KR101529534B1 - fodder cultivating apparatus - Google Patents

Abstract

A roughage growing machine of the present invention comprises: a main body having a cultivation room inside and having a door installed on its front side; A plurality of trays installed in the cultivation room of the main body so as to be accommodated and drawn out; A water supply device for supplying water to the roughage cultivated in the tray; A lighting device for supplying light to the roughage cultivated in the tray; A temperature adjusting device for adjusting an internal temperature of the cultivation room; And a control device for controlling the water supply device, the lighting device, and the temperature control device, and is configured to have a comparatively small size so that the required amount of the forage can be grown in a short time in a small scale farm, The initial facility cost and the management cost are lowered at the time of comparison, and the seeds or the buds loaded in the tray of the cultivation room can be efficiently supplied with water, and the stable supply of light to the seeds or buds loaded in each tray of the cultivation room And the internal temperature of the cultivation room can be maintained at a constant temperature, thereby increasing the efficiency of growing the forage.

Description

{FODDER CULTIVATING APPARATUS}

The present invention relates to a roughage growing apparatus, and more particularly, to a seedling of various crops capable of lifting barley, wheat, and other buds loaded in a tray inside a cultivation room by supplying appropriate temperature, light and moisture, And to enable efficient cultivation of fresh forage crops or crops.

Fodder, which is related to the present invention, is also referred to as bio-fermented feed, or raw or second-seeded root, and is produced by cultivating barley seeds or wheat seeds through hydroponics without using soil or other soil substitute, 15 ~ 20cm) is said to have grown.

According to the research paper, "Analysis of the Feed Value of Fresh Forage Fruits" (Monthly Nakdong, March 2012 - Dr. Wang Tae Chung, Practical Foundation of the Agricultural Advancement Administration), the crude protein content increased with prolonged seeding period after harvesting barley seeds. (DM 90%), it is reported that 8Kg of forage (including roots) of 10% of the building content is produced. The protein content and the crude fiber content of general ingredients are increased 1.5 times and 1.9 times, respectively. The total content was also found to increase by 1.26 times.

Forage crops such as bluegrass sprouts are rich in nutrients and minerals, and digestion and absorption rates are high, which leads to superior feed cost savings compared to grain feed. Antioxidants (composed of vitamins A, B, C, selenium and zinc) By neutralizing the body of the disease by self-healing and improve the immune system to prevent the abuse of drugs and animal diseases such as foot-and-foot disease can survive healthy breeding cattle can be.

Vitamin A, which is contained in large amounts in the forage, improves the pregnancy conception rate of livestock and shortens the pregnancy cycle.

The effect of livestock on the feeding of livestock was investigated. In case of livestock and cattle, improvement of daily weight gain, improvement of meat quality and occurrence rate were effective. In case of dairy cows, , And it is known that horse has a remarkable effect such as reduction of common horse disease such as gastric ulcer and phlebitis, improvement of horseracing performance, and shortening of recovery time.

In addition, in the case of pigs, the perfect formation of the fat layer results in the production of high quality pork belts and fast weight gain. In the case of the laying hens, the egg size increase, the dark yolk and the long laying period effect are effective. In the case of broiler and duck meat, And so on.

On the other hand, when grain seeds such as barley and wheat are cultivated using soil or other soil substitute soil, it takes a great deal of time and effort to grow the seeds enough to feed the livestock, resulting in low productivity.

Therefore, it is preferable to cultivate the forage through hydroponic cultivation. However, the conventional roughage cultivation facility has a large production amount and good cultivation efficiency, but the size thereof is too large to require a large facility area, and the initial facility cost and management cost are increased.

Therefore, there is a problem in conventional small-scale farming facilities where production is too large and facility costs and management costs are large, which is not suitable for small-scale farms where a small number of livestock (for example, 20 or less) are grown.

