KR101026461B1 - LED illumination apparatus using remote control - Google Patents

Abstract

The present invention relates to an LED lighting apparatus using a remote controller, and more particularly, to an LED lighting apparatus that can replace an illumination lamp that illuminates a room in a home or an office space. The LED lighting apparatus includes a remote control for turning on / off an LED illumination, An infrared receiver receiving the selection signal; A control circuit for outputting a corresponding illumination drive control signal in accordance with an infrared illumination selection signal input from the infrared receiver; A switching mode power supply unit (SMPS) for supplying driving power of a corresponding LED lighting according to an illumination driving control signal of the control circuit unit; A plurality of LED modules in which a plurality of LEDs whose ON / OFF lights and brightness are controlled by a power source applied from the switching mode power supply unit; A diffusion film for diffusing light emitted from the plurality of LEDs according to lighting of the LED module; And a glove for preventing glare of light emitted from the plurality of LEDs, wherein the remote control has a plurality of control channels, the plurality of LED modules are allocated a control channel of the remote control, And an LED illumination device using the remote controller is characterized in that lighting and brightness are controlled according to a command of an infrared illumination selection signal through a control channel.

The present invention has the effect of increasing the selection and convenience of the user as the LED module is turned on / off and the brightness is adjusted in the form of a whole, individually or in combination with the plurality of LED modules through the control channel.

Further, the present invention provides an effect of minimizing power consumption through lighting on / off and brightness control selected for each control channel as compared with existing indoor lighting lamps or LED lighting apparatuses, thereby maximizing the power saving effect .

In addition, the present invention is not limited to having a separate module heat dissipation unit, and thus it is possible to provide a high heat dissipation effect by constituting an aluminum case so as to have a module heat dissipation function in a housing main body to which the LED module is mounted.

In addition, the present invention provides a modularized LED module for selectively attaching and detaching a module, which facilitates the individual replacement and mounting of modules, thereby reducing the maintenance cost and improving the convenience of maintenance.

Remote control, LED lighting device, LED module, infrared transmitter / receiver, channel, switching mode power supply (SMPS), luminance

Description

[0001] The present invention relates to an LED illumination apparatus using a remote controller,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an LED (Light Emitting Diode) lighting apparatus using a remote controller, and more particularly, to a lighting apparatus for an indoor lighting such as a fluorescent lamp, an incandescent lamp and a halogen lamp, The present invention relates to an LED lighting apparatus using a remote controller that allows a whole or individual LED module to be turned on / off according to an infrared signal of a remote controller, and brightness can be individually adjusted.

Generally, indoor lighting such as a fluorescent lamp, an incandescent lamp, and a halogen lamp is usually used in a state where it is attached to a ceiling or a wall of a room as lighting installed in a room of a home or an office space.

Such an indoor light has a disadvantage that it consumes a large amount of power, has a heat characteristic, and has a short life span of about 6 months, so it must be frequently replaced.

Particularly, in the case of a fluorescent lamp or an incandescent lamp, there is a risk of breakage, which is difficult to collect, and there is also a problem of environmental pollution due to breakage or the like during recovery.

On the other hand, LED (Light Emitting Diode) is a light-emitting diode that consumes less power and has no heat generation characteristics, and has a long lifetime of about 100,000 hours as a high-efficiency light source.

However, a light emitting diode has a problem as an illumination device. One of the problems is that when the light emitting diode is collected by several light emitting diodes due to the straightness of the light source, the light source is not recognized as one and the eyes are fatigued. Due to these disadvantages, it is not yet applied to the near-field lighting, and it is a novelty which is used only for the distance lighting such as the traffic light and the electric signboard.

The applicant of the present invention newly proposed an LED lighting device which can replace an indoor lighting lamp such as a fluorescent lamp or an incandescent lamp installed in a room of a home or an office space, An LED lighting device which is not only excellent but also user-friendly is proposed.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior arts, and it is an object of the present invention to provide a light emitting diode And an LED lighting device using the remote controller in which the module is turned on / off and the brightness thereof can be adjusted.

It is another object of the present invention to provide an LED lighting apparatus using a remote controller that provides a structure in which user's choice of illumination and convenience can be increased, maintenance of post-maintenance, and cost can be reduced.

