KR20100131844A - Apparatus for controlling led lighting - Google Patents

Abstract

PURPOSE: An apparatus for controlling led lighting is provided to implement optimum illumination according to environmental conditions by switching the LED or displaying various colors. CONSTITUTION: An LED illumination module(120) provides three wavelength LED illumination by combining a red, a green, and a blue group LED. A sensing unit(130) generates an electric signal by detecting environmental conditions. A standard time receiving unit(150) receives a standard frequency signal to extract standard time. A control unit(100) divides power assigned an LED illumination module group and individual LED according to the standard time. A power division unit(110) divides power into the LED illumination module group and the individual LED according to the control of the control unit.

Description

LED lighting control device {APPARATUS FOR CONTROLLING LED LIGHTING}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for controlling light emitting diode (LED) lighting, and in particular, the present invention relates to LED lighting comprising at least an LED powered by a switching mode power supply (SMPS). The present invention relates to an LED lighting control device that can improve the efficiency and lifetime of LED lighting by controlling according to the change of season, season, temperature and illumination.

Recently, LED (Light Emitting Diode), which is emerging as one axis of low carbon green growth, is rapidly emerging as the next generation light source. The use of LEDs as energy-saving and eco-friendly light sources as the use of mobile phones, TVs, and general lighting has increased, in particular, the necessity of nurturing green industries to overcome the global economic crisis has raised the LED industry as a future growth engine. In particular, considering that 24% of Korea's total energy consumption is consumed by heating and cooling of buildings and lighting, it is necessary to equip its own power generation facilities and use LED lighting for the 'low-carbon, green growth' business.

LED is a kind of semiconductor that emits light when electricity is applied. Since it converts electrical energy directly into light, it is more efficient than existing incandescent or fluorescent lamps, so it consumes less power and emits light faster. Another advantage is that it has a long life and does not contain any harmful substances such as mercury or cadmium. LEDs are 10 times more efficient and 16 times longer than incandescent bulbs. This is the reason why LED is emerging as a new light source in the recent situation where energy security and environmental problems are serious.

Another feature of LEDs is that they can produce the desired light, depending on the type of compounds that make up the semiconductor. Applications include cell phone screens and keypads, LCD backlight units (BLUs), automotive headlights, large billboards, general and outdoor lighting, and medical lighting. It can be used for virtually any product that shines. In addition, LEDs enable small, thin and light designs.

The shortcomings of LEDs are the early stages of development, which means that they are 50 times more expensive than incandescent lamps and 7 times more expensive than compact fluorescent lights, and more heat is required to be applied to actual products. to be. However, despite these shortcomings, as the demand for eco-friendliness is increasing around the world, the application range of LED is gradually expanding.

LEDs have already been used as light sources for cell phone screens and keypads since the early 2000s, and most of the light sources used in mobile phones now use LEDs. The industry expects the LED industry to become a new growth industry as the LED industry, which began with LED for mobile phones, is spreading to notebooks and TVs and back to lighting products. According to the Korea Institute of Photonics and Technology, the global LED market for general lighting, which recorded $ 3.56 billion last year, is expected to grow to $ 20.5 billion in 2012 and $ 57 billion in 2018. As expected, the lighting LED market alone will grow beyond the current memory semiconductor in 10 years. Depending on how you respond, there may be new industries that will feed the future of the Korean economy. In addition, the market is expected to grow even further as LED applications are expanding.

In the lighting industry, LEDs are attracting attention because they have various advantages. LED lighting, which was used only for outdoor landscape lighting, is being expanded to include LED lighting and street lamps in public areas, interiors of houses, and facilities. LED lighting is more energy efficient than incandescent bulbs. In the case of incandescent bulbs, 95% of electrical energy is lost to infrared and heat, and only 5% is emitted as light, while LED lighting converts 15% to light. In addition, unlike conventional lighting that uses harmful substances such as mercury or discharge gas, LED lighting has no hazardous waste at all.

