KR20180060080A - Smart type for LED lighting device - Google Patents

Abstract

The present invention relates to a smart indoor LED lighting device which is technology in which an artificial cooling air supply unit is separately provided, and thus, an LED lamp module is forcibly cooled down, thereby maximizing cooling efficiency of the LED lamp module. In addition, an air quality improving unit using far-infrared rays is installed in the indoor LED lighting device, so that the quality of indoor air is improved by the air quality improving unit while the indoor LED lighting device functions as a lighting device. Moreover, cooling air which exchanges heat while contacting and cooling the LED lamp module is converted into hot air, and the hot air of the cooling air is able to be used to enhance radiating efficiency of the far-infrared rays of the air quality improving unit, thereby maximizing radiation of the far-infrared rays, and thus, it is possible to maximize efficiency of improving the quality of indoor air through the far-infrared rays.

Description

[0001] The present invention relates to a smart type indoor lighting device,

The present invention relates to a smart type indoor lighting device, in which an LED lighting module is installed in an illumination case to reduce the heat generated by the LED lighting module by using wind during the performance of an indoor lighting device, A large amount of far-infrared rays are emitted from the lighting device to the room by using the hot air emitted from the module, thereby simultaneously extending the service life of the LED lighting module and improving the room air function.

In recent years, an indoor lighting device having an LED lamp as a light emitting member has been widely used for reasons of energy saving function and the like.

However, since the lighting device using such an LED lamp has a high heat phenomenon due to the characteristics of the LED lamp, a separate heat sink is installed around the LED substrate to minimize the heat generation.

However, since a plurality of LED lamps emit light at the same time in an indoor lighting device, it is difficult to effectively cool all the LED lamp modules by natural cooling by a simple heat sink.

Therefore, LED lamps have a longer life than other lamps, but due to the electric module structure connected to them, the heat generated by LED lamp modules is larger than other structures.

In addition, existing indoor lighting devices exert only the indoor lighting function as its name, and other functions are not exercised at all.

In a home or office, especially in an office where a lot of people live in a long space determined by a long period of time, air pollution is so severe that the interior of many people is easily tired, and the body rhythm is deteriorated as a whole The phenomenon is remarkable.

Of course, a separate air purifier or the like is used to improve the indoor air. However, since the air purifier must be purchased separately, the economical burden of the air purifier is large, and space for installing the air purifier is also large.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art,

A separate artificial cooling wind supply unit is basically provided so that the LED lamp module can be forcibly cooled through it, thereby maximizing the cooling efficiency of the LED lamp module.

In addition, by installing an air improving unit using far-infrared rays in the indoor lighting device, the indoor air improving effect through the air improving unit can be exerted in the course of exerting the lighting function.

In addition, by maximizing the emission amount of the far-infrared rays by maximizing the far-infrared radiation efficiency of the air-improving section by using the heat of the cooling wind converted into the hot-air type by heat exchange with the LED lamp module while cooling the LED lamp module, Thereby maximizing the improvement efficiency.

