KR101190139B1 - Nutrient solution culture system - Google Patents

Abstract

The present invention relates to a nutrient plant cultivation system, which is provided with a supporting structure (30) for arranging the nutrient cultivation container (20) in multiple layers, and the nutrient solution (2) in the nutrient solution tank (42) using a pump (41). ) Is transferred to the nutrient solution cultivation vessel 20 of the uppermost stage, and the nutrient solution 2 in the nutrient solution cultivation vessel 20 of the upper end is transferred to the nutrient solution cultivation vessel 20 at the lower end thereof, leaving only a predetermined amount. The pipe nipple (52) is installed inside the 51, and the nutrient solution stopper 53 is installed to suppress the flow of the nutrient solution (2) contained in the nutrient solution cultivation container 20 and to adjust the discharge height. It is characterized by.

In the present invention, even when the nutrient solution is placed in multiple stages or arranged in a number of columns or rows, it is possible to automatically supply a certain amount of nutrient solution every predetermined time, and in particular, only the optimal nutrient solution remains at the bottom of the nutrient solution cultivation vessel. It is possible to supply a certain amount of nutrient solution because it is transferred to its lower end or its neighboring nutrient solution container, and also it is easy to assemble and separate the nutrient solution container and vertically and horizontally to an infinite length using a pipe pipe and a pipe nipple. It becomes extensible.

Nutrient solution, flow rate, cultivation bottle, oxygen blower

Description

Nutrient solution culture system

The present invention relates to a nutrient plant cultivation system, and more specifically, to a nutrient plant cultivation system to enable a certain amount of nutrient solution to be automatically supplied at a predetermined time even when the nutrient solution cultivation container is placed in multiple stages or arranged in multiple columns or rows. It is about.

Nutrient cultivation is usually cultivated with culture medium containing nutrients necessary for the growth of crops (hereinafter, abbreviated as 'nutrient solution') without using soil, and was developed to grow crops anywhere without being bound to soil. It is widely used due to the advantages of high productivity and high quality crops compared to general soil cultivation.

In this nutrient cultivation, a nutrient solution automatic feeding device is used to automatically feed a nutrient solution mixed with raw water or raw water and a chemical fertilizer (fertilizer liquid) to a crop.

The nutrient solution automatic supply device may be a mixed tank nutrient solution automatic supply device and a direct injection nutrient solution supply device according to the feeding method of the fertilizer liquid.

Mixed tank type nutrient solution supplying system is to mix fertilizer liquid and raw water at a certain ratio in the mixing tank to supply the mixed nutrient solution to the crop.Direct injection type nutrient solution supplying device is suitable amount of fertilizer liquid to supply pipe It is a method of supplying to crops by injecting directly so that mixing is done in the pipe during transportation.

On the other hand, in nutrient cultivation, it is more important than ever to supply a certain amount of nutrient solution to the crop.

In particular, when the nutrient container is placed in multiple stages, it is very cumbersome and difficult for the worker to supply the same nutrient solution to all the nutrient containers each time.

The present invention has been made to solve the above problems, the purpose is to arrange the nutrient solution cultivation container in multiple stages or arranged in a number of columns or rows, and also nutrient solution plant to enable the supply of a certain amount of nutrient solution every fixed time automatically To provide a cultivation system.

In addition, the present invention is to provide a nutrient plant cultivation system that allows only the optimum nutrient solution at the bottom of the nutrient solution cultivation container and the rest to be transferred to the lower or neighboring nutrient solution cultivation container.

In addition, the present invention is to provide a nutrient plant cultivation system that is easy to assemble and separate the nutrient solution cultivation container and expands vertically and horizontally to an infinite length using a pipe pipe and a pipe nipple.

In addition, the present invention allows the nutrient solution to circulate in a zigzag manner, by providing a nutrient solution stopper inside the piping pipe to provide a nutrient plant cultivation system consisting of a natural drainage form by adjusting the flow inhibition and discharge height of nutrient solution have.

