KR102026448B1 - Hydroponic cultivation apparatus - Google Patents

Abstract

The present invention relates to a hydroponic cultivator, and more specifically, to each crop port of the cultivation unit is provided so that each spray nozzle of the water supply unit respectively corresponds to supplying the water directly from the spray nozzle to each crop port of the appropriate amount of each The present invention relates to a hydroponic cultivator capable of supplying moisture to reduce water consumption and promoting fast and effective crop growth.
The present invention is provided in the main body portion, the cultivation unit is provided in the main body portion is provided with a plurality of crop ports, the water supply unit is provided to supply water to each crop port of the cultivation portion, and is installed spaced apart from the upper portion of the cultivation portion Characterized in that it comprises a lighting unit.

Description

Hydroponic Cultivator {HYDROPONIC CULTIVATION APPARATUS}

The present invention relates to a hydroponic cultivator, and more specifically, to each crop port of the cultivation unit is provided so that each spray nozzle of the water supply unit respectively corresponds to supplying the water directly from the spray nozzle to each crop port of the appropriate amount of each The present invention relates to a hydroponic cultivator capable of supplying moisture to reduce water consumption and promoting fast and effective crop growth.

In general, hydroponic cultivation is a recent cultivation method because of the advantages of mass production, pollution-free cultivation and freshness.

Hydroponics is a cultivation method in which the roots of hydroponic plants suspended in the water are cultivated in a submerged state.It is rapidly spread because it can meet the current consumption pattern of reducing cropland and pollution-free fresh vegetables due to industrial development. There is a trend.

In this hydroponic cultivation method, the cultivated plants accommodated in the container side grow by absorbing nutrients from the culture medium in which various nutrients supplied from the outside are dissolved. The proper water supply and temperature control are the key to the growth of the culture plants.

The conventional hydroponic plant cultivation apparatus has a structure in which water is supplied to the vessel from a water supply pipe of a plant accommodated inside the vessel installed to communicate with each other, and has a structure in which a heater or the like is installed for temperature control of the water supplied.

Therefore, the apparatus for growing hydroponic plants had to be installed in large-scale plastic house complexes on a large scale, and the cost of installing the hydroponic plants was increased. Therefore, the general public could not facilitate hydroponic cultivation at home. There was a problem that is difficult to purchase various vegetables obtained through.

On the other hand, because the root of the plant is always immersed in the culture solution, the root must always be placed in the water, so contact with oxygen in the air except oxygen in the water is virtually impossible, so the absorption rate of oxygen, an important factor of plant growth, There was a problem falling.

In addition, since only a part of the roots is immersed, the culture medium is not evenly absorbed throughout the roots, which hinders the growth of plants. The hydroponic cultivator, which is composed of upper and lower reservoir tanks, supplies power to the underwater pump. When off, there is a problem that the culture medium in the upper reservoir descends to the lower reservoir and cannot supply nutrients to the roots of the plants. Therefore, the water pump must be turned on for 24 hours to continuously supply water to the upper reservoir. There was an uneconomical problem.

Patent Publication No. 10-2013-0061562 Patent Registration No. 10-1321441

The present invention has been made in order to solve the above problems, an object of the present invention is to be provided so that each spray nozzle of the water supply unit to each crop port of the cultivation unit to supply water directly from the spray nozzle to each crop port The proper amount of water is supplied to each crop port to reduce the consumption of water and to provide a hydroponic cultivator that can promote fast and effective crop growth.

In addition, another object of the present invention is to provide a hydroponic cultivator capable of promoting effective crop growth by supplying water in the form of fine particles from the spray nozzle to the crop port by mixing oxygen when supplied to the crop.

In addition, another object of the present invention is to supply the water directly from each spray nozzle to each crop port to provide an appropriate amount of water to each crop port and to create an environment in contact with oxygen in the air to increase the growth of bacteria in the plant roots. It is to provide a hydroponic cultivator that can be prevented and hygienically managed.

