KR101959713B1 - Converter apparatus for auto controlling LED light in IoT and Apparatus for light the same - Google Patents

Abstract

The present invention provides an LED lighting automatic control converter apparatus which is applied to the internet of things (IOT) and a lighting apparatus using the same. According to an embodiment of the present invention, the LED lighting automatic control converter apparatus comprises: a main converter board converting external AC current into DC current; a sensor/communication integrated board in which a sensor board with an illuminance sensor and a communication board for interfacing with a user controller are mounted, in which a micro controller unit (MCU), converting a control signal inputted from the sensor board and the communication board into a main converter board control signal, is mounted, which has a function of selecting and releasing an automatic illuminance control mode and the function of selecting and releasing a manual illuminance control mode by using the sensor board in accordance with the control signal coming from the user controller and which has a time interlocking processor to receive an on/off timer signal and an off reservation signal instructed by the user controller, thereby converting the on/off timer signal and the off reservation signal into the main converter board control signal; and a sub power board supplying power to the sensor/communication integrated board.

Description

TECHNICAL FIELD The present invention relates to an automatic light control device for an LED lighting device and an illumination device using the same,

The present invention relates to an LED lighting automatic control converter device applied to IoT, and more particularly, to an LED lighting automatic control converter device capable of automatically controlling LED lighting and a lighting device using the same.

Recently, LED (Light Emitting Diode) devices have been spotlighted as light sources for various lighting devices. The LED element has advantages such as less heat generation, less power consumption, longer lifetime, and impact resistance than a conventional illumination light source. In addition, since mercury or a discharge gas is not used in the manufacturing process like a fluorescent lamp, there is an advantage that it does not cause environmental pollution.

If the LED device provides adequate power supply and heat dissipation means, it can maintain the lighting state without burning even if used for over 100,000 hours. Since all light sources decrease in light output over time, people do not feel up to 80% of initial brightness. Therefore, when evaluated based on this, the life expectancy of LED devices is expected to be about 40,000 ~ 50,000 hours. Therefore, compared to 1,500 hours of incandescent lamps and 10,000 hours of fluorescent lamps, the LED load is a long-life light source with a long lifetime.

FIG. 1 is a diagram illustrating a conventional LED lighting apparatus, which includes an LED load composed of a converter for receiving an external AC voltage and converting it to a DC voltage, and an LED element driven by a DC voltage output from the converter.

However, the conventional converter provided in the LED lighting apparatus only provides a function of converting an external AC current into a DC current and outputting it, and can not perform illumination on / off, illumination brightness control (illumination dimming control) There is a falling problem.

Particularly, the lighting apparatuses that perform both the automatic control using the sensor and the manual control using the communication have not been available to date.

Korean Patent No. 10-0883345

It is an object of the present invention to provide an LED lighting automatic control converter means applying IOT including manual control using automatic control and communication using LED illumination.

Embodiments of the present invention include a main converter board for converting an external AC current into a DC current; A sensor board equipped with an illuminance sensor or a sensor and a communication board for interfacing with the user controller and an MCU for converting the control signals inputted from the sensor board and the communication board into a main converter board control signal And a manual illumination control mode selection and release function using a sensor board in accordance with a control signal received from a user controller, and a built-in time-linked processor to control the ON / OFF timer signal And a sensor / communication integrated board for receiving the off reservation signal and converting it into a main converter board control signal; And a sub power supply board for supplying power to the sensor / communication integrated board.

The sensor / communication integrated board has a form of an external board built in or separate from the main converter board. When the sensor / communication integrated board is implemented as an external board, A driving power cable for transmitting driving power from the power supply board to the sensor / communication integrated board; And a control signal cable for transmitting a power on / off control signal and a brightness control signal from the sensor / communication integrated board to the sub power supply board.

The sensing value sensed from the sensor in the sensor / communication integrated board is converted into a sensing control signal through the MCU located on the sensor / communication integrated board, and is supplied as an LED load from the main converter board so that the brightness of the LED load is changed according to the sensing control signal. DC current can be controlled.

The MCU of the sensor / communication integrated board may control the DC current supplied to the LED load from the main converter board by selecting any one of the brightness control signal and the sensing control signal according to the day of the week.

The MCU of the sensor / communication integrated board includes a position information of the LED lighting automatic control converter, and the position information of the LED lighting automatic control converter Accordingly, a control signal selected from the brightness control signal and the sensing control signal may be selected to control the DC current supplied to the LED load from the main converter board.

When selecting the illuminance sensor through the user controller in the sensor / communication integrated board with the illuminance sensor and communication board combined, the automatic illuminance adjustment function is selected. When the manual controller is selected through the user controller, the automatic illuminance adjustment by the illuminance sensor is canceled. And a monitoring signal is generated in the main converter so that the ON / OFF and the amount of output of the main converter can be monitored by the user controller, and is transmitted to the user controller through the sensor / communication integrated board .