In order to achieve the above object, the present invention provides a support structure for arranging nutrient solution containers in a multi-layered layer, and transfers the nutrient solution in the nutrient solution tank to the nutrient solution container at the top, using the pump, and the nutrient solution container at the top In order to transfer the nutrient solution in the first pipe pipe and the inside of the first pipe pipe so that only a predetermined amount is left to the nutrient solution container at the bottom thereof, the flow of nutrient solution contained in the nutrient solution container and the discharge height It is characterized by providing a nutrient plant cultivation system comprising a nutrient solution stopper to be installed to adjust.

In addition, the present invention is to form a long nutrient solution cultivation in the longitudinal direction to install a plurality in the transverse direction, connecting any nutrient solution cultivation and the neighboring nutrient cultivation with a second pipe pipe, the nutrient solution tank with a pump The nutrient solution in the nutrient solution is transferred to any one nutrient solution container, and the nutrient solution in any one nutrient solution container is installed, and the second pipe pipe and pipe nipples are installed in the nutrient solution container and the neighboring nutrient solution container. It is characterized by providing a nutrient plant cultivation system configured.

In addition, the present invention is characterized by providing a nutrient plant cultivation system that allows the operation of the pump by the power supplied from the cell.

The present invention is characterized by providing a nutrient plant cultivation system configured by providing a flow meter for measuring the amount of nutrient solution in the nutrient solution tank.

The present invention is characterized by providing a nutrient plant cultivation system configured to supply oxygen to the nutrient plant by installing an oxygen blower in the nutrient solution cultivation.

The present invention is characterized by providing a nutrient plant cultivation system configured to install a timer for counting the time so that the operation of the pump is periodically performed in the transfer of nutrient solution to the nutrient solution cultivation container using a pump.

The present invention is characterized in that the nutrient solution cultivation system provides a nutrient plant cultivation system consisting of a form in which the inner side is hollow while the four sides are closed, and a potting seat hole is formed in which the nutrient solution dedicated potion can be seated thereon.

The present invention, the nutrient solution cultivation container is an open top and the inside is made of a hollow housing, and the cover for opening and closing the upper portion of the housing, the cover is formed with a potting hole for seating the nutrient solution potted, The cover is characterized in that it provides a nutrient plant cultivation system configured to be detachable from the housing.

The present invention is characterized in that it provides a nutrient plant cultivation system configured to absorb a nutrient solution by forming a plurality of holes in the side and bottom surface of the nutrient solution potentiation.

The present invention is characterized in that it provides a nutrient plant cultivation system is formed so that the locking jaw is caught in the potted plant seating hole when the engaging jaw is formed on the nutrient solution dedicated pot.

The present invention, the nutrient support that is configured to install a horizontal support in the vertical direction and the axial support connecting the nutrient solution cultivation, the horizontal support is installed such that the LED light is irradiated on the nutrient solution that is cultivated in the nutrient solution cultivation It is characterized by providing a cultivation system.

The present invention is characterized by providing a nutrient plant cultivation system comprising a moving roller for moving the support structure.

The present invention, the nutrient solution cultivation can be formed in the longitudinal direction to be arranged in a large number in the transverse direction, the nutrient solution cultivation located at the top of the nutrient solution cultivation vessels arranged in the transverse direction connected by a third pipe pipe It is characterized by providing a nutrient solution plant cultivation system.

As described above, the present invention can automatically supply a certain amount of nutrient solution every predetermined time even when the nutrient solution is disposed in multiple stages or arranged in multiple columns or rows.

In particular, the present invention can supply a certain amount of nutrient solution since only the optimal nutrient solution remains at the bottom of the nutrient solution cultivation container and the rest is transferred to the bottom or the neighboring nutrient solution container.

In addition, the present invention is easy to assemble and separate the nutrient solution container, it is possible to extend vertically and horizontally to an infinite length by using a pipe pipe and pipe nipple.

In the present invention, the nutrient solution is circulated in a zigzag manner, and the flow suppression and discharge height of the nutrient solution can be adjusted by inserting the nutrient solution stopper into the inside of the pipe pipe.

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

1 and 2 are a front view and a side view for explaining a nutrient plant cultivation system according to a first embodiment of the present invention, Figure 3 is a cross-sectional view showing the nutrient solution cultivation and nutrient solution plant of the present invention.

