KR20150069756A - hydroponically cultivating system of sprout - Google Patents

Abstract

The present invention relates to a hydroponic cultivation system of a sprout wherein a conveyor belt is installed on both sides of a support frame which is installed in multi-stage, a tray which a support plate is seated on is moved by a length of one tray per day during which a sprout grows, water mixed with a nutrient solution supplied from a lower tank is moved upward to an atomization tank, the water mixture which is in a state of mist by an ultrasound generator is supplied to trays of each stage through a supply pipe and an injection pipe so that the water, which contains an appropriate amount of a nutrient solution according to a growth process, is supplied in an atomized state to facilitate a growth, a first and a fifth injection pipe disposed on an upper part of each tray is installed with a high-luminance light emitting diode so that a seedling germinates while the light is on, at least one heater is installed on an upper surface of the tank so as to raise a temperature of the water mixed with the nutrient solution to facilitate atomization, simultaneously, an inner temperature suitable for a sprout to grow is maintained so as to force easily, one day after a seedling, which is arranged in a tray in one corner of the support frame, germinates, the seedling is moved to the position of the next tray, and a seedling is fully grown in five days and can be harvested.

Description

Hydroponically cultivating system of sprout}

The present invention relates to a hydroponic cultivation system for buds. More particularly, the present invention relates to a hydroponic cultivation system for buds, in which a plurality of trays are moved by a conveyor belt of a multistage support frame, water mixed with a nutrient solution rising in a mist state by an ultrasonic generator, So that the seeds arranged on one side of the support frame are germinated and moved to the position of the next tray within one day after the seeds are germinated so that the buds can be fully grown and harvested for 5 days. The present invention relates to a hydroponic cultivation system.

Generally, hydroponic cultivation method is a method of harvesting sprouts by germinating seeds by a simple method of filling containers with water in general households. It is mainly a method of cultivating sprouts, such as spike, cabbage, broccoli, turnip, red radish, flax, , Blueberry, wheat, and sunflower are the vegetables that can grow hydroponically.

Generally, a hydroponic cultivation apparatus is composed of a container for holding water and a tray for immersing the seeds in a state immersed just below the water surface of the water contained in the container.

In order to grow plants, light, wind, temperature, humidity, etc. should be provided in conditions similar to the natural state. Generally, the hydroponic cultivation methods in indoor are limited to provide light, wind, .

In particular, since the light source used for indoor illumination does not have a wavelength similar to that of sunlight, there is a great difficulty in providing light in a condition similar to a natural state.

In addition, when plants are grown by the hydroponic cultivation method, the seedlings are not buried in the soil but are simply submerged in water, so that they are easily collapsed even with a small external force. Conventional hydroponics methods, There is a disadvantage that it occurs frequently.

In addition, when growing seedlings by the hydroponic cultivation method, it is necessary to change water frequently. However, when the conventional hydroponic cultivation method is used, there is a disadvantage that water consumption is very large and wasted water is wasted.

Thus, Patent No. 10-1321441 of October 16, 2013 (method and apparatus for cultivating hydroponics in Chungbori) was proposed,

This is because, as shown in Fig. 1,

A mounting frame (100) having a multi-layer structure and a double structure;

A plurality of seedling trays 200 mounted on the stationary frame 100;

A lighting unit 300 mounted on the mounting frame 100 to be positioned above the seedling tray 200 and irradiating the seedling tray 200 with light having a wavelength of 700 nm to 800 nm;

An injection unit 400 for supplying water atomized into the seedling tray 200;

A blower 500 located above the stationary frame 100 and providing wind to the seedling tray 200;

And a heater for applying heat to the seedling tray 200,

Wherein the injection unit comprises:

A discharge pipe to which a circulation pump is mounted to discharge water from the seedling tray,

A water tank in which water discharged through the discharge pipe is stored,

A spray pump for transferring the water in the water tank to the seedling tray side,

An atomizing nozzle for atomizing the water transferred through the injection pump and providing the water to the seedling tray,

And an air pump for supplying air into the water tank,

The seedling tray

A water collecting recess formed in the center of the bottom and having a drain hole on one side wall thereof,

A plurality of bottom flow paths arranged radially from the bottom edge of the seedling tray toward the collection groove,

And a cover covering an upper portion of the collector groove,

A plurality of dispersion blocks are formed to protrude upward at a point corresponding to the bottom flow path among the stepped ends and to disperse the water supplied to the collection grooves through the bottom flow path, It is possible to provide a very similar condition to the natural state in the indoor environment. Therefore, the seedlings can be grown more healthily and quickly, and the fresh water can be continuously supplied to the seedlings while reducing water consumption. The seedlings are configured to prevent collapsing.

