KR101867346B1 - Lighting device - Google Patents

Abstract

The present invention relates to a lighting device, and it is an object of the present invention to provide a lighting device capable of accommodating both an additional lighting device and a living plant.
A lighting apparatus according to the present invention includes: a first container portion forming a light emitting surface and forming a first accommodation space; A seating portion provided in the first container portion, the seating portion being detachably placed in the first accommodation space; A light source unit installed in the first container unit and emitting light toward the first container unit or the outside; A light source driving unit installed in the first container unit and adapted to receive power from a power supply unit and to drive the light source unit; And a controller installed in the light source driving unit and controlling the light source unit and the light source driving unit.

Description

LIGHTING DEVICE

The present invention relates to a lighting device, and it is an object of the present invention to provide a lighting device capable of accommodating both an additional lighting device and a living plant.

In general, pollen or vases have a certain color that is determined when they are first made, and they can not change the color of such pollen or vases. As a result, there has been a problem that pollen or vases can only be used for plants or flowers having their own colors and appropriate colors in order to improve the aesthetics (for example, to match the color of a flower with the color of a vase) . In addition, the conventional pots and vases have no function other than the function of accommodating plants or flowers, and the plants or flowers contained in the pots or vases maintain their survival only by the natural light, thereby prolonging the survival life of flowers or plants Or growth can not be promoted.

In addition, the conventional flower-shaped and vase-shaped illumination devices are integrally formed. Therefore, there has been a problem that it is not possible to replace the flower-shaped illumination device of various shapes and colors according to the user's taste.

It is an object of the present invention to provide a lighting apparatus which solves the problems in the prior art.

More specifically, it is an object of the present invention to provide a lighting apparatus capable of accommodating a flower-shaped independent lighting unit operable with a lighting apparatus as well as accommodating a living plant.

Another object of the present invention is to provide a lighting device capable of suitably changing the color of the container depending on the color and kind of various flowers or plants or according to the season.

Still another object of the present invention is to provide a lighting device capable of promoting the growth of plants or flowers contained in containers.

It is still another object of the present invention to provide a lighting apparatus that is interlocked with a lighting apparatus and can detachably receive a flower-shaped independent lighting unit.

According to an aspect of the present invention, there is provided a light emitting device comprising: a first container part forming a light emitting surface and forming a first accommodation space; A seating portion provided in the first container portion, the seating portion being detachably placed in the first accommodation space; A light source unit installed in the first container unit and emitting light toward the first container unit or the outside; A light source driving unit installed in the first container unit and adapted to receive power from a power supply unit and to drive the light source unit; And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit.

Here, the light source unit may include at least one red-based light source, at least one blue-based light source, and at least one green-based light source.

The red light source, the blue light source, and the green light source are laminated, and at least one light source, the blue light source, and the green light source are provided on the light emitting surface of the red light source, A diffusion unit may be provided.

In addition, the red-based light source, the blue-based light source, and the green-based light source may be planar light sources composed of organic light emitting diodes.

The first container unit may include a surface light source unit including an organic light emitting diode, and the surface light source unit may be driven by the light source driving unit.

The light emitting surface of the surface light source unit may further include a diffusion coating unit for diffusing light emitted from the surface light source unit to the outside.

The light source unit may further include a lid unit that concentrates the light emitted from the light source unit toward the first accommodation space.

The upper part of the lid part may be made of a light transmissive or semi-transmissive material, and a reflective coating part may be provided on an inner side surface of the lid part to reflect light emitted from the light source part toward the first accommodation space.

The light source driving unit may include a constant current module that controls the light source unit by a constant current.

In addition, the controller may control the light source unit and the light source driving unit such that intensity of light or color of light emitted from the light source unit changes according to the to-be-received portion.

In addition, the light source driving unit may include a timer for recognizing the current date, and the controller may determine the current season based on the current date recognized in the timer, and determine the intensity of the light or the light emitted from the light source unit according to the current season The light source unit and the driving unit can be controlled to change the color.

Also, the receiving portion may include at least one independent illumination unit including a light source module that emits light and a power connection unit that is electrically connected to the light source module.

The seating portion may include at least one connection portion to which the power connection portion is connected, and the connection portion may be electrically connected to the light source driving portion.

In addition, the independent illumination unit may further include a replaceable fragrance injection unit.

Further, the fragrance sprayer may spray the fragrance sprayer at predetermined time intervals.

In addition, the controller may control the light source driver to change the intensity of light emitted from the light source module.

Also, the controller may control the light source driving unit to change color or intensity of light emitted from the light source unit of the first container unit according to the color of the light emitted from the light source module or the intensity of the light.

In addition, the to-be-adhered portion may include a second container portion forming a second accommodation space for accommodating a living plant.

In addition, the first container portion may include a light-guiding portion on the light-exiting surface side of the light source portion such that light emitted from the light source portion is directed to the upper portion of the second container portion or the second accommodation space.

The apparatus may further include an input unit for receiving an input signal of a user for adjusting intensity of light or color of light in the light source unit.

In addition, the second container portion may have a protruding portion at a lower portion thereof, and the seating portion may include a guide groove into which the protruding portion is inserted.

In addition, the guide groove may be provided with a sensor unit for sensing whether or not the second container unit is open.

The sensor unit may be one of a piezoelectric sensor, a proximity sensor, and an optical sensor.

The controller may control the light source driving unit to emit light in a wavelength band that promotes the growth of the living plants, when the light source unit determines that the second container unit is placed on the seating unit based on the sensor unit have.

According to another aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: a first container portion forming a first accommodation space; At least one or more independent illumination units for emitting light are detachably placed in the first accommodation space; At least one light source unit installed below the first container unit and emitting light toward the first container unit or the outside; A light source driving unit installed at a lower portion of the first container unit and adapted to receive power from a power supply unit and to drive the light source unit and the independent illumination unit; And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit.

According to another aspect of the present invention, there is provided a display device including a first container portion forming a first accommodation space; A seating portion provided in the first container portion and having a second container portion forming a second accommodation space for accommodating a living plant detachably placed in the first accommodation space; At least one light source unit installed in the first container unit and emitting light toward the first container unit and the second container unit; A light source driving unit installed in the first container unit and receiving power from a power supply unit and driving the light source unit; And a control unit installed in the light source driving unit to control the light source unit and the light source driving unit, wherein the control unit controls the light source driving unit to emit light of a wavelength band that promotes the growth of the living plants .

According to another aspect of the present invention, there is provided a display device including a first container portion forming a first accommodation space; At least one independent illumination unit for emitting light and a second container unit for accommodating a living plant are detachably placed in the first accommodation space, the seating unit being installed at a lower portion of the first container unit; At least one light source unit installed below the first container unit and emitting light toward the first container unit and the second container unit; A light source driving unit installed at a lower portion of the first container unit and adapted to receive power from a power supply unit and to drive the light source unit and the independent illumination unit; And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit. The independent illumination unit may include a light source module positioned above the second container unit and emitting light in a downward direction .