It is another object of the present invention to provide an LED module using a remote controller capable of providing a high heat dissipation effect without having to provide a separate module heat dissipation unit by constituting an aluminum case so as to have a module heat dissipating function in a housing main body, And to provide a lighting device.

In addition, the present invention provides an ultra-low-power LED lighting device that can replace an indoor lighting lamp such as a conventional incandescent lamp or a fluorescent lamp.

According to an aspect of the present invention, there is provided an LED lighting device used as an illumination lamp for illuminating the interior of a home or an office space. The LED illumination device includes an infrared illumination selection signal for turning on / An infrared ray receiving unit for receiving infrared rays; A control circuit for outputting a corresponding illumination drive control signal in accordance with an infrared illumination selection signal input from the infrared receiver; A switching mode power supply unit (SMPS) for supplying driving power of a corresponding LED lighting according to an illumination driving control signal of the control circuit unit; A plurality of LED modules in which a plurality of LEDs whose ON / OFF lights and brightness are controlled by a power source applied from the switching mode power supply unit; A diffusion film for diffusing light emitted from the plurality of LEDs according to lighting of the LED module; And a glove for preventing glare of light emitted from the plurality of LEDs, wherein the remote control has a plurality of control channels, the plurality of LED modules are allocated a control channel of the remote control, And an LED illumination device using the remote controller is characterized in that lighting and brightness are controlled according to a command of an infrared illumination selection signal through a control channel.

At this time, the housing main body to which the plurality of LED modules are mounted is preferably a case made of aluminum, and preferably has a module heat radiation function for the plurality of LED modules.

Preferably, the LED module is a bar type in which a plurality of LEDs are sequentially arranged in a longitudinal direction, and may be mounted on the housing body in a rail form.

Preferably, the LED module is a rectangular type in which a plurality of LEDs are arranged, and may be mounted in a matrix form on the housing body. Here, the matrix shape may be implemented in any one of a square shape in which four or nine square shapes are mounted, or a rectangular shape.

In the case where the LED module is in the form of a square matrix having four LED modules, priority is given to the module operation control by the control channel of the remote control so that the sequential lighting and blinking control can be performed according to the priority in which the illumination brightness level is increased or decreased .

The lighting sequence of the LED modules according to the increase of the illumination brightness level may be such that the LED modules set as the default among the four LED modules are firstly turned on and the LED modules positioned in the diagonal direction of the LED module set as the default The LED modules located in the LED modules that are set to the default and are lighted in the primary are turned on in the third order, and the LED modules located in the secondly lit LED module are operated in the priority order in which they are lit in the fourth It is preferable that the LED module is sequentially turned off according to the order in which the LED modules are turned on in the priority order, in which the lighting brightness level is reduced in the ON state of the four LED modules.

On the other hand, when the LED module is in the form of a rectangular matrix having nine units, priority is given to the module operation control by the control channel of the remote control so that the sequential lighting and blinking control can be performed according to the priority order It is preferable that the LED module located at the center is set to a default lighting state.

At this time, the lighting order of the LED modules according to the increase of the illumination brightness level is such that any one of the remaining eight LED modules is secondarily lit on the basis of the primary lighting of the central LED module set to the default, It is preferable that the remaining LED modules are sequentially turned on according to the priority order of clockwise or counterclockwise rotation of the LED module that is lit by the car. In the case where all of the nine LED modules are turned on, It is more preferable that the LED modules are sequentially turned off in the reverse order of the lighting priority.

In addition, the remote controller may allocate individual and combination control channels to the plurality of LED modules, and may control the on / off control of the plurality of LED modules, It is preferable that the off-lighting and the brightness adjustment of the illumination are controlled.

Here, the remote controller may include an infrared ray transmitter for transmitting a user's illumination selection signal; And a plurality of function buttons including a channel assignment button for assigning a control channel to the plurality of LED modules, a power button for lighting on / off, a brightness adjustment button for each control channel, and a control channel selection button .

The matrix type is composed of LED modules composed of m rows and n columns. When the illumination brightness level is given, the priority order of the LED modules to be turned on corresponding to the illumination brightness level is determined, It is preferable that the priority of the LED module to be provided is such that the total sum of the distances between the LED modules participating in the lighting is maximized so as to satisfy each illumination brightness level.

