KR20130008391A - Lighting device - Google Patents

Abstract

PURPOSE: A lighting apparatus is provided to accommodate an independent lighting unit which is interlocking with the lighting apparatus and formed into a flower shape. CONSTITUTION: A first container unit forms a light emitting surface. The first container forms a first receiving space. A settling part is installed in the first container. A part to be seated is detachably placed inside the first receiving space. An optical source unit emits light toward the first container or the outside. An optical source driving unit operates the optical source unit. A control unit controls the optical source unit and the optical source driving unit. An independent lighting unit(1700) comprises a light source module(1701) and a power connector(1703). The light emitting surface of the light source module comprises a light emitting unit. The power connector comprises two terminals(1705).

Description

LIGHTING DEVICE

The present invention relates to a lighting device, to provide a lighting device that can accommodate both the additional lighting device and the plant.

In general, pots or vases have a certain color determined at the time of manufacture and cannot change the color of such pots or vases. For this reason, there has been a problem that pots or vases can be used only for plants or flowers having their own colors and appropriate colors in order to enhance the aesthetics (for example, to match the color of the flower with the color of the vase). . In addition, conventional pots and vases do not have a separate function other than the ability to accommodate plants or flowers, and plants or flowers housed in pots or vases maintain survival only depending on natural light, thereby extending the life span of the flowers or plants. Has been a problem that cannot be promoted.

In addition, conventional flower-shaped and vase-shaped lighting devices are integrally formed. For this reason, there has been a problem in that it is not possible to replace the floral lighting device of various shapes and colors according to the taste of the user.

It is an object of the present invention to provide a lighting device that solves the problems according to the prior art.

Specifically, it is an object of the present invention to provide a lighting device that can accommodate not only natural plants, but also can accommodate the independent light of the flower shape interlocked with the lighting device.

In addition, another object of the present invention is to provide a lighting apparatus that can appropriately change the color of the container according to the color and type of various flowers or plants or according to the season.

Still another object of the present invention is to provide an illumination device capable of promoting the growth of a plant or flower contained in a container.

In addition, another object of the present invention is to provide a lighting device that is interlocked with the lighting device and can detachably receive the independent lighting of the flower shape.

According to an aspect of the present invention for achieving the above object, the present invention, the first container portion to form a light exit surface, and to form a first receiving space; A seating unit installed in the first container unit, the seating unit detachably seated 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 driver installed in the first container and driving the light source by receiving power from a power supply; 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 may include at least one red light source, at least one blue light source, and at least one green light source.

In addition, the red light source, the blue light source and the green light source are stacked and formed, and at least one light is emitted from the light emitting surface of the light source of the red light source, the blue light source and the green light source. A diffusion unit may be provided.

The red light source, the blue light source, and the green light source may be surface light sources including organic light emitting diodes.

In addition, the first container part may include a surface light source part composed of an organic light emitting diode, and the surface light source part may be driven by the light source driver.

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

The light source unit may further include a cover unit configured to focus light emitted from the light source unit toward the first accommodation space.

In addition, the upper portion of the cover portion is made of a light transmissive or light semi-transparent material, the inner side surface of the cover portion may be provided with a reflective coating for reflecting the light emitted from the light source portion toward the first receiving space.

In addition, the light source driving unit may include a constant current module for controlling the constant current of the light source unit.

The control unit may control the light source unit and the light source driving unit to change the intensity or the color of light emitted from the light source unit according to the mounted part.

The light source driver may include a timer that recognizes a current date, and the controller determines a current season based on the current date recognized by the timer, and determines the intensity of light or the intensity of light emitted from the light source according to the current season. The light source unit and the driving unit may be controlled to change color.

The seated part may include at least one independent lighting unit including a light source module emitting light and a power connection unit electrically connected to the light source module.

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

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

The fragrance sprayer may spray fragrance every predetermined time.

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

The controller may control the light source driver to change the color or the intensity of light emitted from the light source part of the first container part according to the color or intensity of light emitted from the light source module.

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

The first container part may include a light guide part on the light emitting surface side of the light source part to direct the light emitted from the light source part toward the upper portion of the second container part or the second accommodation space.

The apparatus may further include an input unit configured to receive an input signal of a user for adjusting the intensity of light or the color of light from the light source unit.

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

In addition, the guide groove may be provided with a sensor unit for detecting the presence or absence of the second container portion.

In addition, the sensor unit may be one of a piezoelectric sensor, a proximity sensor, and an optical sensor.

The controller may control the light source driver to emit light in a wavelength band in which the light source unit promotes the growth of a plant plant when it is determined that the second container unit is placed in the seating unit based on the sensor unit. have.

According to another aspect of the present invention for achieving the above object, the present invention, the first container portion to form a first receiving space; A seating part installed below the first container part and having at least one independent lighting part detachably seated in the first receiving space; At least one light source unit disposed below the first container unit and emitting light toward the first container unit or the outside; A light source driver installed at a lower portion of the first container part to receive power from a power supply part to drive the light source part and the independent lighting part; 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 for achieving the above object, the present invention, the first container portion to form a first receiving space; A seating part installed in the first container part and having a second container part detachably seated in the first accommodating space to form a second accommodating space for accommodating a plant; At least one light source unit disposed in the first container unit and emitting light toward the first container unit and the second container unit; A light source driver installed in the first container and driving power to the light source by receiving power from a power supply; 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 may control the light source driving unit so that the light source emits light in a wavelength band that promotes growth of a plant. .

According to another aspect of the present invention for achieving the above object, the present invention, the first container portion to form a first receiving space; A seating portion installed below the first container portion, the seating portion detachably seated in the first accommodation space, the second container portion accommodating at least one independent lighting unit emitting light and a plant of plants; At least one light source unit disposed below the first container unit and emitting light toward the first container unit and the second container unit; A light source driver installed at a lower portion of the first container part to receive power from a power supply part to drive the light source part and the independent lighting part; 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 lighting unit is positioned above the second container unit and may include a light source module emitting light in a downward direction. .

