KR20140096742A - LED lamp module remote control system with U-eco - Google Patents

Abstract

The present invention relates to an eco-friendly ubiquitous converged LED remote control system and, more particularly, to an LED remote control system which can perform remote control through an integration server, smoothly control storage or use of power generated by collection devices of energy such as wind power and sunlight through the outside as well as power line communications, and control brightness of an LED by a sensor in response to a surrounding environment. According to the present invention, an LED lighting lamp used in U-ECO is an independent driving type which can preferentially save power consumption and has a long-range communications function by applying city sensor circuits of a device that can minimize various types of power consumption by power savings through more efficient management, store power produced during the daytime such as sunlight through a collection device by reversely operating an external power metering equipment, and reduce power consumption through an automatic dimming control function according to a surrounding environment of the LED lighting lamp for efficient use of power when the use of the power is needed, and of a device that can minimize power consumption due to an electric leakage and check dot failure of the LED lighting lamp at a long distance. Therefore, the LED lighting lamp which is suitable for streetlights or security lamps in the park, external lamps, etc can efficiently perform remote control of maintenance such as an electric leakage, emergency lighting, or power-saving dimming even at a long distance.

Description

{LED lamp module remote control system with U-ECO fused with U-ECO}

The present invention relates to an eco-friendly ubiquitous fusion type LED remote control system, and more particularly, to a remote control system capable of remote control through an integrated server and capable of generating electric power to an energy collecting device such as wind power, And to control LED ON / OFF or brightness corresponding to the surrounding environment by a sensor.

Streetlights are lighting fixtures installed along the roads to ensure traffic safety at night. Street lights are used according to the installation location, such as highways, main roads in city areas, commercial district roads, and residential district roads. As the light source of the streetlight, a high pressure mercury lamp, a fluorescent lamp, a thrium lamp, an ordinary bulb, and a light emitting diode (LED) are used. Particularly, the LED light source is being used in street light more and more because it has low power consumption, strong vibration and long life.

In general, LED lighting lamps are used in various forms such as street lamps. However, they are not capable of managing power saving or dimming technology in a stand-alone manner by one-sided forced integration management by individual management methods such as spotlight management or division management In addition, it is not only impossible to take any action due to the short circuit due to the management of individual points in the event of an emergency, but also it is difficult to control the dimming control for each LED dot constituting the LED lamp at a long distance and the defect of each LED dot, Which can not produce the light of various kinds.

In addition, the streetlight is turned off during the day, and lights up when the surroundings become dark around the sunset. The street light is usually set on the timer built in the street light and turn on / off time, and the lights will be turned on or off automatically at that time. Alternatively, a plurality of street lamps may be networked to control the lighting of a plurality of street lamps in one place. However, there is a problem in that the method of turning off the streetlight can not control the lighting of the streetlight only according to the situation of the place where the streetlight is installed. In particular, it is impossible to control the lighting time of the street light, the illuminance and the color of the street light depending on the weather condition of the street light such as a foggy day or a rainy day.

In recent years, researches on solar energy and wind power, which are clean energy, are actively under way due to problems of depletion of natural resources and environmental and safety concerns for thermal power and nuclear power generation. Especially, photovoltaic power generation is widely used in residential power generation, street lamps, unmanned lanterns and clock towers that are separated from a long distance, while receiving considerable attention from the point of view of infinite and clean energy. In the daytime, the electric energy converted from the module for the photovoltaic power generation is continuously charged into the battery, and at night, the photovoltaic light operates using the charged electricity.

However, in the past, there has been no way to check the value of electric energy converted by the module for solar power generation when there is no means for expressing the value of the electric energy to the outside and the module fails. Particularly, since the solar power generation module is installed on a high place where the height of a person is not reached, power generation efficiency is lowered due to dust or the like, and the manager can not find the cause of the failure quickly. In addition, when the conventional solar light illumination lamp is dispersed in various regions, it is difficult to properly manage the solar light illumination due to a small number of manpower and to maintain it because it can not confirm the electrical problems caused by each solar light illumination.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an LED lighting lamp having a U-ECO function so as to be independently controllable so as to enable remote control through an integrated server, Control technology that enables energy collecting devices such as wind or sunlight to produce electricity and control stocking or use smoothly from the outside, individual dimming technology of lighting lamps through power line communication, remote communication control of brightness or blocking due to short circuit Or LED lamp failure monitoring function, it is able to cope with user's operation method more efficiently, and it is an independent independent driving type LED lighting lamp equipped with emotional lighting function and power saving mode function. It is equipped with automatic dimming function as well as smart terminal and other Zigbee communication Communication control automatically or manually control each LED lighting lamp It aims at maintaining the best conditions.