When at least one of the m and n is an odd number, the first light corresponding to the illumination brightness level preferably includes an LED module in the center with respect to an odd row or column.

The matrix type is composed of LED modules composed of m rows and n columns. When the illumination brightness level is given, the priority order of the LED modules to be turned on corresponding to the illumination brightness level is determined, It is preferable that the priority of the LED module to be turned on is sequentially lighted in the outermost of the m rows or in the predetermined direction from the outermost of the n columns.

As described above, according to the LED lighting apparatus using the remote controller according to the present invention, a plurality of LED modules are set to be controlled on a channel-by-channel basis, and the LED modules are turned on / off according to the infrared signal of the remote controller, As the brightness is adjusted, the selection and convenience of the user is increased.

Further, the present invention provides an effect of minimizing power consumption through lighting on / off and brightness control selected for each control channel as compared with existing indoor lighting lamps or LED lighting apparatuses, thereby maximizing the power saving effect.

In addition, the present invention is not limited to having a separate module heat dissipation unit, and thus it is possible to provide a high heat dissipation effect by constituting an aluminum case so as to have a module heat dissipation function in a housing main body to which the LED module is mounted.

In addition, the present invention has the effect of preventing the glare of the LED illuminating device by employing a diffusion film and a glove, and providing an illumination state of high brightness through induction of light diffusion.

In addition, the present invention provides a modularized LED module for selectively attaching and detaching a module, which facilitates the individual replacement and mounting of modules, thereby reducing the maintenance cost and improving the convenience of maintenance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a 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.

In describing the present invention, the defined terms are defined in consideration of the function of the present invention, and it can be changed according to the intention or custom of the technician working in the field, and the definition is based on the contents throughout this specification It should be reduced.

FIG. 1 is a functional block diagram showing an LED lighting apparatus using a remote controller according to an embodiment of the present invention. FIG. 2 is a schematic plan view of an LED lighting apparatus according to the present invention, Lt; / RTI > is a schematic perspective view showing various embodiments of the module.

As shown in the figure, the LED lighting apparatus using the remote controller according to the present invention can be largely composed of the remote controller 100 and the LED lighting apparatus 200. [

Here, the LED lighting apparatus 200 is an LED lighting apparatus having a function of an ultra-miniature type that can replace an indoor lighting lamp such as a fluorescent lamp, an incandescent lamp, and a halogen lamp installed in a room of a home or an office space, The ON / OFF lighting of the LED illumination and the brightness adjustment are controlled step by step through the infrared signal of the display unit 100.

1, the LED lighting apparatus 200 includes an infrared ray receiving unit 201, a control circuit unit 202, a switching mode power supply unit 203, a plurality of LED modules 205, (206), and a glove (207).

The infrared ray receiver 201 receives an infrared ray illumination selection signal for turning on / off the LED lights and adjusting the brightness of the LED lights from the remote controller 100. The control circuit 202 controls the infrared ray receiver 201, And outputs the corresponding illumination drive control signal in accordance with the infrared illumination selection signal input from the controller.

The switching mode power supply unit 203 supplies the driving power of the corresponding LED lighting according to the lighting drive control signal of the control circuit unit 202.

The plurality of LED modules 205 have a structure in which a plurality of LEDs 204 whose on / off states and brightness are controlled by a power source applied from the switching mode power supply unit 203 are arranged.

As shown in FIG. 2, the LED module 205 may be a bar type in which a plurality of LEDs 204 are arranged in a longitudinal direction, and may be mounted on the housing body 208 in a rail form .

4 and 5, the LED module 205 may be a square type in which a plurality of LEDs 204 are arranged, and may be mounted on the housing body 208 in a matrix form. At this time, it is preferable that the matrix form of the LED module 205 is implemented in any one of a square type in which four or nine square types are mounted, or a rectangular type.

The plurality of LED modules 205, which are implemented in a modular fashion as described above, may be selectively or wholly selected from all or a portion of the plurality of LED modules 205 according to the level of illumination brightness, So that the energy saving according to the requirement of the brightness level is improved.

In other words, the user adjusts the brightness of the illumination required by the user through the selection lighting of the corresponding LED module.