At this time, the controller may control the light source driving unit so that at least one of the light source unit and the independent illumination unit emits light of a wavelength band that promotes the growth of a living plant.

According to a preferred embodiment of the present invention, the present invention can accommodate not only a living plant but also a flower-shaped independent illumination unit interlocked with a lighting device. That is, the present invention can be used as a container for holding a living plant, a container for receiving an independent lighting unit, or a container for holding a living plant and an independent lighting unit at the same time, have.

Further, the color of the container can be appropriately changed according to the color and kind of the various flowers or plants according to the present invention, or according to the season or the user's choice, so that a user-customized container can be provided. In addition, this eliminates the inconvenience of buying various pots or containers to match the color of the plant, and saves space for storing unused pots and containers.

In addition, the present invention can promote the growth of plants or flowers housed in a vessel, thereby allowing plants or flowers to remain in an always-flowered state or to prolong the survival life of plants or flowers.

Further, the present invention can interlock with the lighting device and detachably receive the flower-shaped independent illumination unit, thereby greatly improving the selection range of the user for improving the aesthetics. In addition, the independent lighting unit of various shapes or colors can be selected and replaced, thereby enabling the user to produce various lighting apparatuses.

1 is a schematic block diagram of a lighting apparatus according to the present invention.
2 is a schematic perspective view of a lighting apparatus according to a first embodiment of the present invention.
FIG. 3 is a schematic perspective view of the main illumination unit of FIG. 2. FIG.
4 is a schematic exploded perspective view of the main illumination unit of FIG.
Figure 5 is a schematic perspective view of the seat of Figure 3;
Figure 6 is a schematic perspective view of the main illumination unit according to a further embodiment of Figure 2;
FIG. 7 is a schematic perspective view of the independent illumination unit of FIG. 2. FIG.
8 is a schematic perspective view of a lighting apparatus according to a second embodiment of the present invention.
Fig. 9 is a schematic perspective view of the main illumination unit of Fig. 8. Fig.
10 is a schematic exploded perspective view of the main illumination unit of FIG.
11 is a schematic perspective view of the seating portion of Fig.
FIG. 12 is a schematic perspective view of the second container portion of FIG. 8; FIG.
13 is a schematic perspective view of the main illumination unit according to a further embodiment of FIG.
14 is a schematic perspective view of a third embodiment of the present invention.
15 is a schematic perspective view of the main illumination unit of FIG.
16A and 16B are a schematic perspective view and a bottom view of the second container portion of Fig.
17 is a schematic perspective view of the independent illumination unit of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

1 is a schematic block diagram of a lighting apparatus according to the present invention.

1, a lighting apparatus according to the present invention includes a sensor unit 1110 for sensing external information (for example, time, amount of sunshine, etc.), an input unit 1130 for receiving a user's input signal, A light source unit 1400 for emitting light, a seating unit 1300 electrically connected to at least one or more independent illumination units 1700, an independent illumination unit 1700 and / A light source driving unit 1500 for driving the light source unit 1400 and a light source driver 1500 for driving the light source unit 1500 based on the external information sensed by the sensor unit 1110 and / And / or a control unit 1600 for controlling the light source unit 1400.

The lighting device may be formed in a container shape as a whole as shown in FIG.

The sensor unit 1110 includes, for example, a light intensity sensor that senses a light amount of the external environment (for example, a sun light amount of the sun light), a piezoelectric sensor that determines whether or not the second container unit 2800 is in an open state, Sensors, proximity sensors, and the like.

The input unit 1130 receives the user's input signal and can control the color and intensity of light emitted from the light source unit 1400 through the control unit 1600 and the light source driver 1500. The input unit 1130 may be, for example, a dial button, a push button, or a touch screen.

The power supply unit 1150 may be a battery that supplies DC power or a power plug connected to an outlet to supply AC power, or may be a solar cell. In terms of portability, the power supply unit 1150 is preferably a battery.

The light source 1400 may be, for example, an LED light source, an OLED (i.e., organic light emitting diode) light source, an LED panel, an OLED panel, an edge type LED light source, or an edge type OLED light source. The light source unit 1400 includes at least one red light source, at least one blue light source, and at least one green light source. Preferably, the at least one red-based light source, the at least one blue-based light source, and the at least one green-based light source may be planar light sources composed of OLEDs.

The seat portion 1300 is configured to detachably mount the independent illumination portion 1700 and is configured to receive power from the light source driver 1500 and provide power to the independent illumination portion 1700. [ In addition, the seating part 1300 is configured to be detachably attached to a second container part 2800 that accommodates a biological plant F or a harmony plant, which will be described later.

The independent illumination unit 1700 may be a device that emits light separately from the illumination device, for example, a flower-shaped illumination device, a plant-shaped illumination device, or a geometric-shaped illumination device. The independent illumination unit 1700 may be interlocked with the illumination unit.

The light source driver 1500 is configured to convert the power supplied from the power supply unit 1150 into power suitable for driving the light source unit 1400 or the independent illumination unit 1700. For example, when the power supply unit 1150 supplies AC power, the light source driver 1500 may convert AC power supplied from the power supply unit 1150 into AC power for driving the light source unit 1400, DC converter.

The light source driving unit 1500 may include a constant current module 1510 having a good temperature characteristic in order to adjust the color or intensity of light emitted from the light source unit 1400 or the independent illumination unit 1700. The constant current module 1510 may be controlled by a PWM (Pulse Width Modulation) control method from the controller 1600.

The control unit 1600 controls the amount of current supplied from the light source driver 1500 to the light source 1400 or the independent illumination unit 1700 based on the input signal from the sensor unit 1110 or the input unit 1130, And the intensity or color of the light emitted from the independent light source 1400 can be controlled.

According to another aspect of the present invention, there is provided an illumination device comprising: a first container part forming a light receiving surface and forming a first accommodation space; A seating portion provided in the first container portion, the seating portion being detachably placed in the first accommodation space; A light source unit installed in the first container unit and emitting light toward the first container unit or the outside; A light source driving unit installed in the first container unit and adapted to receive power from a power supply unit and to drive the light source unit; And a controller installed in the light source driving unit and controlling the light source unit and the light source driving unit. Here, as described above, the receiving portion may be an independent illumination portion, a second container portion, or the independent illumination portion and the second container portion.

Hereinafter, the first to third embodiments of the lighting apparatus according to the present invention will be described with reference to the type of the receiving portion.

FIG. 2 is a schematic perspective view of a lighting apparatus according to a first embodiment of the present invention, FIG. 3 is a schematic perspective view of the main lighting unit 1000 of FIG. 2, And FIG. 5 is a schematic perspective view of the seating portion 1300 of FIG.

2, the illumination apparatus according to the present invention includes a main illumination unit 1000 that emits light and an independent illumination unit 1700 that is detachably installed in the main illumination unit 1000 and emits light .

