KR101161079B1 - Wireless lighting control system using power control priority - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless lighting control system using a power control-priority technique. A node lighting system 100 including a plurality of first to nth node lighting apparatuses 100-1 to 100-n to reset lighting reference values for power saving; Wirelessly receiving power consumption from each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n, and outputting a power control value for resetting the lighting reference value to the plurality of first to nth node lighting. A gateway 200 for wireless transmission to each of the devices 100-1 to 100-n; And a power control value preset for power saving through the gateway 200 according to power consumption of each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n through the gateway 200. It may include a lighting power control server 300 to transmit to each of the plurality of first to n-th node lighting apparatus (100-1 ~ 100-n).

Description

Wireless lighting control system using power control-priority technique {WIRELESS LIGHTING CONTROL SYSTEM USING POWER CONTROL PRIORITY}

The present invention relates to a wireless lighting control system using a power control-priority technique that can be applied to a lighting management system, and in particular, sets a priority for power control according to power consumption of each of a plurality of node lighting apparatuses. Wireless lighting control system using a power-consumption-priority technique to control the lighting of the plurality of first to n-th node lighting apparatuses according to the ranking, thereby enabling efficient energy management by lowering the power of the node lighting apparatus with high power consumption. It is about.

As LED lighting is known to have 20-30% energy saving effect than fluorescent lamps, interest in LED lighting is gradually increasing.

Recently, the LED light includes a color temperature adjustment and a brightness adjustment function, and when used for indoor lighting, it can create an atmosphere according to the user's taste.

By the way, conventional LED lighting with color temperature adjustment and brightness control is more energy-saving than fluorescent lights, but efficient management and control of energy is required in places where large power consumption is inevitable in high spaces, Due to the lack of management and control techniques, there is a problem that efficient management and control of the LED lighting is not possible.

An object of the present invention is to solve the above-described problems of the prior art, the present invention is to set the priority for power control according to the power consumption of each of the plurality of first to n-th node lighting apparatus, this priority By controlling the lighting of a plurality of node lighting apparatus according to the order, it provides a wireless lighting control system using a power consumption power-priority technique that enables efficient energy management by lowering the power of the node lighting apparatus with high power consumption.

The first technical aspect of the present invention for solving the above problems of the present invention is to control the driving based on the illumination reference value and the detection current, to wirelessly transmit power consumption based on the detection current, and to wirelessly control the power control value. A node illumination system comprising a plurality of first through n-th node illumination devices that receive and reset illumination reference values for power saving; A gateway for wirelessly receiving power consumption from each of the plurality of first to n-th node lighting devices and wirelessly transmitting a power control value for resetting the lighting reference value to each of the plurality of first to n-th node lighting devices; And an illumination for transmitting a predetermined power control value to each of the plurality of first to n-th node lighting apparatuses through the gateway to save power according to the power consumption of each of the plurality of first to n-th node lighting apparatuses through the gateway. A wireless lighting control system using a power control-priority technique including a power control server is proposed.

The lighting power control server weights the power consumption of each of the plurality of first to n-th node lighting apparatuses through the gateway, gives a power control priority according to the weight size, and gives the power control priority. The power control value preset for power saving according to the rank may be transmitted to each of the plurality of first to n th node lighting apparatuses through the gateway.

The lighting power control server, the communication unit for communicating with the gateway in accordance with a preset communication protocol; A weight is assigned according to the power consumption of each of the plurality of first to n-th node lighting apparatuses through the communication unit, a power control priority is given according to the weight size, and power saving is performed according to the power control priority. A power control unit transmitting a set power control value to each of the plurality of first to nth node lighting apparatuses through the communication unit; A memory for storing power consumption of each of the plurality of first to nth node lighting apparatuses for history management in a predetermined period unit; And a display unit for outputting a power consumption amount of each of the plurality of first to nth node lighting apparatuses to a screen.

Each of the plurality of first to n-th node lighting devices includes a lighting control device and a lighting lamp, and the lighting control device may include: a wireless communication unit performing wireless communication with the gateway according to a preset wireless communication protocol; The driving is controlled based on an illumination reference value of the lamp and a detection current, wirelessly transmitting power consumption based on the detection current through the wireless communication unit, and an illumination reference value for power saving according to the power control value received through the wireless communication unit. Lighting control unit for resetting; A driving unit for driving the lamp under the control of the lighting controller; And a detector for detecting a current flowing through the lamp and providing the lamp to the lighting controller.

The wireless communication unit includes ZigBee communication according to the IEEE 802.15.4 standard, and includes a header area including address information for identifying each of the plurality of first to nth node lighting apparatuses, and data including power consumption. And a transmission signal including a payload region and a check region for transmission error check.

