KR20170091369A - Window type smart lighting control device with visual alarm function and method thereof - Google Patents

Abstract

According to an aspect of the present invention, provided is a smart lighting control method with a visual alarm function which comprises: a step of connecting and executing a lighting control application in a mobile terminal, and activating a lighting control input screen; a step of inputting a lighting control condition on the activated lighting control input screen; a step of inputting an alarm control condition on the activated lighting control input screen; a step of transmitting lighting control data set by the input lighting control condition and the alarm control condition to a smart lighting controller; a step of receiving the lighting control data by the smart lighting controller; a step of generating, by the smart lighting controller, a lighting control value corresponding to the control condition in accordance with a signal of the received lighting control data; and a light emitting diode (LED) control value output step of outputting a control signal for an LED module to allow the smart lighting controller to output the lighting as the lighting control value. The LED module is a window type LED module manufactured in a square frame shape in which a plurality of red, green, and blue (RGB) LED elements are arranged in a square shape so as to be easily mounted on a window frame.

Description

TECHNICAL FIELD [0001] The present invention relates to a window type smart lighting control device and method,

FIELD OF THE INVENTION [0002] The present invention relates to a window-type smart lighting control apparatus and method having a visual alarm function.

The LED light source device is able to realize a desired level of illumination and color temperature through PWM control, and has excellent energy efficiency compared to other artificial light sources, and thus, it is widely regarded as a light source for various illumination systems.

Also, according to the arrangement of the LED light source devices, it is possible to design an illumination system of various sizes and various light amounts from small size to large size. Accordingly, LED lighting systems such as a lighting system considering human sensibility, an illumination system as an interior props, and a lighting system for night scenery are being developed, such as changing the illuminance and color temperature according to the user's needs, or creating an atmosphere.

The circadian rhythm of a person is controlled around 24 hours with individual differences, and this cycle is known to be determined by the effects of light, hormones, food intake, and habits. In particular, it is known that light contributes greatly to the reconditioning of the biological cycle, which means that it can artificially control the biological cycle by illuminating the light appropriate to the human visual system over time.

Light not only brightens the darkness, but also affects the human rhythm and emotion. For mankind who have been exposed to natural light for a long time, natural light not only plays a major role in controlling the rhythm of the biorhythm, but also influences human sensitivity and perception.

Generally, the light can be supplied through the windows of the room and the living body cycle can be controlled. However, recently, as the small residential space without windows increases, it is sometimes difficult to obtain information on the outside light environment in the room. As a result, it is difficult to control the human body cycle through natural light. In such a case, since there is no artificial light as an indoor light source, it is difficult to control the light environment of the room according to the life cycle if the user does not control the indoor light by himself or herself. It can have negative effects on the life cycle and cause depression to people.

BACKGROUND ART [0002] The background art relating to the present invention is disclosed in Korean Patent Laid-Open Publication No. 2003-0043868A (automatic sunrise simulated illumination method and illumination apparatus).

Korean Unexamined Patent Application Publication No. 2003-0043868 A (automatic sunrise simulated illumination method and illumination device)

The object of the present invention is to provide an artificial lighting system having a window shape with a color temperature and a light quantity similar to natural light in a room or underground space where there is no door or window, It is an object of the present invention to provide a window-type smart lighting control apparatus and method having a visual alarm function.

According to an aspect of the present invention, there is provided a method of controlling a light emitting device, comprising: connecting a light control application in a portable terminal to activate a light control input screen; Inputting an illumination control condition on the activated illumination control input screen; Inputting an alarm control condition on the activated illumination control input screen; Transmitting illumination control data set by the input illumination control condition and alarm control condition to a smart lighting controller; Receiving the lighting control data from the smart lighting controller; Generating an illumination control value according to the control condition in accordance with the received illumination control data signal in the smart lighting controller; And an LED control value output step of outputting a control signal to the LED module so that the smart lighting controller outputs a light with the illumination control value; Wherein the LED module is a window-shaped LED module having a square shape in which a plurality of RGB LED elements are arranged in a square shape so as to be easily mounted on a window-shaped window frame, / RTI >

The illumination control condition may be a user preference mode, an average simulation illumination mode, or a real-time simulation illumination.

In the user preference mode, the user selects preferred weather conditions such as sunny, cloudy, rain, and snow, and illuminance status information distinguished by time information for each weather and silver, very silver, And illumination data and color temperature data corresponding to input conditions are generated and set from the illumination database according to the information input by the user.

Also, in the average simulation lighting mode, illumination and color temperature data are received at a predetermined time interval from the average simulation database in which the external window illumination state accumulated for each past period is input, and the illumination and color temperature data similar to the time- Type LED module to output the output state of the window-type LED module.