In this case, the controller may control the light source driving unit so that at least one of the light source unit and the independent lighting unit emits light in a wavelength band that promotes the growth of a plant.

According to the problem solving means of the present invention, the present invention can not only accommodate the plant plants, but also can accommodate the independent shape of the flower shape interlocked with the lighting device. That is, the present invention may be used as a container for holding a plant, or may be used as a container for receiving independent lighting, and may be used as a container for simultaneously holding a plant and independent lighting, thereby providing a container that can be used for a variety of purposes. have.

In addition, the color of the container can be appropriately changed according to the color and type of the various flowers or plants or according to the season or the user's selection, it is possible to provide a user-customized container. In addition, this eliminates the inconvenience of having to buy various pots or containers to match the color of the plant and saves space for storing unused pots or containers.

In addition, the present invention can promote the growth of a plant or flower contained in a container, thereby keeping the plant or flower in a flowered state at all times, or prolong the survival life of the plant or flower.

In addition, the present invention is interlocked with the lighting device and can detachably receive the independent lighting of the flower shape, thereby significantly improving the user's selection range for improving the aesthetics. In addition, because of this, it is possible to select and replace the independent lighting unit of various shapes or colors, the user can produce a variety of lighting devices.

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

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.

As shown in FIG. 1, the lighting apparatus according to the present invention includes a sensor unit 1110 for detecting external information (for example, time and amount of sunshine), an input unit 1130 for receiving an input signal of a user, and lighting. A power supply unit 1150 for supplying power to the device, a light source unit 1400 for emitting light, a seating unit 1300 in which at least one independent lighting unit 1700 is electrically connected and placed, the independent lighting unit 1700 and / or Alternatively, the light source driver 1500 may be driven based on a light source driver 1500 driving the light source unit 1400, external information detected by the sensor unit 1110, and / or a user input signal received by the input unit 1130. And / or a controller 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 may include, for example, an illuminance sensor that detects an amount of light (for example, sunlight amount of sunlight) of an external environment, a piezoelectric sensor that determines whether or not the second container unit 2800 is settled, and a light as described below. Sensors, proximity sensors, and the like.

The input unit 1130 may receive an input signal from a user and adjust the color and intensity of light emitted from the light source unit 1400 through the controller 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 is configured to supply power to the lighting device, and may be a battery supplying DC power, a power plug connected to an outlet, and supplying AC power, or a solar cell. In terms of portability, the power supply 1150 is preferably a battery.

The light source unit 1400 may be, for example, one of an LED light source, an OLED (ie, an organic light emitting diode) light source, an LED panel, an OLED panel, an edge LED light source, and an edge OLED light source. The light source unit 1400 includes at least one or more red light sources, at least one or more blue light sources, and at least one or more green light sources. Preferably, the at least one red light source, the at least one blue light source, and the at least one green light source may be a surface light source composed of an OLED.

The seating unit 1300 is configured to allow the independent lighting unit 1700 to be detachably mounted, and is configured to receive power from the light source driving unit 1500 to provide power to the independent lighting unit 1700. In addition, the seating portion 1300 is configured such that the second container portion 2800 for accommodating the plant or plant to be described later (F) to be described later detachably.

The independent lighting unit 1700 is a device that emits light separately from the lighting device. For example, the independent lighting unit 1700 may be a lighting device of a flower shape, a lighting device of a plant shape, or a lighting device of a geometric shape. The independent lighting unit 1700 may of course be linked with the lighting device.

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 lighting unit 1700. For example, when the power supply unit 1150 supplies AC power, the light source driver 1500 converts AC power supplied from the power supply unit 1150 into DC power for driving the light source unit 1400. It is configured to include a DC converter.

In addition, preferably, the light source driver 1500 may include a constant current module 1510 having excellent temperature characteristics in order to adjust the color or intensity of light emitted from the light source 1400 or the independent light 1700. The constant current module 1510 may be controlled by a pulse width modulation (PWM) control scheme from the controller 1600.

The controller 1600 controls the amount of current provided from the light source driver 1500 to the light source unit 1400 or the independent lighting unit 1700 based on an input signal from the sensor unit 1110 or the input unit 1130, thereby providing a light source unit 1400. The intensity or color of light emitted from the light source and the intensity or color of light emitted from the independent light source unit 1400 may be controlled.

In addition, the lighting apparatus according to the present invention, the first container portion to form a light emitting surface of the light and the first receiving space; A seating unit installed in the first container unit, the seating unit detachably seated 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 driver installed in the first container and driving the light source by receiving power from a power supply; And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit. As described above, the seated portion may be an independent lighting unit, may be a second container unit, or may be the independent lighting unit and the second container unit.

Hereinafter, the first to third embodiments of the lighting apparatus according to the present invention will be described based on the type of the mounted portion.

2 is a schematic perspective view of a lighting apparatus according to a first exemplary embodiment of the present invention, FIG. 3 is a schematic perspective view of the main lighting unit 1000 of FIG. 2, and FIG. 4 is a main lighting unit 1000 of FIG. 2. A schematic exploded perspective view of FIG. 5 is a schematic perspective view of the seating unit 1300 of FIG. 3.

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

As shown in Figures 2 to 4, the main lighting unit 1000 includes a first container portion 1200 to form a light exit surface and a first receiving space; A seating part 1300 installed in the first container part 1200 and having at least one independent lighting part 1700 for emitting light to be detachably seated in the first accommodating 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 part 1200 and receiving power from a power supply part to drive the light source part 1400 and the independent lighting part 1700; And a controller installed at the light source driver 1500 to control the light source unit 1400 and the light source driver 1500.

As shown in FIG. 3 and FIG. 4, the first container part 1200 forms a light exit surface through which light emitted from the light source unit 1400 is emitted to the outside, and at least one independent light unit 1700 is accommodated therein. 1 Create a receiving space. The first container portion 1200 may be a bottle-like shape as shown in FIG. 3, but this may be any shape as long as the first container space can be formed as an example. The first container portion 1200 is preferably made of a light transmissive material.