Korean Utility Model Practical Utility Bulletin No. 10-1985-0002620 (issued on November 4, 1985) Korean Registered Patent No. 10-1283915 (published on July 3, 2013)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described conventional circumstances, and it is an object of the present invention to provide a method for reducing the feed cost and improving the meat quality by allowing the farmer to easily grow a small- To provide.

In order to accomplish the above object, the present invention provides a roughage growing apparatus comprising: a main body having a cultivation room inside and a door on the front side; A plurality of trays installed in the cultivation room of the main body so as to be accommodated and drawn out; A water supply device for supplying water to the roughage cultivated in the tray; A lighting device for supplying light to the roughage cultivated in the tray; A temperature adjusting device for adjusting an internal temperature of the cultivation room; A water supply device, a lighting device, and a control device for controlling the temperature control device.

In addition, the roughage grower of the present invention may further include an SP-unit (S-Plasma Unit) installed in the cultivation room for eliminating the bacteria floating in the air by emitting plasma ions.

In the roughage growing machine of the present invention, the main body is provided with a cultivation room on the upper part, a machine room on the lower part of the interior, a door on the front of the cultivation room, a sealing cover on the front of the machine room, A support frame is installed at the central front and rear center, and a plurality of tray supports are installed vertically on both inner side surfaces of the cultivation room and the support frame.

The tray support has a rear portion at a high height and a front portion at a low inclination so that the tray is inclined at a predetermined angle, and tray position limiting protrusions are provided at the rear of the top surface and in front of the tray.

In the roughage growing machine according to the present invention, drainage holes are provided at the center of the lower rear end of the cultivation room to allow water to flow out from the cultivation room to the outside, and water flowing down the inner surface of the door And a drain hole is formed at the center of the lower end of the guide space part.

In the roughage growing machine according to the present invention, the trays are formed in the form of a rectangular housing provided with rims on all four sides, a partition protrusion is provided at the center in the front and rear direction, a triangular drain guide portion is provided in the front- Drain holes are provided on both sides of the triangular drain guide.

 In the roughage reaper of the present invention, the water supply device includes a water supply tank installed on one side of the machine room provided in the lower part of the cultivation room of the main body; A water supply pump to which the inflow side is connected to the water supply tank; A water supply connection pipe to which the discharge side of the water supply pump is connected; A plurality of water supply arms connected to the water supply connection pipe and positioned above the respective trays; And a water supply nozzle installed on both sides of the lower end of the water supply arm and spraying water to the tray.

A water supply pipe, a water level control valve, a low water level sensor, a water temperature sensor, and an electric heater are installed in the water supply tank of the water supply device.

In the roughage growing apparatus of the present invention, the lighting apparatus includes a plurality of transparent supporting rods installed at the center of the cultivation room; And a plurality of strip-type LED assemblies installed inside the transparent supporting bar and having a plurality of LEDs fixed on one surface of the strip-shaped substrate.

The transparent support rods of the lighting apparatus are supported through arcuate support clips on one side of a tray support fixed to the center front and rear support frames in the cultivation room.

In the roughage growing machine of the present invention, the temperature adjusting apparatus includes a compressor and a condenser installed in a machine room provided in a lower part of a cultivation room of a main body; An air duct provided in an upper part of the interior of the cultivation room; A cultivating room internal temperature sensor installed in the air duct and sensing a temperature of the cultivating room, the circulating fan being installed inside the air duct, the cooler, and the electric heater; And a cultivation room external temperature sensor installed outside the cultivation room for sensing an atmospheric temperature.

The air duct of the temperature control device has an upper end in contact with the upper surface of the cultivating chamber, a rear end in contact with the rear surface of the cultivating chamber, both side surfaces of the front and lower surfaces being hermetically sealed, An air outlet hole is provided in the rear of the bottom surface, and a circulating fan of the temperature adjusting device is installed behind each air inlet hole of the air duct.

In the roughage reaper of the present invention, the control device includes: a control panel installed on one side of the front of the main body; And a control board provided on an upper part of the cultivation room of the main body.

