KR101292123B1 - Smart lighting device with distribution data and lighting control system for using the same - Google Patents

Abstract

It is an object of the present invention to provide a smart lighting device having light distribution information for controlling optimal light control and light distribution through light distribution information stored in the lighting device, and an illumination control system using the same. To this end, the present invention provides a smart lighting device capable of controlling the color temperature or dimming of a light source, comprising: an illumination control unit configured to control color light or dimming of an LED so that the light output from the LED forms a predetermined light distribution; A memory for storing light distribution information controlled by the lighting control unit; And a plurality of LEDs outputting light under the control of the lighting controller. Therefore, the present invention has the advantage of implementing the optimal light control and light distribution through the light distribution information stored in the lighting device.

Description

SMART LIGHTING DEVICE WITH DISTRIBUTION DATA AND LIGHTING CONTROL SYSTEM FOR USING THE SAME}

The present invention relates to a smart lighting control having light distribution information, and more particularly, to a smart lighting device having light distribution information for controlling to achieve optimal lighting control and light distribution through light distribution information stored in a lighting device, and lighting control using the same. It's about the system.

As the economy develops, office buildings and residential buildings are gradually becoming larger and more functional, and various facilities such as air conditioning, sanitation, electric power, crime prevention, and disaster prevention are intricately combined.

Building Automation System (BAS), which is built to monitor and control these various facilities, includes Central Control Management System (CCMS), Direct Digital Controller (DDC) and Local Devices (Local Devices). It consists of

In operating the building automation system, it is highly reliable and very fast in order to share a lot of information necessary for the control and monitoring of various facilities and systems (air conditioning control, power control, lighting control, parking control, elevator, etc.). There is a demand for establishing a communication infrastructure.

On the other hand, the lighting control of the building automation system is mainly composed of the integrated control method grouped by floor or office, so that the illumination lamp located in the daytime with high illumination or the window where the light is much emitted is always constant regardless of the illumination value. There is a lot of problems wasted energy because it emits light.

In order to solve this problem, a smart lighting device that adjusts the brightness according to the ambient light has been proposed.

1 is a block diagram showing the configuration of a smart lighting device according to the prior art, the smart lighting device 10 shown in FIG. 1 is a switch 11 for the on / off input and the illumination sensor for detecting the ambient illumination ( 12) and a controller 13 for controlling the on / off and brightness of the LED 14 based on the input signal of the switch 11 and the illuminance information detected from the illuminance sensor 12.

That is, the controller 13 adjusts the brightness of the LED 14 through color temperature adjustment or dimming control of the LED 14 according to the illumination information detected by the illumination sensor 12.

However, color temperature or dimming control using illuminance information does not take into consideration the space or environment in which the lighting is installed, and there is a problem in that the lighting efficiency is significantly reduced.

In addition, since the control is performed irrespective of the light distribution pattern formed by the lighting device, the color temperature adjustment or the dimming control of the lighting is performed, and thus there is a problem in that optimal lighting efficiency is not provided.

In addition, the lighting apparatus according to the prior art has a problem that the light distribution effect and efficiency cannot be predicted in advance when controlling light distribution by the installed lighting apparatus.

In order to solve this problem, an object of the present invention is to provide a smart lighting device having a light distribution information for controlling to achieve the optimal light control and light distribution through the light distribution information stored in the lighting device and an illumination control system using the same.

In order to achieve the above object, the present invention provides a smart lighting device capable of controlling the color temperature or dimming of a light source, and performing a color temperature or dimming control of the LED to form a predetermined light distribution. Lighting control unit for controlling; A memory for storing light distribution information controlled by the lighting control unit, location information of the place where the lighting device is installed, and environment information; A plurality of LEDs outputting light under the control of the lighting controller; And a data communication unit configured to transmit and receive light distribution information, installation location information, and environmental information stored in the memory through a network, wherein the light distribution information is a distribution of light in which the lighting device forms light distribution when voltage and current are supplied. It is done.

In addition, the smart lighting device according to the present invention comprises an input unit for receiving installation location information and environment information from the administrator; And a display unit which displays information input from the input unit.