As shown in FIG. 3 and FIG. 4, a seating unit 1300 in which the independent lighting unit 1700 is detachably mounted is disposed at a lower portion (or inside the first receiving space) of the first container unit 1200.

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

Preferably, a guide recess in the insertion groove 1301 of the seating portion 1300 so that the power connection 1703 of the independent lighting unit 1700 can be easily connected to the connecting portion 1303 of the seating portion 1300. 1305 may be provided. At this time, as will be described later, the guide projection 1707 corresponding to the shape of the guide groove 1307 is provided at the end of the independent lighting unit 1700.

Also, in order to separate the independent lighting unit 1700 from the seating unit 1300 and to easily settle the second container unit to be described later, a guide groove 1307 may be formed in the seating unit 1300. At this time, the guide groove 1307 has a circular shape including all of the insertion groove 1301 of the seating portion 1300.

3 and 4, the light source unit 1400 is disposed below the seating unit 1300.

The light source unit 1400 includes at least one or more red light sources 1410, at least one or more blue light sources 1430, and at least one or more green light sources 1450. The OLED light sources may be OLED panels that emit light in a direct manner. In addition, the OLED light source may be an OLED module disposed on the side of the light guide plate for the surface light source to emit the light in an edge method.

3 and 4, in order to mix or disperse the light emitted from the light source unit 1400, the light diffusing unit 1460 is provided on the light exit surface of the light source unit 1400, respectively. The light diffusion unit 1460 may be formed of a glass material or a transparent plastic material. In addition, the light diffusion unit 1460 may be provided with a fine concavo-convex structure on the surface in order to facilitate mixing or dispersion of light.

The light source driver 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 controller. 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 lighting unit 1700. For example, when the power supply unit supplies DC power (that is, a battery), the light source driver 1500 may be a DC-DC converter for boosting or reducing the DC power of the power supply unit, and the power supply unit AC In the case of supplying power, the AC-DC converter may convert AC power into DC power. The light source driver 1500 may include a constant current module to supply power having excellent temperature characteristics to the light source unit 1400 and the independent lighting unit 1700.

The control unit may change the intensity or color of light emitted from the light source unit 1400 according to the type of the target unit 1300 (for example, the independent light unit 1700 or the second container unit) and the light source unit 1400 and The light source driver 1500 may be controlled. For example, as in the present embodiment, when the independent lighting unit 1700 is placed in the seating unit 1300, the control unit may be configured in the light source unit 1400 according to the quantity of the independent lighting unit 1700 placed in the seating unit 1300. The light source driver 1500 and the light source unit 1400 may be controlled to emit different light, and the intensity of the light emitted from the light source unit 1400 depends on the color emitted from the independent light unit 1700 placed in the seating unit 1300. Alternatively, the light source unit 1400 and the light source driver 1500 may be controlled to change color.

In addition, the control unit receives a user's input signal through the input unit, the control unit is a light source unit 1400 and the light source driving unit 1500 so that the color or intensity of the light emitted from the light source unit 1400 is changed based on the user's input signal. Can be controlled.

In addition, the light source driver 1500 may include a timer that recognizes a current date. In this case, the controller determines the current season based on the current date recognized by the timer and changes the intensity or color of the light emitted from the light source unit 1400 according to the current season to change the light source unit 1400 and the driving unit. Can be controlled. For example, when the controller determines that the current season is spring based on the current date recognized by the timer, the controller may control the light source unit 1400 and the light source driver so that the color of the light emitted from the light source unit 1400 becomes pink or yellow. 1500 may be controlled so that the lighting device exhibits a color suitable for the season.

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

 The lighting apparatus including the main lighting unit 1000 according to a further embodiment of the present invention concentrates the 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. It includes the same components as the lighting device of FIGS. 2 and 3 except that it further includes a cover 1490. Of course, the main lighting unit according to a further embodiment may further include only the surface light source portion 1210 provided in the first container portion, or may further include only the cover portion 1490, or the first container portion Naturally, the surface light source 1210 and the cover 1490 may be further provided. Hereinafter, for convenience of description, a case in which the main lighting unit further includes both the surface light source unit 1210 and the cover unit 1490 provided in the first container unit will be described.

Specifically, as shown in FIG. 6, the main lighting 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 surrounds the entire inner or outer surface. Container portion 1200; A seating part 1300 installed in the first container part 1200 and having at least one independent lighting part 1700 for emitting light to be detachably seated in the first accommodating 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 part 1200 and driving power from the power supply part to drive the light source part 1400, the surface light source part 1210, and the independent lighting part 1700; And a control unit installed at the light source driver 1500 to control the light source unit 1400, the surface light source unit 1210, and the light source driver 1500.

As shown in FIG. 6, the first container part 1200 forms a light exit surface through which light emitted from the light source unit 1400 is emitted to the outside, and includes a first accommodation space in which at least one independent lighting unit 1700 is accommodated. To form. Although the first container portion 1200 may be shaped like a bottle, as shown in FIG. 6, this may be any shape as long as the first container space can be formed as an example. The first container portion 1200 is preferably made of a light transmissive material.

In addition, the first container portion 1200 includes a surface light source portion 1210 surrounding the inner surface or the entire outer surface, the surface light source portion 1210 is electrically connected to the light source driver installed on the lower portion of the first container portion 1200. It is connected and driven by the light source driver, and is controlled by a user's input signal or by a controller. In this case, preferably, the surface light source unit 1210 may be formed of an organic light emitting diode (ie, OLED).

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

Since the first container part includes the surface light source part 1210, the first container part may serve as an illumination part by itself, and accordingly, the lighting device according to the present invention may include the first container part (ie, the surface light source part) and the first container. Light can be emitted from the light source unit and the independent lighting unit installed at the lower part of the unit, so that the user can produce various lighting devices. In detail, the surface light source unit of the first container unit may emit an illumination light suitable for the season or the interior of the room by the control unit or by the input signal of the user, and greatly improves the user's selection range to enhance the aesthetics. You can.

