KR20140053610A - A water culture apparatus - Google Patents

Abstract

Disclosed is a water cultivation apparatus which includes a cultivation bed which is stacked on an upper side and a lower side of a frame of the apparatus and an LED light unit which is closely joined to the lower side of the cultivation bed and irradiates LED light. The water cultivation apparatus is characterized by the heat generated by the LED light unit that is directly transferred to the cultivation bed, and is cooled by a culture medium circulated through the cultivation bed.

Description

{A WATER CULTURE APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation apparatus capable of absorbing heat from a light source through a culture liquid circulating the hydroponic cultivation bed and cooling the same.

Generally, a plant plant refers to a plant in which a plurality of hydroponic cultivating beds are coaxially laid in a room, and photosynthesis is enabled by illumination formed on the tray, thereby securing a maximum hydroponic cultivation area in a limited space, thereby improving plant productivity .

Fluorescent lighting, incandescent lighting, and high-pressure sodium lighting have been used as lighting for inducing photosynthesis in plant factories. Recently, however, they are mainly used for LED (Light Emitting Diode) lighting with excellent durability.

The LED light can be divided into a physiological effect radiation having a wavelength of 300 to 800 nm and a photosynthetic effect radiation having a wavelength of 400 to 700 nm. The plant absorbs light of a blue-based system and a red-based system, The light of the light is reflected.

As such, the LED illumination is excellent in durability and is capable of emitting light in a wavelength range required by plants, which is optimal for hydroponic cultivation in plant factories. However, in plant factories having a vertical multi- (PPFD) and the wavelength required for the light emitting diode (OLED) to have a considerable luminance.

Therefore, if the heat dissipation process of the LED illumination is not performed well, the temperature inside the closed plant plant is raised to adversely affect the growth of the plant, and the efficiency of the LED illumination is significantly lowered. Further, And a ventilation device is required.

In order to solve this problem, as an example of the prior art, a plurality of LED lighting lamps are incorporated in the registered trademark 10-959994 (factory plant LED lighting apparatus and manufacturing method thereof), and a lighting box for collecting heat generated from the LED lighting lamp is included A plurality of lighting boxes are connected to each other through a pipe in a row and a column structure, and a control device for controlling air in and out of the cultivation room to be automatically discharged to the inside or outside Device) has been disclosed.

However, in the case of the above-described air-cooling type cooling apparatus, the structure is complicated, and there is a problem that water or water enters a control device (blowing device) and causes a failure.

Further, in addition to the air cooling type cooling system as in the prior art, there has been proposed a technique of cooling the inside of the LED lighting bar by circulating the water by the water cooling system. However, in this case, a water tank for collecting water, A tube or the like, which requires a complicated structure, is required, thus increasing the installation cost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hydroponic cultivation apparatus that is improved in structure to cool by using a culture liquid circulating a hydroponic cultivation bed.

In order to accomplish the above object, the present invention provides a hydroponic cultivation apparatus comprising: a cultivation bed in which a device frame is stacked on top and bottom; And a LED lighting unit which is tightly coupled to the lower surface of the rearing bed and irradiates the LED illumination light to the lower part, wherein heat generated in the lighting unit is directly transferred to the rearing bed, And is cooled.

Wherein the bottom wall has a horizontal surface and a mounting portion protruding upward from the horizontal surface and recessed from the bottom surface, the mounting portion having a mounting surface, As shown in Fig.

The lighting unit may further include: an illumination bar which is in tight contact with the lower surface of the re-feeding bed; And an LED installed on the lighting bar, wherein the lighting bar is closely attached to a position corresponding to a mounting portion of the re-feeding bed.

In addition, a heat sink part protruding toward the mounting part and emitting heat may be provided on an upper surface of the lighting bar, which is coupled with the reaming bad.

According to the hydroponic cultivation apparatus according to the embodiment of the present invention, the lighting bar for the LED lighting is installed closely to the lower part of the rearing bed, so that the heat emitted from the lighting bar can be cooled using the culture liquid circulating the rearing bed.

Therefore, no separate cooling facility is required as in the prior art, the facility apparatus is simplified, and the installation cost can be reduced.

Further, since the temperature of the culture liquid is raised by the heat from the illumination bar, it is not necessary to provide a heater for raising the temperature of the culture, and humidity and room temperature above the reference level can be maintained naturally without installing a separate humidifier It is economical.

1 is a perspective view showing a hydroponic cultivation apparatus according to an embodiment of the present invention.
FIG. 2 is a partial perspective view showing the reaming bed shown in FIG. 1; FIG.
3 is a cross-sectional view of the cultivation bed shown in Fig.
4 is a cross-sectional view excerpted from the main part of FIG.

Hereinafter, a hydroponic cultivation apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, a hydroponic cultivation apparatus 100 according to an embodiment of the present invention includes an apparatus frame 110, a plurality of reaming badges 120 stacked on the apparatus frame 110, And an LED illumination unit 130 installed at a lower portion of the cultivation bed 120.

The apparatus frame 110 includes a column frame 111 and a horizontal frame 112 horizontally connected to the column frame 111. A plurality of column frames 111 are arranged at regular intervals, and the horizontal frames 112 are vertically connected to the column frames 111 so as to form a plurality of layers.

The reaming badges 120 are stacked vertically on the apparatus frame 120, and more specifically, they are placed on the horizontal frame 122 and stacked and arranged at regular intervals. A culture liquid drain pipe 140 is connected to the lower side of the one side of the cultivation bed 120 so that the culture liquid supplied to the cultivation bed 120 flows through the cultivation bed 120 and then flows through the culture liquid drain pipe 140 to the lower cultivation bed 120 ) And circulated. The culture liquid drained through the culture liquid drain pipe 140 connected to the remainder of the reed 120 installed at the lowermost part can be recovered to the culture liquid tank 142 provided at the bottom of the apparatus frame 110, that is, the bottom.