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In addition, the present invention is connected to the management server through a network, and provides light distribution information, installation location information and environmental information to the management server, the color temperature of the LED to emit light in accordance with the light distribution control information transmitted from the management server Or a plurality of smart lighting devices that perform dimming control to control the LED to form light distribution; The light distribution information, the installation location information and the environment information of the smart lighting device is received from the smart management unit to simulate the light distribution setting information input by the administrator to the light distribution of the smart lighting device or the entire smart lighting device installed in an arbitrary position, the simulation result A management server configured to output light distribution control information for controlling light distribution of each smart lighting device to the smart manager; And detecting light distribution information, installation location information, and environment information from the smart lighting device, and providing the light distribution control information to the management server, receiving light distribution control information from the management server, and providing the light distribution control information to the smart lighting device. At least one smart management unit for outputting the off control signal.

In addition, the management server according to the present invention includes an input unit for receiving light distribution setting information from the administrator; A data communication unit which receives light distribution information, installation location information, and environment information of the smart lighting device from the smart management unit, and transmits the light distribution control information to the smart management unit; Management to perform light distribution simulation by using light distribution information, installation location information and environment information of the smart lighting device received by the data communication unit, and light distribution setting information received by the input unit, and to generate light distribution control information according to the simulation result. Server control unit; A screen display for displaying the simulation result; And a simulation unit that simulates a light distribution pattern generated by the smart lighting device using the light distribution information, installation location information, environment information, and light distribution setting information, and provides the result to a management server controller. It is characterized by including.

In addition, the smart management unit according to the present invention comprises a switch for detecting the on / off signal of the smart lighting device; A first data communication unit for transmitting and receiving data with the management server; A second data communication unit transmitting and receiving data with the smart lighting device; A memory for storing schedule information for controlling operation of the smart lighting device; And transmitting and receiving data between the smart lighting device and the management server through the first and second data communication units, and controlling the operation of the smart lighting device according to the on / off signal of the switch and the schedule information stored in the memory. It characterized in that it comprises a smart control unit.

The present invention has the advantage of implementing the optimal light control and light distribution through the light distribution information stored in the lighting device.

In addition, the present invention has the advantage that the light distribution pattern or efficiency can be verified in advance through a simulator when the light distribution control using the same or different smart lighting device.

1 is a block diagram showing the configuration of a smart lighting device according to the prior art.
2 is a block diagram showing the configuration of a smart lighting device having light distribution information according to the present invention;
3 is an exemplary view illustrating light distribution pattern information of a smart lighting device having light distribution information according to FIG. 2;
Figure 4 is a block diagram showing the configuration of a lighting control system using a smart lighting device having light distribution information according to the present invention.
5 is a block diagram illustrating a configuration of a management server of a lighting control system using a smart lighting device having light distribution information according to FIG. 4.
6 is a block diagram illustrating a configuration of a smart management unit of a lighting control system using a smart lighting device having light distribution information according to FIG. 4.
7 is an exemplary view illustrating a light distribution pattern simulation process of a lighting control system using a smart lighting device having light distribution information according to FIG. 4.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a smart lighting device having light distribution information and a lighting control system using the same according to the present invention.

(Smart lighting device)

2 is a block diagram illustrating a configuration of a smart lighting device having light distribution information according to the present invention, and FIG. 3 is an exemplary view showing light distribution pattern information of the smart lighting device having light distribution information according to FIG. 2.

As shown in Figures 2 and 3, the smart lighting device 100 according to the present invention is a lighting device to form a predetermined light distribution through the color temperature or dimming control of the light source, the input unit 110, and the data The communication unit 120, the lighting control unit 130, the memory 140, the display unit 150, and the LED 160 are configured to be included.

The input unit 110 is configured to receive a place, coordinate information, unique ID information, etc. from the administrator is provided to the lighting control unit 130, and consists of a button switch, a micro switch.

That is, the input unit 110 may include, for example, environment information in which the smart lighting device 100 is installed, such as an office, a classroom, a hallway, a parking lot, and a living room, and coordinate information in which a location at the installed place is set using an arbitrary coordinate system. And, when a plurality of smart lighting device 100 is installed receives a unique ID information, etc. for identifying each smart lighting device (100).

