KR20120138949A - Plant or grain cultivation system by plasma lighting and cultivation method thereof - Google Patents

Abstract

PURPOSE: A grain or plant cultivation apparatus including a plasma lighting, and a cultivation method using thereof are provided to offer the wavelength, color, and temperature similar to sunlight to grains and plants. CONSTITUTION: A grain or plant cultivation apparatus comprises the following: a plasma lighting(2) installed on a beam(110) close to the ceiling, having the light source emission direction facing plants(200); a light transmitting window filter installed on the plasma lighting for changing colors; a driving unit lifting the beam for adjusting the height of the plasma lighting; a platform(3) vertically connected to the beam, including a rack gear(32); a pillar(120) combined to the platform; and a motor(35) including a pinion gear(33) combined to the rack gear.

Description

PLANT OR GRAIN CULTIVATION SYSTEM BY PLASMA LIGHTING AND CULTIVATION METHOD THEREOF

The present invention relates to a grain plant cultivation system having a plasma lighting method and a cultivation method using the same. More particularly, the plasma lighting system in a house, a glass greenhouse, and a plant factory is installed in a city or a rural area, so that the high-light is similar to sunlight in an artificial light source. The present invention relates to a grain or plant cultivation system and a cultivation method using the same, which emits color light to a light-transmitting window using a color rendering source, so that the growth of crops is healthy and photosynthesis is promoted.

In general, house cultivation includes hydroponic cultivation or flower cultivation, which is a device for house cultivation, a plurality of cultivation beds regularly arranged in a horizontal direction on a floor in a plastic house, and in a plastic house Heaters, air conditioners and the like are used to maintain the temperature at the set temperature.

In particular, each of the plurality of cultivation beds are substantially grown crops or flowers for cultivation, and a plurality of light sources are installed on the ceiling of the vinyl house so that the crops can photosynthesize by light energy even in the dark night.

Conventionally, a plant cultivation apparatus using an LED as a light source has been filed and disclosed.

Republic of Korea Patent No. 0934881 discloses a "plant cultivation apparatus using a variable LED".

Briefly looking at the prior art, after measuring the intensity, temperature of the sunlight reflected to the vinyl house, the variable type that changes in the infrared, visible and ultraviolet wavelength range according to the reference light requirements of the crops for cultivating the greenhouse through microcomputer control It relates to a plant cultivation apparatus comprising a light demand automatic control unit for controlling and irradiating the light output of the LED light to cultivate plants by emitting a variable LED light source to the greenhouse cultivation crop.

Thus, plant cultivation lamps have various features as BAR type color conversion type LED lamps.

In particular, it can be used as an auxiliary light source when the amount of sunshine is small, can control the physiological phenomena of the plant by controlling the wavelength and brightness, and can be cultivated using the light wavelength suitable for the plant.

In addition, it is possible to increase the added value by controlling the growth rate, and it is a customized product that selectively supplies the required wavelength range of each plant, and it can save 70% of electricity costs compared to the existing halogen by the chick control system by a separate control box.

However, the conventional LED lighting is difficult to apply to the low efficiency of the lighting more than 300 watts (W), there is a problem that the installation cost is increased because many LED lights need to be installed to supply the amount of light required for the growth of a large number of crops.

In addition, there was a problem that the development of the growth of the plant is slow because the light source color and illuminance for plant growth are not sufficiently provided.

The present invention has been made to solve the problems of the above-described conventional lighting technology, to apply the plasma light to the plasma generating light source that exhibits the wavelength, color and temperature of the light source most similar to the sunlight to promote the growth of plants. An object of the present invention is to provide a grain or plant cultivation system having a plasma light and a cultivation method using the same.

An object of the present invention described above, in the grain or plant cultivation method comprising a lighting means mounted in a house, glass greenhouse, plant factory, a plurality of installed in the beam close to the ceiling and the light source irradiation direction toward the plant Plasma lighting fixtures; It can be achieved by a grain or plant cultivation system with a plasma light, characterized in that it comprises a floodlight filter mounted on the plasma lighting fixture to change the color.

And a driving unit for elevating the beam to adjust the height of the plasma lighting fixture.

The drive unit is vertically connected to the beam and the rack gear rack vertically formed on the side; A pillar coupled to the platform so as to slide upward and downward; It characterized in that it comprises a motor formed with a pinion gear that is geared to the rack gear of the lift.

The plasma lighting fixture is characterized in that the color temperature of 4300 ~ 4600 K °.