The present invention, which is proposed to solve such a problem,

Wherein the main installation space is formed in the lower part and the auxiliary installation space is formed in the upper surface of the auxiliary installation space, and the installation groove is formed on the bottom surface of the auxiliary installation space so as to be recessed downward, Wherein a plurality of cooling wind paths are formed radially around the cooling wind inflow port and one end of the cooling wind path is communicated with the cooling wind inflow port, A case main body having a plurality of cooling wind outlets communicating with the other ends of the respective cooling wind paths; a main body installed on the cooling wind inflow port in the bottom surface of the main installation space, the inside communicating with the cooling wind inflow port, An air blowing case having an air intake hole formed therein, And a blowing fan connected to the driving motor and connected to the cooling wind inflow port, for sucking air outside the blowing case during operation and blowing air to the cooling wind inflow port, And the upper edge is integrally connected with the periphery of the cooling wind discharge port of the upper surface of the main installation space of the case body so that the cooling wind discharge port is located inside, A first coupling groove in the form of a rail is formed along the longitudinal direction in the upper side of mutually facing surfaces of the left and right wall surfaces and a second coupling groove in the form of a rail is formed along the longitudinal direction in the lower side of the first coupling groove A plurality of through holes communicating with the accommodating space and the outside are formed on both left and right side wall surfaces, Wherein the through hole is formed in a shape that the diameter becomes narrower toward the outer side from the installation space side and a plurality of buried grooves are arranged at the lower edge, a plate shaped as an entirely mesh structure, and a charcoal block, an ocher block, A plurality of far-infrared ray diverging members disposed in the receiving space of the installation box and having opposite side edges inserted into the first connection holes in a sliding manner, And a plurality of LED lamps disposed on the lower surface of the PCB substrate with a space therebetween, the PCB substrate being vertically and horizontally positioned with the receiving bag as sliding sides of the first and second connecting grooves are slidably inserted into the second connecting grooves, And is embedded in each of the buried grooves of the installation box An electric cylinder having a cylinder body in which a lower end portion is exposed through the buried groove and a cylinder rod which can be lifted up and down in a linear direction through a lower end portion of the cylinder body through a power supply in a state of being inserted and accommodated in the cylinder body; And the upper surface is connected to each of the cylinder rods so as to be able to move up and down together with the cylinder rod, and the upper surface of the cylinder can be moved downward from the middle point toward both sides of the rim A lamp shade in a form inclined toward the front,

A temperature sensor disposed in the accommodation space of the installation box and detecting whether the temperature in the accommodation space is within the set range by checking the temperature in the accommodation space in the process of emitting the LED lamp, And an electric control unit connected to the electric cylinder and operating the driving motor, the blowing fan and the electric cylinder according to a temperature in the accommodation space through the temperature sensing sensor,

The operation of the electric cylinder is interrupted so that the upper surface of the lamp shade is in close contact with the lower edge of the installation box, and when the temperature of the LED lamp Infrared rays are further diverted to the outside through the respective through holes of the installation box as the far-infrared ray diverging member is heated by the heat generated by the temperature sensor, When the temperature is high, the electric control unit operates the driving motor and the air intake fan to inject air from the outside into the LED board through the cooling air inlet, the cooling wind path, and the cooling air outlet, The temperature of the LED lamp is maintained at an appropriate level, and the far infrared ray, which is actively emitted by the heat of the LED lamp, The electric control unit operates the electric cylinder to lower the lamp shade as the cylinder rod descends, so that the clearance between the lower edge of the installation box and the upper surface of the lamp shade is reduced And the far-infrared rays can actively spread along with the cooling wind to the room atmosphere through the gap according to the spreading.

According to the present invention,

The PCB substrate and the LED lamp emit light to the room, and during the process of self-heating in this process, the far-infrared radiation member in the air-improving case installed in the installation box is heated, so that a large amount of far-infrared rays are continuously emitted to the indoor air outside the installation box The indoor air can be purified through the far-infrared rays generated by the far-infrared ray diverging member at all times during the process of the indoor lighting,

Infrared radiation is more active in the heating due to the characteristics of the far infrared rays, so that the heat generated during operation of the LED lamp and the PCB substrate is utilized as a catalyst material for promoting the far-infrared radiation of the far-infrared radiation member, In addition to the indoor lighting function, the indoor air purifying function and the metabolism of the human body are actively activated as the indoor lighting function continuously emits a large amount of far-infrared rays into the indoor air during the performance of the indoor lighting function.