As shown in FIGS. 2 to 4, the main illumination unit 1000 includes a first container unit 1200 that forms a light emitting surface and forms a first accommodation space; A seating part (1300) installed in the first container part (1200) and in which at least one or more independent illumination part (1700) for emitting light is detachably placed in the first accommodation space; A light source unit 1400 installed in the first container unit 1200 and emitting light toward the first container unit 1200 or the outside; A light source driver 1500 installed in the first container unit 1200 and adapted to receive power from a power supply unit and to drive the light source unit 1400 and the independent illumination unit 1700; And a control unit installed in the light source driving unit 1500 and controlling the light source unit 1400 and the light source driving unit 1500.

3 and 4, the first container unit 1200 forms a light emitting surface through which the light emitted from the light source unit 1400 is emitted to the outside, 1 accommodating space. 3, the first container unit 1200 may have any shape as long as it can form a first accommodation space. The first container part 1200 is preferably made of a light-transmitting material.

3 and 4, a seating portion 1300 in which the independent illumination portion 1700 is detachably placed is disposed below the first container portion 1200 (or inside the first accommodation space).

As shown in FIG. 5, the seating part 1300 includes an insertion groove 1301 into which an end of the independent illumination part 1700 is inserted. A connection portion 1303 (for example, a connection terminal 1705) for supplying the power supplied from the power supply portion to the independent illumination portion 1700 is provided on the bottom surface of the insertion groove 1301. At this time, the connection unit 1303 is electrically connected to the light source driver 1500 and the power supply unit.

The guide recess 1301 of the seating portion 1300 may be provided with a guide recess 1701 for allowing the power connection portion 1703 of the independent illumination portion 1700 to be easily connected to the connection portion 1303 of the seating portion 1300. [ (1305) may be provided. At this time, a guide protrusion 1707 corresponding to the shape of the guide groove 1307 is provided at the end of the independent illumination part 1700 as described later.

Preferably, a guide groove 1307 may be formed in the seating part 1300 to separate the independent illumination part 1700 from the seating part 1300 and to easily hold the second container part to be described later. At this time, the guide groove 1307 has a circular shape including all the insertion grooves 1301 of the seating portion 1300.

As shown in FIGS. 3 and 4, the light source 1400 is disposed below the seating part 1300.

The light source unit 1400 includes at least one red light source 1410, at least one blue light source 1430, and at least one green light source 1450. The OLED light sources may be OLED panels that emit light in a direct-down manner. The OLED light sources may be an OLED module disposed on a side surface of a light guide plate for converting the point light source into a surface light source and emitting light in an edge manner.

As shown in FIGS. 3 and 4, a light diffusion unit 1460 is provided on the light-exiting surface of the light source unit 1400 in order to mix or disperse the light emitted from the light source unit 1400. The light diffusion portion 1460 may be made of a glass material or a transparent plastic material. In addition, the light diffusion portion 1460 may have a fine concavo-convex structure on its surface to facilitate mixing or dispersion of light.

The light source driving unit 1500 is electrically connected to the power supply unit, the light source unit 1400, and the connection unit 1303 of the seating unit 1300, and is controlled by the control unit. The light source driver 1500 converts the power supplied from the power supply unit into power suitable for driving the light source unit 1400 and the independent illumination unit 1700. For example, when the power supply unit supplies DC power (that is, when the battery is a battery), the light source driving unit 1500 may be a DC-DC converter for boosting or reducing the DC power of the power supply unit, When supplying power, it may be an AC-DC converter that converts AC power to DC power. The light source driving unit 1500 may include a constant current module to supply power to the light source unit 1400 and the independent illumination unit 1700 with excellent temperature characteristics.

The control unit controls the light source unit 1400 and the light source unit 1400 such that the intensity of light emitted from the light source unit 1400 or the color of light changes according to the type of the receiving unit 1300 (for example, the independent illumination unit 1700 or the second container unit) The light source driver 1500 can be controlled. For example, as in the present embodiment, when the independent illumination unit 1700 is placed on the seating unit 1300, the control unit controls the light source unit 1400 according to the number of the independent illumination units 1700 placed on the seating unit 1300 It is possible to control the light source driving unit 1500 and the light source unit 1400 to emit different lights and to control the intensity of light emitted from the light source unit 1400 according to the colors emitted from the independent lighting unit 1700 placed in the seating unit 1300 Alternatively, the light source unit 1400 and the light source driver 1500 may be controlled so as to change color.

The controller receives the user's input signal through the input unit and the controller controls the light source unit 1400 and the light source driver 1500 such that the color or intensity of the light emitted from the light source unit 1400 is changed based on the input signal of the user. Can be controlled.

In addition, the light source driver 1500 may include a timer for recognizing the current date. At this time, the control unit determines the current season based on the current date recognized in the timer, and controls the light source unit 1400 and the driving unit to change the light intensity or light color emitted from the light source unit 1400 according to the current season Can be controlled. For example, when the control unit determines that the current season is spring based on the current date recognized in the timer, the control unit controls the light source unit 1400 and the light source driver 1440 such that the color of the light emitted from the light source unit 1400 becomes pink or yellow 1500), so that the lighting device exhibits an appropriate color for the season.

FIG. 6 is a schematic exploded perspective view of the main illumination unit according to the further embodiment of FIG. 2;

 The illumination device having the main illumination unit 1000 according to a further embodiment of the present invention can focus light emitted from the surface light source unit 1210 and the light source unit 1400 provided in the first container unit 1200 toward the first accommodation space 2 and 3, except that it additionally comprises a lid portion 1490 that allows the light source to emit light. Of course, the main illumination unit according to the additional embodiment may further include only the surface light source unit 1210 provided in the first container unit, or may additionally include only the cover unit 1490, The surface light source unit 1210 and the lid unit 1490 may be additionally provided. Hereinafter, for the sake of convenience of description, a case where the main illumination section is additionally provided with the surface light source section 1210 and the lid section 1490 provided in the first container section will be described.

6, the main illumination unit 1000 according to a further embodiment of the present invention includes a first light source unit 1210 that forms a first accommodation space and includes a surface light source unit 1210 that surrounds the entire inner or outer surface, A container unit 1200; A seating part (1300) installed in the first container part (1200) and in which at least one or more independent illumination part (1700) for emitting light is detachably placed in the first accommodation space; A light source unit 1400 installed in the first container unit 1200 and emitting light toward the first container unit 1200 or the outside; A light source driver 1500 installed in the first container unit 1200 and adapted to receive power from a power supply unit and to drive the light source unit 1400, the planar light source unit 1210, and the independent illumination unit 1700; And a control unit installed in the light source driving unit 1500 and controlling the light source unit 1400, the surface light source unit 1210 and the light source driving unit 1500.

6, the first container unit 1200 forms a light emitting surface through which the light emitted from the light source unit 1400 is emitted to the outside, and a first accommodation space (not shown) in which at least one or more independent illumination units 1700 are accommodated. . 6, the first container unit 1200 may have any shape as long as it can form the first accommodation space. The first container part 1200 is preferably made of a light-transmitting material.