In order to achieve the above object, an eco-friendly ubiquitous fusion type LED remote control system according to an embodiment of the present invention controls the brightness or ON / OFF of the LED 10 in accordance with the surrounding environment of the LED 10, A lighting device (100) for measuring the power consumption of the LED (10); And detects immersion information I2 which is located at the lower end of the illumination device 100 and can confirm movement information I1 of a person moving close to the illumination device 100 or immersion information, A monitoring device 200 for transmitting the monitoring signal to the monitoring device 200; The power is supplied to an energy collecting apparatus 310 that collects energy of at least one of solar, wind, or geothermal energy to produce electric power, and the electric power is transmitted to the outside during the daytime, (300) for providing to the lighting device (100) an output signal of the LED (10) corresponding to the motion information (I1) or the flood information (I2) to the lighting device (100); And an integration server 400 that receives the motion information I1 or the immersion information I2 from the individual control device 300 and remotely controls and monitors the individual control device 300 through a power line communication (PLC) ; And

In this case, the monitoring apparatus 200 senses the motion information I1 of a neighboring person through at least one of a proximity sensor, a thermal sensor, and a vibration sensor, and outputs the sensed motion information I1 as a sensor control signal An environment monitoring unit 210 for delivering the data to the transmitting unit 230; An electric shock preventer unit 220 for sensing the immersion information I2 and transmitting the immersion information I2 to the sensor control signal transfer unit 230; And the sensor control unit 300 receives the motion information I1 or the immersion information I2 from the surrounding environment monitoring unit 210 or the electric shock prevention unit 220, And a signal transmission unit 230.

The individual control apparatus 300 further includes a data storage unit 321 for receiving and storing the motion information I1 or the immersion information I2 from the sensor control signal transfer unit 230, An LED control signal for turning on / off the LED 10 corresponding to the motion information I1 or the flood information I2 by receiving the motion information I1 or the flood information I2 from the controller 311 S1 to the illumination device 100 and transmits the motion information I1 or the immersion information I2 to the integration server 400 via the PLC, And a main control unit (322) for controlling power supplied to the collecting apparatus (310) to the outside or receiving the power transmitted to the outside at the time of night to provide the power to the lighting apparatus (100) 320).

According to the eco-friendly ubiquitous convergence type LED remote control system of the present invention, the LED lighting lamp used in U-ECO minimizes various types of power consumption due to power saving in more efficient management, In order to use the power efficiently, it is necessary to control the power consumption by the automatic dimming control function according to the surrounding environment of the LED lighting lamp in order to reserve the produced power by turning the external power meter backward through the dust collector, It minimizes power consumption due to short circuit and minimizes power consumption. It also adopts a city sensor circuit which can check the dot defect of LED lighting device from a distance, so that power consumption is saved first, and independent driving type with remote communication function It is suitable for park street lights or security lights and other outdoor lights. It can efficiently control the remote maintenance such as emergency lighting or dimming power saving.

1 is a system configuration diagram illustrating a configuration of an LED remote control system according to an embodiment of the present invention.
FIG. 2 is a control flowchart for flooding the LED remote control system, which is an embodiment of the present invention.

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention in any way, and the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise. There are a plurality of embodiments of the present invention, and redundant explanations are omitted in the description.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

FIG. 1 is a system configuration diagram illustrating a configuration of an LED remote control system according to an embodiment of the present invention, and FIG. 2 is a control flowchart for immersion of an LED remote control system, which is an embodiment of the present invention.

1, an environment-friendly ubiquitous fusion type LED remote control system according to an embodiment of the present invention controls the brightness or ON / OFF of the LED 10 in accordance with the surrounding environment of the LED 10 A lighting device (100) for measuring the power consumption of the LED (10); And detects the immersion information I2 which is located at the lower end of the illumination device 100 and can confirm motion information I1 or immersion information of the motion of the person approaching the illumination device 100, A monitoring device 200 for transmitting the monitoring signal to the monitoring device 200; The power is supplied to an energy collecting apparatus 310 that collects energy of at least one of solar, wind, or geothermal energy to produce electric power, and the electric power is transmitted to the outside during the daytime, (300) for providing to the lighting device (100) an output signal of the LED (10) corresponding to the motion information (I1) or the flood information (I2) to the lighting device (100); And an integration server 400 that receives the motion information I1 or the immersion information I2 from the individual control device 300 and remotely controls and monitors the individual control device 300 through a power line communication (PLC) ; ≪ / RTI >

The present invention minimizes various types of power consumption due to power saving in more efficient management and reserves the generated power by turning an external power meter through a dust collector in a reverse direction, In order to use the power efficiently, it is necessary to reduce the power consumption by the automatic dimming control function according to the surrounding environment of the LED 10 and to minimize the power consumption due to the short circuit, By applying the CT sensor circuit of the device which can be confirmed from a long distance, the power consumption can be saved in the first place.