The diffusion film 206 diffuses the light emitted from the plurality of LEDs 204 according to the lighting of the LED module 205 and the glove 207 reflects light emitted from the plurality of LEDs . Here, the glove 207 is preferably made of a colorless transparent acrylic resin material.

The housing main body 208 on which the plurality of LED modules 205 are mounted is a case made of aluminum and has a module heat dissipation function for the plurality of LED modules 205.

At this time, the housing main body 208 is fastened to the glove 207 and protects the LED module 205 housed therein.

FIG. 6 is an exploded perspective view illustrating the LED lighting device according to the present invention, FIG. 7 is a schematic plan view illustrating a state in which four LED modules are mounted on the LED lighting device according to the present invention, FIG. 9 is a schematic plan view illustrating a state in which nine LED modules are mounted on the LED lighting apparatus according to the present invention.

As shown in FIGS. 6 to 8, the LED lighting device 200 according to the present invention modularizes various types of LED modules 205 used as lights.

The LED lighting device 200 shown in FIG. 6 may be turned on / off and adjusted in brightness by selecting any one or a combination and all of the four LED modules 205 by the user.

A case where the LED lighting device 200 installed in the rail type is installed in a bedroom or a study room will be described as an example.

First, when the user controls the level of the brightness of illumination to the highest level and lights up, all of the four LED modules 205 are kept in the ON state. At this time, when the user operates the power saving mode When two LED modules 205 of the four LED modules 205 or three LED modules 205 of the four LED modules 205 are turned off in the case of performing control to select a sleep mode (a state in which only one module is turned on) .

In this way, the four LED modules 205 are independently controlled individually according to the command of the illumination selection signal of the remote controller 100 used by the user through the individual control channels, or four LED modules 205 In a state where the control channel is set to one, the lighting may be controlled according to the priority in each operation mode.

At this time, the priority order of each operation mode can be divided into a top level mode of illumination, a power saving mode, a sleep mode and an extinction mode. In the top level mode, all the four LED modules 205 are turned on, In the power saving mode, the two LED modules 205 are turned on. In the sleep mode, the LED module 205 located at the farthest position from the bedroom lights up. In the off mode, the four LED modules 205 are turned on All operations to be turned off are sequentially performed.

An example of a place where the LED lighting apparatus 200 shown in FIGS. 7 and 8 is installed will be described in detail as follows.

7 is an example in which the LED lighting apparatus 200 shown in FIG. 7 is installed in a bedroom. In the case of a square matrix configuration in which the four LED modules 205 are arranged in a matrix, And the module operation control of the priority order is set by the control channel of the remote control 100 so as to enable the flicker control.

At this time, the LED modules 205 (M1 to M4) of the LED lighting device 200 are controlled by the four LED modules 205 (M1 to M4) according to the lighting sequence of the LED module 205, The LED module 205 (M-1) 205, which is set as the default among the LED modules 205 (M-1 to M-4) The LED module 205 (M-2) located in the LED module 205 (M-1), which is set to the default and is lighted first, is lighted in the third order and the LED module 205 The LED module located in the module 205 (M-3) is operated in the priority order of the fourth lighting.

On the other hand, the flashing control in which the illumination brightness level is reduced while all of the four LED modules (M 1 to M 4) are ON can be controlled by sequentially turning on the LED modules 205 Off.

That is, the order of lighting according to the priority order is as shown in the order of (M-1) -> (M-4) -> (M-2) -> (M-3) -> (M-2) -> (M-4) -> (M-1) in the reverse order.

Here, it should be understood that the priority order of the lighting or the light-off is changed according to the position of the LED module 205 set to the initial default.

In the LED module 205, the LED module 205 having the default value is set according to the priority order of the operation mode of the user, and then the priority order of the remaining LED modules 205 is determined.

The operation modes of the LED modules 205 set to have such priority are as follows: the highest level mode of lighting (all four lights), the power saving mode (only two lights), the sleep mode (only one lighting) All of which are off).

In the case of the sleep mode, the four LED modules 205 are all lit up and used. In the power saving mode, only the two LED modules 205 can be used to light up. In the sleep mode, One of the LED modules 205 is turned on, and in the unlit mode, all of the four LED modules 205 are turned off.

