KR20140006758A - Detailed controlable nursery device using led lamp and parabolic louver radiator - Google Patents

Abstract

The present invention relates to a precision controlling type seedling cultivation device which does not receive influences from external environment and, more specifically, to a seedling cultivation device which can precisely control plant growth by highly advanced environment control. The seedling cultivation device comprises the following: an LED lamp which is located on the upper side, and includes a red LED specialized for growing plants as a light source, and a parabolic louver to increase heat radiation effect; miracle glass which is located on the side surface to freely pass through and block external light; and a cultivation bed for growing seedlings and plants which is located on the lower side.

Description

Detail controlable nursery device using LED LAMP and parabolic louver radiator}

The present invention relates to a precisely controlled seedling cultivation device that is not affected by the external environment, and to a seedling cultivation device that enables precise control of the growth of plants by enabling a high level of environmental control. To this end, LED lights with high heat dissipation were placed on the upper side using parabolic louvers, and Miracle glass was placed on the side to block external light and transmit freely. Placed at the bottom to be an efficient seedling cultivation device.

Precision controlled seedling cultivation device is a cultivation device capable of high environmental control for seedling. To this end, a red LED lighting device that can emit light in the 660nm wavelength range that has the greatest effect of germination and fire formation should be applied. In this case, the LED module has the advantage of reducing energy costs due to the low power consumption. It is necessary to solve the problem of exhausting the heat from the inside due to the temperature rise due to the heat generation.

The biggest object of the present invention is to develop a seedling cultivation apparatus capable of high environmental control for seedling. LED lighting, which produces the light needed by plants for photosynthesis, generates a lot of heat, so a device is needed to discharge it. It creates a confined space to maintain the internal temperature, cuts off the external light for precise control, and requires sidewall devices to see the internal crop cultivation as needed, and supplies water and nutrients to the crop. A growing bed is needed.

LED lighting to create the light needed for plants photosynthesis, side wall devices to block external light and heat, cultivation bed was invented to enable the introduction and drainage of nutrient solution.

The heat from the LEDs can be dissipated into the air, and the parabolic louver unit allows light to be uniformly irradiated to the plant, and the internal heat can escape through the louver's insertion and insertion openings. The louver insert so invented was placed on the side.

In addition, the Miracle Glass was invented on the side to cut off the light and heat from outside and the operator could look inside by using the switch whenever necessary, and the cultivation bed was installed at the bottom to enable the introduction and drainage of nutrient solution. .

The biggest object of the present invention is to develop a seedling cultivation apparatus capable of high environmental control for seedling. It is expected that this seedling cultivation device can be used for various purposes such as cultivation use and experimental use by creating an optimal cultivation environment.

1 is a perspective view of the externally controlled seedling cultivation device 1
2 is a perspective view of the externally controlled seedling cultivation device 2
3 is a side view of the precisely controlled seedling cultivation device
Fig. 4 Detailed Control Side Seedling Box Side View
The fifth perspective control type seedling box perspective view

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

On top of the cultivation device, a red LED lighting device 103 specialized at a wavelength of 660 nm for maximizing the seedling effect by irradiating light to plants is installed. A parabolic louver 104 is installed at the lower part of the LED to scatter light and irradiate the light uniformly. By contacting the louver with the PCB board of the LED lighting, heat is transferred to the louver so that the entire louver functions as a heat sink. (132) A space was formed at the upper side to allow the louver to be inserted (104), and the air inside was discharged to the outside through the gap between the insertion holes. In addition, the upper portion where the LED module is installed was connected to the tube 105 through which the refrigerant of the cooling device can flow so as to radiate heat generated from the LED to the outside and adjust the internal temperature.

The front part of the cultivation apparatus was installed black tempered glass 107 that can block the external light, and the miracle glass 106 is disposed on both sides and the rear. Miracle Glass is a glass made by bonding an ITO film (a film of transparent material while conducting electricity) and a liquid crystal between glass and glass. It is a functional glass that becomes transparent when an electric current flows and becomes opaque when it does not flow. Miracle Glass is installed to prevent the light from entering the inside, and when the user wants to see the inside is a structure that can see the interior through a simple switch 130 operation. The black tempered glass part 107 is provided with a hinge at the connection portion with the box to open and close up and down.

Temperature, humidity, CO ₂ sensor 108 was installed inside to measure the internal environment. When the measured value is transmitted to the environmental control computer 109 and the environmental value is changed out of the set value range, the cooling device 110, the humidifying device 111, and the CO ₂ supply device 112 are automatically driven to control the environment. To make it possible.

The cultivation bed 113 is installed at the bottom. The cultivation bed has a supply pipe 115 and a drain pipe 116 connected to the nutrient solution supply device 131 at the bottom.

103: LED lighting device 104: Parabolic louver and louver insertion hole
105: refrigerant injection tube 106: miracle glass
107: black tempered glass 108: temperature, humidity, CO2 sensor
109: environmental control computer 110: cooling device
111: humidifier 112: CO2 supply device
113: cultivation bed 115: nutrient solution supply pipe
116: drain pipe 120: LED lamp
130: Miracle glass switch 131: nutrient solution supply device

Claims (2)

LED lighting for maximum germination and germination of plants to be optimized for seedlings on the upper part, and external light and heat on the sidewalls, so that workers can look inside using switches whenever necessary. Miracle glass on the back and back; Is installed and the front part is installed black stone tempered glass is blocked, the lower portion of the cultivation bed capable of adding and draining nutrient solution; Seedling cultivation apparatus, characterized in that at least one or more seedlings to be applied is installed. Parabolic louver according to claim 1, wherein the heat generated from the LED light is radiated to the air and the light is irradiated to the plant uniformly; Parabolic louvers, characterized in that the grid is installed between the front portion and the rear portion of the parabolic louver lattice detachable structure; A louver insertion hole invented to allow the heat inside to escape through the parabolic louver by allowing the air to circulate between the gap and the gap; The upper end of the precisely controlled seedling cultivation device, characterized in that

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