The present invention relates to a nutrient plant cultivation system for cultivating a nutrient plant (1) in a nutrient solution cultivation container (20) configured with a potting seating hole (22) capable of seating a nutrient solution potable (10), layered nutrient solution cultivation in multiple stages And a support structure 30 for placing the keg 20.

The support structure 30 collectively refers to all the structures necessary to place and support the respective components of the nutrient plant cultivation system of the present invention.

The support structure 30 includes, for example, a steel structure in a form for disposing a nutrient solution container 20 in multiple layers.

In the first embodiment of the present invention, using the support structure 30 as described above was installed so that the nutrient solution container 20 is arranged in a four-stage structure.

The nutrient solution growing container 20 includes a housing 21 having an open top and a hollow inside, and a cover 23 for opening and closing an upper part of the housing.

The cover 23 is provided with a potting seating hole 22 for seating the nutrient solution pot 10.

The cover 23 may be separated from the housing 21 or may be integrally formed.

Nutrient-only distillation 10, a plurality of holes 12 are formed on the side and bottom surface to facilitate the absorption of the nutrient solution (2) in the nutrient solution culture vessel (20).

In addition, the locking jaw 11 is formed on the nutrient solution pot 10.

Therefore, when the nutrient solution dedicated pot 10 is seated in the potting seating hole 22, the locking jaw 11 is seated across the potting seating hole 22.

Reference numeral 24 is an ocher high, and 56 is an electric wire.

The nutrient solution 2 in the nutrient solution tank 42 is operated by the operation of the pump 41 in the nutrient solution container 20 located at the uppermost (first stage) of the nutrient solution container 20 of the four-stage structure. It is conveyed through the piping pipe 76.

The nutrient solution 2 thus conveyed is the nutrient solution cultivation container 20 of the upper end (first stage) and the nutrient solution container 20 of the second stage located at the lower end thereof are connected to the first pipe pipe 51 and Since the pipe nipple 52 is provided inside the one-pipe pipe, only a certain amount of nutrient solution remains in the nutrient solution delivery vessel of the uppermost stage (first stage), and the remaining nutrient solution is transferred to the nutrient solution delivery vessel of the second stage.

In addition, the first piping pipe 51 is provided with a nutrient solution stopper 53 for suppressing the flow of the nutrient solution 2 contained in the nutrient solution distribution tube 20 and adjusting the discharge height.

Looking at the transfer path of the nutrient solution (2), the pump 41 is transferred from the nutrient solution tank 42 through the fourth pipe pipe 76 to the nutrient solution cultivation vessel 20 of the first stage, and again the first pipe The nutrient solution in the second stage of the nutrient solution container 20 is transferred to the nutrient solution in the second stage through the pipe 51, the nutrient solution in the third stage of the nutrient solution culture vessel 20 and After passing through 20 in order, it is finally collected in the nutrient solution tank.

Accordingly, only a certain amount of nutrient solution 2 is left in the nutrient solution cultivation container 20 at each stage, and the rest is collected in the nutrient solution tank 42.

On the other hand, the nutrient solution culture vessel 20 and the first pipe pipe 51 is preferably installed so that the nutrient solution (2) can be circulated in a zigzag manner.

In addition, the nutrient cultivation container 20 may be provided with an oxygen blower 62 to supply oxygen to the root of the nutrient plant 1 so that plant growth may be promoted.

In addition, the nutrient solution (2) in the above, but is not limited to this, it is also possible to use water (water), etc. Also, it is also possible to use a general pot instead of the nutrient solution dedicated pot (10).

FIG. 4 is a configuration diagram for nutrient solution circulation to be performed at a predetermined cycle, and includes a power supply 57, a timer 63, a flow meter 61, a controller 58, and a pump 41.

The power supply unit 57 supplies power to the components (pumps, etc.) of the present invention, but may use an external power source, but may also use a power source supplied from the solar cell (solar cell) 55.

The timer 63 counts the time for the operation of the pump 41 at a predetermined cycle.

The flow meter 61 is installed in the nutrient solution tank 42 to measure the amount of the nutrient solution 2.