In addition, another object of the present invention is to supply the moisture directly to each crop port from each spray nozzle, so that the appropriate amount of water is supplied to each crop port to prevent the growth of bacteria, etc. in the cultivation because there is little moisture remaining in the cultivation. It is to provide a hydroponic cultivator that can be managed hygienically.

In addition, another object of the present invention is to provide a seedling space on the top of the main body portion to seed the germination and root growth in the seedling space to move to the inner cultivation portion of the main body to grow the crops to be made smoothly It is to provide a hydroponic cultivator.

The present invention for solving this problem;

A main body, a cultivation unit provided in the main body, and a plurality of crop ports are installed, a water supply unit provided to supply water to each crop port of the cultivation unit, and an illumination unit spaced apart from an upper part of the cultivation unit. It is characterized by comprising.

At this time, the main body portion is formed of a main body is formed with a space portion to open the front, the case covering the outside of the main body, the front of the case is provided with a door to open and close the space portion, the rear of the main body It characterized in that a plurality of exhaust holes are formed.

In addition, the main body is characterized in that the seedling space is provided with a partition plate formed in a grid shape on the upper side, characterized in that the storage space is formed on one side of the seedling space.

And, the upper portion of the case is characterized in that the cover for covering the seedling space and the storage space.

In addition, the cultivation unit is a cultivation stage provided in the multi-stage in the main body, a fixed plate provided at a predetermined distance from the bottom surface inside the cultivation stage, the shelf seated on the top of the cultivation stage, and a plurality of installed on the shelf Characterized in that it comprises a number of crop ports.

And, the rear end is provided detachably to the main body, characterized in that the inner surface formed with the space portion of the main body is formed with a first seating projection for mounting the rear end.

In addition, the first coupling hole is formed on one side of the rear end, characterized in that the second coupling hole is formed on the other side.

In addition, the fixing plate is formed with a fixing hole to which the spray nozzle of the water supply unit is fixedly coupled, one side is characterized in that the drain hole is formed.

In addition, the shelf is provided with a seating hole is the crop port is installed, the seating hole is characterized in that the plate is provided to adjust the height of the crop port.

The water supply unit includes a water storage tank for storing water in which nutrient solution is mixed, a water supply pipe having one end connected to the water storage tank, and having a water pump, a branch pipe branched from the water supply pipe, and coupled to the regeneration stage, and the branch pipe. It is characterized in that it comprises a plurality of injection nozzles are connected to the supply pipe is provided on the inside of the cultivation stage, and connected to the supply pipe is provided to be located under each crop port.

In addition, the water supply unit is characterized in that it is further provided with a drain pipe for discharging the water discharged from the cultivation unit.

In addition, the lighting unit is characterized in that it comprises a frame which is installed to be spaced apart from the upper side of the cultivation portion inside the main body portion, and an LED light source installed to face the cultivation portion in the frame.

In addition, a power supply unit for supplying power to the water supply unit and the lighting unit, and a control unit for controlling the operation of the water supply unit and the lighting unit is provided, the control unit is provided with a communication unit, and transmits a control signal for controlling the control unit to the communication unit Characterized in that the remote terminal is provided.

In addition, the communication unit is characterized in that for receiving a control signal via a remote terminal and a wired or wireless.

According to the present invention having the above-described configuration, the respective spray nozzles of the water supply unit are respectively corresponded to the respective crop ports of the cultivation unit so that the appropriate amount of water is supplied to each crop port by supplying water directly from the spray nozzles to each crop port. It has the effect of reducing the consumption of moisture and promoting fast and effective crop growth.

In addition, the present invention by supplying the water in the form of fine particles from the spray nozzle to the crop port has an effect that can be effective crop growth by supplying oxygen to the crop when the water supply is mixed.

In addition, the present invention by supplying the water directly from each spray nozzle to each crop port to provide an appropriate amount of water to each crop port at the same time to create an environment in contact with oxygen in the air to prevent bacterial growth of the plant roots Hygiene management is effective.

In addition, the present invention by supplying the moisture directly from each spray nozzle to each crop port is supplied with an appropriate amount of water to each crop port to prevent the growth of bacteria and the like in the cultivation stage is almost no moisture remaining in the cultivation plant hygienic It can be managed by the effect.