The communication unit may include a header area including address information for identifying each of the plurality of first to nth node lighting devices, a payload area including power control data for resetting an illumination reference value, and a check area for transmission error check. Characterized by generating a transmission signal comprising a.

According to the present invention, by setting the priority for power control according to the power consumption of each of the plurality of first to n-th node lighting apparatus, and controlling the lighting of the plurality of node lighting apparatus according to this priority, power consumption is reduced It has the effect of enabling efficient energy management by lowering the power of high node lighting devices.

1 is a block diagram of a wireless lighting control system in accordance with the present invention.
2 is a block diagram of each of the first to nth node devices of the present invention;
3 is a view showing a power consumption history management of the present invention.
4 is an operation flowchart of the lighting power control server of the present invention.

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

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

1 is a block diagram of a wireless lighting control system according to the present invention.

Referring to FIG. 1, the wireless lighting control system according to the present invention controls driving based on an illumination reference value and a detection current, wirelessly transmits power consumption based on the detection current, and wirelessly receives a power control value to save power. A node lighting system 100 including a plurality of first to n-th node lighting devices 100-1 to 100-n for resetting the lighting reference value; and the plurality of first to n-th node lighting devices 100-n. Wirelessly receiving power consumption from each of 1 to 100-n, and wirelessly transmitting a power control value for resetting the lighting reference value to each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n. According to the gateway 200 and the power consumption of each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n through the gateway 200, a power control value preset for power saving. A plurality of first internals through the gateway 200 The n may include a lighting power control server 300 to transmit to each node illumination unit (100-1 ~ 100-n).

The lighting power control server 300 assigns weights according to the power consumption of each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n through the gateway 200, and this weight. Priority is given to power control according to the size, and a plurality of first to n-th node lighting apparatuses 100-1 to 100 through the gateway 200 with a preset power control value for power saving according to the power control priority. -n) can be made to transmit to each.

The lighting power control server 300 may include a communication unit 310 communicating with the gateway 200 according to a preset communication protocol, and the plurality of first to n-th node lighting apparatuses through the communication unit 310 ( 100-1 to 100-n) weights according to each power consumption amount, gives power control priority according to the weighting amount, and sets the power control value preset for power saving according to the power control priority. A power control unit 320 transmitting to each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n through a 310, and the plurality of first to n-th node lighting apparatuses 100-n. 1 to 100-n each of the memory 330 for storing history of power consumption for each predetermined period of time, and each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n. The display unit 340 may output a power consumption amount to the screen.

2 is a block diagram of each of the first to nth node devices of the present invention.

Referring to FIG. 2, each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n includes a lighting control device 110 and a lighting lamp 120.

In this case, the lighting control device 110 is based on a wireless communication unit 111 for performing wireless communication with the gateway 200 according to a preset wireless communication protocol, and based on an illumination reference value and a detection current of the lamp 120. Lighting to control driving, wirelessly transmit power consumption based on the detected current through the wireless communication unit 111, and reset an illumination reference value for power saving according to the power control value received through the wireless communication unit 111. The controller 112, the driver 113 driving the lamp 120 under the control of the lamp controller 112, and the current flowing through the lamp 120 are detected and provided to the lamp controller 112. The detector 114 may be included.

The wireless communication unit 111 includes address information for identifying each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n by applying Zigbee communication according to the IEEE 802.15.4 standard. And a transmission signal including a header area, a payload area including data including power consumption amount, and a check area for transmission error check.

The communication unit 310 includes a header area including address information for identifying each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n, and power control data for resetting an illumination reference value. The transmission signal may be configured to include a payload region and a check region for transmission error check.

3 is a view showing the power consumption history management of the present invention. 3 shows an example of the history from January to December for the power consumption of each of the first to nth node lighting apparatuses.

4 is an operation flowchart of the lighting power control server of the present invention. In FIG. 4, S100 is a process in which the lighting power control server 300 of the present invention receives power consumption from each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n.

S200 is a process in which the lighting power control server 300 compares the power consumption of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n and assigns a weight according to the power consumption.

S300 is a process in which the lighting power control server 300 assigns a power control priority according to the weight value.

S400 is a process in which the lighting power control server 300 controls the power of each of the plurality of first to n-th node lighting apparatuses according to a predetermined power control priority.

S500 is a process in which the lighting power control server 300 determines whether the termination of the lighting power control server 300 of the present invention is selected by the user.

Hereinafter, the operation and effects of the present invention will be described with reference to the accompanying drawings.