In the real-time simulated illumination mode, the real-time simulated illumination data may be transmitted in communication with an illumination data providing server separately installed by the illumination control application. The real-time simulated illumination data may be received from the illumination data providing server at predetermined time intervals, Illuminance and color temperature data are generated and set.

Also, the predetermined time interval is 15 minutes.

In addition, the alarm control condition is selected according to the user's desired alarm time and alarm type, and the alarm type is selected as a soft alarm state that the user can smoothly recognize and an emergency alarm state in which the user can promptly recognize .

Also, the illuminance data set to change from a low illuminance to a high illuminance at a constant interval to output a sunrise state is output in the silent alarm state, and the color temperature is gradually changed from 3000K to 6000K.

Also, in the emergency alarm state, the low color temperature and the high color temperature are alternately outputted at the maximum illuminance of the LED module.

According to another aspect of the present invention, the smart lighting controller for performing the smart lighting control method according to the first aspect of the present invention comprises: a short range communication unit for receiving a lighting control data signal from the portable terminal; An input unit for inputting illumination control conditions from the user; An illumination control signal generator for generating an illumination control value that satisfies an illumination condition according to the received illumination control data signal and a control condition input from the input unit; And a lighting control unit for generating a control signal to the LED module so that the lighting is controlled by the lighting control value. A smart light control device for a window type having a visual alarm function is provided.

According to an embodiment of the present invention, indoor lighting can be implemented in a manner similar to an outdoor natural lighting environment in accordance with natural light changes according to an external environment of each direction.

According to the embodiment of the present invention, it is possible to similarly produce a wall-window type lighting apparatus similar to an external lighting state exposed to natural light in a windowless room.

According to an embodiment of the present invention, the illumination state of the wall is directed to simulate the sunrise state, and the effect of the vapor phase induction can be achieved by a soft lighting environment corresponding to the biorhythm.

FIG. 1 is a block diagram of a smart type window lighting control apparatus having a visual alarm function according to an embodiment of the present invention. Referring to FIG.
2 is a diagram illustrating a process of a lighting control method for implementing smart lighting control in a portable terminal.
3 is a diagram illustrating a process of a lighting control method for implementing smart lighting control in a smart lighting controller 10 according to an embodiment of the present invention.
4 is a diagram illustrating an example of a color temperature change of a window according to an embodiment of the present invention.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

It is to be understood that the specific embodiments are not intended to limit the invention to the specific embodiments, but are to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

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

FIG. 1 is a block diagram of a smart type window lighting control apparatus having a visual alarm function according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, a smart-type window lighting control device having a visual alarm function according to an embodiment of the present invention includes a portable terminal 20, a smart lighting controller 10, and an LED module 50.

The portable terminal 20 is provided with a first input unit 24 for inputting a lighting control condition of a first short range communication unit 21 for transmitting lighting control data to the lighting controller 10, An included illumination control application section 25 is included.

In an embodiment of the present invention, the portable terminal 20 may be replaced with a smart phone, and the configurations of the portable terminal 20 may be embedded in a smart phone.

The smart lighting controller 10 includes a second short range communication unit 11 for receiving illumination control data from the first short range communication unit 21 of the portable terminal 20, a second input unit 12 for inputting lighting control conditions from the user, An illumination control signal generator 13 for generating an illumination control value that satisfies an illumination condition according to the received illumination control data and a control condition input from the second input unit 12, A light control unit 14 for controlling the LED module 50 so that the light is output by the LED module 50, and a power supply 15 for supplying power to the LED module.

The LED module 50 according to an embodiment of the present invention includes a long wavelength element in which RGB is complexly arranged and a window-type LED module 50 according to an embodiment of the present invention, in which a plurality of RGB LED elements are collectively mounted It can output up to 1500 Ix of illumination with a distance of 2m and it is configured to realize color temperature of 3000k ~ 8000K.

In an embodiment of the present invention, a window-type LED module 50 made in a quadrangle shape in which 24 x 24 RGB LED elements are arranged in a square is adopted so that it can be easily mounted on a window-shaped window frame installed on a wall of a building.

2 is a diagram illustrating a process of a lighting control method for realizing smart lighting control in the portable terminal 20. Referring to FIG.

Referring to FIG. 2, in step 101, a lighting control application is connected and activated to activate a lighting control input screen.

In step 111, an illumination control condition is input to the activated illumination control input screen.

The illumination condition according to an exemplary embodiment of the present invention may be selectively selected from any one of a user's preference mode, an average simulation lighting mode, and a real-time simulation lighting mode.

The user preference mode is a mode for the user to input a preferred state by viewing the input window and to control the windowed LED module 50 to a desired output state.