In addition, the present invention is provided with a seedling space at the top of the main body portion when the seedling germination and root growth is made in the seedling space to move to the inner cultivation portion of the main body there is an effect that can be made cultivation smoothly. .

1 is a perspective view showing a hydroponic cultivator according to the present invention.
Figure 2 is a view showing the main body of the hydroponic cultivator according to the present invention.
Figure 3 is a view showing a partition plate of hydroponic cultivator according to the present invention.
Figure 4 is a view showing the cultivation portion of the hydroponic cultivator according to the present invention.
5 is a sectional view showing a hydroponic cultivator according to the present invention.
Figure 6 is a block diagram showing the operation of the hydroponic cultivator according to the present invention.
7 is a view showing a state of use of the hydroponic cultivator according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The same reference numerals are used for the same elements in the drawings, and duplicate descriptions of the same elements are omitted. And, it is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth.

1 is a perspective view showing a hydroponic cultivator according to the present invention, Figure 2 is a view showing a main body of a hydroponic cultivator according to the present invention, Figure 3 is a view showing a partition plate of a hydroponic cultivator according to the present invention, Figure 4 is a view showing the cultivation portion of the hydroponic cultivator according to the present invention, Figure 5 is a cross-sectional view showing a hydroponic cultivator according to the present invention, Figure 6 is a block diagram showing the operating relationship of the hydroponic cultivator according to the present invention. 7 is a view showing a state of use of the hydroponic cultivator according to the present invention.

The present invention is provided so that each spray nozzle of the water supply unit corresponding to each crop port of the cultivation unit to supply the water directly from the spray nozzle to each crop port to supply the appropriate amount of water to each crop port to reduce the consumption of water, It relates to a hydroponic cultivator 50 that can achieve fast and effective crop growth, the configuration is largely provided in the main body portion 100 and the main body portion 100, as shown in Figures 1 to 4 It comprises a cultivation unit 200, a moisture supply unit 300 for supplying moisture to the cultivation unit 200, and an illumination unit 400 for irradiating light to the cultivation unit 200.

In more detail, the main body 100 includes a main body 110 having a space 112 formed therein so that the front thereof is opened, and a case 120 covering the outer side of the main body 110.

At this time, the space between the side wall of the main body 110 and the side wall of the case 120 is formed so that the water supply pipe 320 of the water supply unit 300 to be described later to be installed.

In addition, the case 120 is provided with a door 122 to open and close the front surface, a plurality of exhaust holes 114 are formed on the rear surface of the main body 110.

Therefore, a cultivation unit 200 to be described later is provided inside the main body 110, and the temperature and humidity inside the main body 110 are automatically appropriated by the door 122 and the exhaust hole 114 when cultivating crops. To be controlled.

In addition, the door 122 is provided with a transparent window to observe the crops grown in the main body 100, the door 122 and the case 120 is provided with a fixing means such as a magnet in the corresponding portion The door 122 may be kept closed.

And, the lower portion of the main body 100 is provided with a wheel (not shown) so that the hydroponic cultivator 50 can be easily moved.

On the other hand, the upper part of the main body 110 is formed with a seedling space 130 so that the seed of the crop can be grown to seedlings.

In this case, the seedling space 130 is provided with a partition plate 132 is formed in a grid shape, seedling seed plant in each of the partitioned space of the partition plate 132 is provided with a seedling port ( 134) is provided with an absorbing member 242, such as a sponge to be grown until the seeds germinate and grow into seedlings.

In addition, the groove 132a is formed at the lower end of the partition plate 132, and when water is supplied to the interior of the seedling space 130, water is evenly distributed by the groove 132a, so that each seedling of the partition plate 132 is formed. Moisture is absorbed by the absorbing member 242 of the pot 134 to allow uniform growth of the crop.

Then, the storage space 140 is formed on one side of the seedling space 130 to store the tools necessary for the cultivation of crops.