The data communication unit 120 is connected to the smart lighting device 100 through a network (not shown) to transmit and receive data with an external management system, RS-232, RS-485, Zigbee (Zigbee), Bluetooth Send and receive data using wired or wireless communication including a.

The lighting control unit 130 is stored in the memory 140 when information such as an installation location and environment are input through the input unit 110, and light distribution information of the smart lighting device 100 input through the data communication unit 120. Is stored in the memory 140.

The light distribution information is information indicating a distribution of light distributed on a plane passing through the center of the LED 160 as a light source and a distribution of light distributed on a vertical plane passing through the vertical axis of the LED 160. The shape of the light distribution may be determined by the intensity of light, or the shape of the light distribution may be determined through any lens.

In addition, the lighting controller 130 performs dimming control to adjust the color temperature or the intensity of the light of the LED 160 which is the light source, so that the light output from the LED 160 forms a predetermined light distribution. do.

The memory 140 is configured to store light distribution information of light controlled by the lighting control unit 130. For example, when a maximum current is supplied, distribution information of light forming a light distribution and an arbitrary current may be supplied. In this case, distribution information of light forming the light distribution may be stored.

That is, as shown in FIG. 3 (a), a specific region formed when an arbitrary current value is supplied is distributed in the maximum region when a random current value is supplied as shown in FIG. The formed light distribution distribution, graph information, and the like are stored.

In addition, the memory 140 stores unique information of the lighting device, installed place information, location information in the installed space, power efficiency, operation time information, and the like.

The display unit 150 is configured to display an installation place, coordinate information, unique ID information, and the like inputted through the input unit 110 so that an administrator can check the display unit 150. The display unit 150 includes display means such as LED, seven segments, and LCD.

The LED 160 is a light source that outputs light whose light amount is adjusted according to the control of the lighting control unit, and includes a plurality of white LEDs having at least one color temperature of warm white or cool white.

(Light control system)

4 is a block diagram showing a configuration of a lighting control system using a smart lighting device having light distribution information according to the present invention, Figure 5 is a management server configuration of a lighting control system using a smart lighting device having light distribution information according to FIG. 6 is a block diagram illustrating a configuration of a smart management unit of a lighting control system using a smart lighting device having light distribution information according to FIG. 4, and FIG. 7 is a smart lighting device having light distribution information according to FIG. 4. An exemplary view showing a light distribution pattern simulation process of the lighting control system used.

4 to 6, the lighting control system according to the present invention is a lighting device 1 (100a), lighting device 2 (100b), lighting device 3 (100c), the management server 200, the smart management unit 1 300a, smart manager 2 300b, and smart manager 3 300c.

The lighting apparatuses 1 and 3 (100a, 100b, 100c) are installed at a predetermined spacing in any installation space to form a constant light distribution and to provide light.

In addition, the lighting devices 1 to 3 (100a, 100b, 100c) are connected to a network using wired or wireless communication including, for example, RS-232, RS-485, Zigbee, and Bluetooth. Connected to the smart management unit through the light distribution information stored in the lighting devices 1 to 3 (100a, 100b, 100c) and environmental information such as the installation space of each lighting device and location value (coordinate system information) information to the management server 200 .

In addition, the lighting apparatus 1 to 3 (100a, 100b, 100c) performs a dimming control to adjust the color temperature or light intensity of the LED as a light source according to the light distribution control information transmitted from the management server 200 to the LED Controls to form a constant light distribution.

The management server 200 is connected to the smart management unit 1 (300a), smart management unit 2 (300b), smart management unit 3 (300c) through a network, and transmitted from the smart management unit 1 to 3 (300a, 300b, 300c) The light distribution setting information, installation location information and environment information of each lighting device is provided to simulate light distribution setting information input by an administrator for the lighting device installed in an arbitrary position or the entire lighting device, and according to the simulation result, each smart lighting device Outputting the light distribution control information for controlling light distribution of the smart management unit 1 to 3 (300a, 300b, 300c), the input unit 210, the data communication unit 220, the management server control unit 230, the screen The display unit 240 and the simulation unit 250 are included.