However, according to the conventional apparatus for cultivating hydroponic hydroponics as described above, in the state of spraying and supplying water, since the seedling tray that grows after seedling is fixed is not fixed, There is a disadvantage that it is necessary to control the temperature of the entire room in which the hydroponic cultivation apparatus is located in order to control the temperature.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a multi- The fan is moved to the upper part of each tray so that the seeds arranged on one side of the support frame are germinated and then moved to the position of the next tray within one day to fully grow and harvest buds for five days It is an object of the present invention to provide a hydroponic cultivation system of buds.

According to an aspect of the present invention, there is provided a hydroponic cultivation system for buds,

A conveyor belt is provided on both sides of the support frame installed in a multi-stage so as to move by a length of one tray per day by the rotational force of the stepping motor transmitted to the front rotation shaft,

The support base is placed on the conveyor belt, and the seeds to be grown as sprouts are arranged so as not to overlap on the inside of the tray where a large number of small drainage holes are formed on the bottom surface, so that they are germinated and grow into buds while moving by the conveyor belt,

The water mixed with the nutrient solution supplied to the lower tank is moved by the pump to the upper atomizing tank so that the water mixed with the nutrient solution rising in the mist state by the plurality of ultrasonic generators installed on the floor, And,

The atomized state of the water mixed with the nutrient solution moving through the first supply pipe by the first fan rotating at a relatively low speed passes through the first spray pipe provided with the plurality of spray nozzles to the tray of each stage for germination of the first blade, The fifth aspect of the present invention is a method for controlling the flow of a nutrient solution through a fifth feed pipe through a fifth nozzle having a plurality of nozzles, So that water is mixed with an appropriate amount of nutrient solution according to the growth process so that the growth is promoted,

The first to fifth spray tubes located above the trays of the respective stages are provided with a plurality of high brightness light emitting diodes so that the seeds can be germinated and grown for almost all of the hours during the day,

At least one heater is provided on the upper surface of the tank to raise the temperature of the water mixed with the nutrient solution so as to facilitate atomization and at the same time the inside temperature is maintained at a temperature suitable for the growth of the bud, The seeds are germinated in the tray located at the bottom of the tray and moved to the position of the next tray in a day, so that the shoot can be fully grown and harvested within 5 days.

According to the hydroponic cultivation system of the present invention, the plurality of trays can be moved by the conveyor belt of the multi-stage support frame, so that when the seeds are firstly arranged on the tray and germinated, one side of the support frame is opened , And when the buds are harvested from the other side, the other side of the support frame is opened so that the temperature and humidity of the room can be easily adjusted.

Then, the water mixed with the nutrient solution rising in the state of mist by the ultrasonic generator is moved to the upper part of each tray by the fan, so that the seeds arranged on the tray positioned on one side of the support frame germinate, The growth of the sprouts is promoted while moving to the seedling, so that the sprouts can be fully grown and harvested for 5 days.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing the entire configuration of a conventional blueberry hydroponic cultivation apparatus. Fig.
2 is a front view showing a configuration of the present invention;
3 is a plan view showing a configuration of the present invention.
4 is a block diagram illustrating a configuration for operation of the present invention;

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

Figs. 2 and 3 are diagrams showing the cultivation of barley, blueberry, Chinese cabbage, broccoli, turnip, red radish, flax, bean, pea, wheat, sunflower and the like using the hydroponic cultivation system of the sprout according to the present invention ,

A conveyor belt 2 is provided on both sides of the support frame 1 installed at a plurality of stages and one tray 10 per day is driven by the rotational force of the stepping motor 4 transmitted through the belt 5 via the front rotary shaft 3 ), ≪ / RTI >

A plurality of small drainage holes 12 are formed on the bottom of the conveyor belt 2 so that the seeds do not overlap with each other so that the conveyor belt 2 ) To germinate and then grow into buds,

The water mixed with the nutrient solution supplied to the lower tank 20 is moved by the pump 21 to the upper atomizing tank 23 through the water supply pipe 22 by the height recognized by the sensor, Water mixed with a nutrient solution rising in a mist state by a plurality of ultrasonic wave generators 24 is caused to move by the plurality of fans 25 (25a) 25b 25c 25d,

The atomized state of the water mixed with the nutrient liquid flowing through the first supply pipe 26 by the first fan 25 rotating at a relatively low speed is transmitted to the first spray pipe 27 provided with the plurality of spray holes 28 So that a small amount of the seeds are simultaneously supplied to the respective trays 10 for germination of the seeds on the first day,