Furthermore, a cover 124 is provided on the case 120 to cover the seedling space 130 and the storage space 140 to cover the seedling space 130 to protect the seeded seeds. It is possible to maintain the temperature and humidity in the nursery space (130).

On the other hand, the cultivation unit 200 is a cultivation step 210 provided in the main body 110, the fixing plate 220 provided in the cultivation step 210 and the upper part of the cultivation step 210 It includes a shelf 230 that is seated, and a plurality of crop ports 240 installed on the shelf 230.

At this time, the rear end 210 is formed in a box shape, the first coupling hole 212 is formed on one side, the second coupling hole 214 is formed on the other side.

Here, the rear end 210 may be detachably installed in the main body 110, the first mounting protrusion 116 is formed on the inner surface of the main body 110, the rear end 210 is It is mounted on the first seating protrusion 116.

Therefore, by separating the reorganization 210 from the main body 110 so that it can be managed by washing, it is possible to hygienically manage the reorganization 210.

In addition, the first mounting protrusion 116 is formed in multiple stages on the inner surface of the main body 110, so that the cultivation stage 210 is seated on each first seating protrusion 116, and the cultivation stage 210 is provided in multiple stages. Will be, of course, may be configured by adjusting the installation position and the number of installation stages of the cultivation 210 according to the type or size of the crop.

On the other hand, the fixing plate 220 is formed with a plurality of fixing holes 222, one side is formed with a drain hole 224.

In addition, a plurality of seating holes 232 are formed in the shelf 230 so that the crop port 240 is coupled to each seating hole 232.

At this time, the seating plate 232 of the shelf 230 is provided with a plate 250, the crop plate 240 may be installed in the plate 250 and the seating hole 232, the plate 250 By combining the crop port 240 will be able to adjust the installation height of the crop port 240 according to the size and type of the crop.

That is, the cover plate 250 is formed in a ring shape through which the center portion is formed in a circle, a square, or the like so as to correspond to the shape and size of the crop port 240, the crop port 240 is a seating hole of the shelf 230 ( It is to be able to adjust the height of the crop port 240 by being coupled to the plate 250, not 232.

In addition, the crop port 240 is formed in a shape through which the lower portion is penetrated, the inside is provided with an absorbing member 242, such as a sponge in which the crop is grown, when the moisture and nutrient solution is supplied from the moisture supply unit 300 crop port The absorbing member 242 is absorbed through the lower portion of the 240, and the absorbing member 242 maintains the absorbed state of the water and the nutrient solution to continuously supply the water and the nutrient solution to the crop.

Here, the absorbing member 242 is grown in the seedling space 130, the crops grown as seedlings grow in the rooted state, when the moisture and nutrient solution is absorbed by the absorbing member 242, the moisture and nutrient solution of the crop Evenly supplied to the roots has the effect that the growth of the crop can be made effectively.

In addition, the fixing hole 222 of the fixing plate 220 is to be fixed to the injection nozzle 350 of the water supply unit 300 to be described later, the fixing hole 222 and the number of the crop port 240 It is configured in the same manner so that the water is supplied to each of the crop port 240 individually, a detailed description thereof will be described later.

On the other hand, the water supply unit 300 serves to supply water to the cultivation unit 200, the water tank 310, the water and nutrient solution is stored, and the water supply pipe 320 is connected to one end of the water tank 310 And a branch pipe 330 branched from the water supply pipe 320 and coupled to the cultivation unit 200, a supply pipe 340 connected to the branch pipe 330, and a connection to the supply pipe 340. It is made of a spray nozzle 350.

At this time, the reservoir 310 is provided at the bottom of the space portion 112 of the main body 110, the water mixed with the nutrient solution is stored therein, the water supply pipe 320 of the main body 110 and the case 120 It is installed through the main body 110 to be installed in the space formed between.

Here, the water supply pipe 320 is provided with a water pump 322 to supply the water mixed with the nutrient solution stored in the reservoir 310 to the cultivation unit (200).

In addition, the branch pipe 330 is installed coupled to the first coupling hole 212 of the cultivation step 210, the supply pipe 340 is connected to the branch pipe 330 is installed of the cultivation step 210 It is provided inside.