In addition, LED lighting has a longer life than incandescent and fluorescent lamps. The lifetime of LED lighting is 30,000 hours, whereas the lifetime of incandescent, halogen and fluorescent lamps is only 1000 hours, 3000 hours and 12,000 hours, respectively. In addition, LED lighting has the advantage that it is resistant to impact because it does not have filament and gas necessary for incandescent lamp, and it is possible to make the lighting fixture simple because it can be miniaturized, slimmed and lightweight.

However, lighting using LEDs is not suitable for current street lights. Although LED lighting is still weak in light, it may be suitable as a security light for narrow roads, but it is difficult to secure enough light on auto roads and highways. To solve the problem of efficiency and heat of about 200 lumens power required for street lamps, the reliability of long life can be restored before the general lighting role can be achieved by LED lighting. The rate of switching to energy-saving luminaires is ridiculously low considering the climate change crisis facing 3% per year for road lighting and 7% per year for office lighting.

In general, the LED lighting device is composed of a LED module for emitting a light of a certain color, and a control circuit for controlling the color, flashing state, etc. of the light emitted from the LED module. In addition, the control circuit of the LED lighting device includes a power supply unit (power supply, SMPS) that converts the externally applied power into a voltage and a current suitable for the LED module and the control circuit. The LED module is mainly composed of a plurality of LED elements mounted on a printed circuit board in a predetermined arrangement, the LED element may be a single color of light emitted, or selectively outputs a variety of colors according to the external electrical / electronic signal May apply.

The control circuit outputs signals for controlling operations such as dot order, emission color, and brightness for a plurality of LEDs. In particular, the control circuit mainly combines a plurality of circuits that perform various functions such as an oscillation circuit for generating a specific pulse signal, a converting circuit for converting it to a digital clock signal, a switching circuit for switching the converted signal, and a power supply. . Such a control circuit has a large size of a board in which a circuit is implemented by combining a plurality of circuits in combination, and a large board is configured to be operated by a user by casing in a separate control box. It is difficult to apply to purchases or bollards.

On the other hand, the LED has the characteristic that the brightness is changed as the current consumption increases with time, and the power supply included in the existing control circuit controls the LED lighting by using the constant voltage-constant current method, so that it can cope with the change in the characteristics of the LED. There were no drawbacks. Due to these disadvantages, when the LED lighting is turned on for a long time, the illumination of the LED is changed due to excessive current conduction, and the life of the LED is shortened, causing unnecessary power loss. In addition, LED lighting requires a different voltage depending on the number of LED frames. In this case, since power supply is manufactured and used separately for the voltage suitable for the LED lighting, time / economical loss is caused by the separate production of power supply. It was.

In addition, such a conventional LED lighting device is limited to the function of displaying the flashing or color of a simple form stored in the memory. Therefore, even when the LED lighting device is used for landscape lighting, there is a limit of expressing a simple blink or simple color.

Accordingly, an object of the present invention for solving the above problems is to provide a compact LED lighting control device that can be mounted on a street lamp, security lamp, underground buried lamp or bollard.

In addition, another object of the present invention is to provide an LED lighting control device that can control the illumination of the LED lighting according to the surrounding conditions, to minimize the loss of power, and to provide appropriate lighting according to the surrounding conditions.

In addition, another object of the present invention is to provide an LED lighting control device that can provide an optimal lighting according to the surrounding conditions by expressing various types of flashing or color according to the surrounding conditions of the LED lighting.

LED lighting control device according to the present invention for achieving the above object, a light emitting diode (Light Emitting Diode), which is powered by a switching mode power supply (SMPS) (hereinafter referred to as "LED") A control device for controlling LED lighting comprising at least one of the following: 1. A red, green, and blue LED emitting red, green, and blue monochromatic light are grouped separately, and the grouped red, green, and blue LEDs are combined to have three wavelengths. LED lighting module for providing LED lighting; Sensing means for detecting a surrounding environment factor at a location where the LED lighting module is installed and converting the signal into an electrical signal; Standard time repair and receiving means for periodically receiving a standard frequency signal provided by a standard frequency station and extracting standard year, month, day, time (hereinafter, 'standard time information'); Control means for controlling the power supply to distribute and supply the specified power to the group and individual LEDs of the LED lighting module according to the electrical signal for the environmental factor applied from the sensing means and the standard time information applied from the standard time maintenance report means; And power distribution means for distributing and supplying power of a specified power individually to each of the LED group and LEDs of the LED lighting module according to the control of the control means.