When the LED lamp is normally heated, the upper surface of the lamp shade and the lower edge of the installation box are closely contacted with each other. Accordingly, the light irradiated through the LED lamp normally passes through the lamp shade and is irradiated to the room, and the infrared rays emitted from the far- Through the through holes of the installation case, toward the outside of the installation case,

When the heat level of the LED lamp exceeds the normal range, the temperature sensor senses the temperature of the LED lamp, and the electric control unit operates the blowing fan to suck the outside air, that is, the cooling wind, The heat of the LED lamp and the PCB board can be lowered to the normal range by the cooling wind. In this process, the lamp shade is lowered by the electric cylinder so that the gap between the upper surface of the lamp shade and the lower edge of the installation case is opened The temperature of the installation case can be lowered more easily because the cooling wind that has cooled the LDE lamp can easily escape to the outside of the installation case. In addition, in the process of the cooling wind being taken out of the installation case, The far infrared rays can be spread out over a wide range in the atmosphere after strongly escaping to the outside together with the cooling wind Therefore, it is possible to maximize the air purification efficiency by the far-infrared rays and the long-term efficiency of the human body.

1 is a cross-
Fig. 2 is a cross-
3 is a plan view schematically showing a structure for forming a cooling air inlet, a cooling air passage and a cooling air outlet,
4 is a front sectional view showing a state in which the far-infrared rays emitted from the far-infrared ray diverging member in a state where the temperature inside the installation case is at a normal level are continuously diverted to the outside through the respective holes of the installation case
5 is a view showing a state in which the temperature of the LED lamp and the PCB substrate is lowered by blowing the cooling air through the blowing fan when the temperature inside the installation case exceeds the normal range. In this process, the lamp shade descends through the electric cylinder, And cooling of the PCB board is smoothly installed. Exhausted to the outside of the case. Installation of the far-infrared ray through the cooling wind.

Hereinafter, the present invention will be described in more detail with reference to the embodiments of the present invention shown in FIGS. 1 to 5.

The smart type indoor lighting apparatus according to the present invention includes a case body 10, a blowing case 17, a driving motor 19, a blowing fan 20, an installation box 21, an air improving member 27, 30, an LED lamp 31, an electric cylinder 32, a lamp shade 35, a temperature sensor 37 and an electric control unit 38.

The case body 10 serves as a casing of the indoor lighting device according to the present invention. The case body 10 is generally box-shaped and has a lower portion opened and a main installation space 11 formed therein.

An auxiliary installation space 12 is formed on the upper surface of the case main body 10 so as to be depressed downwardly. An air blowing case 17 to be described later and cooling An installation groove 13 for forming the air inlet 14 is formed to be depressed downward.

The bottom surface of the installation groove 13 is formed with a cooling air inlet 14 for supplying the air sucked from the outside, that is, the cooling air for cooling the PCB substrate 30 and the LED lamp 31 to be described later.

In this state, the inside of the case body 10 is provided with a cooling wind path 15 for guiding the cooling wind introduced through the cooling wind inflow port 14 to the cooling wind discharge port 16 to be described later through the inside of the case body 10 The one end of the cooling wind path 15 is formed in the inside of the case body 10 in a state of being connected to the cooling wind inflow port 14 in the form of a passage.

At this time, the cooling wind path 15 is radially arranged around one cooling wind inflow port 14, so that the cooling wind introduced through the one cooling wind inflow port 14 passes through the respective cooling wind path 15 And is dispersed toward each of the cooling air discharge openings 16 to be described later inside the case body 10.

In this state, a plurality of cooling air discharge openings 16 for discharging the cooling air are formed at a position where the other end of each cooling air passage 15 is located in the upper surface of the main installation space 11, 16) are formed in a shape that increases in area toward the bottom, so that it is possible to diffuse and discharge the air to a widest possible range at the cooling wind discharge point.

The case body 10 described above is provided with a blowing case 17.

The air blowing case 17 serves as a cover for protecting the blowing fan 20 and the drive motor 19, which will be described later.

The air blowing case 17 is in the form of a box with its bottom opened as a whole and its lower end is seated in the installation groove 13 of the auxiliary installation space 12 of the case body 10 so that the inside thereof is communicated with the cooling wind inflow port 14 State.

At this time, an air intake hole 18 for introducing outside air is formed on one side of the air blowing case 17.