In the sensor / communication integrated board with the illuminance sensor and communication board, when the user selects the illuminance sensor through the controller, it is turned on / off or dimmed by the illuminance sensor. When manually selected through the user controller, A monitoring signal is generated from the main converter so that the operation can be canceled and manually controlled, and the ON / OFF of the main converter and the amount of the output can be monitored by the user controller, and transmitted to the user controller through the sensor / communication integration board. Applied LED lighting automatic control converter device.

And can be implemented as a lighting device to which the above-described LED lighting automatic control converter device is applied.

According to the embodiment of the present invention, a user controller or a sensor (illumination or sensing) can be integrated (converged) to automatically control the LED lighting in the converter, thereby enhancing user convenience.

1 is a block diagram showing the configuration of a conventional converter device.
FIG. 2 is a block diagram illustrating the configuration of an LED lighting automatic control converter device applied to IoT equipped with a sensor / communication integrated board according to an embodiment of the present invention; FIG.
FIG. 3 illustrates a cable configuration example in which a sensor / communication integrated board is implemented as an external board according to an embodiment of the present invention. FIG.
FIGS. 4, 5, 6 and 7 are block diagrams of a conventional dimming control or on / off converter device. FIG.
FIG. 8 is a diagram illustrating a state in which control is performed according to day of the week according to an embodiment of the present invention. FIG.
FIG. 9 is a view illustrating control according to positional information according to an embodiment of the present invention. FIG.
10 shows an example of a lighting device to which an LED lighting automatic control converter device is applied.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 2 is a block diagram of an LED lighting automatic control converter device applied to IoT equipped with a sensor / communication integrated board according to an embodiment of the present invention. FIG. 3 is a block diagram of a sensor / It is an example of a cable configuration when implemented as an external board.

2, the LED lighting automatic control converter device applied to the IoT equipped with the sensor / communication integrated board 300 according to the embodiment of the present invention includes a main converter board 100, a sensor / communication integrated board 300, and a sub power supply board 200.

The main converter board 100 converts an external AC current into a DC current. For example, an external 220V AC (alternating current) commercial voltage can be converted to a 48V DC (direct current) voltage, or an external 220V AC (alternating current) commercial voltage can be converted to a 36V DC (direct current) voltage. For reference, the main converter board 100 may include a smoothing circuit, a constant current output DC-DC converter, and a flicker controller as shown in FIG.

The sensor / communication integrated board 300 is a board that incorporates a sensor board, a communication board, and an MCU that controls the communication board.

First, an example in which the sensor / communication integrated board 300 communicates will be described.

Off control signal and a brightness control signal from an external user controller and relays the power on / off control signal and the brightness control signal to the sub power supply board 200. The sub power supply board 200 may have a constant current output DC-DC conversion function as shown in Fig.

Here, the power on / off control signal refers to a control signal for turning on or off the LED load, and the brightness control signal refers to a signal for controlling the brightness of the LED load (dimming control).

The sensor / communication integrated board 300 is equipped with a sensor board on which the illuminance sensor is mounted and a communication board for interfacing with the user controller. The sensor / communication integrated board 300 receives a control signal input from the sensor board and the communication board as a main converter board control signal And has a function of selecting and releasing the automatic illuminance control mode using the sensor board according to the control signal received from the user controller and selecting and releasing the manual illuminance control mode. In addition, the processor incorporates a time interlock processor to receive an on / off timer signal and an off reservation signal instructed by the user controller and convert it into a main converter board control signal.

In detail, the MCU controls the DC current supplied from the main converter board 100 to the LED load so as to turn on / off the light emission of the LED load in accordance with the power on / off control signal of the user controller. For example, when the power on / off control signal is switched on, the LED load is maintained by maintaining the DC voltage delivered to the LED load. Conversely, when the power on / off control signal is switched off, The DC voltage transmitted to the load is cut off to turn off the LED load.

Also, the MCU controls the DC current supplied from the main converter board 100 to the LED load so that the LED load is emitted differently according to the brightness control signal of the user controller.

For example, when the brightness control signal has a brightness level of 1, it controls the light emission of the LED load in one level, and when the brightness control signal is brightness level 2, brightness of the LED load is controlled in two levels, When the control signal is brighter than the second step Brightness in the third step, the light emission of the LED load is controlled in three steps.

For reference, the brightness control (dimming control) may be performed by PWM dimming control, and may be performed with 25 to 100% or 0 to 100% dimming control.