The first container portion 1200 includes a surface light source portion 1210 surrounding the entire inner or outer surface of the first container portion 1200. The surface light source portion 1210 is electrically connected to the light source driving portion provided below the first container portion 1200 And is driven by the light source driving unit, and is controlled by a user's input signal or by a control unit. At this time, preferably, the planar light source part 1210 may include an organic light emitting diode (OLED).

A diffusion coating unit 1230 for diffusing light emitted from the planar light source unit 1210 to the outside is provided on a light emitting surface of the planar light source unit 1210. The diffusion coating portion 1230 is a film made of a glass material or a transparent resin. The diffusion coating portion 1230 may have a fine concavo-convex structure on its surface to facilitate mixing or dispersion of light emitted from the surface light source portion 1210.

By providing the first container addition surface light source part 1210, the first container part can act as an illumination part by itself, and as a result, the illumination device according to the present invention can have a first container part (i.e., a surface light source part) Light can be emitted from the light source unit and the independent illumination unit provided at the lower part of the unit, and a user can produce various lighting units. Specifically, the surface light source unit of the first container unit can emit appropriate illumination light to the season or the interior of the room by the control unit or by the user's input signal, and significantly improve the user's selection range for improving the aesthetics .

The light source part 1400 according to a further embodiment of the present invention includes a cover part 1490 for focusing the light emitted from the light source part toward the first accommodation space of the first container part.

Specifically, the lid 1490 is formed to surround the light source 1400, and an opening 1491 penetrating through the seating part 1300 is formed on the lid 1490. In addition, the upper portion of the cover 1490 is made of a light-transmitting or translucent material. A reflective coating part is provided on the inner side of the side of the cover part 1490 to reflect light emitted from the light source part 1400 toward the first accommodation space.

Since the reflective coating portion is provided on the inner surface of the cover portion 1490, the light emitted from the light source in the lateral direction of the illumination device is reflected by the reflective coating portion of the cover portion 1490, And enters the space again. As a result, the amount of light directed toward the first accommodation space can be increased.

The reflective coating part may be formed by coating a material having a high reflectivity such as silver or TiO ₂ on the inner side of the side of the lid part 1490. The reflective coating portion may include a base material layer such as stainless steel, brass, aluminum, and PET attached to the inner side surface of the side portion of the lid portion, and a coating layer on which a fluorescent pigment or a phosphorescent pigment is applied Layer.

Since the illumination device according to the present invention includes the lid portion and / or the reflection coating portion, the light emitted to the side of the light source portion can be reentered in the first accommodation space direction to increase the amount of light incident on the first accommodation space, This can increase the illumination efficiency.

7 is a schematic perspective view of the independent illumination unit 1700 of FIG.

7, the independent illumination unit 1700 includes a light source module 1701 that emits light and a power connection unit 1703 that is electrically connected to the light source module 1701.

The light source module 1701 may be an OLED light source or an LED light source. The light source module 1701 may include a light emitting unit that emits light from the light source module 1701 and emits light, on a light emitting surface of the light source module 1701. The emitting portion may have a petal shape, a flower stem shape, a plant shape, a geometric shape, and the like. The light source module 1701 may include an upper light source module 1701 and a lower light source module 1701. For example, when the independent illumination unit 1700 has a flower shape as a whole, the upper light source module 1701 emits color (for example, red, pink, yellow, purple, etc.) 1701 may be configured to emit colors of stems (e.g., brown, green, etc.).

The power connection unit 1703 electrically connects the light source module 1701 and the connection unit 1303 of the seating unit 1300 to transmit power from the power supply unit to the light source module 1701. The power connection portion 1703 is provided in a tubular member made of a light transmitting material and has two terminals 1705 at an end thereof.

The terminal 1705 of the power connection part 1703 can be readily connected to the connection part 1303 in the insertion groove 1301 of the seating part 1300 at the end of the power connection part 1703 (or the end part of the independent illumination part 1700) A guide protrusion 1707 for guiding the connection is provided. The guide protrusion 1707 has a shape corresponding to the guide recess 1305 formed in the insertion groove 1301 of the seating part 1300.

The independent lighting unit 1700 may further include a replaceable fragrance sprayer 1709. For example, when the independent illumination unit 1700 has a flower shape as a whole, the fragrance spray unit 1709 may be disposed at the center of the petals. The fragrance sprayer 1709 may be configured to spray the fragrance for a preset time when the power supply unit rotor power is supplied.

The controller may control the light source driver 1500 such that the intensity of light emitted from the light source module 1701 changes. At this time, the controller controls the light source driver 1500 so that the intensity of light emitted from the light source module 1701 changes based on the amount of sunlight sensed by the sensor unit or based on an input signal of the user received at the input unit Can be controlled.

The control unit controls the light source driver 1500 so that the color or intensity of the light emitted from the light source unit 1400 of the first container unit 1200 is changed according to the color of the light emitted from the light source module 1701, Can be controlled. For example, the control unit may control the light source driver 1500 such that the hue of the main illumination unit 1000 changes with a predetermined color so that the colors of the independent illumination unit 1700 and the main illumination unit 1000 are harmonized. The main illumination unit 1000 may include an RF tag including identification information (e.g., shape or color, etc.) of the independent illumination unit 1700, (E.g., the seating portion 1300 of the RFID reader 1000) may include an RF reader that recognizes the RF tag.

8 is a schematic perspective view of a lighting apparatus according to a second embodiment of the present invention, FIG. 9 is a schematic perspective view of the main illumination unit 2000 of FIG. 8, FIG. 10 is a perspective view of the main illumination unit 2000 of FIG. And FIG. 11 is a schematic perspective view of the seating portion 2300 of FIG.

8, a lighting apparatus according to the present invention includes a main illumination unit 2000 emitting light, a second container unit 210 detachably installed in the main illumination unit 2000, (2800).

As shown in FIGS. 8 to 11, the main illumination part 2000 includes a first container part 2200 forming a first accommodation space; A second container portion 2800 provided in the first container portion 2200 and forming a second accommodation space for accommodating the living plant F is provided with a seating portion 2300 detachably housed in the first accommodation space ); A light source unit 2400 installed in the first container unit 2200 and emitting light toward the first container unit 2200 and the second container unit 2800; A light source driving unit 2500 installed in the first container unit 2200 and driving the light source unit 2400 by receiving power from a power supply unit; And a control unit installed in the light source driving unit 2500 and controlling the light source unit 2400 and the light source driving unit 2500.

9 and 10, the first container portion 2200 forms a light emitting surface through which light emitted from the light source portion 2400 is emitted to the outside, and a first container portion 2200, Thereby forming a receiving space. The first container portion 2200 may have a truncated cone shape as shown in FIG. 8, but it is illustrative and any shape is possible as long as it can form the first accommodation space. The first container portion 2200 is preferably made of a light-transmitting material.

9 and 10, a seating portion 2300 in which the second container portion 2800 is detachably placed is disposed in a lower portion of the first container portion 2200 (or inside the first accommodation space) .