The control board of the control device receives the detection signals of the low water level sensor of the water supply device, the water temperature sensor, the internal temperature sensor of the cultivation room of the temperature control device, and the external temperature sensor of the cultivation room, A microcontrol unit for transmitting an operation signal to a compressor, a circulating fan, and an electric heater; And a communication module connected to the microcontroller unit for communicating with external devices such as a mobile phone and a computer.

The roughage grower of the present invention has a comparatively small size, so that it is possible to cultivate the necessary amount of roughage in a short time in a small-scale farm, and the initial facility cost and the management cost are lower than the conventional large-scale roughage cultivation facility.

In addition, it is possible to supply water efficiently to the seeds or shoots loaded on the tray of the cultivation room, and to stably supply the light to the seeds or the shoots loaded on each tray of the cultivation room. To improve the cultivation efficiency of the forage.

In addition, the water falling down to the floor along the inside wall of the cultivation room and the water flowing down along the inside of the door can be stably drained, and the culture environment of the forage can be improved by purifying the air in the culture room through the SPI unit .

1 is a perspective view of an embodiment of the present invention;
2 is a sectional view taken along the line AA in Fig. 1
3 is a sectional view taken along line BB of Fig. 1
4 is a perspective view
5 is a perspective view of the tray of this embodiment.
6 is a plan view of the tray of this embodiment
7 is an exploded perspective view of the lighting apparatus of this embodiment
8 is a longitudinal sectional view of a substantial part of the illumination device of this embodiment
9 is a block diagram of the configuration of the control apparatus of the embodiment

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of an embodiment of the present invention. Fig. 2 is a cross-sectional view taken along the line AA of Fig. 1. Fig. 3 is a sectional view taken along the line BB of Fig. A perspective view is shown.

1 to 4, the roughage growing machine 100 of the present invention includes a main body 110 having a cultivation room 111 inside and a dovetail 112 installed on the entire surface thereof; A plurality of trays 120 installed in the cultivation room 111 of the main body 110 so as to be accommodated and drawn out; A water supply device 130 for supplying water to the roughage cultivated in the tray 120; A lighting device 140 for supplying light to the forage cultivated in the tray 120; A temperature regulator 150 for regulating an internal temperature of the cultivation chamber 111; And a control device 160 for controlling the water supply device 130, the lighting device 140, and the temperature control device 150.

The roughage grower 100 of the present invention may further include an SPI unit 170 installed in the cultivation room 111 to release plasma ions to eradicate floating germs .

In the roughage growing machine 100 of the present invention, the main body 110 is provided with a cultivation room 111 at the upper part thereof, a machine room 115 at the lower part thereof, and a door 112 at the front of the cultivation room 111, And a sealing cover 116 is provided in front of the machine room 115. [

A support frame 113 is installed at the center front and rear center of the cultivation room 111 and a plurality of tray supports 114 are installed vertically on both inner side surfaces of the cultivation room 111 and the support frame 113 .

The illustrated embodiment has six left side surfaces of the cultivation room 111, six left side surfaces of the support frame 113, six right side surfaces of the support frame 113, six right side surfaces of the cultivation room 111, 6 trays 120 are accommodated in six spaces in the left space of the cultivation room 111 and six spaces in the right space of the cultivation room 111.

The tray support 114 has a rear portion at a high height and a front portion at a low inclination so that the tray 120 is inclined at an angle so that water does not float on the bottom surface of the tray 120. [

The tray support 114 is provided with tray position restricting protrusions 114a and 114b at the front and rear of the upper surface.

The tray position restricting protrusions 114a and 114b are formed so that the tray 120 does not come too close to the rear surface of the cultivation room 111 or too close to the door 112 in front of the cultivation room 111, So as to be accommodated in an appropriate position.