The average simulation lighting mode receives illuminance and color temperature data at a predetermined time interval from the average simulation database in which the hourly external window illumination state accumulated for each of the past periods is input, and outputs the output state of the window-type LED module 50 to the accumulated time- This is a mode for controlling the output to be similar to the external window lighting state.

The real-time simulation lighting mode is a mode for receiving the illuminance and color temperature data according to the lighting state of the external window and controlling the output state of the window-type LED module 50 to be outputted in real time similar to the current external environment.

The user's preference mode according to an embodiment of the present invention is a mode in which the user selects preferred weather (for example, weather conditions such as sunny, cloudy, rain, snow, and the like, (1 hour after sunrise, 1 hour after sunrise, 1 hour after sunset, noon, just before sunset) and illumination condition information (silver, very silver, bright, very bright).

When inputting of the user is completed in the preference condition of the user, illumination data and color temperature data matching the input condition are generated from the preference mode illumination database and set in the portable terminal.

The preference mode illumination database according to an embodiment of the present invention accumulates roughness and color temperature data accumulated in the past measured in an external window of a corresponding area.

For example, in the case of Seoul, the noon of the sunny condition shows an illuminance of 1500 lx, a color temperature of 5800 K, and an illuminance of 50 lx and a color temperature of 7000 K after a sunset on a cloudy day.

The portable terminal 20 according to an exemplary embodiment of the present invention may include a preference mode illumination database in which the illuminance and the color temperature according to the condition of each condition for the user's preference condition are stored.

Or preference lighting data may be accumulated and stored in a preference mode illumination database according to each condition in the separate illumination data providing server associated with the illumination control application, and when the illumination control application is executed, The associated lighting data providing server can provide preference mode illumination data according to each condition according to the preference input of the user.

The average simulation lighting mode is a mode in which illumination and color temperature data are received at predetermined time intervals from the average simulation database in which the time-dependent external window illumination state accumulated for each past period is inputted, and the time- ) To be output in a similar manner

When the user selects the above-described average simulation lighting mode, illumination data and color temperature data corresponding to the current time are transmitted and generated from the average simulation lighting database at predetermined time intervals.

In the average simulation mode illumination database according to an embodiment of the present invention, roughness and color temperature data set in the past according to the accumulated date measured in the external window of the corresponding area are accumulated.

The portable terminal 20 according to an exemplary embodiment of the present invention may include the average simulation lighting database.

Alternatively, the average simulation illumination data accumulated in the time window and the color temperature data measured by the external window of the corresponding area may be accumulated and stored in the average simulation illumination database of the separate illumination data providing server associated with the illumination control application, When the illumination control application is executed, the illumination data providing server associated with the illumination control application may provide average simulated illumination data set in a predetermined time period according to the input of the user.

In one embodiment of the present invention, illumination data and color temperature data set at intervals from the average simulation lighting database every 15 minutes are transmitted and generated.

In the real-time simulation lighting mode according to the embodiment of the present invention, the current time-specific illuminance and color temperature data measured in the external window of the corresponding area is generated and set.

In an embodiment of the present invention, the separate illumination data providing server associated with the illumination control application generates and outputs the current time-specific illumination and color temperature data measured at the external window of the corresponding area.

When the real-time simulation lighting mode is selected in the portable terminal 20, communication is established with the lighting data providing server, and according to the input condition selection of the user from the lighting data providing server associated with the lighting control application, Real-time simulation lighting data can be provided.

In one embodiment of the present invention, illumination data and color temperature data set for the current time are transmitted and generated from the illumination data providing server every 15 minutes.

When the illumination control condition is completed in step 111, an alarm control condition input step 121 is performed on the activated illumination control input screen.

The alarm control condition is the alarm time and alarm type desired by the user.

The alarm type can be selected as a soft alarm state that the user can recognize smoothly, and an emergency alarm state that the user can quickly recognize.

In the silent alarm state, the illuminance data set so as to change from the low illuminance to the high illuminance at a predetermined interval at the time set to simulate the sunrise state is output.

In addition, the color temperature at this time is output so as to gradually change from 3000K to 6000K as shown in Fig.

According to an embodiment of the present invention, the illumination state of the wall is directed to simulate the sunrise state, and the effect of the vapor phase induction can be achieved by a soft lighting environment corresponding to the biorhythm.

4 is a diagram illustrating an example of a color temperature change of a window according to an embodiment of the present invention.

4 shows a color temperature 51 of 3000 k, a color temperature 51 of 4000 k, a color temperature 51 of 5000 k, and a color temperature 51 of 6000 k, respectively, according to an embodiment of the present invention.

In the emergency alarm state, illumination data is output so that the low color temperature and the high color temperature are alternately outputted at the maximum illuminance.

In one embodiment of the present invention, the alarm lighting control data is output such that the color temperature of 3000K and the color temperature of 8000k are alternately outputted at the illuminance of 1500 lx.