11, a guide groove 2309 may be formed in the seating part 2300 so that the seating part 2300 can easily stably hold and secure the second container part 2800 . The guide groove 2309 may be formed concentrically with the edge of the seating part 2300. As described later, the bottom of the second container portion 2800 is provided with a protrusion 2810 having a shape corresponding to the guide groove 2309 to be inserted into the guide groove 2309.

Preferably, the guide groove 2309 of the seating part 2300 may further include a sensor part for sensing whether or not the second container part 2800 is held. The sensor unit may include, for example, a piezoelectric sensor for sensing the weight of the second container unit 2800, a proximity sensor for sensing whether the protrusion 2810 of the second container unit 2800 is close to the second container unit 2800, A light sensor for detecting whether or not the light is blocked by the protruding portion 2810 of the light guide plate 2810, and the like.

Preferably, the seating part 2300 may include an insertion groove 2301 into which an end of the independent illumination part is inserted. A connection portion 2303 (for example, a connection terminal) for supplying the power supplied from the power supply portion to the independent illumination portion is provided on the bottom surface of the insertion groove 2301. At this time, the connection unit 2303 is electrically connected to the light source driver 2500 and the power supply unit.

Preferably, the insertion recess 2301 of the seating portion 2300 is provided with a guide recess 2305 for allowing the power connection portion of the independent illumination portion to be easily connected to the connection portion 2303 of the seating portion 2300 . At this time, a guide protrusion corresponding to the shape of the guide groove 2309 is provided at an end of the independent illumination unit, as described later.

As shown in FIGS. 9 and 10, the light source unit 2400 is disposed below the seating unit 2300.

The light source unit 2400 includes at least one red light source 2410, at least one blue light source 2430, and at least one green light source 2450. The OLED light sources may be OLED panels that emit light in a direct-down manner. The OLED light sources may be an OLED module disposed on a side surface of a light guide plate for converting the point light source into a surface light source and emitting light in an edge manner.

As shown in FIGS. 9 and 10, a light diffusion unit 2460 is provided on the light-exiting surface of the light source unit 2400 in order to mix or disperse light emitted from the light source unit 2400. The light diffusion portion 2460 may be made of a glass material or a transparent plastic material. In addition, the light diffusion portion 2460 may have a fine concavo-convex structure on its surface to facilitate mixing or dispersion of light.

The light emitted from the light source unit 2400 may be incident on the light emitting surface side of the light source unit 2400 in the first accommodation space of the first container unit 2200 at the upper portion of the second container unit 2800, And a light-receiving portion 2470 facing the receiving space. The light source unit 2470 is formed of a light transmitting material that directs the light emitted from the light source unit 2400 toward the green plant F accommodated in the second container unit 2800. The light source interior 2470 may have a shape that is inclined toward the second container portion 2800 side so that the light is directed toward the living plant F. [

The light source driving unit 2500 is electrically connected to the power supply unit, the light source unit 2400, and the connection unit 2303 of the seating unit 2300, and is controlled by the control unit. The light source driving unit 2500 converts the power supplied from the power supply unit into power suitable for driving the light source unit 2400. For example, when the power supply unit supplies DC power (that is, when the battery is a battery), the light source driving unit 2500 may be a DC-DC converter for boosting or reducing the DC power of the power supply unit, When supplying power, it may be an AC-DC converter that converts AC power to DC power. The light source driving unit 2500 may include a constant current module to supply power to the light source unit 2400 with excellent temperature characteristics.

The control unit controls the light source unit 2400 and the light source unit 2400 such that the light intensity or the color of light emitted from the light source unit 2400 is changed according to the type of the receiving unit 2300 (for example, the independent illumination unit or the second container unit 2800) The light source driver 2500 can be controlled.

For example, as in the present embodiment, when the second container portion 2800 is placed in the seating portion 2300, the control portion controls the second container portion 2800 to move to the seating portion 2300 It is possible to control the light source driving unit 2500 such that the light source unit 2400 emits light of a wavelength band that promotes the growth of the vegetative plant F. [

The control unit receives a user's input signal through the input unit, and the control unit controls the light source unit 2400 so that the light source unit 2400 emits light of a wavelength band that promotes the growth of the vegetative plant F, (2500).

Here, the light of the wavelength band that promotes the growth of the plant (F) includes, for example, red-based light, ultra red-based light, blue-based light, green-based light, and yellow light. Red light is a light in the wavelength range that promotes the photosynthesis of the plant (F), regulates the flowering time of the flowering plant, and promotes growth of the stem. The light of the red color is the light of the wavelength range which improves the sugar content of the fruit in the case of the fruit-bearing plant. The light of the blue color is the light of the wavelength range which promotes the growth of the stem. The light of green series or yellow light is fungus It is the light of the wavelength band that suppresses pests. When such light is used, for example, when red light and blue light are simultaneously emitted in the direction of the plant (F) in the light source portion 2400, the lights of the two wavelengths are mutually interdependent, .

In addition, the light source driver 2500 may include a timer for recognizing the current date. At this time, the controller determines the current season based on the current date recognized in the timer, and controls the light source 2400 and the driving unit 2400 so that the light intensity or light color emitted from the light source 2400 is changed according to the current season Can be controlled. For example, when the control unit determines that the current season is spring based on the current date recognized in the timer, the control unit controls the light source unit 2400 and the light source driving unit 2440 such that the color of light emitted from the light source unit 2400 is pink or yellow 2500) so that the illuminator exhibits an appropriate color for the season.

12 is a schematic perspective view of the second container portion 2800 of FIG.

As shown in FIG. 12, the second container portion 2800 forms a second accommodation space for accommodating the plants F in the first accommodation space of the first container portion 2200. The second accommodating space may accommodate the nursery plants (F), water and nutrients necessary for growing the nursery plants (F), and the like. The bottom surface of the second container portion 2800 is hermetically sealed so that water or the like can not penetrate into the seating portion 2300. The second container portion 2800 may be made of a light-transmitting material.

A protrusion 2810 inserted into the guide groove 2309 formed in the seating part 2300 is formed on the bottom surface of the second container part 2800. The protruding portion 2810 is fixed to the mounting portion 2300 so as to surround the entire insertion groove 2301 formed in the mounting portion 2300 so that the connection portion 2303 provided in the insertion groove 2301 of the mounting portion 2300 And the like can be prevented from penetrating.

13 is a schematic exploded perspective view of the main illumination unit according to the further embodiment of FIG.

 The illumination device having the main illumination part 2000 according to the further embodiment of the present invention is configured such that light emitted from the surface light source part 2210 and the light source part 2400 provided in the first container part 2200 is directed toward the first accommodation space And includes the same components as those of the lighting apparatus of Figs. 9 and 10, except that it further includes a focusing lid portion 2490. Fig. Of course, the main illumination unit according to the additional embodiment may further include only the surface light source unit 2210 provided in the first container unit 2200, or may additionally include only the cover unit 2490, The surface light source unit 2210 and the lid unit 2490 provided in the container may be additionally provided. Hereinafter, for convenience of explanation, a case will be described in which the main illumination section is additionally provided with the surface light source section 2210 and the lid section 2490 provided in the first container section.