In the illustrated embodiment, a drain hole 117 for discharging water flowing out from the inside of the cultivation room 111 to the outside is provided at the lower rear center of the lower part of the cultivation room 111, An induction space 118 for guiding water flowing down along the inner surface of the door 112 and discharging the water to the outside is provided and a drain hole 119 is formed at the center of the lower end of the induction space 118 do.

A drain connection hose (279) is connected to the cultivation room drain hole (117) and the machine room seal cover drain hole (119).

The door 112 installed on the front surface of the main body 110 is rotatably opened and closed in the forward and backward directions and is provided with a left door supported on the left front side of the main body 110 and a left side door supported on the right front side of the main body 110 As shown in FIG.

Fig. 5 is a perspective view of the tray of this embodiment, and Fig. 6 is a plan view of the tray of this embodiment.

5 and 6, the tray 120 is formed in the shape of a rectangular housing provided with a rim 121 on all four sides, a partition protrusion 122 is provided at the center in the front and rear direction, And a drain hole 124 is provided on both sides of each triangular drain guide portion 123 on the inner surface.

In the roughage growing machine 100 of the present invention, the water supply device 130 includes a water supply tank 131 installed at one side of the machine room 115 provided below the cultivation room 111 of the main body 110; A water supply pump 132 connected to the inflow side of the water supply tank 131; A water supply connection pipe 133 to which the discharge side of the water supply pump 132 is connected; A plurality of water supply arms 134 connected to the water supply connection pipe 133 and positioned above the respective trays 120; And a water supply nozzle 135 installed on both sides of the lower end of the water supply arm 134 to spray water onto the tray 120.

A water supply pipe 136, a water level control valve 137, a low water level sensor 138, a water temperature sensor 139, and an electric heater 236 are installed in the water supply tank 131 of the water supply device 130.

The water supply pump 132 and the low water level sensor 138 of the water supply device 130, the water temperature sensor 139 and the electric heater 236 are connected to the controller 160.

Fig. 7 is an exploded perspective view of the lighting apparatus of this embodiment, and Fig. 8 is a longitudinal sectional view of a substantial part of the lighting apparatus of this embodiment.

In the roughage grower 100 of the present invention, the illumination device 140 includes a plurality of transparent support rods 141 installed at the center of the cultivation room 111; And a strip-type LED assembly 142 installed inside the transparent support rod 141.

In the illustrated embodiment, four transparent support rods 141 of the lighting device 140 are provided for the left side space of the cultivation room and two for the right side space of the cultivation room, And an arcuate support clip 143 fixed to one side of the tray support 114 fixed to the frame 113.

The band-shaped LED assembly 142 of the lighting device 140 has a configuration in which a plurality of LEDs 142b are fixed on one surface of the band-shaped substrate 142a and the LED 142b is arranged in the left- And the LED 142b for right spatial lighting is installed so as to face the right direction.

The temperature regulator 150 of the roughage grower 100 of the present invention includes a compressor 151 and a condenser 152 installed in a machine room 115 provided under the cultivation room 111 of the main body 110; An air duct 153 provided in the upper part of the interior of the cultivation room 111; A circulation fan 154 installed inside the air duct 153, a cooler 155, and an electric heater 156.

In addition, the temperature controller 150 includes a cultivation room internal temperature sensor 157 installed in the air duct 153 to sense the temperature of the cultivation room 111; The cultivation room internal temperature sensor 157 and the cultivation room external temperature sensor 158 are installed outside the cultivation room 111 to sense the ambient temperature. (Not shown).

In the illustrated embodiment, the air duct 153 of the temperature regulating device 150 has an upper end contacting the upper surface of the cultivation chamber 111, a rear end contacting the rear surface of the cultivation chamber 111, A pair of air inlet holes 153a are provided on the front side, and an air outlet hole 153b is provided on the rear side of the bottom side.

In the illustrated embodiment, the circulation fan 154 of the temperature regulator 150 is installed behind each air inlet 153a of the air duct 153, and the growth chamber internal temperature sensor 157 is connected to the air duct 153 And the cultivating room outside temperature sensor 158 is installed in a space portion on one side of the control board 162.