The input unit 210 is configured to receive light distribution setting information for forming a light distribution desired by the manager by adjusting a pattern in which light is distributed in an arbitrary space from a manager, and is an input means such as a keyboard.

The data communication unit 220 allows data to be transmitted and received using the TCP / IP and the smart management unit 1 to 3 (300a, 300b, 300c) connected to the management server 200 via a network.

That is, through the data communication unit 220 receives light distribution information, installation location information and environment information of the lighting devices connected to each smart management unit from the smart management unit 1 to 3 (300a, 300b, 300c), to the management server 200 The generated light distribution control information is transmitted to the smart manager and the lighting devices.

The management server control unit 230 simulates in the simulation unit 250 using light distribution information, installation location information and environment information of the lighting devices received by the data communication unit 220 and light distribution setting information input by the input unit 210. In order to perform simulation operation through a program, and to perform dimming control to adjust color temperature or light intensity in any lighting device so that light distribution can be performed in the best lighting efficiency according to the simulation result. The light distribution control information for changing the light distribution is output to each smart management unit and the corresponding lighting device.

Control lighting devices for light distribution in the best possible lighting efficiency

The screen display unit 240 is a configuration for displaying the simulation result and is a display means such as a monitor.

The simulation unit 250 includes light distribution information, installation location information, environment information of the lighting devices 1 to 3 (100a, 100b, and 100c) connected to the smart managers 1 to 3 (300a, 300b, and 300c), respectively. Using the light distribution setting information, the entire light distribution pattern generated by the individual lighting devices or the lighting devices 1 to 3 is simulated, and the simulation result of the calculation is provided to the management server controller 230. .

As illustrated in FIG. 7, a plurality of lighting devices 1 to 3 (100a, 100b, 100c) are installed in an arbitrary environment (eg, a classroom), and the lighting devices 1 to 3 (100a, 100b, 100c) are smart management units. When installed in connection with the 300, the management server controller 230 is configured to distribute light so that a lighter light distribution is formed only in a predetermined area after receiving the light distribution information, the installation location information, the environment information of the installed place, etc. of each lighting device. When the information is input, the simulation is performed using the information.

Therefore, whether the light distribution of the lighting device 1 (100a) group having the coordinate system information (installation position information) of a certain area is formed in a wide range, and the remaining lighting apparatuses 2 and 3 having the coordinate system information (installation position information) of the other area. 100b and 100c) perform pre-verification through simulation whether light distribution is formed in a rather narrow range.

That is, the simulation unit 250 may verify in advance whether or not efficient light distribution can be achieved when controlling light distribution by each lighting apparatus using light distribution information.

The smart management unit 1 to 3 (300a, 300b, 300c) is connected to the management server 200 and the lighting device 1 to 3 (100a, 100b, 100c) through a network, the lighting device 1 to 3 (100a, 100b, Detects light distribution information, installation location information, and environmental information of each lighting device from 100c) and provides the light distribution control information provided from the management server 200 to the corresponding lighting device. And a switch 310, a first data communication unit 320, a second data communication unit 330, a memory 340, and a smart control unit 350.

The switch 310 detects the on / off of the connected lighting device 1 to 3 (100a, 100b, 100c) and outputs it to the smart control unit 350.

The first data communication unit 320 transmits and receives data such as light distribution information, installation location information, environmental information, light distribution control information, and the like of each lighting apparatus using the management server 200 connected through a network using TCP / IP.

The second data communication unit 330 uses each of the lighting devices 1 through 3 (100a, 100b, 100c) connected through a network and wired / wireless communication including RS-232, RS-485, Zigbee, and Bluetooth. Data such as light distribution information, installation position information and environment information of the device, and light distribution control information are transmitted and received.

The memory 340 stores the schedule information for controlling the operation of the lighting apparatus. The memory 340 stores scheduling information for turning on / off the lighting apparatuses 1 to 3 100a, 100b, and 100c when a predetermined time or condition is reached.

The smart control unit 250 distributes light, installation location information, and environmental information between the lighting devices 1 to 3 (100a, 100b, 100c) and the management server 200 through the first and second data communication units 320 and 330. And data transmission and reception such as light distribution control information.