The driving motor 19 and the air blowing fan 20 provided in the air blowing case 17 force the outside air for cooling the PCB board 30 and the LED lamp 31, 17) and then flows into the cooling wind inflow port (14).

The driving motor 19 is a general electric motor and is fixed inside the air blowing case 17 and the air blowing fan 20 has a suction fan structure such as a general sirocco fan and is driven by the driving motor 19 in a state of being positioned in the air blowing case 17. [ And has a structure in which an intake force is exerted while being rotated when the drive motor 19 is operated.

As a result, as the blowing fan 20 rotates by the drive motor 19, the air outside the blowing case 17 is forcibly drawn in through the air intake holes 18, and at the same time, And then moved along the respective cooling wind traveling paths 15 and then discharged to the outside through the respective cooling wind discharging openings 16. [

 The upper end portion of the air blowing case 17 is manufactured to have a size not exceeding the upper end portion of the auxiliary installation space 12 of the case body 10 so that the air blowing case 17 does not unnecessarily contact So as not to interfere with installation.

In this state, the case body 10 is provided with the installation box 21.

The installation box 21 is for installing a PCB substrate 30, an LED lamp 31 and an air improving member 27 to be described later. The installation box 21 is formed as a box shape in which the upper and lower portions are opened as a whole, And the upper rim thereof is integrally attached to the periphery of each cooling air outlet 16 in the upper surface of the main installation space 11 of the case body 10 so that each cooling air outlet 16 is located in the receiving space 22 .

At this time, a rail-shaped first fastening groove 23 for mounting a receiving bag 28, which will be described later, is formed in the inner wall of the right and left side walls of the installation box 21 in a linear rail structure along the longitudinal direction, A second coupling groove 24 in the form of a rail for mounting a PCB substrate 30 to be described later is formed along the longitudinal direction.

Infrared rays emitted from a far-infrared ray radiating member 29, which will be described later, are connected to the installation box 21 together with the cooling wind discharged through the respective cooling wind outlets 16, The through hole 25 is formed so as to become narrower toward the outer side from the receiving space 22 so that strong discharge of the cooling air and the far infrared ray can be performed like a nozzle do.

In the lower edge of the installation box 21, buried grooves 26 for installing the electric cylinders 32 to be described later are formed at intervals along the rims.

In this state, the installation box 21 is provided with the air improving member 27.

The air improving member 27 uses the self-heating of the LED lamp 31, which will be described later, as a catalyst to emit far-infrared rays and negative ions to the outside, thereby promoting the function of purifying the room air and the metabolism of people located in the room And is constituted of the bag 28 and the far-infrared ray diverging member 29 again.

The receptacle 28 serves as a case for receiving a far-infrared ray diverting member 29 to be described later. The receptacle 28 is formed as a thin plate as a whole and has a mesh structure as a whole. The far-infrared ray diverging member 29 A space is formed.

The far-infrared ray radiating member 29 actually emits far infrared rays and negative ions, and is made of a material capable of emitting far infrared ray and anion itself such as charcoal, loess or jade.

At this time, since the far-infrared ray diverting member 29 is formed in a block shape, the far infrared rays and negative ions from the inner far-infrared ray diverging member are prevented from being generated, So that it can be released smoothly.

Therefore, the far-infrared ray diverting member 29 is filled in each of the containing pouches in a state of being manufactured in the form of a charcoal block, an ocher block, or an oobe block depending on the material.

For reference, the far-infrared ray diverging member 29 has the characteristic that the emission of the far-infrared rays is maximized when heated due to the common characteristics.

At this time, since the receiving bag 28 is made of a metal material, the flat plate structure can be maintained at all times, and the LED lamp 31 can be easily heated by the heat generated by the LED lamp 31, 29) to further promote heating.

In this state, as the side edges of the receiving bag 28 are inserted into the first fastening grooves 23 of the installation box 21 in a sliding manner, the upper surface thereof is vertically opposed to the respective cooling wind discharging openings 16 .