1 to 4, a wireless lighting control system according to the present invention will be described. First, the wireless lighting control system according to the present invention shown in FIG. 1 includes a node lighting system 100, a gateway 200, and lighting power control. Server 300 may be included.

The node lighting system 100 includes a plurality of first to n-th node lighting devices 100-1 to 100-n, and the plurality of first to n-th node lighting devices 100-1 to 100-n. Each can control driving based on an illumination reference value and a detection current, and wirelessly transmit power consumption based on the detection current.

The gateway 200 may wirelessly receive power consumption from each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n and transmit the wireless power to the lighting power control server 300.

The lighting power control server 300 controls power preset for power saving according to power consumption of each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n through the gateway 200. A value may be transmitted to each of the plurality of first to n th node lighting apparatuses 100-1 to 100-n through the gateway 200.

At this time, the gateway 200, in order to reset the illumination reference value, the power control value from the illumination power control server 300 to the plurality of first to n-th node lighting apparatus (100-1 ~ 100-n) ) Can be wirelessly transmitted to each.

Accordingly, each of the plurality of first to n-th node lighting devices 100-1 to 100-n of the node lighting system 100 is controlled from the lighting power control server 300 through the gateway 200. By wirelessly receiving a power control value of, the lighting reference value may be reset for power saving according to the power control value.

Thereafter, each of the plurality of first to n-th node lighting devices 100-1 to 100-n of the node lighting system 100 may control driving based on the reset illumination reference value and the detected current. .

The lighting power control server 300 assigns weights according to the power consumption of each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n through the gateway 200, and this weight. Priority is given to power control according to the size, and a plurality of first to n-th node lighting apparatuses 100-1 to 100 through the gateway 200 with a preset power control value for power saving according to the power control priority. -n) can be sent to each

For example, the lighting power control server 300 may include a communication unit 310, a power control unit 320, a memory 330, and a display unit 340.

In this case, the communication unit 310 may communicate with the gateway 200 according to a communication protocol set in advance.

For example, the communication unit 310 may include a header area including address information for identifying each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n, and power for resetting lighting reference values. A transmission signal including a payload region including control data and a check region for transmission error check may be generated.

The power control unit 320 weights the power consumption amount of each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n through the communication unit 310, and assigns a weight to the weight size. Power control priority is assigned according to the plurality of first to n-th node lighting apparatuses 100-1 to 100-through the communication unit 310. n) can transmit to each.

The memory 330 may store power consumption of each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n for a history management in a predetermined period.

For example, as shown in FIG. 3, in the lighting power control server 300 of the present invention, when the power control unit 320 uses the memory 330, each of the first to nth node lighting apparatuses is consumed. You can manage the history of electricity from January to December.

In addition, the display unit 340 may output the power consumption of each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n on a screen. Accordingly, the user can easily check the history of power consumption of each of the first to nth node lighting apparatuses 100-1 to 100-n.

The plurality of first to nth node lighting apparatuses 100-1 to 100-n will be described with reference to FIG. 2.

Referring to FIG. 2, each of the plurality of first to n-th node lighting apparatuses 100-1 to 100-n includes a lighting control device 110 and a lighting lamp 120.

In this case, as shown in FIG. 2, the lighting control device 110 may include a wireless communication unit 110, an lighting control unit 112, a driving unit 113, and a detection unit 114.

First, the wireless communication unit 111 of the lighting control device 110 performs wireless communication with the gateway 200 according to a wireless communication protocol set in advance.

For example, the wireless communication unit 111 applies ZigBee communication according to the IEEE 802.15.4 standard to identify each of the plurality of first to nth node lighting apparatuses 100-1 to 100-n. A transmission signal is generated including a header area including address information, a payload area including data including power consumption amount, and a check area for transmission error check.

The illumination control unit 112 may control driving based on an illumination reference value and a detection current of the illumination lamp 120. In addition, the lighting controller 112 may perform wireless transmission through the wireless communication unit 111 with the power consumption amount based on the detection current. For example, the lighting control unit 112 may adjust the power consumption using a method such as adjusting the color temperature of the lamp 120 or adjusting the current flowing through the lamp in a PWM manner.

The driving unit 113 may drive the lamp 120 under the control of the lighting controller 112, whereby the lamp 120 will be turned on.

In addition, the detector 114 may detect a driving current flowing through the lamp 120 and provide a detection value to the lamp controller 112.

Accordingly. The lighting control unit 112 wirelessly transmits the power consumption based on the detected current through the wireless communication unit 111, and then adjusts an illumination reference value for power saving according to the power control value received through the wireless communication unit 111. You can reset it.