The culture liquid in the culture tank 142 is fed by the circulation pump 144 to the uppermost placement bed 120 and the culture liquid flows from the uppermost cultivation bed 120 to the lowermost cultivation bed 120 Can be cycled down.

The rearing bad 120 has a tray structure having a bottom wall 121 and a side wall 122 and a plant badge plate 125 is installed on the inner bottom thereof to allow plants to grow.

The bottom wall 121 has a horizontal surface 121a and a mounting portion 121b protruding upward from the horizontal surface 121a and having a depressed shape from the bottom surface. The mounting portions 121b are formed continuously extending in the longitudinal direction of the reaming bada 120, and a plurality of the mounting portions 121b are formed at regular intervals in the width direction of the reaming bada 120. [ Since the mounting portion 121b protrudes upward from the bottom surface 121a of the re-feeding bed 120 as described above, when the plant discharging plate 125 is mounted in the re-feeding bed 120, ) And the bottom surface 121a. Therefore, the culture liquid can smoothly flow through the secured space. Therefore, it is possible to prevent stagnation of the culture liquid and to enable smooth circulation, thereby increasing the plant growth efficiency.

The culture medium is circulated through the space between the bottom of the cultivation bed 120 and the plant culture plate 125 without being stagnant so that the culture medium is generated from the LED lighting unit 130 tightly coupled to the lower part of the cultivation bed 120 The heat can be cooled more effectively. That is, when the culture liquid is stagnated in the cultivation bed 120, the temperature of the culture liquid rapidly increases due to the heat generated in the LED lighting unit 130, so that the cooling efficiency is not maintained constantly. The efficiency can be improved, and the temperature inside the hydroponic cultivation facility can be prevented from rising.

The plant discharge plate 125 is seated on the upper surface of the mounting portion 121b and the LED illumination unit 130 is tightly coupled with the bottom surface of the bottom wall 121a as a reference.

The LED lighting unit 130 is a plant cultivated in a cultivation bed 120 installed at a lower portion of the lighting bar 131 and spaced apart from the lower part of the lighting bar 131, LEDs 132 are provided.

The lighting bar 131 is mounted on the lower surface of the re-feeding bed 120 in parallel and is preferably seated on the lower surface of the mounting portion 121b. The lighting bar 131 may be formed of a metal material, and a heat sink 131a may be formed on the upper portion of the lighting bar 131 so as to be inserted into the depression of the mounting portion 121b and protruding roundly. The heat sink portion 131a may have a structure formed by a plurality of heat dissipation fins spaced apart from each other and formed in a direction parallel to the illumination bar 131. [ The heat sink 131a protrudes radially from the upper surface of the lighting bar 131. The heat sink 131a can increase the contact area with the reaming bad 120, The thermal efficiency can be further increased. Of course, the upper surface, that is, the flat portion of the lighting bar 131 is tightly coupled to the flat bottom surface of the re-feeding bed 120 so that the heat of the lighting bar 131 is directly transferred to the re-feeding bed 120, .

As described above, in the hydroponic cultivation apparatus 100 according to the embodiment of the present invention, the lighting bar 131 is brought into close contact with the lower part of the re-feeding bed 120 to heat the heat from the lighting bar 131 to the re- 120) and cooled. At this time, the culture medium for growing the plants is always purified in the cultivation bed 120, and since the culture medium absorbs heat and circulates, it is not necessary to provide a separate heat dissipation device, that is, The structure of the system can be simplified and the facility cost can be reduced.

The temperature of the culture medium for growing the plant should be 20 to 25 DEG C, so that the temperature is conventionally increased by a heater or the like. In the present invention, however, the illumination bar 131 It is possible to increase the water temperature of the culture liquid.

In addition, since the culture liquid that absorbs the heat radiates heat through the circulation process in the cultivation bed 120, it is possible to raise the indoor humidity, and the installation of a separate humidifier becomes unnecessary. That is, in the case of a hydroponic cultivation facility, indoor humidity should be maintained at 50% or more. Such humidity can naturally increase the indoor humidity in the process of absorbing the heat of the lighting bar 131, Thereby reducing costs as well as operational management costs.

In addition, since the culture liquid absorbing the heat radiates while circulating through the cultivation bed 120, the room temperature can be raised.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art will readily appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

100 .. Hydroponic Cultivation Device 110 .. Device Frame
120 .. Growing Bad 125 .. Badge Plate
130 ..LED lighting unit 131 .. lighting bar
132..LED

Claims (4)

A cultivation bed which is stacked and arranged above and below the apparatus frame;
And an LED illumination unit which is tightly coupled to the lower surface of the re-feeding bed and irradiates the LED illumination light to the lower portion,
Wherein the heat generated in the illumination unit is directly transferred to the cultivation bed and is cooled by the culture liquid circulating to the cultivation bed. The method according to claim 1,
The re-feeding bed has a tray structure having a bottom wall and side walls,
Wherein the bottom wall has a horizontal surface and a mounting portion protruding upward from the horizontal surface and having a recessed shape from the bottom surface,
Wherein the mounting portion is formed to extend continuously in the longitudinal direction of the reaming bad. The lighting apparatus according to claim 2,
An illumination bar in close contact with the lower surface of the re-feeding bed;
And an LED mounted on the lighting bar,
Wherein the lighting bar is closely attached to a position corresponding to a mounting portion of the reaming bad. The method of claim 3,
And a heat sink part protruding toward the mounting part to emit heat is provided on an upper surface of the lighting bar coupled with the reaming bad.

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