When the alarm control condition input step 121 is completed, the illumination control data set in steps 111 and 121 is transmitted to the smart lighting controller 10 in step 131. [

3 is a diagram illustrating a process of a lighting control method for implementing smart lighting control in the smart lighting controller 10 according to an embodiment of the present invention.

The lighting control data signal is input from the portable terminal 20 or the lighting control data signal is input from the second input unit 12 in step 201. [

In step 211, a step of generating an illumination control value according to the control condition input according to the received or inputted illumination control data signal is performed.

Next, an LED control value output step of outputting a control signal to the LED module is performed so that the illumination is outputted as the illumination control value.

In step 231, the LED module 50 outputs light at the illuminance and color temperature set in the illumination control data signal according to the output LED control value.

According to one embodiment of the present invention, the window-type LED module 50 can be used as a substitute for windows for external environment and can be illuminated with a separate main lighting device on the ceiling.

.

According to an embodiment of the present invention, indoor mining can be implemented in a manner similar to an outdoor natural lighting lighting environment in accordance with a change in natural light according to an external environment.

According to the embodiment of the present invention, it is possible to similarly produce a wall-window type lighting apparatus similar to an external lighting state exposed to natural light in a windowless room.

According to an embodiment of the present invention, a wall space similar to a ground space is formed in a wall of an underground space without a window, so that the underground space can be realized as a light environment similar to a ground space.

10: Smart lighting controller
11: second short-
12: second input section
13: Lighting control signal generation unit
14:
15: Power supply unit
50: LED module

Claims (10)

A smart lighting control method in which a smart lighting control device of a window type having a visual alarm function considers a natural light environment,
Activating a light control input screen in the portable terminal to activate the light control input screen;
Inputting an illumination control condition on the activated illumination control input screen;
Inputting an alarm control condition on the activated illumination control input screen;
Transmitting a lighting control data signal set by the inputted lighting control condition and an alarm control condition to a smart lighting controller;
Receiving the illumination control data signal from the smart lighting controller;
Generating an illumination control value according to the illumination control condition in accordance with the received illumination control data signal in the smart illumination controller; And
An LED control value output step of outputting a control signal to the LED module so that the smart lighting controller outputs an illumination with the illumination control value; , ≪ / RTI &
Wherein the LED module is a window-type LED module formed in a square shape in which a plurality of RGB LED elements are arranged in a square shape so as to be easily mounted on a window-shaped window frame.
The method according to claim 1,
Characterized in that the illumination control condition selectively inputs any one of a user preference mode, an average simulation lighting mode, and a real-time simulation illumination.
3. The method of claim 2,
In the user preference mode
The user selects preferred weather conditions of sunny, cloudy, rain, and snow, inputting the illuminance status information distinguished by the time information for each weather and silver, very silver, bright, and very bright,
And illumination data and color temperature data matching the input condition are generated and set from the illumination database according to the information input by the user.
3. The method of claim 2,
In the mean simulated illumination mode,
The illumination and color temperature data are received at predetermined time intervals from the average simulation database in which the external window illumination state accumulated for each time period is inputted and the output state of the window type LED module A smart lighting control method having a visual alarm function for generating and setting illumination and color temperature
3. The method of claim 2,
In the real-time simulated illumination mode,
The illumination control server is connected to the illumination data providing server separately installed by the illumination control application. The illumination control server receives the real-time simulation illumination data from the illumination data providing server at predetermined time intervals, and generates illumination and color temperature data from the simulation illumination data A smart lighting control method having a visual alarm function
The method according to claim 4 or 5,
Wherein the predetermined time interval is 15 minutes. A smart lighting control method having a visual alarm function
The method according to claim 1,
The alarm control condition is selected by an alarm time and an alarm type desired by the user,
Wherein the alarm type is selected as a smooth alarm state that the user can smoothly recognize and an emergency alarm state in which the user can promptly recognize.
8. The method of claim 7,
Wherein the illuminance data is set such that the illuminance is changed from a low illuminance to a high illuminance at a predetermined interval so as to simulate a sunrise state in the silent alarm state and the color temperature is gradually changed from 3000K to 6000K Smart lighting control method
8. The method of claim 7,
Wherein the controller is configured to output a low color temperature and a high color temperature alternately at a maximum illuminance of the LED module in the emergency alarm state,
The smart lighting controller performing the smart lighting control method of claim 1,
A local communication unit receiving the illumination control data signal from the portable terminal;
An input unit for inputting illumination control conditions from the user;
An illumination control signal generator for generating an illumination control value that satisfies an illumination condition according to the received illumination control data signal and a control condition input from the input unit; And
A light control unit for generating a control signal to the LED module so that the light is output with the light control value; And a window-type smart lighting control device having a visual alarm function

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