The light source unit 1400 according to a further embodiment of the present invention includes a cover 1490 that concentrates the light emitted from the light source unit toward the first receiving space of the first container unit.

In detail, the cover 1490 is formed in a shape surrounding the light source 1400, and an opening 1491 penetrating the seating part 1300 is formed at an upper portion of the cover 1490. In addition, the upper portion of the cover 1490 is made of a light transmissive or light translucent material. In addition, a reflection coating part for reflecting light emitted from the light source part 1400 toward the first accommodation space is provided on an inner side surface of the side of the cover part 1490.

Since the cover 1490 is provided with a reflective coating on the inner side, the light emitted from the light source in the lateral direction of the lighting device is reflected on the reflective coating of the cover 1490, and some of the reflected light is first received. It reenters into space. As a result, the amount of light directed toward the first accommodation space can be increased.

Preferably, the reflective coating part may be formed by coating a material having a high reflectance such as silver and TiO ₂ on the inner side surface of the cover part 1490. In addition, the reflective coating is coated with a base material layer of stainless steel (brass), brass, aluminum, PET, etc. attached to the inner side surface of the cover portion and a fluorescent pigment or a phosphorescent pigment is applied on the base material layer It may be composed of layers.

Since the lighting apparatus according to the present invention includes a cover part and / or a reflective coating part, the light emitted from the side part of the light source part may be reincident in the direction of the first accommodating space, thereby increasing the amount of light incident to the first accommodating space. This can increase the lighting efficiency.

FIG. 7 is a schematic perspective view of the independent lighting unit 1700 of FIG. 2.

As shown in FIG. 7, the independent lighting unit 1700 includes a light source module 1701 for emitting light and a power connection unit 1703 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 exit surface of the light source module 1701 includes a light exit portion made of light-transmissive material to diffuse and emit light from the light source module 1701. The light exit portion may have a petal shape, a flower stem shape, a plant shape, a geometric shape, or the like. In addition, the light source module 1701 may be configured of an upper light source module 1701 and a lower light source module 1701. For example, when the independent lighting unit 1700 has a flower shape as a whole, the upper light source module 1701 emits the color of the petals (for example, red, pink, yellow, purple, etc.), and the lower light source module ( 1701 may be configured to emit a color of a stem (eg, brown, green, etc.).

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

In addition, the terminal 1705 of the power connection 1703 is easily connected to the connection portion 1303 in the insertion groove 1301 of the seating portion 1300 at the end of the power connection 1703 (or the end of the independent light 1700). A guide protrusion 1707 is provided to guide the connection. The guide protrusion 1707 has a shape corresponding to the guide recess 1305 formed in the insertion groove 1301 of the seating portion 1300.

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

The controller may control the light source driver 1500 to change the intensity of light emitted from the light source module 1701. In this case, the control unit controls the light source driver 1500 to change the intensity of light emitted from the light source module 1701 based on, for example, the amount of sunshine detected by the sensor unit or based on a user's input signal received by the input unit. Can be controlled.

The control unit 1500 changes the color or intensity of light emitted from the light source unit 1400 of the first container unit 1200 according to the color or intensity of light emitted from the light source module 1701. ) Can be controlled. For example, the controller may control the light source driver 1500 to change the color of the main lighting unit 1000 to a predetermined color so that the colors of the independent lighting unit 1700 and the main lighting unit 1000 are harmonized. In this case, preferably, the independent lighting unit 1700 has an RF tag including its identification information (for example, shape or color), and the main lighting unit 1000 (for example, the main lighting unit). The seating unit 1300 of 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 exemplary embodiment of the present invention, FIG. 9 is a schematic perspective view of the main lighting unit 2000 of FIG. 8, and FIG. 10 is a main lighting unit 2000 of FIG. 8. Is a schematic exploded perspective view of FIG. 11, and FIG. 11 is a schematic perspective view of the seating portion 2300 of FIG. 9.

As shown in FIG. 8, the lighting apparatus according to the present invention includes a main container part 2000 that emits light and a second container part which is detachably installed in the main lamp part 2000 to accommodate the plant F. (2800).

As shown in FIGS. 8 to 11, the main lighting unit 2000 may include a first container unit 2200 forming a first accommodation space; A seating portion 2300 installed in the first container portion 2200 and having a second container portion 2800 detachably seated in the first accommodation space to form a second accommodation space for accommodating the plant F. ); 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 driver 2500 installed in the first container part 2200 and receiving power from a power supply part to drive the light source part 2400; And a controller installed at the light source driver 2500 to control the light source 2400 and the light source driver 2500.

As shown in FIGS. 9 and 10, the first container part 2200 forms a light emitting surface on which light emitted from the light source part 2400 is emitted to the outside, and the first container part 2800 accommodates the first container part 2800. Form a receiving space. The first container portion 2200 may have a truncated cone shape as shown in FIG. 8, but this may be any shape as long as it can form the first accommodation space as an example. The first container portion 2200 is preferably made of a light transmissive material.

As shown in FIGS. 9 and 10, a lower part (or inside the first receiving space) of the first container part 2200 has a seating part 2300 in which the second container part 2800 is detachably placed. .

As shown in FIG. 11, the seating portion 2300 may have a guide groove 2309 formed in the seating portion 2300 to easily settle and stably fix the second container portion 2800. . The guide groove 2309 may be formed to form a concentric circle with the edge of the seating portion 2300. As described below, a protrusion 2810 having a shape corresponding to the guide groove 2309 is provided at the bottom of the second container portion 2800 to be inserted into the guide groove 2309.

Preferably, the guide groove 2309 of the seating portion 2300 may be further provided with a sensor unit for detecting the presence or absence of the second container portion 2800. The sensor unit, for example, a piezoelectric sensor for sensing the weight of the second container portion 2800, a proximity sensor for detecting whether the protruding portion 2810 of the second container portion 2800, the second container portion 2800 It may be an optical sensor for detecting the presence or absence of light blocking by the protrusion 2810 of the.