In addition, the LED lighting control device according to the present invention for achieving the above object, LED lighting module driving means for adjusting at least one of the altitude, vertical angle and horizontal angle of the LED lighting module according to the control of the control means. It is characterized by further comprising.

In addition, the sensing means of the LED lighting control apparatus according to the present invention for achieving the above object, the temperature sensor for detecting the outside temperature of the space in which the LED lighting module is installed, and the sensing space in the LED lighting module is installed An illuminance sensor for detecting the intensity of light, a humidity sensor for detecting humidity in a space where the LED lighting module is installed,

The fine dust detection sensor for detecting the concentration of fine dust in the space where the LED lighting module is installed, the wind direction / wind speed sensor for detecting the direction and speed of the wind blowing in the LED lighting module, and the position where the LED lighting module is installed At least one of the motion detection sensor for detecting the movement of the object in a space within a certain distance to be made.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above object, calculates the current time in accordance with the standard time information applied from the standard time maintenance update means, and with the illuminance corresponding to the current time. The power distribution means is controlled so that the LED lighting module emits light.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above objects, calculates the light emission color corresponding to the temperature information applied from the temperature sensor, and corresponds to the current time with the calculated light emission color The power distribution means is controlled so that the LED lighting module emits light by changing the illuminance.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above objects, calculates the wavelength corresponding to the humidity information and the fine dust concentration information applied from the humidity sensor and the fine dust detection sensor And controlling the power distribution means so that the LED lighting module emits light by changing the illuminance corresponding to the current time with the calculated wavelength.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above object, calculates the distance corresponding to the object motion information applied from the motion detection sensor, the illuminance corresponding to the calculated distance The power distribution means is controlled to change the illuminance corresponding to the current time so that the LED lighting module emits light.

In addition, the control means of the LED lighting control device according to the present invention for achieving the above object, the altitude of the LED lighting module according to the direction and altitude corresponding to the wind direction and wind speed information applied from the wind direction / wind speed sensor And controlling the LED lighting module driving means to adjust at least one of the vertical angle and the horizontal angle.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above objects, calculates the illumination information applied from the illumination sensor, and corresponds to the current time with the illumination corresponding to the calculated illumination The power distribution means is controlled so that the LED lighting module emits light by changing the illuminance.

In addition, the control means of the LED lighting control apparatus according to the present invention for achieving the above objects, calculates the current season in accordance with the standard time information applied from the standard time maintenance renewal means, the emission color corresponding to the calculated season The power distribution means is controlled to change the illuminance corresponding to the current time so that the LED lighting module emits light.

In addition, the illuminance corresponding to the current time of the LED lighting control apparatus according to the present invention for achieving the above object is characterized in that it is changed according to the current date according to the standard time information.

In addition, the light emission color corresponding to the temperature information of the LED lighting control apparatus according to the present invention for achieving the above objects, the higher the temperature is closer to the blue series, the lower the temperature is characterized in that the emission color closer to the red series. do.

In addition, the wavelength corresponding to the humidity information and the fine dust concentration information of the LED lighting control device according to the present invention for achieving the above objects, the longer the humidity and the fine dust concentration than the upper limit, the longer wavelength, the humidity and fine The dust concentration is lower than the lower threshold, characterized in that the short wavelength.

In addition, the illuminance corresponding to the calculated distance of the LED lighting control apparatus according to the present invention for achieving the above objects, when the illuminance corresponding to the current time is L1, the detected object is at the maximum sensing distance When the illuminance is L2 and the illuminance is L3 when the detected object is at the minimum sensing distance, the relations of the illuminance L1, L2 and L3 are characterized by L1 <L3 <L2.