And, as shown in Figure 5, the injection nozzle 350 is composed of a number corresponding to the crop port 240, each fixing hole of the fixing plate 220 to be spaced a predetermined distance to the lower portion of the crop port 240 222 is coupled to the water supply and the nutrient solution to the absorbing member 242 of each crop port 240.

By the above configuration, the water and nutrient solution is supplied to the absorbing members 242 of each crop port 240 individually, so that it is possible to supply an appropriate amount of water and the nutrient solution, whereby the absorbing member 242 is moisture And when absorbing the nutrient solution, there is almost no water remaining in the cultivation stage 210, there is no fear of breeding bacteria, etc. It is possible to manage the cultivation stage 210 hygienically and easily.

In addition, the spray nozzle 350 is supplied with water and nutrient solution in the form of fine particles so that oxygen is supplied with the water and nutrient solution in the form of fine particles of the roots and oxygen of the plant planted in the absorbing member 242 By increasing the contact rate to increase the immunity of the crop has the advantage of promoting faster and more effective crop growth.

However, some of the water and the nutrient solution sprayed from the injection nozzle 350 is collected to fall to the fixing plate 220, the collected water is discharged to the outside along the drain hole 224 formed on one side of the fixing plate 220 do.

Here, the drainage pipe 360 is coupled to the second coupling hole 214 of the cultivation step 210 to discharge the water and the nutrient solution discharged along the drainage hole 224 of the fixing plate 220, such a drain pipe The other end of the 360 is connected to the reservoir 310 to store the drained water and nutrient solution in the reservoir 310 to enable reuse of the water and nutrient solution.

In addition, the filter unit 324 is provided at the end of the water supply pipe 320 located in the reservoir 310 to remove the foreign substances and water contained in the cultivation stage 210 to supply to the crops.

On the other hand, the lighting unit 400 is installed on the frame 410 and the frame 410 spaced apart from the upper side of the rear end 210 inside the main body portion 100, the rear end 210 It comprises an LED light source 420 for irradiating light toward.

At this time, both ends of the frame 410 are bent and fixed to the inner side of the main body 110 by fixing means such as bolts, and the LED light source 420 is installed on the opposite surface of the rear end 210.

In addition, since the rear end 210 is provided in multiple stages, the lighting unit 400 is provided on the upper side of each rear end 210 so that light can be evenly irradiated for each rear end 210.

In addition, the lower portion of the lighting unit 400 is provided with a protective panel 430 is installed on the second seating projection 118 formed on the inner surface of the main body 110, the protective panel 430 is transparent Is formed to prevent the light irradiated from the LED light source 420 to be irradiated to the crop of the cultivator 200, except that the spray nozzle (when the crop port 240 of the cultivator 200 is not coupled) Even if the water and nutrient solution is sprayed at 350, it is prevented from being delivered to the lighting unit 400, thereby preventing damage to the lighting unit 400, and preventing the crop from growing and contacting the LED light source 420 so that the crop is led. It serves to prevent damage by the light source 420.

On the other hand, the power supply unit 500 for supplying power to the water supply unit 300 and the lighting unit 400, and the control unit 600 for controlling the operation of the water supply unit 300 and the lighting unit 400 is provided.

In this case, the power supply unit 500 may be configured as a power source such as an outlet to directly supply power, and is made of a battery so that the power is supplied and charged by connecting to the power in a place where the power is supplied, and in a place where the power is not supplied. Power may also be supplied using the power charged in the.

In addition, the control unit 600 is configured as a timer to operate the water supply unit 300 according to the type and growth rate of the crop at a predetermined interval or time, to adjust the supply amount of water and nutrient solution, the lighting unit 400 ) Will adjust the illuminance.

In addition, the control unit 600 is provided with a communication unit 610 is connected to the remote terminal 700 by wire or wireless to receive a control signal from the remote terminal 700 to operate the water supply unit 300 and the lighting unit 400. You can also control.