The atomized state of the water mixed with the nutrient liquid moving through the second supply pipe 26a by the second fan 25a rotating at the next fast speed is transmitted to the second spray pipe 27a provided with the plurality of spray holes 28a, And a small amount is supplied simultaneously to the trays 10 for the growth of the buds on the second day,

The atomized state of the water mixed with the nutrient liquid moving through the third supply pipe 26b by the third fan 25b rotating at a higher speed is transferred to the third spray pipe 27b provided with the plurality of spray holes 28b So that a larger amount is simultaneously supplied to each stage tray 10 for growing buds on the third day,

The atomized state of the water mixed with the nutrient liquid moving through the fourth supply pipe 26c by the fourth fan 25c rotating at a higher speed is transmitted to the fourth spray pipe 27c equipped with the plurality of spray holes 28c So that a larger amount is simultaneously supplied to each stage tray 10 for growing buds on the fourth day,

The atomized state of the water mixed with the nutrient liquid moving through the fifth supply pipe 26d by the fifth fan 25d rotating at the highest speed is transmitted through the fifth spray tube 27d provided with the plurality of spray holes 28d On the fifth day, water is mixed with an appropriate amount of nutrient solution according to the growth process so as to supply the most amount to each tray 10 for growth of the bud, so that growth is promoted,

A plurality of high-brightness light emitting diodes (30) are installed in the first to fifth spray tubes (27), (27d) located above the trays (10) To grow after germination,

At least one heater (31) whose temperature is controlled by a sensor is provided on the upper surface of the tank (20) located below and the temperature of the water mixed with the nutrient solution is increased to facilitate atomization, And it is constructed so as to facilitate property cultivation while maintaining an appropriate temperature for growth.

4 is a block diagram illustrating a configuration for operation of the present invention,

The controller 44 which receives power from the outside via the transformer 41, the bridge diode 42 and the constant voltage IC 43 is provided to the user through the menu selection switch 45, the up switch 46 and the down switch 47 and the selection switch 48 to control the internal operation according to the selected specification,

The rotating stepping motor 4 under the control of the controller 44 causes the trays 10 to move simultaneously while rotating the rotary shaft 3 of the conveyor belt 2 through the belt 5,

The water mixed with the nutrients supplied to the lower tank 20 while the pump 21 under the control of the controller 44 is operated is supplied to the upper atomizing tank 23 through the water supply pipe 22 The user is allowed to move by the recognized height,

The plurality of ultrasonic generators 24 under the control of the controller 44 cause the water mixed with the nutrient solution of the atomizing tank 23 to rise in an atomized state,

The first to fifth fans (25) to (25d) under the control of the controller (44) are rotated by the first to fifth supply pipes (26). ... 28d to be sprayed and supplied to the plurality of spray holes 28 ... 28d formed in the first spray tubes 27 ... 27d so that each stage for germination of the first blade The water in which the appropriate amount of the nutrient solution is mixed with the tray 10 in the growing process and the nutrient solution in an appropriate amount in the manner that the gradually increased amount is supplied simultaneously to the tray 10 for the growth of the fifth blade from the second blade for growth To promote growth,

A plurality of high-brightness light emitting diodes 30 under the control of the controller 44 are installed in the first to fifth spray tubes 27, 27, and 27d located above the respective trays 10 Allow the seeds to germinate and grow for nearly all of the day during the light,

At least one heater 31 under the control of the controller 44 controls the temperature of the upper surface of the tank 20 located below and generates heat while increasing the temperature of the water mixed with the nutrient solution So that the seeds can be easily sprayed and the inside temperature is maintained at a temperature suitable for the growth of the buds, thereby facilitating the cultivation of the property.

The hydroponic cultivation system of the present invention having the above-described structure can be cultivated with germination while germinating barley, blueberry, Chinese cabbage, broccoli, turnip, red radish, flax, soybean, pea, wheat and sunflower,

On both sides of the support frame 1 installed at multiple stages, the conveyor belt 2 is provided in multiple stages and rotated by the rotational force transmitted to the front rotary shaft 3. [

And the tray 10 on which the support table 11 formed on the front and rear sides of the conveyor belt 2 is placed is moved.

The controller 44 which receives power from the outside via the transformer 41, the bridge diode 42 and the constant voltage IC 43 is provided to the user through the menu selection switch 45, the up switch 46 and the down switch 47 and the selection switch 48 to control the internal operation according to the selected specification.