In addition, the LED lighting module driving means of the LED lighting control apparatus according to the present invention for achieving the above objects, the higher the altitude of the LED lighting module as the wind speed applied from the wind direction / wind speed sensor is higher than the first threshold value. Lower and, if the wind speed is higher than the second threshold value is characterized in that the vertical angle and the horizontal angle of the LED lighting module is adjusted so that the LED lighting module is located in the opposite direction of the wind direction.

In addition, the light emission color corresponding to the calculated season of the LED lighting control apparatus according to the present invention for achieving the above objects is close to the blue series when the current season calculated according to the standard time information is summer, the standard time If the current season calculated according to the information is winter, it is characterized in that the light emitting color close to the red series.

Accordingly, the LED lighting control device according to the present invention, by providing a compact LED lighting control device using a microcomputer to automatically control a variety of sensors and LED lighting module, street lights, security lights, underground buried light or bollard (Bollard) There is an advantage that can be applied to the form mounted on the back.

In addition, the present invention by adjusting the illumination according to the ambient light, according to the ambient conditions, by providing an appropriate illumination according to the ambient conditions, there is an effect of minimizing the loss of power.

In addition, the present invention has the effect of providing the optimal lighting according to the surrounding conditions by expressing various types of flashing or color according to the surrounding LED lighting.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that the same components in the figures represent the same numerals wherever possible. Specific details are set forth in the following description, which is provided to provide a more thorough understanding of the present invention. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram of an LED lighting control apparatus according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of the LED lighting module according to a preferred embodiment of the present invention.

Referring to FIG. 1, the LED lighting control device according to the present invention distributes the power applied from the microcomputer 100 and the external power source 170 and the internal power source 160 to control the overall control device. The power distribution unit 110, the LED lighting module 120 for generating light necessary for illumination, the sensor unit 130 including a plurality of sensors for detecting the environmental factors, and the LED lighting module 120 It consists of a driving unit 140 for adjusting the altitude, elevation angle and horizontal angle of the standard time maintenance receiver 150 for receiving a standard frequency signal transmitted from the standard frequency station.

LED lighting control apparatus according to the present invention uses a switching mode power supply (Switching Mode Power Supply) as the power distribution unit (110). SMPS converts an external alternating current (AC) current into a direct current (DC) current to meet the conditions of each component. In particular, the power distribution unit 110 according to the present invention not only supplies operating power to a plurality of LED elements constituting the LED lighting module 120 shown in FIG. 2, but also groups of LED elements 121 and 122. And 124 may supply operating power, respectively. In addition, the power distribution unit 110 according to the present invention supplies and cuts the operating power to the LED elements constituting the LED lighting module 120, and to each of the LED elements under the control of the microcomputer (100). Illuminance of LED elements can be adjusted individually by supplying only a power source with a specified value. According to the present invention, in order to individually adjust the illuminance of the LED elements, it may be provided with an auxiliary power distribution unit for subdividing the power applied from the power distribution unit 110 to supply a specified power value to the LED elements.

The LED lighting module 120 illustrated in FIG. 2 includes a plurality of red, green, and blue colors forming red LED groups 121 and Rg, green LED groups 122 and Gg, and blue LED groups 123 and Bg, respectively. It consists of LED elements. Of course, the LED lighting module forms a single LED group with a small number of red, green, and blue LED elements for the combination of the emission colors, and may be configured in the form of a plurality of such LED groups. When the red, green, and blue LED groups 121, 122, and 123 emitting monochromatic light of RGB all emit light according to the same power supply value, three-wavelength LED lighting close to natural light may be provided.

The sensor unit 130 detects the environmental factors at the location where the LED lighting module 120 is installed and converts them into electrical signals. To this end, the various sensors 131-136 constituting the sensor unit 130 may be mounted in an outer case of the LED lighting module 120, or an appropriate position of the structure in which the LED lighting module 120 is mounted. It can also be mounted on.