A PCB board 30 is further installed in each installation box 21,

The PCB substrate 30 serves as a circuit configuration necessary for the LED lamp 31 and the LED lamp 31 to be described later, and is formed as a general PCB substrate in the form of a plate as a whole.

A plurality of LED lamps 31 are arranged on the lower surface of the PCB substrate 30 so as to emit light substantially to emit light.

In this state, the PCB substrate 30 is vertically and horizontally positioned with the receiving bag 28 in the installation box 21 as both sides of the PCB substrate 30 are inserted into the second connection grooves 24 in a sliding manner.

For reference, the PCB substrate 30 is electrically connected to a separate electric power control unit 38 to receive external power.

With this structure, each LED lamp 31 is self-generated in the light emission process, and such heat is generated as a whole on each PCB board 30 connected to the LED lamp 31. [

Therefore, due to such a heating phenomenon, the far-infrared ray diverging member 29 accommodated in the receiving bag and the infrared ray emitting diaphragm 29 disposed thereon are heated to some extent, and the far-infrared ray diverging member 29 itself emits a far- .

A separate electric cylinder 32 is installed in the installation box 21.

The electric cylinder 32 functions as a connection between the lamp shade 35 and the installation box 21 to be described later and to ventilate the inside of each installation box 21 as the lamp shade 35 is moved up and down. That is, a cylinder body 33 and a cylinder rod 34,

The cylinder body 33 is positioned in a state in which the lower end portion of the cylinder body 33 is exposed through the respective buried grooves 26 while being inserted into each of the buried grooves 26 formed in the installation box 21. [

In this state, the cylinder rod 34 is structured so as to be lifted up and down in the vertical direction through the lower end of the cylinder body 33 through the external power supply in a state of being inserted and accommodated in the respective cylinder bodies 33.

For reference, since the known technology is applied to the electric cylinder, detailed description of the detailed structure and operation principle is omitted.

A lamp shade 35 is connected to the electric cylinder 32.

The lamp shade 35 plays a role of protecting the LED lamp 31 and guiding the light emitted from the LED lamp 31 to be diffused and irradiated.

The lamp shade 35 is in the form of a light-transmitting glass or plastic plate as a whole and is located in the form of blocking the lower end of the installation box 21 and the upper surface thereof is connected to the lower end of each cylinder rod 34 of each electric cylinder 32, And has a structure in which the rod 34 is lifted and lowered together with the lifting operation.

At this time, since the upper surface of the lamp shade 35 is inclined downward from the intermediate point toward both sides, the light irradiated downward from the LED lamp 31 spreads in all directions along the inclined surface of the lamp shade 35 To be irradiated.

For reference, normally, the upper surface of the lamp shade 35 is completely in contact with the lower edge of the installation box 21, so that the inside of the installation box is unnecessarily opened to prevent the phenomenon that dust or the like flows into the installation box do.

In this state, a temperature sensor 37 is installed in each of the installation boxes 21.

When the temperature inside the installation box 21 is higher than a proper level due to the heat generated when the LED lamps 31 emit light in the structure in which the inside of the installation box 21 is sealed, It is a role to play.

The temperature sensor 37 is positioned around the PCB substrate 30 in the inner wall of the installation box 21 to continuously check the temperature around the PCB substrate 30 and the LED lamp 31.

The temperature sensor 37 is connected to a separate electric control unit 38. The electric control unit 38 basically transmits or cuts external power to the PCB substrate 30 to control whether the LED lamp 31 emits light Function,

And controls the operation of the drive motor 19, the blower fan 20 and the electric cylinder 32 according to the temperature around the LED lamp 31 in the installation box 21 through the temperature sensor 37 do.

According to the above-described structure, in the smart type room lighting apparatus according to the present invention,

The LED lamps 31 emit light at the same time through the power supply, and the light irradiated by the light is transmitted through the lamp shade 35 and then irradiated to the room.