Through the control of turning on and off of the LED module 205 individually or according to the priority, the user performs selective lighting control according to his or her residential environment and required brightness of illumination.

8 is an example in which the LED lighting apparatus 200 is installed in a living room. In the rectangular matrix configuration in which the LED modules 205 are composed of nine LEDs, the lighting brightness level is sequentially increased and decreased The module operation control of the priority order is set by the control channel of the remote controller 100 so that the LED module 205 (M-1) located at the center is set to the first lighting state.

Here, the lighting sequence of the LED modules 205 (M-1 to M-9) according to the increase of the illumination brightness level is performed by setting the primary lighting of the central LED module 205 (M-1) One of the remaining eight LED modules 205 is turned on secondarily and the LED module 205 (M-2) is turned on secondarily in a clockwise or counterclockwise direction The remaining LED modules 205 (M-3 to M-9 or M-9 to M-3) are sequentially turned on.

(M-1) - > (M-2) - > (M-3) - > (M-4) in the arrangement shown in FIG. (M-5) -> (M-6) -> (M-7) -> (M-8) (M-7) -> (M-6) -> (M-5) -> (M-4) > (M-3) -> (M-2) -> (M-1).

Here, the priority order of the lighting or the light-off is determined by selecting the LED module 205 which is secondarily lit on the basis of the position of the central LED module 205 (M-1) ) Can be set.

Also, in the flash control in which the brightness level of the illumination is reduced in the ON state of the nine LED modules 205, the LED modules 205 are sequentially turned off in the reverse order of the illuminated priority order.

In the LED module 205 having nine rectangular shapes set to have such a priority order, various combinations of lighting selection control operations are performed according to the living room environment of the user and the required lighting brightness conditions.

That is, according to the lighting conditions required for the LED lighting device 200 in the lighting environment from the highest level mode (all nine lights) to the light-off mode (all the nine lights are off) It is possible to perform the lighting control.

The above description will be further generalized. It is effective to use the light efficiently in order to determine the lighting order including the default lighting order according to the lighting brightness level. Since the plurality of LED modules constituting the matrix of the square can be individually controlled, effective illumination can be utilized depending on which module is turned on, which results in power saving and a Green illumination system. The following detailed cases are considered.

First, suppose that the number of square metrics consists of m horizontal lines of modules and n vertical columns of modules.

First, when m is an odd number, it is independent of n (that is, whether n columns of vertical modules are turned on / off for each column or individually turned on / off for each cell constituting each column) It is possible that the lighting model can constitute each mode, and the mode can be selected by the remote controller.

If m is odd, the central priority first lighting model would be preferable. In this model, only the LED modules in the center row are turned on in the initial illumination brightness level with respect to the m rows, or the LED modules in the center row and the LED modules in the center row are directly / That is how the module is turned on. In this model, when the illumination brightness level is raised, the LED module in the center row is turned off, only each LED module at both ends of the m rows is on, or each LED module at both ends and the LED module / It will be a reasonable lighting sequence that the adjacent LED module is turned on. That is, when m is an odd number, as the illumination level rises, the center on -> the center off, the outer periphery on -> the center on again, the on both sides remain on -> turned on, It would be a reasonable arrangement for lighting efficiency.

If m is even, and two or more LED modules need to be turned on, a model in which two LED modules with both ends are lit first is reasonable, unless there are special restrictions. At this time, when the illumination brightness level is raised, it is reasonable that only each LED module at both ends is turned on, or that each LED module at both ends and the LED module close to and directly adjacent to the LED modules are turned on. That is, when m is an even number, it is reasonable that the illumination efficiency is not the intersection lighting but is sequentially turned on from the outer periphery to the center, or sequentially turned on from the center to the outer periphery in a special case.

On the other hand, the designation of the outermost priority lighting model can be introduced, which is independent of the odd number or the even number. The feature of this model is the lighting model in which the lighting priority is sequentially given from the outermost LED module. For example, when a desk is located at the right end of the room, the first light illuminates the LED module closest to the desk side, and thereafter the LED module closest to the closest LED module is turned on . For this purpose, the LED module to be turned on first through the remote controller is designated, and the designated information is preferably stored in a remote controller or the like.