The external user controller may be a smart phone, a desktop PC, a tablet PC, a slate PC, a notebook computer, a digital broadcasting terminal, a personal digital assistant Assistants, and Portable Multimedia Player (PMP). Of course, it is needless to say that the terminal to which the present invention is applicable is not limited to the above-described type, but may include both terminals capable of communicating with external devices.

The communication method between the external user controller and the sensor / communication integrated board 300 may be wired communication or wireless communication. The communication method may be Ethernet, universal serial bus, IEEE 1394, serial communication a wired communication method such as serial communication and parallel communication may be used and wireless communication such as Infrared Radiation, Bluetooth, Home Radio Frequency and Wireless LAN Method may be used.

The sub power supply board 200 provides power to the sensor / communication integrated board.

First, an example in which the sensor / communication integrated board 300 is sensed will be described.

The sensor / communication integrated board 300 receives the sensing value sensed from the illuminance sensor inside the integrated board, generates a sensing control signal according to the sensed value through the MCU, and transmits the sensing control signal to the main converter board 100. Here, the brightness control signal refers to a signal for dimming control of the LED load.

For example, if the sensing value is a first sensing value, a sensing control signal requesting control of the LED load to the first brightness is generated. If the sensing value is a second sensing value, the LED load is controlled to the second brightness And generates a sensing control signal requesting control of the LED load to the third brightness when the sensing value is the third sensing value.

The MCU of the sensor / communication integrated board 300 controls the DC current supplied from the main converter board 100 to the LED load so that the brightness of the LED load varies according to the sensing control signal.

That is, the sensing value sensed from the sensor in the sensor / communication integrated board is converted into a sensing control signal through the MCU, and the DC current supplied to the LED load from the main converter board is controlled so that the brightness of the LED load is changed according to the sensing control signal do.

For example, when a sensing control signal requesting control to the first brightness is received, the LED load is controlled to emit light in one step, and when a sensing control signal requesting control to the second brightness is received, Light emission is controlled in two steps.

On the other hand, the sensor / communication integrated board 300 may be embedded with the main converter board 100. 3, the sensor / communication integrated board 300 may have a separate external board form different from the main converter board 100. [

When the sensor / communication integrated board 300 is implemented as an external board, a driving power cable 11 for transmitting driving power from the sub power supply board 200 to the sensor / communication integrated board 300, And a control signal cable 12 for transmitting a power on / off control signal and a brightness control signal from the communication integrated board 300 to the sub power supply board 200. [

Therefore, the power on / off control signal and the brightness control signal can be transmitted to the sub power supply board 200 through the control signal cable.

As a result, the present invention can be implemented in various ways as shown in FIGS. 2, 3, 8, and 9.

That is, in the present invention, the automatic illuminance adjustment function is selected when the illuminance sensor is selected through the user controller in the sensor / communication integrated board in which the illuminance sensor and the communication board are combined, and when the manual illuminance is manually selected through the user controller, Control is canceled, the control is manually performed, a monitoring signal is generated in the main converter so that the user controller can monitor the ON / OFF of the main converter and the amount of output of the main converter and transmit the monitoring signal to the user controller through the sensor / communication integration board.

Further, in the present invention, when a sensing sensor through a user controller is selected by a sensor / communication integrated board in which a sensing sensor and a communication board are combined, it is turned on / off or dimmed by a sensing sensor, The converter is deactivated by the sensor, manually controlled, the monitoring signal is generated by the main converter so that the ON / OFF of the main converter and the amount of output can be monitored by the user controller and transmitted to the user controller through the sensor / communication integration board . Also, in the present invention, the detection sensor may be at least one sensor selected from a microwave sensor, a passive infrared ray (PIR) sensor, and an infrared ray sensor.

In the case where the sensor / communication integrated board 300 is provided with a communication and a sensor as in the embodiment of the present invention, a brightness control signal from a user controller (user smartphone or the like) and a sensing control signal sensed through a sensor You can have conflicting problems.

For example, when the first brightness control signal from the user controller is received as a brightness control signal while the second brightness control signal is received as a sensing control signal through the sensor, different brightness control signals are obtained.

In order to solve this problem, the MCU of the sensor / communication integrated board 300 according to the present invention selects one of a brightness control signal and a sensing control signal and provides the selected control signal as an LED load from the main converter board 100. This will be described below with reference to FIGS. 8 and 9. FIG.

FIG. 8 is a diagram illustrating control according to an embodiment of the present invention, and FIG. 9 is a diagram illustrating control according to position information according to an embodiment of the present invention.

The selection criterion can be the day of the week, location information.

The MCU of the sensor / communication integrated board 300 selects any one of the brightness control signal and the sensing control signal according to the day of the week and outputs the selected control signal to the main converter board 100 to the LED load.