Referring to the working relationship for the hydroponic cultivator 50 according to the present invention configured as described above are as follows.

7 is a view showing a state of use of the hydroponic cultivator 50 according to the present invention.

As shown therein, the hydroponic cultivator 50 according to the present invention first stores water mixed with nutrient solution in the reservoir 310.

Next, the seed is sown in the absorbing member 242 provided in the seedling port 134 of the seedling space 130, and the germination by supplying moisture to the seedling space (130).

Next, when the crops germinate in the absorbing member 242 of the seedling port 134 and grow into seedlings, the absorbing member 242 in which the crop is planted is transferred to the crop port 240.

Next, by supplying power to the lighting unit 400 to irradiate the crop with light to help the growth of the crop.

In addition, the power supply to the water pump 322 of the water supply unit 300 and to supply the quantitative supply of moisture and nutrient solution at a predetermined time interval through the control unit 600.

At this time, the water pump 322 of the water supply unit 300 may be operated by receiving a control signal from the remote terminal 700 using wired or wireless communication.

On the other hand, the water and nutrient solution supplied from the reservoir 310 is moved along the water supply pipe 320, is distributed in the branch pipe 330 is connected to each cultivation step 210 is supplied to the supply pipe 340.

Next, when water and nutrient solution are injected through each injection nozzle 350 provided in the supply pipe 340, the water and nutrient solution is supplied to the absorbing member 242 of each crop port 240 provided in the cultivation stage 210. Thus crop growth is achieved.

Here, when the moisture and the nutrient solution supplied to the absorbing member 242 are supplied at a predetermined time interval by the control unit 600 and the moisture and the nutrient solution are not sprayed, the roots of the crops planted in the absorbing member 242 are in the air. By being exposed to oxygen, the immunity of the crop is improved, and the crop is effectively grown.

That is, conventionally, the roots of crops are always immersed in water mixed with nutrient solution, so that oxygen contact is difficult, so that the growth of crops is slow, whereas in hydroponic cultivator 50 according to the present invention, absorbing member 242 Water and nutrients are directly sprayed to help the growth of planted crops, and the roots of the crops are exposed to some air so that when the water and nutrients are not sprayed, they come into contact with oxygen, improving the crop's immunity. It is effective to grow effectively.

On the other hand, some of the water and nutrient solution sprayed from the injection nozzle 350 is collected to fall to the fixed plate 220, is discharged to the drain pipe 360 along the drain hole 224 formed on one side of the fixed plate 220 again to the reservoir ( 310).

Therefore, according to the hydroponic cultivator 50 according to the present invention, each of the crop port 240 of the cultivation unit 200 is provided so that each spray nozzle 350 of the water supply unit 300 corresponds to each crop port 240 By supplying water directly from the spray nozzle 350), the appropriate amount of water is supplied to each crop port 240 to reduce the consumption of water and promote rapid and effective crop growth, as well as the crop port 240. By supplying water in the form of fine particles from the spray nozzle 350, oxygen is mixed and supplied to the crops when water is supplied, so that effective crop growth can be achieved, and each spray nozzle 350 in each crop port 240. By supplying water directly from), the appropriate amount of water is supplied to each crop port 240, and at the same time, it creates an environment in which oxygen can be contacted with air to prevent bacterial growth of plant roots. It is possible to manage, by supplying the water directly from each spray nozzle 350 to each crop port 240, the appropriate amount of water is supplied to each crop port 240, so there is almost no moisture remaining in the cultivation stage (210) Germs and root growth of seedlings in the seedling space 130 is provided with a seedling space 130 at the top of the body portion 100 to prevent the growth of bacteria and the like in the cultivation stage 210. If this is done by moving to the inner cultivation unit 200 of the main body portion 100 has the advantage that the cultivation of crops can be made smoothly.

Although the preferred embodiment of the present invention has been described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the scope of the present invention to be substantially equivalent to the embodiment of the present invention. Various modifications can be made by those skilled in the art without departing from the scope of the present invention.