Although m has been described above, the same principle can be applied to n.

Next, consider a model that considers m and n simultaneously. At this time, a method that can be commonly applied to the method of increasing the efficiency while varying the lighting order according to the brightness level of the illumination is presented. One example of such a method is to control the lighting of the LED module so that the distance of the LED module participating in each illumination brightness level is the farthest away as each illumination brightness level changes. Of course, in the case of a structure having a central structure (when any one of m and n is an odd number, it is centered), it is preferable to initially light it from the center. For example, let's say you have a light with five rows and five columns of LED modules. Let us say that the first light is one, and one light is additionally turned on according to the light brightness level. (3,3) -> (3,3) off, turn on (1,1) and (5,5), or turn on (5,1) and (1,5) (3,3) on -> (3,3) off (1,1), (5,5), (5,1) It is reasonable to set the lighting efficiency. For example, if there are 6 rows and 6 columns of illumination, turn on any one of (3,3), (3,4), (4,3), (4,4) (1, 1) and (6,6) or (1,6) and (6,1) at each corner turn off the distance between each illumination.

The user can control the brightness (brightness) of the lit LED module 205 in addition to the lighting control of turning on or off the LED modules 205 installed in the LED lighting apparatus 200 It can also be adjusted individually.

The various lighting controls allow the user to select a wide range of lighting control, as compared with the conventional LED lighting apparatuses that turn on / off the entire lighting or adjust the brightness of the entire lighting, Only the LED module 205 at the required position is selected and used independently, thereby minimizing power consumption.

The remote controller 100 has a plurality of control channels for independently controlling the plurality of LED modules 205 and the assignment of the individual control channels to the plurality of LED modules 205 through the operation setting of the user And it is possible to set the combination of the LED modules 205 according to the priority.

In addition, the remote controller 100 allocates individual and combination control channels to the plurality of LED modules 205, and transmits the control channels to the plurality of LED modules 205 You can control the on / off lighting and the brightness adjustment of the lighting in whole or in individual and in combination.

1, the remote controller 100 includes an infrared transmitter 101 for transmitting a user's illumination selection signal, a channel allocation button for assigning a control channel to the plurality of LED modules 205, A power button for lighting on / off, a brightness adjustment button for each control channel, and a plurality of function buttons 102 including a control channel selection button.

9 is a reference view showing an example of a function of a remote controller and buttons used in the LED lighting apparatus according to the present invention.

The remote control 100 shown in FIG. 9 is an example of applying two control channels and exemplifies various lighting control functions. However, the present invention is not limited thereto, It should be understood that addition of function buttons for various lighting controls is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. 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.

1 is a functional block diagram illustrating an LED lighting apparatus using a remote controller according to an embodiment of the present invention.

2 is a schematic plan view of an LED lighting device according to the present invention,

3 to 5 are schematic perspective views showing various embodiments of the LED module according to the present invention,

6 is an exploded perspective view illustrating the LED lighting device according to the present invention,

7 is a schematic plan view for explaining a state in which four LED modules are mounted on the LED lighting apparatus according to the present invention,

8 is a schematic plan view for explaining a state in which nine LED modules are mounted on the LED lighting apparatus according to the present invention,

FIG. 9 is a reference view illustrating an exemplary function of a remote controller and a button used in the LED lighting apparatus according to the present invention.

Description of the Related Art

100: remote controller 101: infrared transmitter

102: function button 200: LED lighting device

201: infrared ray receiver 202: control circuit

203: switching mode power supply 204: LED

205: LED module 206: diffusion film

207: glove 208: housing body

Claims (16)