For example, on Monday, the brightness control signal from the user controller takes precedence, and on Tuesday, the sensing control signal from the sensor is set as priority and the first brightness control signal from the user controller is set as the brightness control signal While a second brightness control signal from the sensor is received as a sensing control signal.

In this case, as shown in Fig. 8 (a), the LED load brightness control according to the first brightness control signal from the user controller is performed on Monday, and as shown in Fig. 8 (b) 2 Performs LED load brightness control according to the brightness control signal. Therefore, different brightness control can be performed for each day of the week.

On the other hand, in the case where the position information selection criterion conforms to the second method, the LED lighting automatic control converter device applied to the IoT includes a GPS calculation module for acquiring position information using a GPS satellite.

The MCU of the sensor / communication integrated board 300 selects one of a brightness control signal and a sensing control signal in accordance with the position information of the LED lighting automatic control converter and supplies it to the LED load from the main converter board 100 To control the DC current.

For example, assume that the brightness control signal from the user controller has priority in the first region, the priority is set as the sensing control signal from the sensor in the second region, and the first brightness control signal from the user controller Suppose that a brightness control signal is received while a second brightness control signal from the sensor is received as a sensing control signal.

In this case, as shown in FIG. 9 (a), when the LED lighting automatic control converter device applied to the IoT is disposed in the first area, the LED load brightness control is performed according to the first brightness control signal from the user controller, As shown in FIG. 9 (b), when the LED lighting automatic control converter device applied to the IoT is disposed in the second area, the LED load brightness control is performed according to the second brightness control signal from the sensor.

Especially, when the LED lighting automatic control converter device applied to IoT is mounted on a movable vehicle, it is possible to control different LED load brightness according to the place location.

The present invention is also applicable to a lighting apparatus to which the LED lighting automatic control converter device is applied. Therefore, as shown in FIG. 10, the lighting device to which the LED lighting automatic control converter device is applied can be easily controlled through the user controller (user smartphone).

The embodiments of the present invention described above are selected and presented in order to facilitate the understanding of those skilled in the art from a variety of possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

100: main converter board
200: Sub power supply board
300: Sensor / communication integration board

Claims (8)

A main converter board including a filter rectifying and smoothing circuit portion, a constant current output DC-DC converting portion, and a flicker controlling portion, for converting an external AC current into a DC current;
An MCU for converting a control signal inputted from the sensor board and the communication board into a main converter board control signal is mounted on the sensor board and a communication board for interfacing with the user controller, And a manual illumination control mode selecting and releasing function through the communication board, wherein the time control processor is incorporated in the user controller, A sensor / communication integrated board for receiving the on / off timer signal and the off reservation signal and converting the on / off timer signal and the off reservation signal into the main converter board control signal;
A sub power supply board providing power to the sensor / communication integrated board, the sub power supply board having a constant current output DC-DC conversion function; And
A GPS calculation module for acquiring position information using a GPS satellite,
The sensor / communication integrated board has a form of an external board built in or separated from the main converter board,
When the sensor / communication integrated board is implemented as an external board,
A driving power cable for transmitting driving power from the sub power supply board to the sensor / communication integrated board; And
And a control signal cable for transmitting a power on / off control signal and a brightness control signal from the sensor / communication integrated board to the sub power supply board,
The sensing value sensed from the sensor in the sensor / communication integrated board is converted into a sensing control signal through the MCU located on the sensor / communication integrated board, and is supplied as an LED load from the main converter board so that the brightness of the LED load is changed according to the sensing control signal. DC current,
The MCU of the sensor /
The main control unit selects either one of the brightness control signal from the user controller and the sensing control signal sensed through the sensor according to the position information of the day-of-week or the LED lighting automatic control converter, A DC current is provided to prevent a collision between the brightness control signal and the sensing control signal,
When selecting the illuminance sensor through the user controller in the sensor / communication integrated board with the illuminance sensor and communication board combined, the automatic illuminance adjustment function is selected. When the manual controller is selected through the user controller, the automatic illuminance adjustment by the illuminance sensor is canceled. And generates a monitoring signal from the main converter so that the ON / OFF of the main converter and the amount of the output of the main converter can be monitored by the user controller, and transmits the monitoring signal to the user controller through the sensor / communication integrated board,
When the sensor is selected by the user controller on the sensor / communication integrated board, which is combined with the sensor and communication board, it is turned on / off or dimmed by the sensor. When the user manually selects through the controller, A monitoring signal is generated from the main converter so that the operation can be canceled and manually controlled, and the ON / OFF of the main converter and the amount of the output can be monitored by the user controller, and transmitted to the user controller through the sensor / communication integration board. Applied LED lighting automatic control converter device.
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