The sensor unit 130 according to the present invention includes a temperature sensor 131 for detecting the outside temperature of the space in which the LED lighting module 120 is installed, and a light that can be detected in the space where the LED lighting module 120 is installed. Light intensity sensor 132 for detecting the intensity of the light, humidity sensor 133 for detecting the humidity of the space installed with the LED lighting module 120, and the fine dust concentration of the space installed with the LED lighting module 120 is detected The fine dust detection sensor 134, and the wind direction / wind speed sensor 135 for detecting the direction and speed of the wind blowing on the LED lighting module 120 and the schedule centered around the location where the LED lighting module 120 is installed It consists of a motion sensor 136 for detecting the movement of the object in the space within the distance.

The temperature sensor 131 provides a detection signal corresponding to the temperature of the space in which the LED lighting module 120 is mounted in order to provide the LED lighting according to the present invention to provide an empirical or emotional feeling of color of light. It is generated and provided to the microcomputer 100. The microcomputer 100 controls the power distribution unit 110 so that the LED lighting module 120 generates a predetermined corresponding emission color according to the detection signal from the temperature sensor 131. First, the emission color corresponding to the temperature information may be set to approach the blue series at higher temperatures, and to approach the red series at lower temperatures. This setting allows the LED lighting module 120 according to the present invention to generate a blue light on a high temperature day to give a pedestrian or a vehicle a cool feeling, and to generate a red or yellow light on a low temperature day. Make yourself warm.

To this end, the power distribution unit 110 according to the present invention supplies a higher operating power to the blue LED group 123 which gives a cool feeling on a high temperature day or even the same operating power, the red LED group 121 and the green LED Operating power is distributed to allow a greater number of blue LED elements to emit light than the LED elements that make up the group 122.

On the other hand, the illuminance sensor 132 is a space in which the LED lighting module 120 is mounted in order to reduce power consumption when the space in which the LED lighting module 120 is installed is bright and additional lighting is not required. A detection signal corresponding to the illuminance of the control signal is generated and provided to the microcomputer 100. The microcomputer 100 calculates illuminance information applied from the illuminance sensor 132 and controls the power distribution means 110 to emit the LED light module 120 at an illuminance corresponding to the calculated illuminance. . Accordingly, the power distribution unit 110 achieves the benefit of saving the power consumption by supplying a small operating power to the LED lighting module 120 or cut off all the supply.

On the other hand, the humidity sensor 133 detects the humidity of the space in which the LED lighting module 120 is installed, the fine dust detection sensor 134 detects the concentration of fine dust. In particular, the humidity sensor 133 is able to properly control the LED lighting module 120 according to the present invention in a situation where the clock is very poor in snow or rain or fog weather. In addition, the fine dust detection sensor 134 determines that the clock is very poor, like fog, even in a special environment having a high concentration of fine dust such as yellow sand or a high concentration of fine dust such as a tunnel, and the LED lighting module ( Proper control of 120 is achieved.

To this end, the microcomputer 100 calculates a wavelength corresponding to the humidity information and the fine dust concentration information applied from the humidity sensor 133 and the fine dust detection sensor 134, and the LED light with the calculated wavelength The power distribution unit 110 is controlled so that the module 120 emits light. LED lighting control device according to the present invention, if the humidity and fine dust concentration is higher than the upper limit threshold in response to the humidity information and the fine dust concentration information, the red series LED elements having a long wavelength so that the light of the illumination can be transmitted as far as possible Supply higher operating power or emit more red LED devices. At this time, since the light close to red has low saturation and high probability of diffraction, each LED group 121, 122, and 123 needs to be appropriately adjusted to emit yellow light. In addition, when the humidity and the fine dust concentration is lower than the lower limit threshold, supplying high operating power to the blue-based LED elements that emit short wavelength light, or emits more blue-based LED elements.

