitable for lighting by receiving a microcomputer's PWM and increasing step-up / down efficiency;
A microcomputer connected to the AC PLC and a converter connected to the AC PLC to control the converter for dimming control according to data received from the AC PLC;
And a type switch installed between the converter and the lamp and configured to receive a power type of the lamp and transmit the power type to the converter to supply power according to the power type of the lamp. An electric power grid wired to at least one of a building and a facility, an illumination lamp connected to the electric grid by a microcomputer unit, an illumination controller for controlling dimming of the illumination lamp, and a dimming control of an illumination lamp by communicating with the illumination controller through the electric grid. In the lighting control system consisting of a dimming switch to input,
a) The lighting controller receives AC power from the outside and converts it to DC, and supplies the power to the lamp with the basic voltage converted into DC, and at the same time, the base voltage is a logic "0" base, a voltage region higher than the base voltage. Transmitting dimming control data having a logic “1” between a DC 31V and a DC48V section through the power grid together with the basic voltage;
b) receiving a power and data transmitted from the a) through a power grid for connecting the lamp to the power grid and supplying power to the lamp, controlling dimming of the lamp according to the data;
c) transmitting, by the dimming switch, the manipulation of the dimming switch to the lighting controller through a power grid so that the lighting controller generates dimming control data;
d) a microcomputer unit is connected to the electric power grid is additionally connected, and the added microcomputer unit is set to a lighting controller, the dimming of the lighting lamp connected to the microcomputer unit added by the a) and b) is controlled. Expandable lighting control system with no control line.

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