The present invention relates to a hydroponic cultivator, and more specifically, to each crop port of the cultivation unit is provided so that each spray nozzle of the water supply unit respectively corresponds to supplying the water directly from the spray nozzle to each crop port of the appropriate amount of each The present invention relates to a hydroponic cultivator capable of supplying moisture to reduce water consumption and promoting fast and effective crop growth.

50: Hydroponic Cultivator
100: main body 110: main body
112: space portion 114: exhaust hole
116: first seating protrusion 120: case
122: door 124: cover
130: seedling space 132: partition plate
134: seedling pot 140: storage space
200: grower 210: grower
212: first coupling hole 214: second coupling hole
220: fixing plate 222: fixing hole
224: drain hole 230: shelf
232: seating hole 240: crop port
242: absorbing member 250: plate
300: water supply unit 310: reservoir
320: water supply pipe 322: water pump
324: filter portion 330: branch pipe
340: supply pipe 350: injection nozzle
360: drain pipe 400: lighting unit
410: frame 412: LED light source
500: power supply unit 600: control unit
610: communication unit 700: remote terminal

Claims (14)

The space is formed to open the front, the body is provided with a plurality of exhaust holes formed in the rear, the case is provided to cover the outside of the body, the door is provided on the front of the case to open and close the space Main body;
A cultivation unit having a plurality of crop ports installed in the main body in multiple stages;
A water supply unit provided to spray supply water and nutrient solution to each crop port of the cultivation unit;
Is made to include a lighting unit spaced apart from the upper portion of the cultivation unit,
The main body is formed in a grid shape at the top and a seedling space having a partition plate formed with a groove at the bottom is formed, the space partitioned by the partition plate is provided with a seedling port provided with an absorbing member for seeding.
A storage space is formed on one side of the seedling space,
The upper part of the case is provided with a cover to cover the seedling space and storage space to protect the seed sown in the seedling space and maintain the temperature and humidity in the seedling space,
The cultivation unit includes a cultivation stage provided in the main body, a fixed plate provided at a predetermined distance from the bottom surface inside the cultivation stage, and a shelf seated at the top of the cultivation stage and installed with a plurality of crop ports. ,
The water supply unit is a water storage tank for storing the water mixed with nutrient solution, a water supply pipe having one end connected to the water storage tank and a water pump, a branch pipe branched from the water supply pipe, a supply pipe connected to the branch pipe, and A plurality of injection nozzles connected to the supply pipes and coupled to the fixing holes formed in the fixed plate, spaced at a predetermined distance from the bottom of each crop port to inject water and nutrient solution at a predetermined time interval, and the water supply unit is discharged from the cultivation unit. Including a drain pipe for discharging the water,
The redistribution end is installed on the first seating protrusion formed on the inner side of the main body is provided detachably to the main body, one side is formed with a first coupling hole is coupled to the branch pipe, the other side is coupled to the drain pipe 2 joining holes are formed,
The fixing plate is formed with a drainage hole on one side to discharge the moisture and nutrient solution to the cultivation step,
The crop port has a lower portion formed therethrough, and an inner side is provided with an absorbing member for cultivating crops to absorb water and nutrient solution supplied through the spray nozzle to continuously supply water and nutrient solution. .
delete delete delete delete delete delete delete The method of claim 1,
The shelf is provided with a seating hole in which the crop port is installed,
Hydroponic cultivator, characterized in that the seating plate is provided to adjust the height of the crop port.
delete delete The method of claim 1,
The lighting unit and the frame is spaced apart from the upper side of the cultivation unit inside the main body portion,
Hydroponic cultivator characterized in that it comprises an LED light source which is installed in the frame to face the cultivation.
The method of claim 1,
A power supply unit supplying power to the moisture supply unit and the lighting unit;
Is provided with a control unit for controlling the operation of the moisture supply unit and the lighting unit,
The control unit is provided with a communication unit,
Hydroponic cultivator, characterized in that the communication unit is provided with a remote terminal for transmitting a control signal for controlling the control unit.
The method of claim 13,
The communication unit hydroponic cultivation, characterized in that for receiving a control signal through a wired or wireless with a remote terminal.

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