The motion sensor 136 is to save the power consumed by the LED lighting module 120 according to the present invention, and to provide a brighter light when lighting is required, the LED lighting module 120 is installed When the movement of the pedestrian or the vehicle is not detected in the space, the amount of light of the LED lighting module 120 is minimized. In this case, the motion sensor 136 has a semi-circle or circular detection range according to the performance of the product, the LED lighting control device according to the present invention, if the movement is detected at the maximum distance of the detection range, the LED lighting module ( In consideration of the distance between the 120 and the object, the maximum amount of light of the LED lighting module 120 is controlled. As the detected object approaches the LED lighting module 120, the light quantity of the LED lighting module 120 is reduced, and when the detected object reaches the minimum distance from the LED lighting module 120, the LED lighting module 120. The amount of light at 120 is maintained at about 1.5 times the initial amount of light, and when the detected object is out of the detection range, the operation in the case of detecting the previous object is repeated.

To this end, the microcomputer 100 of the LED lighting control apparatus according to the present invention calculates the distance corresponding to the object motion information applied from the motion sensor 136, and the LED with the illuminance corresponding to the calculated distance The power distribution unit 110 is controlled so that the lighting module 120 emits light. The illuminance corresponding to the calculated distance of the LED lighting control device according to the present invention, when the illuminance corresponding to the current time is L1, the illuminance is L2 when the detected object is at the maximum sensing distance, and the detected object is When the illuminance is L3 when M is at the minimum sensing distance, the illuminance L1, L2, and L3 have a relationship of L1 <L3 <L2.

In addition, the wind direction / wind speed sensor 135 is very fast wind speed in order to reduce the loss due to strong wind speed when the loss or loss of the LED lighting module 120 according to the present invention, the LED lighting module 120 ) Detects the wind direction and the wind speed of the installed space and provides it to the microcomputer (100). The microcomputer 100 lowers the altitude of the LED lighting module 120 when the wind speed applied from the wind direction / wind speed sensor 135 is higher than the first threshold value corresponding to the case where the wind speed is considerably strong. If the wind speed is higher than the second threshold value corresponding to the case of very strong wind speed, it is determined that it is insufficient to reduce the loss by lowering only the altitude of the LED lighting module 120, the altitude of the LED lighting module 120 In addition to lowering, and adjust the vertical angle and the horizontal angle of the LED lighting module 120 so that the LED lighting module 120 is located in the opposite direction of the wind direction.

To this end, the LED lighting control device according to the present invention further includes the LED lighting module driver 140. As shown in FIG. 1, the LED lighting module driving unit 140 includes an LED lighting module height adjuster 141, an LED lighting module elevation angle adjuster 142, and an LED lighting module horizontal angle adjuster 143. The LED lighting module altitude controller 141 is a driving unit for adjusting the installation altitude of the LED lighting module 120 up and down, and the higher the wind speed applied from the wind direction / wind speed sensor 135 is higher than the first threshold value, the LED Lower the altitude of the lighting module 120. On the other hand, the LED lighting module height angle adjuster 142 is a driving unit for adjusting the vertical angle of the LED lighting module 120, the LED lighting module horizontal angle adjuster 143 is the left and right angles of the LED lighting module 120 As a driving unit to adjust the horizontal direction, if the wind speed applied from the wind direction / wind speed sensor 135 is higher than the second threshold value of the LED lighting module 120 so that the LED light module 120 is located in the opposite direction of the wind direction By adjusting the vertical and horizontal angles, damage from strong wind speeds is minimized.

The microcomputer 100 according to the present invention may include at least any one of an altitude, a vertical angle, and a horizontal angle of the LED lighting module 120 according to a direction and an altitude corresponding to the wind direction and wind speed information applied from the wind direction / wind speed sensor 135. Control the LED lighting module driving means 140 to adjust one.

The standard time repair receiver 150 receives a standard time signal transmitted from a standard frequency station at regular intervals with accuracy and receives a standard year, month, day, time (hereinafter, 'standard time information'). Extract. The microcomputer 100 according to the present invention simply controls the ON / OFF or amount of light of the LED lighting module 120 according to a specified time is not suitable for the environment of changing the length of the day and night throughout the year to efficiently consume power consumption. Since it cannot be reduced, the concept of year-round date is introduced at a designated time to adjust the amount of light of the LED lighting module 120. Accordingly, the amount of light of the LED lighting module 120 can be automatically adjusted appropriately in an environment where the length of day and night changes throughout the year.