Fig. 9 shows a block diagram of the configuration of the control apparatus of this embodiment.

In the roughage grower 100 of the present invention, the control device 160 includes a control panel 161 installed on one side of the front surface of the main body 110; And a control board 162 mounted on the cultivation room 111 of the main body 110.

The control board 162 of the control device 160 is connected to the control board 162 of the water supply unit 130 through the low water level sensor 138, the water temperature sensor 139, the temperature chamber internal temperature sensor 157 of the temperature control unit 150, A signal from the temperature sensor 158 is inputted and the water supply pump 132 and the electric heater 236 of the water supply device 130, the compressor 151 of the temperature control device 150, the circulating fan 154, A microcontrol unit 163 for transmitting an operation signal to the control unit 156; And a communication module 164 connected to the microcontrol unit 163 for communicating with external devices such as a mobile phone and a computer.

Meanwhile, in the illustrated embodiment, the SPI unit 170, which discharges the plasma ions to eradicate the bacteria floating in the air, is installed behind the circulating fan 154 in the air duct 153.

The roughage grower 100 of the present invention configured as described above supplies appropriate temperature, light, and moisture to seeds such as barley, wheat, and the like loaded on the tray 120 inside the cultivation room 111 to produce barley shoots, So that it is possible to efficiently cultivate fresh roots.

That is, in the roughage growing apparatus 100 of the present invention, the tray 120 is installed in the cultivation room 111 by arranging seeds such as barley, wheat, etc. in a uniform manner, And irradiates the inside of the cultivation room 111 with light of a wavelength suitable for the growing of the forage with the lighting device 140. If the internal temperature of the cultivation room 111 is kept constant by the temperature control device 150, (For example, it is possible to cultivate in a size of 15 to 20 cm on the 6th day).

The amount of water flowing through the water supply pipe 136 is regulated through the water level control valve 137 so that the inside of the water supply tank 131 always maintains a constant water level .

The temperature of the water filled in the water supply tank 131 is measured by a water temperature sensor 139. The sensing signal of the water temperature sensor 139 is input to the microcontroller 163 of the controller 160, When the sensed temperature of the water temperature sensor 139 is lower than a set temperature (for example, 20 ° C), the water heater 236 is operated to maintain the water temperature of the water supply tank 131 at a constant temperature.

The microcontroller 163 of the controller 160 of the roughage grower 100 of the present invention operates the feed pump 132 for a predetermined period of time at every set time to feed a certain amount of moisture .

When the water supply pump 132 is operated, water in the water supply tank 131 is pumped by the water supply pump 132 and supplied to the water supply connection pipe 133 and the water supply arm 134, Is sprayed onto the seeds or buds loaded on the tray 120 at the top of the tray 120 through the nozzle 135.

When water is not supplied to the water supply tank 131 due to a single factor or the like in the roughage grower 100 of the present invention, water in the water supply tank 131 is supplied to the water supply tank 131 through the low water level sensor 138 provided at the lower end of the water supply tank 131 The microcontroller 163 of the control device 160 to which the water absence detection signal is inputted stops the operation of the water supply pump 132 and displays an error on the control panel 161. [

In addition, the microcontroller 163 of the control device 160 notifies the manager of the error status in real time through the communication module 164, such as a mobile phone text message, when an operation error including the water absence error occurs.

In addition, the administrator can remotely control the water supply temperature setting, the internal temperature setting of the cultivation room, and the water supply time setting from the outside through a mobile phone or other communication terminal which can be connected to the communication module 164.

In the roughage grower 100 of the present invention, the illumination device 140 continues to operate during the cultivation of the roughage to supply light of a wavelength required for cultivation of the roughage.