Specifically, as shown in FIG. 13, the main illumination unit 2000 includes a first container unit 2200 having a surface light source unit 2210 forming a first accommodation space and surrounding an entire inner or outer surface thereof; A second container portion 2800 provided in the first container portion 2200 and forming a second accommodation space for accommodating the living plant F is provided with a seating portion 2300 detachably housed in the first accommodation space ); A light source unit 2400 installed in the first container unit 2200 and emitting light toward the first container unit 2200 and the second container unit 2800; A light source driving unit 2500 installed in the first container unit 2200 and driving the light source unit 2400 and the surface light source unit 2210 by receiving power from a power supply unit; And a control unit installed in the light source driving unit 2500 and controlling the light source unit 2400, the surface light source unit 2210, and the light source driving unit 2500.

13, the first container unit 2200 forms a light emitting surface through which light emitted from the light source unit 2400 is emitted to the outside, and a first accommodation space in which the second container unit 2800 is accommodated . The first container part 1200 may have a truncated cone shape as shown in FIG. 13, but it is illustrative and any shape is possible as long as it can form the first accommodation space. The first container portion 2200 is preferably made of a light-transmitting material.

The first container portion includes a surface light source portion 2210 surrounding the entire inner surface or the outer surface of the first container portion. The surface light source portion 2210 is electrically connected to a light source driving portion provided below the first container portion, And is controlled by the user's input signal or by the control unit. At this time, preferably, the planar light source part 2210 may include an organic light emitting diode (OLED).

A diffusion coating unit 1230 for diffusing light emitted from the planar light source unit 2210 to the outside is provided on the emission surface of the planar light source unit 2210. The diffusion coating portion 1230 is a film made of a glass material or a transparent resin. The diffusion coating portion 1230 may have a fine concavo-convex structure on its surface to facilitate mixing or dispersion of light emitted from the surface light source portion 2210.

By providing the first container addition surface light source part 2210, the first container part can act as an illumination part by itself, and as a result, the illumination device according to the present invention has a first container part (i.e., a surface light source part) Light can be emitted from the light source unit installed at the lower portion of the unit, and the user can produce various lighting apparatuses. Specifically, the surface light source unit of the first container unit can emit appropriate illumination light to the season or the interior of the room by the control unit or by the user's input signal, and significantly improve the user's selection range for improving the aesthetics .

The light source unit according to a further embodiment of the present invention includes a cover portion 2490 for focusing the light emitted from the light source portion toward the first accommodation space of the first container portion.

Specifically, the lid part 2490 is formed to surround the light source part 2400, and an opening part 2491 penetrating through the seating part 2300 is formed on the lid part 2490. In addition, the upper portion of the lid portion 2490 is made of a light transmissive or translucent material. The inner surface of the side of the lid part 2490 is provided with a reflection coating part for reflecting the light emitted from the light source part toward the first accommodation space.

Since the reflective coating portion is provided on the inner surface of the cover portion 2490, the light emitted in the lateral direction of the illumination device in the light source portion is reflected on the reflection coating portion of the cover portion 2490, And enters the space again. As a result, the amount of light directed toward the first accommodation space can be increased.

Preferably, the reflective coating portion may be formed by coating a material having a high reflectance such as silver or TiO ₂ on the inner side surface of the side portion of the lid. The reflective coating portion may include a base material layer such as stainless steel, brass, aluminum, and PET attached to the inner side surface of the side portion of the lid portion, and a coating layer on which a fluorescent pigment or a phosphorescent pigment is applied Layer.

Since the illumination device according to the present invention includes the lid portion and / or the reflection coating portion, the light emitted to the side of the light source portion can be reentered in the first accommodation space direction to increase the amount of light incident on the first accommodation space, This can increase the illumination efficiency.

FIG. 14 is a schematic perspective view of a third embodiment of the present invention, and FIG. 15 is a schematic perspective view of the main illumination unit 3000 of FIG.

14, a lighting apparatus according to the present invention includes a main illumination unit 3000 that emits light, a second vessel 210 that is detachably installed in the main illumination unit 3000 and accommodates the ornamental plants F, And an independent illumination unit 3700 detachably installed in the main illumination unit 3000 to emit light.

As shown in FIGS. 14 and 15, the main illumination part 3000 includes a first container part 3200 forming a first accommodation space; At least one or more independent illumination units 3700 and a second container unit 3800 installed in the first container unit 3200 and accommodating the ornamental plants F are detachably installed in the first accommodation space A seating part 3300 to be stowed; A light source unit 3400 installed in the first container unit 3200 and emitting light toward the first container unit 3200 and the second container unit 3800; A light source driving unit 3500 installed in the first container unit 3200 and powered by the power supply unit to drive the light source unit 3400 and the independent illumination unit 3700; And a control unit installed in the light source driving unit 3500 and controlling the light source unit 3400 and the light source driving unit 3500.

14 and 15, the first container portion 3200 forms a light emitting surface through which the light emitted from the light source portion 3400 is emitted to the outside, and a second container portion Thereby forming a receiving space. The first container portion 3200 may have a truncated cone shape as shown in FIG. 13, but any shape can be used as long as the first container portion 3200 is illustrative and can form the first accommodation space. The first container portion 3200 is preferably made of a light-transmitting material.

14 and 15, a second container portion 3800 and an independent illumination portion 3700 are detachably mounted in a lower portion of the first container portion 3200 (or inside the first accommodation space) (3300).

11, the seating portion 3300 is provided with a guide groove 3309 in the seating portion 3300 in order to easily stably hold and secure the second container portion 3800. In addition, May be formed. The guide groove 3309 may be formed concentrically with the edge of the seating part 3300. As described later, the bottom of the second container portion 3800 is provided with a projection having a shape corresponding to the guide groove 3309 to be inserted into the guide groove 3309.

Preferably, the guide groove 3309 of the seating portion 3300 may further include a sensor portion for sensing the presence or absence of the second container portion 3800. The sensor unit includes, for example, a piezoelectric sensor for sensing the weight of the second container unit 3800, a proximity sensor for sensing whether the protrusion of the second container unit 3800 is close to the protrusion of the second container unit 3800, A light sensor for detecting whether or not the light is blocked by the light source.

In addition, the seating part 3300 may include an insertion groove into which the end of the independent illumination part 3700 is inserted. (For example, a connection terminal 3705) for supplying the power supplied from the power supply unit to the independent illumination unit 3700 is provided on the bottom surface of the insertion groove. At this time, the connection unit is electrically connected to the light source driver 3500 and the power supply unit.

The insertion recess of the seating part 3300 may be provided with a guide recess for allowing the power connection part 3703 of the independent illumination part 3700 to be easily connected to the connection part of the seating part 3300. [ At this time, a guide protrusion 3707 corresponding to the shape of the guide groove 3309 is provided at the end of the independent illumination unit 3700.