In addition, by using the standard time information received by the standard time repair and reception device 150, the microcomputer 100 calculates the current season according to the standard time information, and corresponds to the current time with the emission color corresponding to the calculated season. By changing the illuminance to control the power distribution means 110 so that the LED lighting module 120 emits light, the LED lighting module 120 according to the present invention generates a blue series of light in the hot summer to pedestrians or vehicles Give it a cool feeling, and in cold winters, give it a warm feeling of red or yellow light.

On the other hand, LED lighting control device according to the present invention is the temperature sensor 131, the illumination sensor 132, the humidity sensor 133, the fine dust detection sensor 134, the wind direction / wind speed sensor of the sensor unit 130 described above ( 135) and by adjusting the illumination of the LED lighting module 120 preset from the standard time maintenance receiver 150 in conjunction with the motion detection sensor 136 to further adjust the illumination of the LED lighting module 120 more appropriately Can be.

That is, the microcomputer 100 of the LED lighting control apparatus according to the present invention first calculates the current time according to the standard time information applied from the standard time maintenance receiver 150, and the LED light module with the illuminance corresponding to the current time. The power distribution means 110 is controlled so that the 120 emits light. Subsequently, the microcomputer 100 calculates the light emission color corresponding to the temperature information applied from the temperature sensor 131, and changes the illuminance corresponding to the preset current time as the calculated light emission color, thereby providing the LED lighting module 120. ) Controls the power distribution means 110 to adaptively emit light to the surrounding environment.

In addition, the microcomputer 100 calculates illuminance information applied from the illuminance sensor 132 and changes the illuminance corresponding to a preset current time to the illuminance corresponding to the calculated illuminance, so that the LED illumination module 120 By controlling the power distribution means 110 to emit light, power consumption can be further reduced.

In addition, the microcomputer 100 calculates a wavelength corresponding to the humidity information and the fine dust concentration information applied from the humidity sensor 133 and the fine dust detection sensor 1134, and sets the current time to the preset wavelength. By controlling the power distribution means 110 to emit light by changing the illumination corresponding to the LED lighting module 120, it provides a more efficient lighting in a bad watch situation.

In addition, the microcomputer 100 calculates a distance corresponding to the object motion information applied from the motion detection sensor 136, and changes the illuminance corresponding to the preset current time to the illuminance corresponding to the calculated distance. By controlling the power distribution means 110 so that the LED lighting module 120 emits light, power consumption of the LED lighting module 120 is reduced and at the same time, more suitable lighting is provided to pedestrians or vehicles according to the situation.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a block diagram of an LED lighting control device according to an embodiment of the present invention,

2 is a cross-sectional view of the LED lighting module according to a preferred embodiment of the present invention.

Claims (16)