The temperature regulator 150 of the roughage grower 100 of the present invention maintains the internal temperature of the cultivation room 111 at a constant level and the temperature of the cultivation room interior temperature sensor 157 of the temperature regulator 150, The sensing temperature of the cultivation room outer temperature sensor 158 is input to the microcontroller 163 of the control unit 160 and the microcontroller 163 senses the temperature of the cultivation room outside temperature sensor 158 in spring, When the detected temperature of the cultivation room internal temperature sensor 157 is a set temperature (for example, 15 캜) while the temperature is lower than the set temperature (for example, 15 캜), the electrothermal heater 156 and the circulating fan 154 are operated The internal temperature of the cultivation room 111 is raised to an appropriate temperature (for example, 20 DEG C).

 The microcontroller 163 operates the compressor 151 and the circulating fan 154 when the incubation room internal temperature sensor 157 is at the set temperature (for example, 25 占 폚) To a suitable temperature (for example, 22 DEG C).

Meanwhile, in the case where an SPI unit (S-Plasma ion unit) 170 for discharging plasma ions into the cultivation room 111 and destroying bacteria floating in the air is installed in the roughage grower 100 of the present invention, The microcontroller 163 controls the SPI unit 170 to be interlocked with the circulation fan 154 of the temperature control unit 150.

As described above, the roughage grower 100 of the present invention periodically supplies water of a certain water temperature to the seeds or buds loaded on the tray 120 of the cultivation room 111 through the water supply device 130, The seeds or sprouts loaded on the tray 120 of the cultivation room 111 are stably supplied with light and the internal temperature of the cultivation room 111 is maintained at a predetermined temperature through the temperature control unit 150.

In addition, the feeder 130, the lighting device 140, and the temperature controller 150 can be stably controlled through the control device 160 to increase the efficiency of cultivation of the forage.

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 or scope of the invention as defined by the appended claims. .

100: Rake growing machine 110: Main body
111: Cultivation room 112: Doa
113: support frame 114: tray support
114a, 114b: tray position restricting projection 115: mechanical room
116: sealing cover 117: drain hole
118: Induction space part 119: Drain hole
120: Tray 121: Border
122: compartment protrusion 123: triangular drain guide
124: drain hole 130: water supply device
131: water tank 132: water pump
133: water connection pipe 134: water supply arm
135: water supply nozzle 136: water supply pipe
137: Water level control valve 138: Low water level sensor
139: Water temperature sensor 140: Lighting device
141: transparent support rod 142: LED assembly
142a: Band-shaped substrate 142b: LED
143: Support clip 150: Temperature controller
151: compressor 152: condenser
153: air duct 153a: air inflow hole
153b: air vent hole 154: circulating fan
155: cooler 156: electrothermal heater
157: cultivation room internal temperature sensor 158: cultivation room external temperature sensor
160: Control device 161: Control panel
162: control board 163: micro control unit
164: Communication module 170: SPI unit
236: Electric heater

Claims (16)