The lighting apparatus 100 can control the brightness (dimming technique) or ON / OFF of the LED 10 in accordance with the surrounding environment of the LED 10 and measure the power consumption of the LED 10.

Dimming technology adjusts the illuminance and color of the LED to create a pleasant environment to eliminate glare and save energy.

The brightness (dimming technique) of the LED 10, which is an embodiment of the present invention, is automatically adjusted according to the surrounding environment by a control sensor (not shown) included in the lighting device Or can be adjusted in batch by the control server 400.

In addition, the brightness (dimming technique) of the LED 10 can be adjusted to different illuminance and color depending on the position where the LED 10 is installed. For example, in the case of an alleyway, the color of the LED 10 may be adjusted to be white because the location is darker than the place where the place is opened. If the fog is habitually well generated, the color of the LED 10 may be yellow. When the LED 10 is installed in a place where the vehicle traffic is high or where the population flow is high, the illuminance can be made stronger than other areas. Also, in the case of the LED 10 installed in a place such as a park where a better atmosphere is required than simply to illuminate the darkness, the illuminance may be lowered or adjusted to a yellowish color as compared with other areas. The illuminance and the hue of the LED 10 are adjusted according to the characteristics of the position where the LED 10 is installed and the weather condition so that the efficiency of the LED 10 and the efficiency of power usage can be increased.

In addition, the power consumption measurement can measure the current by applying the CT sensor circuit to the illumination device 100, and measure the power consumption by multiplying the measured current with the voltage output through its own A / D converter (not shown) .

The monitoring device 200 is located at the lower end of the illumination device 100 and senses motion information I1 of the motion of a person approaching the LED 10 or immersion information I2 about immersion, 300).

In one embodiment, the monitoring device 200 may be located in a predetermined area between the LED 10 and the ground, and may use a proximity sensor, a thermal sensor, a vibration sensor, or the like to move a person in a predetermined area of the sensor Can be detected.

The height of the apparatus for sensing the flooding of the monitoring apparatus 200 is located at the lower portion of the wiring line of the power supply line and the LED 10 to detect whether the flooding phenomenon occurs. When flooding occurs, the flooding information is output, It is possible to prevent an electric shock accident caused by flooding of the wiring portion.

In this case, the monitoring apparatus 200 can sense rainfall when rainwater touches the detection plate on a rainy day, or detect rainwater if the rainwater is not detected, but detects water leakage due to flooding.

The individual control device 300 receives power from the energy collecting device 310 that collects at least one of solar heat, wind power, and geothermal energy to generate electric power, transmits electric power during the daytime to the outside, or electric power To the illumination device 100 and generate an output signal of the LED 10 corresponding to the motion information I1 or flood information I2 and provide it to the illumination device 100. [

In one embodiment, the individual control device 300 may include a conventional solar power generation device for converting solar energy into electric energy by generating an electromotive force by applying the photovoltaic effect, which is one of the photoelectric effects, The power generation apparatus may be constituted by using a compound semiconductor such as silicon crystal or potassium nonoxide, or amorphous silicon as a main material, and the converted electric energy may be stored in the energy collecting apparatus 310.

The integrated server 400 may receive the motion information I1 or flood information I2 from the individual control apparatus 300 and remotely control the individual control apparatus 300 through the power line communication PLC.

In one embodiment, the integration server 400 may utilize a web page or the like to receive the LED 10 management information. In another embodiment, the integration server 400 may be a portable terminal such as a mobile phone, a notebook, or the like.

In this case, the LED 10 management information input to the integration server 400 may be motion information I1 and flood information I2.

The communication means can communicate with the outside by wire or wireless. For this purpose, the communication means may be a wired system such as optical communication or power line communication, or a wireless system using a mobile communication network, and may use TCP / IP as a network protocol.

Referring to FIG. 1, the monitoring device 200 may be configured to detect movement information I1 of a neighboring person through at least one of a proximity sensor, a thermal sensor, and a vibration sensor, And transmits the sensed motion information I1 to the sensor control signal transducer 230. The ambient environment monitoring unit 210 senses the sensed motion information I1, An electric shock preventer unit 220 for sensing the immersion information I2 and transmitting the immersion information I2 to the sensor control signal transfer unit 230; And the sensor control signal transmission unit for transmitting the motion information I1 or the immersion information I2 provided from the monitoring unit 210 or the electric shock preventer unit 220 to the individual control device 300, (230). ≪ / RTI >

The surrounding environment monitoring device 210 senses the motion information I1 of a nearby person through at least one of a proximity sensor, a thermal sensor, and a vibration sensor, and transmits the sensed motion information I1 to the sensor control signal transmitter 230).

In one embodiment, the ambient environment monitoring device 210 detects motion of a person in a predetermined area using a proximity sensor, a thermal sensor, a vibration sensor, or the like to generate motion information I1 for motion, The motion information I1 may be provided to the sensor control signal transfer unit 230 serving as the motion sensor.