In an LED lighting apparatus used as a lighting lamp for illuminating a room in a home or an office space, An infrared ray receiving unit for receiving an infrared ray illumination selection signal for turning on / off the LED illumination from the remote controller and for adjusting the brightness; A control circuit for outputting a corresponding illumination drive control signal in accordance with an infrared illumination selection signal input from the infrared receiver; A switching mode power supply unit (SMPS) for supplying driving power of a corresponding LED lighting according to an illumination driving control signal of the control circuit unit; A plurality of LED modules in which a plurality of LEDs whose ON / OFF lights and brightness are controlled by a power source applied from the switching mode power supply unit; A diffusion film for diffusing light emitted from the plurality of LEDs according to lighting of the LED module; And And a glove for preventing glare of light emitted from the plurality of LEDs, Wherein the housing main body to which the plurality of LED modules are mounted is a case made of aluminum and has a module heat radiation function for the plurality of LED modules, The remote control has a plurality of control channels, and the plurality of LED modules are allocated a control channel of the remote control, and lighting and brightness are controlled according to a command of an infrared illumination selection signal through the assigned control channel. LED lighting device using remote control. delete The method according to claim 1, The LED module includes: And a plurality of LEDs are sequentially arranged in a longitudinal direction, and the LEDs are mounted in a form of a rail on the housing body. The method according to claim 1, The LED module includes: And a plurality of LEDs arranged in a rectangular shape, and the LED lighting device is mounted in a matrix form on the housing body. 5. The method of claim 4, In the matrix form, Wherein the LED illumination device is implemented in one of a square type in which four or nine square types are mounted, or a rectangular type. 6. The method of claim 5, In a case where the LED module is in the form of a square matrix having four LED modules, priority is given to the module operation control by the control channel of the remote controller so that sequential lighting and blinking control can be performed in accordance with the priority of increasing or decreasing the illumination brightness level LED lighting device using the remote control feature. The method according to claim 6, The lighting sequence of the LED module according to the increase of the illumination brightness level may be such that an LED module set as a default among the four LED modules is firstly turned on and an LED module positioned in a diagonal direction of the LED module set as the default, And the LED module located in the LED module which is set to the default and is lighted in the primary is turned on in the third order, and the LED module located in the secondary-lit LED module is operated in the priority order in which the LED module is lit in the fourth LED lighting device using remote control. 8. The method of claim 7, Wherein the LED module is sequentially turned off according to a sequence in which the LED modules are turned on in the order of priority in the flashing control in which the illumination brightness level is reduced in a state that all the four LED modules are turned on, . 6. The method of claim 5, Wherein when the LED module is in the form of a rectangular matrix composed of nine LED modules, the module operation control of priority is set by the control channel of the remote control so that the sequential lighting and blinking control can be performed according to the priority in which the illumination brightness level is increased or decreased, And the LED module located at the center is set to a default lighting state. 10. The method of claim 9, The lighting sequence of the LED module according to the increase of the illumination brightness level may be such that any one of the remaining eight LED modules is secondarily lit on the basis of the primary lighting of the central LED module set to the default, And the remaining LED modules are sequentially turned on in accordance with the priority of the LED module in the clockwise or counterclockwise direction. 11. The method of claim 10, Wherein the LED modules are sequentially extinguished in a reverse order of the illuminated priority order in the blinking control in which the illumination brightness level is reduced in the ON state of the nine LED modules. 12. The method according to any one of claims 1 to 11, The remote control device A plurality of LED modules connected to the plurality of LED modules, each of the plurality of LED modules having a control channel assigned to the plurality of LED modules; And the brightness of the LED is controlled. 13. The method of claim 12, The remote control device An infrared transmission unit for transmitting a user's illumination selection signal; And A plurality of function buttons including a channel assignment button for assigning a control channel to the plurality of LED modules, a power button for lighting on / off, a brightness adjustment button for each control channel, and a control channel selection button; Wherein the LED lighting device comprises a remote controller. 5. The method of claim 4, In the matrix form, and LED modules composed of m rows and n columns, When the illumination brightness level is given, the priority of the LED modules to be lit up corresponding to the illumination brightness level is determined, Wherein the priority order of the LED modules to be lit is to maximize the sum of the distances between the LED modules participating in the lighting so as to satisfy the respective lighting brightness levels. 15. The method of claim 14, Wherein at least one of m and n is an odd number, the first light corresponding to the illumination brightness level includes an LED module located at the center with respect to odd rows or columns, Lighting device. 5. The method of claim 4, In the matrix form, and LED modules composed of m rows and n columns, When the illumination brightness level is given, the priority of the LED modules to be lit up corresponding to the illumination brightness level is determined, Wherein the priority order of the LED modules to be lit is sequentially lighted in the predetermined direction from the outermost of the m rows or the outermost of the n columns.

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