A main body 110 having a cultivation room 111 inside and having a dovetail 112 installed on its front side;
A plurality of trays 120 installed in the cultivation room 111 of the main body 110 so as to be accommodated and drawn out;
A water supply device 130 for supplying water to the roughage cultivated in the tray 120;
A lighting device 140 for supplying light to the forage cultivated in the tray 120;
A temperature regulator 150 for regulating an internal temperature of the cultivation chamber 111; And a control device 160 for controlling the water supply device 130, the lighting device 140, and the temperature control device 150,
The control device 160
A control panel 161 installed on one side of the front of the main body 110;
And a control board (162) installed on an upper part of the cultivation room (111) of the main body (110)
The water level sensor 139 of the water supply device 130, the temperature sensor 157 of the cultivation chamber of the temperature control device 150, the temperature sensor 157 of the cultivation chamber of the temperature control device 150, A detection signal of the temperature sensor 158 is inputted and the supply pump 132 and the electric heater 236 of the water supply device 130, the compressor 151 of the temperature control device 150, the circulating fan 154, A microcontrol unit 163 for transmitting an operation signal to the control unit 156;
And a communication module (164) connected to the microcontrol unit (163) and capable of communicating with an external device such as a mobile phone, a computer, and the like. The method according to claim 1, further comprising an SP-unit (170) disposed inside the cultivation room (111) and emitting plasma ions to destroy bacteria floating in the air. Grower. The food processing system according to claim 1 or 2, wherein the main body (110) is provided with a cultivation room (111) at the upper part thereof, a machine room (115) A support frame 113 is provided at the center front and rear center of the cultivation room 111 and the inside and outside of the culture room 111 are covered with a sealing cover 116, And a plurality of tray supports (114) are vertically installed on the support frame (113). The roughage growing machine according to claim 3, wherein the tray support (114) is installed at a high rear portion and a low front portion so that the tray (120) is inclined at an angle. 5. The roughage growing machine according to claim 4, wherein the tray support (114) is provided with tray position restricting projections (114a) and (114b) at the rear of the upper surface and at the front. The machine room sealing cover (116) according to claim 3, wherein a drain hole (117) is formed in the center of the lower rear end of the cultivation room (111) so that water flowing out from the inside of the cultivation room (111) And a drain hole 119 is formed at the lower center of the guide space 118. The drain hole 119 is formed at the lower end of the guide space 118, And the like. The tray (120) according to any one of claims 1 to 7, wherein the tray (120) is formed in the shape of a rectangular housing provided with a rim (121) at each of its four sides, a partition projection (122) Wherein a triangular drain guide portion (123) is provided on the inner surface of the triangular drain guide portion (123) and drain holes (124) are provided on both sides of each triangular drain guide portion (123) on the inner surface. The water supply system according to claim 1 or 2, wherein the water supply device (130)
A water supply tank 131 installed at one side of the machine room 115 provided under the cultivation room 111 of the main body 110;
A water supply pump 132 connected to the inflow side of the water supply tank 131;
A water supply connection pipe 133 to which the discharge side of the water supply pump 132 is connected;
A plurality of water supply arms 134 connected to the water supply connection pipe 133 and positioned above the respective trays 120;
And a water supply nozzle (135) installed at both lower ends of the water supply arm (134) and spraying water to the tray (120). The water supply system according to claim 8, wherein a water supply pipe (136), a water level control valve (137), a low water level sensor (138), a water temperature sensor (139), and an electric heater (236) Characterized in that it is installed. 3. A lighting system according to claim 1 or 2, wherein the lighting device (140)
A plurality of transparent supporting rods 141 installed at the center of the cultivation room 111;
And a band-shaped LED assembly (142) disposed inside the transparent support rod (141) and having a plurality of LEDs (142b) fixed to one surface of the band-shaped substrate (142a). The method of claim 10, wherein the transparent support rods (141) of the lighting device (140) are mounted on one side of a tray support (114) fixed to a support frame (113) (143). ≪ / RTI > 4. The system of claim 1 or 2, wherein the temperature controller (150)
A compressor 151 and a condenser 152 installed in a machine room 115 provided below the cultivation room 111 of the main body 110;
An air duct 153 provided in the upper part of the interior of the cultivation room 111;
And a circulation fan (154) installed inside the air duct (153), a cooler (155), and an electric heater (156). 13. The apparatus according to claim 12, wherein the temperature regulating device (150) comprises: a cultivation room internal temperature sensor (157) installed in the air duct (153) for sensing the temperature of the cultivation room (111);
And a cultivation room external temperature sensor (158) installed outside the cultivation room (111) for sensing an atmospheric temperature. 13. The air conditioning system of claim 12, wherein the air duct (153) of the temperature regulating device (150) has an upper end contacting the upper surface of the cultivation chamber (111), a rear end contacting the rear surface of the cultivation chamber (111) And a circulation fan 154 of the temperature regulating device 150 is connected to the air circulation fan 154. The circulation fan 154 of the temperature regulating device 150 includes a pair of air inlet holes 153a, Is provided behind each air inlet hole (153a) of the duct (153). delete delete

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