In addition, the smart control unit 250 of the lighting device 1 to 3 (100a, 100b, 100c) according to the on / off signal that the administrator directly inputs through the switch 310 and the schedule information stored in the memory 340. Outputs a signal to control on / off operation.

Therefore, the lighting device can be controlled so that the light distribution can be made in the best lighting efficiency by using the light distribution information of each smart lighting device when the smart lighting device that can be dimmed to control color temperature or light intensity is actually driven. do.

In addition, when performing light distribution control by a heterogeneous smart lighting device, by confirming and simulating light distribution information of each lighting device in advance, it is possible to find an optimal light distribution pattern by the heterogeneous smart lighting device and improve lighting efficiency. do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

100: smart lighting device 100a: lighting device 1
100b: lighting device 2 100c: lighting device n
110: input unit 120: data communication unit
130: lighting control unit 140: memory
150: display unit 160: LED
200: management server 210: input unit
220: data communication unit 230: management server control unit
240: screen display unit 250: simulation unit
300, smart management 300a: smart management 1
300b: smart manager 2 300c: smart manager n
310: switch 320: second data communication unit
330: second data communication unit 340: memory
350: smart control unit 400: first light distribution pattern
410: second light distribution pattern

Claims (6)

An illumination control unit configured to perform color temperature or dimming control of the LED to control the light output from the LED to form a predetermined light distribution;
A memory for storing light distribution information controlled by the lighting control unit, location information of the place where the lighting device is installed, and environment information;
A plurality of LEDs outputting light under the control of the lighting controller; And
A data communication unit configured to transmit and receive light distribution information, installation location information, and environmental information stored in the memory through a network;
The light distribution information is a smart lighting device having light distribution information, characterized in that the distribution of light to form a light distribution when the lighting device is supplied with voltage and current. The method of claim 1,
The smart lighting device includes an input unit for receiving installation location information and environment information from the administrator; And
Smart display device having light distribution information, characterized in that it further comprises a display unit for displaying the information input from the input unit. delete Connected to the management server via a network, provides light distribution information, installation location information and environmental information to the management server, and performs color temperature or dimming control of the LED emitting light according to the light distribution control information transmitted from the management server. A plurality of smart lighting devices to control the LED to form light distribution;
The light distribution information, the installation location information and the environment information of the smart lighting device is received from the smart management unit to simulate the light distribution setting information input by the administrator to the light distribution of the smart lighting device or the entire smart lighting device installed in an arbitrary position, the simulation result A management server configured to output light distribution control information for controlling light distribution of each smart lighting device to the smart manager; And
Detect light distribution information, installation location information, and environmental information from the smart lighting device and provide it to the management server, receive light distribution control information from the management server, and provide it to the smart lighting device, and turn on / off the smart lighting device. Lighting control system including at least one smart management unit for outputting a control signal. The method of claim 4, wherein
The management server includes an input unit for receiving light distribution setting information from an administrator;
A data communication unit which receives light distribution information, installation location information, and environment information of the smart lighting device from the smart management unit, and transmits the light distribution control information to the smart management unit;
Management to perform light distribution simulation by using light distribution information, installation location information and environment information of the smart lighting device received by the data communication unit, and light distribution setting information received by the input unit, and to generate light distribution control information according to the simulation result. Server control unit;
A screen display for displaying the simulation result; And
And a simulation unit that simulates a light distribution pattern generated by the smart lighting device using the light distribution information, installation location information, environment information, and light distribution setting information, and provides the result to a management server controller. Lighting control system, characterized in that. The method of claim 4, wherein
The smart management unit includes a switch for detecting the on / off signal of the smart lighting device;
A first data communication unit for transmitting and receiving data with the management server;
A second data communication unit transmitting and receiving data with the smart lighting device;
A memory for storing schedule information for controlling operation of the smart lighting device; And
To perform data transmission and reception between the smart lighting device and the management server through the first and second data communication unit, and to control the operation of the smart lighting device according to the on / off signal of the switch and the schedule information stored in the memory. Lighting control system comprising a smart control unit.

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