In this process, the LED lamp is heated during the light emission process of the LED lamp 31. At this time, when the temperature inside the accommodation space 22 of the installation box 21 sensed through the temperature sensor 37 is in the normal range, The electric cylinder 32 is kept in a non-operating state, that is, the upper surface of the lamp shade 35 is in close contact with the lower edge of the installation box 21. [

In this process, far-infrared rays and negative ions are basically emitted from the far-infrared ray diverging member 29 in each bag 28, but the far-infrared rays and anion dissipation of the far-infrared rays diverging member 29 are generated by the heat of the LED lamp 31 More active.

Far infrared rays and negative ions emitted from each far infrared ray diverging member 29 are normally emitted to the outside through the through holes 25 of the installation box 21 and diffuse into the indoor air, So that it has a good effect on the air purification function of the room, as well as on the metabolism of each person in the room.

During this process, when the temperature inside the accommodation space 22 sensed by the temperature sensor 37 exceeds the normal range, the sensed temperature is sensed and the corresponding sensed signal is transmitted to the electric control unit 38, The outside air of the air blowing case 17, that is, the cooling air is sucked into the air blowing case 17 and flows into the cooling air inflow port 14 as the driving motor 19 and the air blowing fan 20 operate.

The introduced cooling wind is moved along each cooling wind traveling path 15 in the case body 10 and is discharged into each installation box 21 through each cooling wind discharge opening 16.

When the temperature of the LED lamp 31 and the PCB substrate 30 reaches an appropriate level as the LED lamp 31 and the PCB substrate 30 come into contact with each other as the cool air having a relatively low temperature is discharged into the installation box 21, The cooling effect is obtained.

As described above, since the separate blowing structure is provided and the heat generated in the light emission process of the LED lamp 31 is suppressed to an appropriate level, the service life of the LED lamp 31 can be sufficiently extended.

In this process, since the far-infrared ray diverging member 29 in the receiving bag 28 has already emitted the far-infrared rays and negative ions in a heated state by the heat generated by the LED lamp 31 and the PCB 30, The negative ions can be diffused more strongly to the discharge air through the respective through holes 25 of the installation box 21 by the discharge of the cooling wind.

The electric lamp 32 is operated and the cylinder rod 34 is lowered so that the lamp shade 35 is also lowered so that the gap between the lower edge of the installation box 21 and the upper surface of the lamp shade 35 The far infrared ray and the negative ion present in the installation box 21 are more actively discharged to the outside of the installation box through the clearance 36 and actively diffused into the indoor atmosphere.

As the lamp shade descends, the LED lamp 31 and the PCB substrate 30 are brought into contact with each other and the heat-exchanged cooling wind is actively discharged to the outside of the installation box 21, so that the ventilation effect inside the installation box 21 can be obtained Not only the temperature drop in the installation box can be further actively performed, but also the far-infrared rays emitted from the far-infrared ray diverging member 29 and the negative ions are actively discharged together with the cooling wind discharged thereby to obtain a high diffusion effect.

Thereafter, when the temperature in the installation box is lowered to an appropriate level, the temperature sensor 37 senses the temperature, and the lamp shade 35 rises again through the electric cylinder 32 so that the upper surface of the lamp shade 35 rises at the lower end of the installation box 21 And the far infrared ray and the negative ion are emitted only through the respective through holes 25 of the installation box 21 in a state where the discharge of the cooling wind is stopped.

When the temperature of the installation box 21 rises to an appropriate level or higher by the heat generated by the LED lamp 31, the cooling process of the LED lamp 31 and the mass emission process of the far infrared ray and the negative ion are simultaneously performed .