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

Preferably, the insertion groove 2301 of the seating portion 2300 is provided with a guide recess (2305) so that the power connection of the independent lighting unit can be easily connected to the connection portion 2303 of the seating portion (2300). Can be. At this time, as will be described later, the guide projection corresponding to the shape of the guide groove 2309 is provided at the end of the independent lighting unit.

9 and 10, the light source unit 2400 is disposed below the seating unit 2300.

The light source unit 2400 includes at least one or more red light sources 2410, at least one or more blue light sources 2430, and at least one or more green light sources 2450. The OLED light sources may be OLED panels that emit light in a direct manner. In addition, the OLED light source may be an OLED module disposed on the side of the light guide plate for the surface light source to emit the light in an edge method.

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

In addition, preferably, the light emitted from the light source part 2400 is emitted from the light source part 2400 on the light emitting surface side of the light source part 2400 in the first receiving space of the first container part 2200, or the second container part 2800. The light guide part 2470 may be provided to face the accommodation space. Here, the light guide portion 2470 is composed of a light-transmitting material for directing the light emitted from the light source unit 2400 toward the biochemical plant F accommodated in the second container unit 2800. The light guide part 2470 may have a shape inclined toward the second container part 2800 in order for light to be directed to the plant F.

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

The controller is configured to change the intensity or color of the light emitted from the light source unit 2400 according to the type of the target unit 2300 (for example, the independent lighting unit or the second container unit 2800), and the light source unit 2400. The light source driver 2500 may be controlled.

For example, as in the present embodiment, when the second container portion 2800 is placed in the seating portion 2300, the controller may be configured such that the second container portion 2800 is attached to the seating portion 2300 based on the sensor portion. When it is determined that it is settled, the light source unit 2400 may control the light source driver 2500 to emit light in the wavelength band for promoting the growth of the plant F.

In addition, the control unit receives the user's input signal through the input unit, the control unit based on the input signal of the user so that the light source unit 2400 emits light in the wavelength band for promoting the growth of the plant F (the light source driver) (2500) can be controlled.

Here, the light of the wavelength band that promotes the growth of the plant (F) is, for example, red light, super red light, blue light, green light, yellow light and the like. The light of the red series is light in the wavelength band that promotes photosynthesis of the native plant (F), regulates the flowering period in the case of flowering plants, and promotes the growth of stem length. Super-red light is light in the wavelength band to improve fruit sugar in the case of fruit-bearing plants, blue light is light in the wavelength band to promote thickness growth of stems, and green or yellow light is mold It is light in the wavelength band which suppresses pests. When such light is used, for example, when the light source unit 2400 emits red light and blue light simultaneously in the direction of the plant F, the light of the two wavelength bands is mutually restrained to activate the plant's properties. Let's do it.

In addition, the light source driver 2500 may include a timer that recognizes a current date. At this time, the control unit determines the current season based on the current date recognized by the timer to change the intensity or color of the light emitted from the light source unit 2400 according to the current season the light source unit 2400 and the driving unit Can be controlled. For example, when the controller determines that the current season is spring based on the current date recognized by the timer, the controller may control the light source unit 2400 and the light source driver so that the color of the light emitted from the light source unit 2400 becomes pink or yellow. 2500 may be controlled so that the lighting device exhibits a color suitable for the season.

FIG. 12 is a schematic perspective view of the second container portion 2800 of FIG. 8.

As shown in FIG. 12, the second container portion 2800 forms a second accommodation space for accommodating the plant F in the first accommodation space of the first container portion 2200. The second accommodating space may contain the plant and plants (F), water and nutrients necessary for the growth of the plant and plants (F). The bottom surface of the second container portion 2800 is sealed to prevent water or the like from penetrating into the seating portion 2300. The second container portion 2800 may be preferably made of a light transmissive material.

On the bottom of the second container portion 2800, a protrusion 2810 is inserted into the guide groove 2309 formed in the seating portion 2300. The protruding portion 2810 is fixed to the seating portion 2300 so as to surround the entire insertion groove 2301 formed in the seating portion 2300, so that water is connected to the connection portion 2303 provided in the insertion groove 2301 of the seating portion 2300. The penetration of the back can be prevented.

FIG. 13 is a schematic exploded perspective view of a main lighting unit according to a further embodiment of FIG. 8.

 In the lighting apparatus including the main lighting unit 2000 according to a further embodiment of the present invention, the light emitted from the surface light source unit 2210 and the light source unit 2400 provided in the first container unit 2200 toward the first accommodation space. It includes the same components as the lighting devices of FIGS. 9 and 10 except that it further includes a focusing cover 2490. Of course, the main lighting unit according to a further embodiment may further include only the surface light source portion 2210 provided in the first container portion 2200, or may further include only the cover portion 2490, or the first Naturally, the surface light source part 2210 and the cover part 2490 provided in the container part may be further provided. Hereinafter, for convenience of description, a case in which the main lighting unit further includes both the surface light source unit 2210 and the cover unit 2490 provided in the first container unit will be described.

Specifically, as shown in FIG. 13, the main lighting part 2000 includes a first container part 2200 that forms a first accommodation space and includes a surface light source part 2210 that surrounds the entire inner or outer surface; A seating portion 2300 installed in the first container portion 2200 and having a second container portion 2800 detachably seated in the first accommodation space to form a second accommodation space for accommodating the plant F. ); 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 driver 2500 installed in the first container part 2200 and receiving power from a power supply part to drive the light source part 2400 and the surface light source part 2210; And a control unit installed in the light source driver 2500 to control the light source unit 2400, the surface light source unit 2210, and the light source driver 2500.

As shown in FIG. 13, the first container part 2200 forms a light emitting surface on which light emitted from the light source part 2400 is emitted to the outside, and defines a first accommodation space in which the second container part 2800 is accommodated. Form. The first container portion 1200 may have a truncated cone shape as shown in FIG. 13, but this may be any shape as long as it can form the first accommodation space as an example. The first container portion 2200 is preferably made of a light transmissive material.