The floodlight filter is selected from among red, blue, and yellow.

The plasma luminaire is characterized in that the red floodlight filter is mounted and the blue floodlight filter is mounted.

On the other hand, an object of the present invention, a red plasma lighting fixture emitting a red light source and a blue plasma lighting fixture emitting a blue light source are mixed, and the red plasma lighting fixture and the blue plasma lighting fixture are illuminated at intervals of 10 to 15 minutes. It can be achieved by a cultivation system using a grain or plant cultivation method with a plasma light, characterized in that by varying the time to turn on to emit red and blue sequentially or randomly.

According to the present invention, there is an effect of promoting the growth of a plant by three times or more by applying a plasma light fixture having a plasma having a light wavelength, color, and temperature most similar to sunlight as a light source.

1 is a front view showing a plant cultivation apparatus according to the present invention,
2 to 7 is a view showing a plan view and a color temperature of various embodiments showing a lighting example of the grain or plant cultivation apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view illustrating a plant cultivation apparatus according to the present invention, and FIGS. 2 to 7 are plan views and color temperatures of various embodiments showing lighting examples of the plant cultivation apparatus according to the present invention.

1 to 7, the plant cultivation apparatus (A) having a plasma light according to the present invention is a plant cultivation apparatus including a lighting means mounted in a house, a glass greenhouse, and a plant factory 100. A plurality of plasma lighting fixtures (2) are installed in the beam (110) close to the ceiling and the light source irradiation direction is directed toward the plant (200); It is configured to include a floodlight filter mounted on the plasma lighting fixture (2) for changing the color.

The house, glass greenhouse, plant factory 100 is installed in a standard used in a normal flower farm, consisting of a material such as vinyl or glass and a plurality of frames.

The frame consists of a pillar 120 that is installed vertically and a beam 110 that is installed horizontally on top of the pillar 120.

Plasma lighting fixture 2 is installed in the lower portion of the beam 110 so that the light source irradiation direction toward the grain or plant 200.

Plasma Lighting System (Plasma Lighting System) Lighting is a new concept lighting system that applies the principle of plasma light emission through microwaves, and generates plasma by injecting microwaves into a quartz glass bulb without electrodes. It is a lighting device that applies the basic principle that visible light is emitted from.

Since there is no electrode, the initial brightness is maintained even after a long time of use, and the life is long as 20,000 hours.

In addition, the contrast of light and moving objects in the dark is better than conventional lighting, and the light that is most similar to sunlight among artificial light sources can be provided to provide a pleasant lighting environment. It is known as a new light source, which is economical because it can reduce maintenance costs.

And a driving unit for lifting and lowering the beam 110 is formed to adjust the height of the plasma lighting fixture (2).

That is, the height can be adjusted to set the illumination intensity suitable for plant growth. Preferably, the height from the plant 200 to the plasma lighting fixture 2 is about 2.5 to 3.5 m.

Of course, if necessary, the setting of the height may be implemented to be out of the above range.

An example of the drive unit includes a lift table 3 vertically connected to the beam 110 and having a rack gear 32 perpendicular to a side surface thereof; A pillar (39) coupled to the lifting platform (3) so as to slide upward and downward; It consists of a motor 35 is formed with a pinion gear 33 which is gear-coupled with the rack gear 32 of the platform 3.

Therefore, when the motor 35 is operated by operating a control unit (not shown), the pinion gear 33 may be rotated and the lifting platform 3 engaged with the pinion gear 33 may be lifted and thus height adjustment is possible.

Normally, the plasma lighting fixture 2 has a color temperature of 7500K °, which is unsuitable for plant growth, so it should be halved and adjusted to about 4300-4600 K ° to convert it to the most suitable temperature for plant growth.

The half temperature of the color temperature is determined by the light filter, and the light filter is selected from among red, blue, and yellow.

As shown in Fig. 2, the beam 110 is installed in a lattice shape, and a plurality of plasma lamps 2 are installed at each intersection.

In this case, preferably, the plasma illuminator 2 is a mixture of a red floodlight filter and a blue floodlight filter.

That is, since the color of the beam of the plasma lighting fixture 2 is determined by which color the light source filter is selected, the color arrangement can be arbitrarily changed and set.

Red, blue, and yellow filters are used for the floodlight filter, red provides a red beam necessary for plant photosynthesis, blue provides a blue beam for promoting plant growth, and yellow is a yellow to assist plant growth. It is known to provide a beam.