Referring to Figure 4, the operation of the lighting power control server of the present invention will be described, first, the lighting power control server 300 of the present invention is a plurality of first to n-th node lighting apparatus (100-1 ~ 100-) n) Receive power consumption from each (S100).

Next, the lighting power control server 300 compares the power consumption of the plurality of first to n-th node lighting apparatus (100-1 ~ 100-n) and gives a weight according to the power consumption (S200).

Next, the lighting power control server 300 assigns the power control priority according to the weight value given in advance (S300).

Next, the lighting power control server 300 controls the power of each of the plurality of first to n-th node lighting apparatus according to the power control priority given to the control at step S400.

Then, the lighting power control server 300 determines whether the end of the lighting power control server 300 of the present invention is selected by the user (S500).

In the present invention as described above, the power reference value is set lower as the power consumption amount is larger, so that the power consumption of the node lighting device with high power consumption is managed first. Finally, the overall power consumption can be reduced.

In the present invention as described above, by setting the priority for power control according to the power consumption of each of the plurality of node lighting apparatus, and controlling the lighting of the plurality of node lighting apparatus according to this priority, the node with high power consumption Efficient energy management is possible by lowering the power of the lighting device.

100: node lighting system
100-1 to 100-n: first to nth node lighting apparatus
110; Lighting control device 111: wireless communication unit
112: lighting control unit 113: driving unit
114: detection unit 120: lighting
200: gateway 300: lighting power control server
310: communication unit 320: power control unit
330: Memory 340: Display

Claims (6)

A plurality of first to n-th node lighting devices that control driving based on an illumination reference value and a detection current, wirelessly transmit power consumption based on the detection current, and wirelessly receive a power control value to reset the illumination reference value for power saving. Node lighting system comprising a;
A gateway for wirelessly receiving power consumption from each of the plurality of first to n-th node lighting devices and wirelessly transmitting a power control value for resetting the lighting reference value to each of the plurality of first to n-th node lighting devices; And
Illumination power that transmits a predetermined power control value to each of the plurality of first to nth node lighting apparatuses through the gateway to save power according to the power consumption of each of the plurality of first to nth node lighting apparatuses through the gateway. Control server
Including,
The lighting power control server,
A memory for storing power consumption of each of the plurality of first to nth node lighting apparatuses for history management in a predetermined period unit; And
A display unit for outputting the power consumption of each of the plurality of first to n-th node lighting apparatus on the screen
Wireless lighting control system using a power control-priority technique comprising a. The method of claim 1, wherein the lighting power control server,
A weight is assigned according to the power consumption of each of the plurality of first to n-th node lighting apparatuses through the gateway, a power control priority is given according to the weight size, and power saving is performed according to the power control priority. Transmitting a set power control value to each of a plurality of first to nth node lighting apparatuses through the gateway;
Wireless lighting control system using a power control-priority technique, characterized in that. According to claim 2, The lighting power control server,
A communication unit for communicating with the gateway according to a preset communication protocol; And
A weight is assigned according to the power consumption of each of the plurality of first to n-th node lighting apparatuses through the communication unit, a power control priority is given according to the weight size, and power saving is performed according to the power control priority. A power control unit for transmitting a set power control value to each of the plurality of first to nth node lighting apparatuses through the communication unit;
Wireless lighting control system using a power control-priority technique further comprising. The apparatus of claim 3, wherein each of the plurality of first to nth node lighting apparatuses comprises:
Including a lighting control device and a lighting lamp,
The lighting control device,
A wireless communication unit performing wireless communication with the gateway according to a preset wireless communication protocol;
The driving is controlled based on an illumination reference value of the lamp and a detection current, wirelessly transmitting the power consumption based on the detection current through the wireless communication unit, and an illumination reference value for power saving according to the power control value received through the wireless communication unit. Lighting control unit for resetting;
A driving unit for driving the lamp under the control of the lighting controller; And
A detector for detecting a current flowing through the lamp and providing the lamp to the lighting controller
Wireless lighting control system using a power control-priority technique, characterized in that it comprises a. The method of claim 4, wherein the wireless communication unit,
Applying a Zigbee communication according to the IEEE 802.15.4 standard, a header area including address information for identifying each of the plurality of first to nth node lighting devices, a payload area including data including power consumption, and Generating a transmission signal comprising a check area for transmission error checking
Wireless lighting control system using a power control-priority technique, characterized in that. The method of claim 4, wherein the communication unit,
Transmission including a header area including address information for identifying each of the plurality of first to nth node lighting devices, a payload area including power control data for resetting lighting reference values, and a check area for transmission error check. Generating a signal
Wireless lighting control system using a power control-priority technique, characterized in that.

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