In addition, the first container portion includes a surface light source portion 2210 that surrounds the entire inner surface or the outer surface, and the surface light source portion 2210 is electrically connected to a light source driver installed under the first container portion and driven by the light source driver. And controlled by an input signal of a user or by a controller. In this case, preferably, the surface light source unit 2210 may be formed of an organic light emitting diode (ie, OLED).

The light emitting surface of the surface light source unit 2210 is provided with a diffusion coating unit 1230 for diffusing the light emitted from the surface light source unit 2210 to the outside. The diffusion coating part 1230 is a film composed of a glass material or a transparent resin. The diffusion coating part 1230 may have a fine concavo-convex structure on its surface in order to facilitate mixing or dispersion of light emitted from the surface light source part 2210.

By providing the first container part with the surface light source part 2210, the first container part can serve as an illumination part by itself, and accordingly, the lighting apparatus according to the present invention can provide the first container part (that is, the surface light source part) and the first container. Light can be emitted from the light source unit installed in the lower part of the unit, so that the user can produce various lighting devices. In detail, the surface light source unit of the first container unit may emit an illumination light suitable for the season or the interior of the room by the control unit or by the input signal of the user, and greatly improves the user's selection range to enhance the aesthetics. You can.

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

In detail, the cover part 2490 is formed in a shape surrounding the light source part 2400, and an opening 2491 penetrating the seating part 2300 is formed at an upper part of the cover part 2490. In addition, the upper portion of the cover portion 2490 is made of a light transmissive or light translucent material. In addition, a reflection coating part for reflecting light emitted from the light source part toward the first accommodating space is provided on an inner side surface of the cover part 2490.

Since the cover portion 2490 is provided with a reflective coating on the inner side, the light emitted from the light source portion in the lateral direction of the lighting device is reflected by the reflective coating portion of the cover portion 2490, and some of the reflected light is accommodated in the first accommodation. It reenters into space. As a result, the amount of light directed toward the first accommodation space can be increased.

Preferably, the reflective coating part may be formed by coating a material having a high reflectance such as silver and TiO ₂ on the inner side surface of the cover part. In addition, the reflective coating is coated with a base material layer of stainless steel (brass), brass, aluminum, PET, etc. attached to the inner side surface of the cover portion and a fluorescent pigment or a phosphorescent pigment is applied on the base material layer It may be composed of layers.

Since the lighting apparatus according to the present invention includes a cover part and / or a reflective coating part, the light emitted from the side part of the light source part may be reincident in the direction of the first accommodating space, thereby increasing the amount of light incident to the first accommodating space. This can increase the lighting 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 lighting unit 3000 of FIG. 14.

As shown in FIG. 14, the lighting apparatus according to the present invention includes a main lighting unit 3000 that emits light and a second container detachably installed on the main lighting unit 3000 to accommodate the plant F. The unit 3800 and the main lighting unit 3000 are detachably installed and include an independent lighting unit 3700 to emit light.

As shown in FIG. 14 and FIG. 15, the main lighting unit 3000 may include a first container unit 3200 forming a first accommodation space; The second container part 3800 installed in the first container part 3200 and accommodating at least one independent light part 3700 that emits light and the plant F is detachably attached to the first accommodating space. A seating part 3300 which is placed; 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 driver 3500 installed in the first container part 3200 and receiving power from a power supply part to drive the light source part 3400 and the independent lighting part 3700; And a control unit installed in the light source driver 3500 and controlling the light source unit 3400 and the light source driver 3500.

As shown in FIG. 14 and FIG. 15, the first container part 3200 forms a light emitting surface on which the light emitted from the light source part 3400 is emitted to the outside, and the first container part 3800 is accommodated in the first container part 3200. Form a receiving space. The first container portion 3200 may have a truncated cone shape as shown in FIG. 13, but this may be any shape as long as it can form the first accommodation space as an example. The first container portion 3200 is preferably made of a light transmissive material.

As shown in FIG. 14 and FIG. 15, a lower part of the first container part 3200 (or inside the first accommodation space) may include a seating part in which the second container part 3800 and the independent lighting part 3700 are detachably placed. 3300 is disposed.

Similarly to the seating portion 3300 illustrated in FIG. 11, the seating portion 3300 has a guide groove 3309 in the seating portion 3300 to easily settle and stably fix the second container portion 3800. ) May be formed. The guide groove 3309 may be formed to form a concentric circle together with an edge of the seating portion 3300. As will be described later, the bottom of the second container portion 3800 is provided with a protrusion 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 unit for detecting the presence or absence of the second container portion 3800. For example, the sensor unit may include a piezoelectric sensor that detects a weight of the second container unit 3800, a proximity sensor that detects whether the protrusion of the second container unit 3800 is close, and a protrusion of the second container unit 3800. It may be an optical sensor for detecting the presence or absence of light blocking.

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

Preferably, the insertion groove of the seating part 3300 may be provided with a guide recess for easily connecting the power connection part 3703 of the independent lighting part 3700 to the connection part of the seating part 3300. At this time, the guide projection (3707) corresponding to the shape of the guide groove (3309) is provided at the end of the independent light portion 3700.

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

The light source unit 3400 includes at least one or more red light sources 3410, at least one or more blue light sources 3430, and at least one or more green light sources 3450. The OLED light sources may be OLED panels that emit light in a direct manner. In addition, the OLED light source may be an OLED module disposed on the side of the light guide plate for the surface light source to emit the light in an edge method.

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

In addition, preferably, the light emitted from the light source unit 3400 is disposed on the light emitting surface side of the light source unit 3400 in the first receiving space of the first container unit 3200, or the upper portion of the second container unit 3800 or the second unit. A light guide 3470 may be provided to face the accommodation space. Here, the light guide part 3470 is made of a light-transmitting material for directing the light emitted from the light source part 3400 toward the plant of flora (F) accommodated in the second container part 3800. The light guide part 3470 may have a shape inclined toward the second container part 3800 in order for the light to face the plant F.