That is, every time the menu selection switch 45 is pressed once, the rotation of the stepping motor 4, the operation of the pump 21, the operation of the pump 21, the operation of the ultrasonic generator 24, Up switch 46 and the down switch 47 such that the operation of the high-brightness LED 30, the operation of the high-brightness LED 30, the heat generation of the heater 31 and the temperature value of the sensor are selected, So that the overall operation is controlled by the state in which the selection switch 48 is turned on after being adjusted to the optimum condition while being raised or lowered step by step.

The rotating stepping motor 4 under the control of the controller 44 causes all the trays 10 to move simultaneously while rotating the rotary shaft 3 of the conveyor belt 2 through the belt 5.

The water mixed with the nutrients supplied to the lower tank 20 while the pump 21 under the control of the controller 44 is operated is supplied to the upper atomizing tank 23 through the water supply pipe 22 Move as much as the recognized height.

A plurality of ultrasonic generators 24 under the control of the controller 44 raise the water mixed with the nutrient solution in the atomizing tank 23 in an atomized state.

The first to fifth fans (25) to (25d) under the control of the controller (44) are rotated by the first to fifth supply pipes (26). 28d and formed in the first spray tubes 27 ... 27d to be sprayed and supplied to the respective gods for germination of the first-day seeds, (10) for the growth of the fifth day to the fifth day for growing, and a tray (10) for the growth of the sprouts. So that growth is promoted.

In other words, the atomized state of the water mixed with the nutrient liquid moving through the first supply pipe 26 by the first fan 25 rotating at a relatively low speed is transmitted to the first spray pipe 27 ) And a small amount to the tray 10 at each end for germination of the first day.

The atomized state of the water mixed with the nutrient liquid moving through the second supply pipe 26a by the second fan 25a rotating at the next fast speed is transmitted to the second spray pipe 27a provided with the plurality of spray holes 28a, And a small amount is supplied simultaneously to the trays 10 of each stage for growing the second day.

The atomized state of the water mixed with the nutrient liquid moving through the third supply pipe 26b by the third fan 25b rotating at a higher speed is transferred to the third spray pipe 27b provided with the plurality of spray holes 28b So that a larger amount is simultaneously supplied to each stage tray 10 for growing the bud on the third day.

The atomized state of the water mixed with the nutrient liquid moving through the fourth supply pipe 26c by the fourth fan 25c rotating at a higher speed is transmitted to the fourth spray pipe 27c equipped with the plurality of spray holes 28c So that a larger amount is simultaneously supplied to the tray 10 of each stage for growing the bud on the fourth day.

The atomized state of the water mixed with the nutrient liquid moving through the fifth supply pipe 26d by the fifth fan 25d rotating at the highest speed is transmitted through the fifth spray tube 27d provided with the plurality of spray holes 28d On the fifth day, water is mixed with an appropriate amount of nutrient solution in accordance with the growth process so that the largest amount is supplied to each stage tray 10 for growth of the bud, so that growth is promoted.

The atomized state of the water mixed with the nutrients injected from the spray holes 28 (28d) is sufficiently supplied to the seeds or sprouts located in the tray (10) And is moved downward through a small drain hole 12 formed in the bottom surface of each tray 10 so as to be collected in the tank 20 and reused.

A plurality of high-brightness light emitting diodes 30 under the control of the controller 44 are installed in the first to fifth spray tubes 27, 27, and 27d located above the trays 10 of the respective stages Allow the seeds to germinate and grow for almost all hours of the day with lights on.

At least one heater (31) under the control of the controller (44) generates heat while the temperature is controlled by the sensor on the upper surface of the tank (20) located below and warms the water mixed with the nutrient solution The seeds are germinated in the tray 10 arranged on one side of the support frame 1 so that the seeds can be easily sprayed and the inside temperature is maintained at a temperature suitable for the growth of the buds, 10), so that the bud can be fully grown and harvested for 5 days.