10: case body 11; main installation space
12; auxiliary installation space 13; installation groove
14: a cooling wind inlet 15;
16: a cooling air outlet 17;
18: an intake hole 19;
20; a blowing fan 21; an installation box
22, a receiving space 23, a first fastening groove
24, a second fastening groove 25, a through hole
26: buried groove 27: air improving member
28, a receiving bag 29, a far infrared ray radiating member
30; PCB board 31; LED lamp
32, an electric cylinder 33,
34, a cylinder rod 35, a lamp shade
36; Clearance 37; Temperature sensor
38,

Claims (1)

Wherein the main installation space is formed in the lower part and the auxiliary installation space is formed in the upper surface of the auxiliary installation space, and the installation groove is formed on the bottom surface of the auxiliary installation space so as to be recessed downward, Wherein a plurality of cooling wind paths are formed radially around the cooling wind inflow port and one end of the cooling wind path is communicated with the cooling wind inflow port, A case main body having a plurality of cooling wind outlets communicating with the other end of each cooling wind path,
A blowing case located on the cooling wind inflow port of the bottom surface of the main installation space, the inside of the bottom surface being in communication with the cooling wind inflow port,
A driving motor disposed inside the air blowing case and connected to the driving motor in a state located inside the air blowing case and connected to the cooling air inlet, A blowing fan for blowing air to the inlet,
And the upper edge is integrally connected with the periphery of the cooling wind discharge port of the upper surface of the main installation space of the case body so that the cooling wind discharge port is located inside, A first coupling groove in the form of a rail is formed along the longitudinal direction in the upper side of mutually facing surfaces of the left and right wall surfaces and a second coupling groove in the form of a rail is formed along the longitudinal direction in the lower side of the first coupling groove A plurality of through holes communicating with the accommodating space and the outside are formed on both left and right side wall surfaces, and each of the through holes has a shape in which the diameter becomes narrower toward the outer side from the installation space side, and a plurality of buried grooves are arranged at the lower edge Installation box,
Wherein at least one of a charcoal block, a yellow loam block, and a jade or far infrared ray radiating member is accommodated in the inside of the installation box, and both side edges of the installation box are slidably inserted into the first fastening groove A receiving bag,
A PCB substrate having a plate shape and positioned in a receiving space of the installation box and having both side edges inserted into the second connection grooves in a sliding manner, A plurality of LED lamps spaced apart,
A cylinder body disposed in the form of being embedded in each of the buried grooves of the installation box and having a lower end exposed through the buried groove and a cylinder body accommodated in the cylinder body, An electric cylinder having a cylinder rod capable of being lifted and lowered in a linear direction,
And the upper surface is connected to each of the cylinder rods so as to be able to move up and down together with the cylinder rod, and the upper surface of the cylinder is routed from the intermediate point to both sides of the rim A lamp shade,
A temperature detection sensor located within the accommodation space of the installation box and checking whether the temperature in the accommodation space is within the set range by checking the temperature in the accommodation space in the process of emitting the LED lamp,
An electric control unit connected to the temperature sensing sensor, the driving motor, and the electric cylinder and operating the driving motor, the blowing fan and the electric cylinder according to the temperature in the accommodation space through the temperature sensing sensor,
Lt; / RTI >
The operation of the electric cylinder is interrupted so that the upper surface of the lamp shade is in close contact with the lower edge of the installation box, and when the temperature of the LED lamp The far-infrared rays emitted from the far-infrared ray diverging member are continuously radiated to the outside through the through holes of the installation box,
When the temperature in the accommodation space detected through the temperature sensor is a high temperature exceeding the normal range, the electric control unit operates the drive motor and the intake fan to supply the air drawn from the outside to the cooling wind inflow port, The temperature of the LED lamp and the LED substrate is maintained at an appropriate level as the LED lamps and the LED substrate are sprayed toward the LED substrate through the air outlet and the far infrared rays actively emitted by the heat of the LED lamp are spread more strongly into the atmosphere by the cooling wind In this process, the electric control unit operates the electric cylinder to lower the lamp shade as the cylinder rod descends, and as the gap between the lower end of the installation box and the upper surface of the lamp shade opens, the far-infrared ray passes through the gap Which can actively spread with the cooling wind to the room atmosphere Characterized by
Smart type indoor lighting device.

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