For example, root plants such as sweet potatoes and potatoes apply a blue floodlight filter, and stem plants such as beans, corn, roses, ginseng, lettuce, peppers, tomatoes, bell peppers, orchids, and tubules have a red floodlight filter. It is preferable to apply.

Cultivation method using a grain or grain or plant cultivation system with a plasma illumination of the present invention can be divided into three modes.

That is, in the first mode, all of the plasma lighting fixtures 2 of each color are turned on. The yellow circle in the figure means the plasma lighting fixture 2.

The state in which the plasma lighting fixtures 2 are all lit is 493 lux (lx) on average, and has illuminances of up to 597 lux (lx) and at least 239 lux (lx).

As shown in Fig. 2 and Fig. 3, the plasma lighting fixture 2 is a product name PSH700, the beam angle is 60 °, 72 pieces are installed and all lit.

In the second and third modes, the red plasma light and the blue plasma light are turned on at intervals of 10 to 15 minutes, so that the red and blue light wavelengths are sequentially or randomly emitted to plants.

As shown in Figs. 4 and 5, the second mode is lit by a differential and has an average of 246 lux (lx), and has an illuminance of a maximum of 363 lux (lx) and a minimum of 64 lux (lx).

As shown in FIGS. 6 and 7, the third mode is lit by a differential and has an average of 246 lux (lx), and has an illuminance of up to 311 lux (lx) and a minimum of 84 lux (lx).

The gap means that at least one row of the plurality of plasma lighting fixtures arranged in at least several rows is skipped and lit.

As shown in Fig. 4 to Fig. 7, the plasma lighting fixture is a trade name PSH700, the beam angle is 60 °, 36 lights.

In addition, the present invention is provided with an air control system (5) capable of supplying air from the outside to properly control the temperature and humidity in the house, glass greenhouse, plant factory 100.

The air control system 5 is composed of an air pump 51 mounted on the outside, a pipe body 52 connected to the inside, and a plurality of air nozzles 53 formed on the pipe body 52.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

2: plasma lighting fixture 3: platform
32: rack gear 33: pinion gear
35 motor 39 pillar
100: house, glass greenhouse, plant factory 110: Bo
120: Column

Claims (10)

In a grain or plant cultivation system comprising a lighting means mounted in a house, glass greenhouse, or plant cultivation plant,
A plurality of plasma lighting fixtures installed on beams proximate the ceiling and installed so that the light source irradiation direction is directed to the plants;
Floodlight filter mounted on the plasma lighting fixture to change the color
Plant cultivation system having a plasma light, characterized in that it comprises a. The method of claim 1,
And a drive unit for elevating and operating the beam to adjust the height of the plasma lighting fixture. The method of claim 1,
The driving unit
A lift table connected vertically to the beam and having a rack gear vertically formed on a side surface thereof;
A pillar coupled to the platform so as to slide upward and downward;
A motor with a pinion gear coupled to the rack gear of the platform
Plant cultivation system having a plasma light, characterized in that it comprises a. The method of claim 1,
The plasma lighting fixture
The color temperature is 4300-4600 K °,
A plant cultivation system with a plasma light, characterized in that the height from the plant to the plasma lighting fixture is about 2.5 to 3.5m. The method of claim 1,
The floodlight filter is a plant cultivation system having a plasma light, characterized in that the choice of red, blue, yellow. The method of claim 1,
The plasma lighting device is a plant cultivation system having a plasma light, characterized in that the red floodlight filter is mounted and the blue floodlight filter is mounted. The method of claim 1,
It includes an air control system that can supply air from the outside to properly control the temperature and humidity in the house, glass greenhouse or plant factory,
The air control system is a plant cultivation system having a plasma lighting, characterized in that consisting of an air pump mounted to the outside, a pipe connected to the inside and a plurality of air nozzles formed in the pipe.
A cultivation method of a plant cultivation system in which a red plasma lighting fixture emitting a red light source and a blue plasma lighting fixture emitting a blue light source are mixed and arranged.
Cultivation method using a plant cultivation system having a plasma light, characterized in that both the red plasma light and the blue plasma light to turn on or sequentially or randomly turn on. The method of claim 8,
Cultivating method using a plant system having a plasma light, characterized in that the red plasma light fixture and blue plasma light fixture is changed to light every 10 to 15 minutes so that the red and blue beams are sequentially or randomly radiated. The method of claim 8,
And cultivating the red plasma lighting fixture and the blue plasma lighting fixture at different intervals.

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