The light source driver 3500 is electrically connected to the connection portion of the power supply unit, the light source unit 3400, and the seating unit 3300, and is controlled by the controller. 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 lighting unit 3700. For example, when the power supply unit supplies DC power (that is, a battery), the light source driver 3500 may be a DC-DC converter for boosting or reducing the DC power of the power supply unit, and the power supply unit AC In the case of supplying power, the AC-DC converter may convert AC power into DC power. The light source driver 3500 may include a constant current module to supply power having excellent temperature characteristics to the light source unit 3400 and the independent lighting unit 3700.

The controller may be configured to change the intensity or color of the light emitted from the light source unit 3400 according to the type of the mounted part 3300 (for example, the independent lighting unit 3700 or the second container unit 3800). 3400 and the light source driver 3500 may be controlled.

For example, when the second container part 3800 and the independent lighting part 3700 are placed in the seating part 3300, as in the present embodiment, the control part may be configured such that the second container part 3800 is based on the sensor part. When it is determined that the seated part 3300 is placed, the light source driver 3500 may emit at least one of the light source part 3400 and the independent light part 3700 to emit light in a wavelength band that promotes the growth of the plant F. ) Can be controlled.

In addition, the control unit receives the user's input signal through the input unit, the control unit based on the user's input signal, at least one of the light source unit 3400 and the independent lighting unit 3700 promotes the growth of the plant F The light source driver 3500 may be controlled to emit light in the wavelength band.

Here, the light of the wavelength band that promotes the growth of the plant (F) is, for example, red light, super red light, blue light, green light, yellow light and the like. The light of the red series is light in the wavelength band that promotes photosynthesis of the native plant (F), regulates the flowering period in the case of flowering plants, and promotes the growth of stem length. Super-red light is light in the wavelength band to improve fruit sugar in the case of fruit-bearing plants, blue light is light in the wavelength band to promote thickness growth of stems, and green or yellow light is mold It is light in the wavelength band which suppresses pests. By using such light, for example, when the light source unit 3400 simultaneously irradiates the red light and the blue light in the direction of the plant F, the light of the two wavelength bands is mutually restrained to activate the plant's properties. Let's do it.

In addition, the light source driver 3500 may include a timer that recognizes a current date. In this case, the controller determines the current season based on the current date recognized by the timer, and changes the light intensity or color of the light emitted from the light source unit 3400 according to the current season. Can be controlled. For example, when the controller determines that the current season is spring based on the current date recognized by the timer, the controller may control the light source unit 3400 and the light source driver so that the color of the light emitted from the light source unit 3400 becomes pink or yellow. 3500 can be controlled to allow the lighting device to display colors appropriate for the season.

16A and 16B are schematic perspective and bottom views of the second container portion 3800 of FIG. 14.

As shown in FIGS. 16A and 16B, the second container part 3800 according to the present embodiment includes a second accommodating space for accommodating the plant and the water or nutrients necessary for the growth of the plant and the plant. And the second container portion 3800 has a tubular member 3830 extending from the bottom surface.

The tubular member 3830 is formed to be electrically connected to the connection portion of the seating portion 3300 is inserted into the independent lighting unit 3700 through the bottom surface of the second container portion 3800. The tubular member 3830 may include a reinforcing rib 3831 at a lower end thereof to reinforce mechanical strength.

In addition, the second container portion 3800 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 lighting unit 3700 of FIG. 14.

As shown in FIG. 17, the independent lighting unit 3700 according to the present embodiment is disposed above the second container unit 3800 and emits light in a downward direction, and the light source module 3702. It includes a power connection unit 3703 electrically connected to.

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 growth of the plant F. The light source module 3702 is disposed radially to supply light to the whole plant F that is accommodated in the second container part 3800, and may be disposed to irradiate light from the top to the bottom.

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

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

In addition, the terminal 3705 of the power connection unit 3703 may be easily connected to an end of the power connection unit 3703 (or an end of the independent lighting unit 3700) so as to be connected to a connection in the insertion groove of the seating unit 3300. Guide protrusions 3707 are provided. The guide protrusion 3707 has a shape corresponding to the guide recess formed in the insertion groove of the seating portion 3300.

As such, when the light source unit 3400 and the independent light unit 3700 simultaneously irradiate light in the wavelength band for promoting growth of the plant F, the plant F received in the second container unit 3800 is the upper portion (that is, In addition, the independent lighting unit 3700 and the lower portion (that is, the light source unit 3400) may be supplied with even light at the same time, thereby promoting growth of all of the plant plants F accommodated in the second container unit 3800.

Preferably, the harmonic plant may be accommodated in the second container portion 3800.

Preferably, although not shown in the drawings, the lighting apparatus according to the third embodiment of the present invention, similar to the lighting apparatus of Figures 6 and 13, the cover portion for concentrating the light emitted from the light source portion toward the first receiving space and And / or the surface light source part provided in the first container part. The illumination device according to the present invention can increase the user's illumination selection range to improve the range and aesthetics of the illumination device by providing a surface light source unit provided in the first container portion, and at the same time the lid and / or reflective coating By re-injecting the light emitted to the light source to the first receiving space toward the first receiving space, it is possible to increase the amount of light incident to the first receiving space, thereby increasing the lighting efficiency and the growth rate of the plant.

According to the above, the present invention can not only accommodate the natural plants, but also can accommodate the independent shape of the flower shape interlocked with the lighting device. That is, the present invention may be used as a container for holding a plant, or may be used as a container for receiving independent lighting, and may be used as a container for simultaneously holding a plant and independent lighting, thereby providing a container that can be used for a variety of purposes. have.

In addition, the color of the container can be appropriately changed according to the color and type of the various flowers or plants or according to the season or the user's selection, it is possible to provide a user-customized container. In addition, this eliminates the inconvenience of having to buy various pots or containers to match the color of the plant and saves space for storing unused pots or containers.