In the control device for controlling the LED lighting including at least a light emitting diode (LED) powered by a Switching Mode Power Supply (SMPS), An LED lighting module that groups red, green, and blue LEDs emitting monochromatic light of red, green, and blue, respectively, and integrates the grouped red, green, and blue LEDs to provide three wavelength LED lighting; Sensing means for detecting a surrounding environment factor at a location where the LED lighting module is installed and converting the signal into an electrical signal; Standard time repair and receiving means for periodically receiving a standard frequency signal provided by a standard frequency station and extracting standard year, month, day, time (hereinafter, 'standard time information'); Control means for controlling the power supply to distribute and supply the specified power to the group and individual LEDs of the LED lighting module according to the electrical signal for the environmental factor applied from the sensing means and the standard time information applied from the standard time maintenance report means; And a power distribution means for distributing and supplying power of a specified power to each of the LED group and LEDs of the LED lighting module according to the control of the control means. The method of claim 1, LED lighting module driving means for adjusting at least one of the altitude, vertical angle and horizontal angle of the LED lighting module according to the control of the control means. The method of claim 2, wherein the sensing means, A temperature sensor for detecting an outside temperature of a space in which the LED lighting module is installed; An illumination sensor for detecting the intensity of light that can be detected in a space where the LED lighting module is installed; A humidity sensor for detecting humidity of a space in which the LED lighting module is installed; A fine dust detection sensor for detecting fine dust concentration in a space where the LED lighting module is installed; Wind direction / wind speed sensor for detecting the direction and speed of the wind blowing on the LED lighting module, LED lighting module comprising at least one of a motion detection sensor for detecting the movement of the object in a space within a certain distance centered on the location where the LED lighting module is installed. The method of claim 3, wherein the control means, And calculating the current time according to the standard time information applied from the standard time maintenance update means, and controlling the power distribution means to emit the LED light module with the illuminance corresponding to the current time. The method of claim 4, wherein the control means, Calculating an emission color corresponding to temperature information applied from the temperature sensor, and changing the illuminance corresponding to the current time to the calculated emission color to control the power distribution means to emit the LED lighting module; Lighting controls. The method of claim 4, wherein the control means, Computing a wavelength corresponding to the humidity information and the fine dust concentration information applied from the humidity sensor and the fine dust detection sensor, by changing the illuminance corresponding to the current time to the calculated wavelength to the LED lighting module to emit light LED lighting control device for controlling the power distribution means. The method of claim 4, wherein the control means, The power distribution means is controlled to calculate a distance corresponding to the object motion information applied from the motion detection sensor, and to change the illuminance corresponding to the current time to the illuminance corresponding to the calculated distance so that the LED lighting module emits light. LED lighting control device characterized in that. The method of claim 3, wherein the control means, And controlling the LED lighting module driving means to adjust at least one of an altitude, a vertical angle, and a horizontal angle of the LED lighting module according to a direction and an altitude corresponding to the wind direction and wind speed information applied from the wind direction / wind speed sensor. LED lighting controller. The method of claim 4, wherein the control means, Calculating the illumination information applied from the illumination sensor, and changing the illumination intensity corresponding to the current time to the illumination intensity corresponding to the calculated illumination intensity to control the power distribution means so that the LED illumination module emits light. Lighting controls. The method of claim 4, wherein the control means, The power distribution means is controlled so that the LED lighting module emits light by calculating the current season according to the standard time information applied from the standard time maintenance update means, changing the illuminance corresponding to the current time to the emission color corresponding to the calculated season. LED lighting control device characterized in that. The method of claim 4, wherein the illuminance corresponding to the current time is, LED lighting control device, characterized in that changed according to the current date according to the standard time information. According to claim 5, The emission color corresponding to the temperature information, LED lighting control device characterized in that the higher the temperature is closer to the blue series, and the lower the temperature is the emission color closer to the red series. According to claim 6, The wavelength corresponding to the humidity information and fine dust concentration information, LED lighting control device characterized in that the higher the humidity and the fine dust concentration than the upper limit, the longer wavelength, the shorter the humidity and the fine dust concentration than the lower limit. The method of claim 7, wherein the illuminance corresponding to the calculated distance, When the illuminance corresponding to the current time is L1, the illuminance is L2 when the detected object is at the maximum sensing distance, and the illuminance is L3 when the detected object is at the minimum sensing distance. , L3 relationship is L1 <L3 <L2 LED lighting control device characterized in that. According to claim 8, The LED lighting module driving means, As the wind speed applied from the wind direction / wind speed sensor is higher than the first threshold value, the altitude of the LED lighting module is lowered. When the wind speed is higher than the second threshold value, the LED lighting module is located in the opposite direction of the wind direction. LED lighting control device, characterized in that for adjusting the vertical and horizontal angles of the module. The method of claim 10, wherein the emission color corresponding to the calculated season, The LED lighting control device of claim 1, wherein the current season calculated according to the standard time information is close to the blue series, and when the current season calculated according to the standard time information is winter, the light emitting color is close to the red series.

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