As shown in FIGS. 14 and 15, a light source part 3400 is disposed below the seating part 3300.

The light source unit 3400 includes at least one red light source 3410, at least one blue light source 3430, and at least one green light source 3450. The OLED light sources may be OLED panels that emit light in a direct-down manner. The OLED light sources may be an OLED module disposed on a side surface of a light guide plate for converting the point light source into a surface light source and emitting light in an edge manner.

As shown in FIGS. 14 and 15, a light diffusion unit 3460 is provided on the light-exiting surface of the light source unit 3400 in order to mix or disperse the light emitted from the light source unit 3400. The light diffusion portion 3460 may be made of a glass material or a transparent plastic material. In addition, the light diffusion portion 3460 may have a fine concavo-convex structure on its surface to facilitate mixing or dispersion of light.

It is preferable that the light emitted from the light source part 3400 is incident on the light emitting surface side of the light source part 3400 in the first accommodation space of the first container part 3200 in the upper part of the second container part 3800, And a light-receiving portion 3470 facing the receiving space. The light source unit 3470 is formed of a light transmitting material that directs the light emitted from the light source unit 3400 toward the green plant F accommodated in the second container unit 3800. The light interior 3470 may have a shape that is inclined toward the second container portion 3800 side so that the light is directed toward the living plant F. [

The light source driving unit 3500 is electrically connected to the connection part of the power supply unit, the light source unit 3400, and the seating unit 3300, and is controlled by the control unit. The light source driver 3500 converts the power supplied from the power supply unit into power suitable for driving the light source unit 3400 and the independent illumination unit 3700. For example, when the power supply unit supplies DC power (that is, when the battery is a battery), the light source driving unit 3500 may be a DC-DC converter for boosting or reducing the DC power of the power supply unit, When supplying power, it may be an AC-DC converter that converts AC power to DC power. The light source driving unit 3500 may include a constant current module to supply power to the light source unit 3400 and the independent illumination unit 3700 with excellent temperature characteristics.

The controller controls the light source unit 3400 so that the intensity of light emitted from the light source unit 3400 or the color of the light is changed according to the type of the receiving unit 3300 (for example, the independent illumination unit 3700 or the second container unit 3800) 3400 and the light source driver 3500. [

For example, as in the present embodiment, when the second container portion 3800 and the independent illumination portion 3700 are placed on the seating portion 3300, the control portion controls the second container portion 3800 At least one of the light source unit 3400 and the independent illumination unit 3700 emits light of a wavelength band that promotes the growth of the vegetative plant F. In this case, Can be controlled.

In addition, the control unit receives a user's input signal through the input unit, and the control unit controls the light source unit 3400 and / or the independent illumination unit 3700 based on the user's input signal to promote the growth of the vegetative plant F It is possible to control the light source driver 3500 to emit the light of the wavelength range of the light source.

Here, the light of the wavelength band that promotes the growth of the plant (F) includes, for example, red-based light, ultra red-based light, blue-based light, green-based light, and yellow light. Red light is a light in the wavelength range that promotes the photosynthesis of the plant (F), regulates the flowering time of the flowering plant, and promotes growth of the stem. The light of the red color is the light of the wavelength range which improves the sugar content of the fruit in the case of the fruit-bearing plant. The light of the blue color is the light of the wavelength range which promotes the growth of the stem. The light of green series or yellow light is fungus It is the light of the wavelength band that suppresses pests. When such a light is used, for example, when red light and blue light are simultaneously emitted in the direction of the plant (F) in the light source portion 3400, the lights of the two wavelength ranges are mutually inhibited, .

In addition, the light source driver 3500 may include a timer for recognizing the current date. At this time, the controller determines the current season based on the current date recognized in the timer, and controls the light source unit 3400 and the driving unit 3400 so that the light intensity or light color emitted from the light source unit 3400 is changed according to the current season Can be controlled. For example, when the control unit determines that the current season is spring based on the current date recognized in the timer, the control unit controls the light source unit 3400 and the light source driver 3400 so that the color of the light emitted from the light source unit 3400 becomes pink or yellow 3500) so that the illuminator exhibits an appropriate color for the season.

16A and 16B are a schematic perspective view and a bottom view of the second container portion 3800 of Fig.

16A and 16B, the second container portion 3800 according to the present embodiment includes a second accommodation portion 3800 for accommodating water or nutrients necessary for growth of the vegetation F and the vegetation F, And the second container portion 3800 has a tubular member 3830 extending to the bottom surface.

The tubular member 3830 is formed such that the independent illumination part 3700 is inserted and penetrates the bottom surface of the second container part 3800 to be electrically connected to the connection part of the seating part 3300. The tubular member 3830 may have a reinforcing rib 3831 at the lower end thereof to reinforce mechanical strength.

The second container portion 3800 further includes a protrusion 3810 formed to extend from the bottom surface and inserted into the guide groove 3309 of the seating portion 3300.

17 is a schematic perspective view of the independent illumination unit 3700 of FIG.

17, the independent illumination unit 3700 according to the present embodiment includes a light source module 3702 disposed above the second container unit 3800 and emitting light in a downward direction, and the light source module 3702 (Not shown).

The light source module 3702 may be an OLED light source or an LED light source. As described above, the light source module 3702 emits light of a wavelength band that promotes the growth of the vegetation F. The light source module 3702 may be disposed radially so as to totally supply light to the ornamental plants F accommodated in the second container portion 3800 and may be arranged to irradiate light from the upper portion to the lower portion.

The power connection unit 3703 electrically connects the connection unit of the light source module 3702 and the seating unit 3300 to transmit the power from the power supply unit to the light source module 3702. The power connection 3703 is provided in a tubular member made of a light-transmitting material and has two terminals 3705 at its ends.

The power connection portion 3703 is connected to the seating portion 3300 through the tubular member of the second container portion 3800.

The terminal 3705 of the power connection portion 3703 is guided to the connection portion of the insertion groove of the seating portion 3300 so that the terminal 3705 of the power connection portion 3703 can be easily connected to the end of the power connection portion 3703 (or the end portion of the independent illumination portion 3700) A guide projection 3707 is provided. The guide protrusion 3707 has a shape corresponding to the guide recess formed in the insertion groove of the seat portion 3300.

When the light source unit 3400 and the independent illumination unit 3700 simultaneously irradiate the light of the wavelength band that promotes the growth of the vegetation F, the vegetation plant F accommodated in the second container unit 3800 is the upper And the lower portion (that is, the light source portion 3400) can simultaneously receive the uniform light, thereby promoting the growth of all of the nursing plants F housed in the second container portion 3800.

Preferably, the second container portion 3800 may contain a harmonized plant.

Preferably, although not shown in the drawings, the illumination device according to the third embodiment of the present invention includes a cover portion for focusing the light emitted from the light source portion toward the first accommodation space, similar to the illumination device of Figs. 6 and 13, And / or a surface light source unit provided in the first container unit. The illuminating device according to the present invention can include the surface light source portion provided in the first container portion to increase the user's illumination selection range for improving the range of the illumination device and the aesthetics and at the same time the lid portion and / The light emitted to the side of the light source unit can be reentered in the first accommodation space direction to increase the amount of light incident on the first accommodation space, thereby increasing the lighting efficiency and the growth rate of the living plants.