The electric shock preventer unit 220 senses the immersion information I2 described above and generates immersion information I2 and transmits the immersion information I2 to the sensor control signal transfer unit 230 serving as a board for transmitting information.

Referring to FIGS. 1 and 2, a method of controlling the LED 10 during flooding includes: setting an immersion monitoring control state value in advance by an administrator; Determining whether the LED 10 is flooded or not, displaying the LED 10 by flashing or displaying it normally, sounding an emergency alarm when flooded, transmitting flooding to the integrated server, And turning off the input power when the immersion time is exceeded.

The sensor control signal transmitting unit 230 may transmit the motion information I1 or the flood information I2 received from the surrounding environment monitoring unit 210 or the electric shock preventer unit 220 to the individual control apparatus 300 have.

1, the individual control apparatus 300 receives the motion information I1 or the immersion information I2 from the sensor control signal transfer unit 230, The motion information I1 or the flood information I2 is received from the data storage unit 311 and stored in the data storage unit 311. The motion information I1 or the flood information I2 And supplies the motion information I1 or the immersion information I2 to the power line communication apparatus 100 through the power line communication system 100. [ PLC to the integrated server 400. The electric power supplied to the energy collecting device 310 during the daytime is transmitted to the outside or the electric power transmitted to the outside is applied at night to the illumination device 100 And a main control unit 322 for controlling the power supply And a control unit 320.

The power switching control unit 320 includes a data storage unit 321 for receiving and storing the motion information I1 or the flood information I2 from the sensor control signal transfer unit 230 and the motion information I2 from the data storage unit 321. [ And generates the LED control signal S1 for turning on / off the LED 10 corresponding to the motion information I1 or flood information I2 by receiving the flood information I1 or flood information I2, And transmits the motion information I1 or flood information I2 to the integration server 400 through the power line communication PLC and transmits the power supplied to the daytime energy collecting apparatus 310 to the outside, And a main controller 322 that can receive the power transmitted to the outside and provide it to the lighting apparatus 100.

In the present invention, the LED 10 can be turned on / off by setting the sunrise and sunset time by the manager, and it is possible to individually control each streetlight.

In addition, the main control unit 322 stores the generated power by turning the external power meter in the reverse direction through the dust collecting apparatus to the energy source produced in the old time such as the sunlight, and receives the external power at night connect.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: LED 100: Lighting device
200: Monitoring device 210: Ambient environment monitoring device
220: Electric shock prevention device part 230: Sensor control signal transmission part
300: Individual control device 310: Energy collecting device
320: Power switching control unit 321: Data storage unit
322: main control unit 400: integration server

Claims (3)

An illumination device (100) for controlling the brightness or ON / OFF of the LED (10) in response to the ambient environment of the LED (10) and measuring the power consumption of the LED (10);
And detects motion information I1 of movement of a person in the vicinity of the illumination device 100 or immersion information I2 about the immersion status of the illumination device 100 to the individual control device 300 A monitoring device (200) for transmitting data;
The power is supplied from an energy collecting device 310 that collects energy of at least one of solar, wind, or geothermal energy to produce electric power. The electric power is transmitted to the outside during the daytime, (300) for providing to the device (100) and for generating and outputting an output signal of the LED (10) corresponding to the motion information (I1) or the flood information (I2) to the illumination device (100); And
And an integration server 400 that receives the motion information I1 or flood information I2 from the individual control device 300 and remotely controls the individual control device 300 through a power line communication PLC Environment-friendly ubiquitous fusion type LED remote control system. The method according to claim 1,
The monitoring device (200)
(230) that senses the motion information (I1) of a person who is approaching through at least one of a proximity sensor, a thermal sensor or a vibration sensor, and transmits the sensed motion information (I1) A monitoring device unit 210;
An electric shock preventer unit 220 for sensing the immersion information I2 and transmitting the immersion information I2 to the sensor control signal transfer unit 230; And
The sensor control signal is received from the surrounding environment monitoring device 210 or the electric shock preventer device 220 and transmitted to the individual control device 300, And a transmission unit (230) connected to the LED unit. The method according to claim 1,
The individual control device (300)
A data storage unit 321 for receiving and storing the motion information I1 or the immersion information I2 from the sensor control signal transfer unit 230;
The controller 10 receives the motion information I1 or the immersion information I2 from the data storage unit 321 and turns on / off the LED 10 corresponding to the motion information I1 or the immersion information I2 Generates and supplies an LED control signal S1 to the illumination device 100,
Transmits the motion information I1 or the immersion information I2 to the integration server 400 through a PLC,
And a main control unit 322 for controlling the power supplied to the energy collecting apparatus 310 during the daytime to be transmitted to the outside or the power supplied to the outside in the nighttime to be supplied to the lighting apparatus 100 And a power switching control unit (320).

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