In addition, the present invention can promote the growth of a plant or flower contained in a container, thereby keeping the plant or flower in a flowered state at all times, or prolong the survival life of the plant or flower.

In addition, the present invention is interlocked with the lighting device and can detachably receive the independent lighting of the flower shape, thereby significantly improving the user's selection range for improving the aesthetics. In addition, because of this, the independent lighting unit 3700 of various shapes or colors can be selected and replaced, so that the user can produce various lighting 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 lighting
1200, 2200, 3200: first container
1300, 2300, 3300: Mounting part
1400, 2400, 3400: light source
1500, 2500, 3500: Light source driver
1700, 3700: Independent lighting department
2800, 3800: second container
F: natural plant

Claims (28)

A first container part forming a light exit surface of the light and forming a first accommodation space;
A seating unit installed in the first container unit, the seating unit detachably seated 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 driver installed in the first container and driving the light source by receiving power from a power supply; 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 method of claim 1,
The light source unit includes at least one light source of red light, at least one light source of blue light, and at least one light source of green light. The method of claim 2,
The red light source, the blue light source and the green light source are stacked and formed, and at least one light diffusing portion is formed on the light emitting surface of the red light source, the blue light source and the green light source. Illumination apparatus, characterized in that provided. The method of claim 3,
And the red light source, the blue light source, and the green light source are surface light sources composed of organic light emitting diodes. The method of claim 1,
And the first container portion comprises a surface light source portion composed of an organic light emitting diode, wherein the surface light source portion is driven by the light source driver. The method of claim 5,
The light emitting surface of the surface light source unit, the lighting device further comprises a diffusion coating for diffusing the light emitted from the surface light source. The method of claim 1,
The light source unit further comprises a cover unit for concentrating light emitted from the light source unit toward the first receiving space. The method of claim 7, wherein
The upper portion of the cover portion is made of a light transmissive or light semi-transparent material, and the inner surface of the side of the cover portion is provided with a reflecting coating portion for reflecting the light emitted from the light source portion toward the first receiving space. The method of claim 1,
The light source driver comprises a constant current module for controlling the constant current of the light source unit. The method of claim 1,
And the control unit controls the light source unit and the light source driving unit to change the intensity or the color of light emitted from the light source unit according to the mounted unit. The method of claim 1,
The light source driver includes a timer that recognizes a current date, and the controller determines a current season based on the current date recognized by the timer to determine the intensity or color of light emitted from the light source according to the current season. Lighting device characterized in that for controlling the light source unit and the drive unit to change. 12. The method according to any one of claims 1 to 11,
The to-be-mounted unit may include at least one independent lighting unit including a light source module emitting light and a power connection unit electrically connected to the light source module. The method of claim 12,
The seating unit is provided with at least one connecting portion to which the power connection is connected, the connecting unit is characterized in that the electrical connection to the light source driver. The method of claim 12,
The independent lighting unit further comprises a replaceable fragrance sprayer. 15. The method of claim 14,
The fragrance injection unit is characterized in that for injecting the fragrance every predetermined time. The method of claim 12,
The control unit is characterized in that for controlling the light source driver to change the intensity of the light emitted from the light source module. The method of claim 12,
The control unit is characterized in that for controlling the light source driving unit to change the color or the intensity of the light emitted from the light source unit of the first container portion in accordance with the color or intensity of light emitted from the light source module. 12. The method according to any one of claims 1 to 11,
The to-be-seated portion includes a second container portion forming a second accommodation space for accommodating a plant. 19. The method of claim 18,
And the first container part includes a light guide part on the light emitting surface side of the light source part to direct the light emitted from the light source part toward the upper portion of the second container part or the second accommodation space. 19. The method of claim 18,
And an input unit configured to receive an input signal of a user for adjusting the intensity of light or the color of the light from the light source unit. 19. The method of claim 18,
The second container portion is provided with a protrusion on the lower portion, the seating portion is a lighting device characterized in that it comprises a guide groove into which the projection is inserted. The method of claim 21,
The guide groove is provided with a sensor unit for detecting the presence or absence of the settlement of the second container portion. The method of claim 22,
The sensor unit is one of a piezoelectric sensor, a proximity sensor and an optical sensor. The method of claim 22,
The controller may be configured to control the light source driver to emit light in a wavelength band that promotes growth of a plant, if it is determined that the second container part is placed in the seating part based on the sensor part. Lighting equipment. A first container portion forming a first accommodation space;
A seating part installed below the first container part and having at least one independent lighting part detachably seated in the first receiving space;
At least one light source unit disposed below the first container unit and emitting light toward the first container unit or the outside;
A light source driver installed at a lower portion of the first container part to receive power from a power supply part to drive the light source part and the independent lighting part; And
And a control unit installed in the light source driving unit and controlling the light source unit and the light source driving unit. A first container portion forming a first accommodation space;
A seating part installed in the first container part and having a second container part detachably seated in the first accommodating space to form a second accommodating space for accommodating a plant;
At least one light source unit disposed in the first container unit and emitting light toward the first container unit and the second container unit;
A light source driver installed in the first container and driving power to the light source by receiving power from a power supply; And
A control unit installed in the light source driver and controlling the light source unit and the light source driver;
And the control unit controls the light source driver to emit light in a wavelength band in which the light source promotes growth of a plant. A first container portion forming a first accommodation space;
A seating portion installed below the first container portion, the seating portion detachably seated in the first accommodation space, the second container portion accommodating at least one independent lighting unit emitting light and a plant of plants;
At least one light source unit disposed below the first container unit and emitting light toward the first container unit and the second container unit;
A light source driver installed at a lower portion of the first container part to receive power from a power supply part to drive the light source part and the independent lighting part; 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 light unit includes a light source module positioned above the second container unit to emit light in a downward direction. Lighting equipment. 28. The method of claim 27,
And the control unit controls the light source driving unit so that at least one of the light source unit and the independent lighting unit emits light in a wavelength band that promotes growth of a plant.

Images