As described above, the present invention can accommodate a flower-shaped independent lighting unit operable with a lighting apparatus as well as accommodating a living plant. That is, the present invention can be used as a container for holding a living plant, a container for receiving an independent lighting unit, or a container for holding a living plant and an independent lighting unit at the same time, have.

Further, the color of the container can be appropriately changed according to the color and kind of the various flowers or plants according to the present invention, or according to the season or the user's choice, so that a user-customized container can be provided. In addition, this eliminates the inconvenience of buying various pots or containers to match the color of the plant, and saves space for storing unused pots and containers.

In addition, the present invention can promote the growth of plants or flowers housed in a vessel, thereby allowing plants or flowers to remain in an always-flowered state or to prolong the survival life of plants or flowers.

Further, the present invention can interlock with the lighting device and detachably receive the flower-shaped independent illumination unit, thereby greatly improving the selection range of the user for improving the aesthetics. In this way, the independent illumination section 3700 of various shapes or colors can be selected and replaced, so that the user can produce various illumination devices.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

1000, 2000, 3000: main illumination unit
1200, 2200, 3200:
1300, 2300, 3300:
1400, 2400, 3400:
1500, 2500, 3500: Light source driver
1700, 3700: Independent illumination part
2800, 3800: a second container portion
F: Flora

Claims (28)

A first container portion forming a light emitting surface of light and forming a first accommodation space;
A seating portion provided in the first container portion, the seating portion being detachably placed in the first accommodation space;
A light source unit installed below the first container unit and emitting light toward the first container unit or the outside;
A light source driving unit installed in the first container unit and adapted to receive power from a power supply unit and to drive the light source unit; And
And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit,
The light source unit includes:
A plurality of light sources sequentially disposed in an outgoing direction in which light is emitted; And
And at least one light diffusing portion having a fine concavo-convex structure on its surface,
The plurality of light sources may include a first light source of a green system, a second light source of a blue system, and a third light source of a red system,
Wherein the at least one light-
A first light diffuser disposed between the first light source and the second light source;
A second light diffuser disposed between the second light source and the third light source; And
And a third light diffuser disposed above the third light source,
Wherein light emitted from any one of the plurality of light sources passes through all of the light sources and light diffusing units arranged forward in the outgoing light direction. delete delete The method according to claim 1,
Wherein the red-based light source, the blue-based light source, and the green-based light source are planar light sources composed of organic light emitting diodes. The method according to claim 1,
Wherein the first container portion includes a surface light source portion including an organic light emitting diode, and the surface light source portion is driven by the light source driving portion. [Claim 6 is abandoned due to the registration fee.] 6. The method of claim 5,
And a diffusing coating part for diffusing the light emitted from the surface light source part to the outside is further provided on the light emitting surface of the surface light source part. delete delete [Claim 9 is abandoned upon payment of registration fee.] The method according to claim 1,
Wherein the light source driving unit includes a constant current module for controlling the light source unit by a constant current. delete delete [12] has been abandoned due to the registration fee. The method according to claim 1,
Wherein the receiving portion includes at least one independent illumination portion including a light source module that emits light and a power connection portion that is electrically connected to the light source module. delete delete delete delete [Claim 17 is abandoned upon payment of registration fee.] 13. The method of claim 12,
Wherein the controller controls the light source driving unit to vary the color or intensity of light emitted from the light source unit of the first container unit according to the color of the light emitted from the light source module or the intensity of the light. The method according to claim 1,
Wherein the to-be-adhered portion includes a second container portion forming a second accommodation space for accommodating a living plant. delete delete delete delete delete delete A first container portion forming a first accommodation space;
At least one or more independent illumination units for emitting light are detachably placed in the first accommodation space;
At least one light source unit installed below the first container unit and emitting light toward the first container unit or the outside;
A light source driving unit installed at a lower portion of the first container unit and adapted to receive power from a power supply unit and to drive the light source unit and the independent illumination unit; And
And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit,
The light source unit includes:
A plurality of light sources sequentially disposed in an outgoing direction in which light is emitted; And
And at least one light diffusing portion having a fine concavo-convex structure on its surface,
The plurality of light sources may include a first light source of a green system, a second light source of a blue system, and a third light source of a red system,
Wherein the at least one light-
A first light diffuser disposed between the first light source and the second light source;
A second light diffuser disposed between the second light source and the third light source; And
And a third light diffuser disposed above the third light source,
Wherein light emitted from any one of the plurality of light sources passes through all of the light sources and light diffusing units arranged forward in the outgoing light direction. A first container portion forming a first accommodation space;
A seating portion provided in the first container portion and having a second container portion forming a second accommodation space for accommodating a living plant detachably placed in the first accommodation space;
At least one light source unit installed below the first container unit and emitting light toward the first container unit and the second container unit;
A light source driving unit installed in the first container unit and receiving power from a power supply unit and driving the light source unit; And
And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit,
Wherein the control unit controls the light source driving unit to emit light of a wavelength band that promotes growth of a living plant,
The light source unit includes:
A plurality of light sources sequentially disposed in an outgoing direction in which light is emitted; And
And at least one light diffusing portion having a fine concavo-convex structure on its surface,
The plurality of light sources may include a first light source of a green system, a second light source of a blue system, and a third light source of a red system,
Wherein the at least one light-
A first light diffuser disposed between the first light source and the second light source;
A second light diffuser disposed between the second light source and the third light source; And
And a third light diffuser disposed above the third light source,
Wherein light emitted from any one of the plurality of light sources passes through all of the light sources and light diffusers arranged forward in the outgoing light direction. A first container portion forming a first accommodation space;
At least one independent illumination unit for emitting light and a second container unit for accommodating a living plant are detachably placed in the first accommodation space, the seating unit being installed at a lower portion of the first container unit;
At least one light source unit installed below the first container unit and emitting light toward the first container unit and the second container unit;
A light source driving unit installed at a lower portion of the first container unit and adapted to receive power from a power supply unit and to drive the light source unit and the independent illumination unit; And
And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit, wherein the independent illumination unit includes a light source module positioned above the second container unit and emitting light in a downward direction,
The light source unit includes:
A plurality of light sources sequentially disposed in an outgoing direction in which light is emitted; And
And at least one light diffusing portion having a fine concavo-convex structure on its surface,
The plurality of light sources may include a first light source of a green system, a second light source of a blue system, and a third light source of a red system,
Wherein the at least one light-
A first light diffuser disposed between the first light source and the second light source;
A second light diffuser disposed between the second light source and the third light source; And
And a third light diffuser disposed above the third light source,
Wherein light emitted from any one of the plurality of light sources passes through all of the light sources and light diffusers arranged forward in the outgoing light direction. delete

Images