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, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1: Support frame 4: Stepping motor
10: Tray 20: Tank
23: atomization tank 24: ultrasonic generator
25 ... 25d: fan 26 ... 26d: supply pipe
27 ... 27d: Dispatcher 28: Dispatcher
30: high-brightness light emitting diode 31: heater

Claims (3)

A conveyor belt 2 is provided on both sides of a support frame 1 provided at a multistage so that all the trays 10 are simultaneously driven by the rotational force of a stepping motor 4, To move,
Seeds are arranged so as not to overlap the inside of the tray (10) in which the support rods (11) formed on the front and rear sides of the conveyor belt (2) are placed and moved and a large number of small drain holes (12)
The water mixed with the nutrient solution supplied to the lower tank 20 is moved by the pump 21 to the upper atomizing tank 23 through the water supply pipe 22 by the height recognized by the sensor, Water mixed with a nutrient solution rising in a mist state by a plurality of ultrasonic wave generators 24 is caused to move by the plurality of fans 25 (25a) 25b 25c 25d,
The atomized state of the water mixed with the nutrient liquid moving through the first to fifth supply pipes 26 to 26d by the first to fifth fans 25 to 25d is a large number of minute Through the first to fifth spray tubes 27 to 27d provided with the holes 28 for the growth of the second to fifth days from the tray 10 of each stage for germination of the first blade, Another amount is simultaneously supplied to the tray 10,
A plurality of high-brightness light emitting diodes (30) are installed in the first to fifth spray tubes (27), (27d) located above the trays (10) To grow after germination,
At least one heater 31 whose temperature is controlled by a sensor is installed on the upper surface of the tank 20 located below and the temperature of the water mixed with the nutrient solution is increased, Wherein the plant is cultivated in a plant. The method according to claim 1,
The atomized state of the water mixed with the nutrient solution by the plurality of ultrasonic generators 24 moving to the atomization tank 23 on the floor is supplied to the first supply pipe 26 ) Is supplied to the tray 10 at each stage for germination of the first blade through a first spray tube 27 provided with a plurality of spray holes 28, And,
The atomized state of the water mixed with the nutrient liquid moving through the second supply pipe 26a by the second fan 25a rotating at the next fast speed is transmitted to the second spray pipe 27a provided with the plurality of spray holes 28a, To the tray 10 at each end for germination of the second day,
The atomized state of the water mixed with the nutrient liquid moving through the third supply pipe 26b by the third fan 25b rotating at a higher speed is transferred to the third spray pipe 27b provided with the plurality of spray holes 28b So that a larger amount is simultaneously supplied to each stage tray 10 for growth of the third blade,
The atomized state of the water mixed with the nutrient liquid moving through the fourth supply pipe 26c by the fourth fan 25c rotating at a higher speed is transmitted to the fourth spray pipe 27c equipped with the plurality of spray holes 28c So that a greater amount is simultaneously supplied to each stage tray 10 for the growth of the fourth blade,
The atomized state of the water mixed with the nutrient liquid moving through the fifth supply pipe 26d by the fifth fan 25d rotating at the highest speed is transmitted through the fifth spray tube 27d provided with the plurality of spray holes 28d Water is mixed with an appropriate amount of nutrient solution according to a growing process so as to supply the largest amount to each tray 10 for growth of the fifth day so that the growth is promoted Hydroponic cultivation system of buds. The method according to claim 1,
The controller 44 receives the DC power from the outside via the transformer 41, the bridge diode 42 and the constant voltage IC 43 so that the user can operate the menu selection switch 45, the up switch 46, 47 and the selection switch 48 to control the internal operation according to the selected specification,
The rotating stepping motor 4 under the control of the controller 44 causes the trays 10 to move simultaneously while rotating the rotary shaft 3 of the conveyor belt 2 through the belt 5,
The water mixed with the nutrients supplied to the lower tank 20 while the pump 21 under the control of the controller 44 is operated is supplied to the upper atomizing tank 23 through the water supply pipe 22 The user is allowed to move by the recognized height,
The plurality of ultrasonic generators 24 under the control of the controller 44 cause the water mixed with the nutrient solution of the atomizing tank 23 to rise in an atomized state,
The first to fifth fans (25) to (25d) under the control of the controller (44) are rotated by the first to fifth supply pipes (26). ... 28d to be sprayed and supplied to the plurality of spray holes 28 ... 28d formed in the first spray tubes 27 ... 27d so that each stage for germination of the first blade The water in which the appropriate amount of the nutrient solution is mixed with the tray 10 in the growing process and the nutrient solution in an appropriate amount in the manner that the gradually increased amount is supplied simultaneously to the tray 10 for the growth of the fifth blade from the second blade for growth To promote growth,
A plurality of high-brightness light emitting diodes 30 under the control of the controller 44 are installed in the first to fifth spray tubes 27, 27, and 27d located above the trays 10 of the respective stages So that the seed can germinate and grow for almost all of the day,
Wherein at least one heater (31) under the control of the controller (44) is configured to generate heat while the temperature is controlled by a sensor on the upper surface of the tank (20) .

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