The controller 58 performs a function of replenishing the nutrient solution 2 by operating the pump 41 at a predetermined cycle based on the output signals of the timer 63 and the flow meter 61, and a predetermined amount based on the output signal of the flow meter. If the nutrient solution (2) is not filled may include a function for notifying the user by driving an alarm (not shown).

5 is a side view for explaining a nutrient plant cultivation system according to a second embodiment of the present invention.

In the case of Fig. 1 and 2, the nutrient solution cultivation container 20 is installed in multiple stages, but arranged in a single row, so that crop cultivation is possible in a narrow space. .

On the contrary, in the case of FIG. 5, the nutrient solution cultivation container 20 is installed in multiple stages, but is arranged in two or more rows to allow much more crop arrangement.

In more detail, the nutrient solution cultivation container 20 is formed to be elongated in the longitudinal (longitudinal, 방향) direction and arranged in a lateral direction.

And, the nutrient solution culture vessels 20, 20 'located at the top of the plurality of nutrient solution culture vessels 20 arranged in the horizontal direction are connected to the third pipe pipe (75) and installed.

When the pump 41 is operated in this state, the nutrient solution 2 of the nutrient solution tank 42 is cultivated at the top (first stage) of the nutrient solution 2 through the fourth piping pipe 76 through the third piping pipe 75. It is conveyed to the cylinders 20 and 20 ', and again to the nutrient solution cultivation vessel 20 of the second stage through the first pipe pipe 51.

Next, the nutrient solution 2 in the nutrient solution container 20 of the second stage passes through the nutrient solution container 20 of the third stage and the nutrient solution container 20 of the fourth stage, and finally the nutrient solution Gather in the tank 42.

In addition, the nutrient solution 2 in the nutrient solution container 20 'of the neighboring first stage passes through the nutrient solution culture bottles 20 of the second stage, the third stage, and the fourth stage located at the bottom thereof in order. It is collected in the nutrient solution tank 42.

Then, only a certain amount of nutrient solution (2) remains in the nutrient solution (20) of each stage, the remaining nutrient solution (2) is collected in the nutrient solution tank (42).

In addition, the support structure (30) by installing a moving roller 74 to easily move the support structure to move the nutrient plant cultivation system to be able to grow the crop.

Figure 6 is a side view of a nutrient plant planting system using the LED lighting of the present invention.

The horizontal support 72 is installed horizontally on the axial support 71 in the vertical direction connecting the nutrient solution culture tube 20.

And, by installing the LED light (73) on the horizontal support (72) to the LED light is irradiated to the nutrient solution (1) being cultivated in the nutrient solution cultivation (20).

7 to 9 are a plan view, a front view and a side view for explaining a nutrient plant cultivation system according to a third embodiment of the present invention.

In the case of Figures 1 and 2, the nutrient cultivation container 20 is installed in multiple stages, but arranged in one row (act) to enable crop cultivation even in a narrow space.

On the contrary, in the case of FIGS. 7 to 9, the nutrient cultivation container 20 is configured in one step and arranged in two or more rows, so that much more crops can be arranged, and particularly useful when installed on a flat place such as a rooftop.

In more detail, the nutrient solution cultivation container 20 is elongated in the longitudinal (longitudinal, longitudinal) direction, and at the same time, a large number is installed in the transverse direction.

Then, any one of the nutrient cultivation container 20, the nutrient solution cultivation container 20 and the neighboring nutrient solution culture container 20 'is connected to the second pipe pipe (54).

When connected in this way, as shown in FIG. 7, the nutrient solution containers 20 and 20 ′ are installed to be arranged in a square shape as a whole.

In this state, when the pump 41 is operated, the nutrient solution 2 in the nutrient solution tank 42 is transferred to any one of the nutrient solution delivery tanks 20 through the fourth pipe pipe 76.

The nutrient solution 2 thus transferred is left inside the second piping pipe 54 so that only a predetermined amount remains in any one nutrient solution container 20 and is transferred to the nutrient solution container 20 ′ adjacent to the nutrient solution container. Install the pipe nipple (52).

Meanwhile, in the third embodiment, the solar cell 55, the flow meter 61, the oxygen blower 62, the timer 63, and the like may also be installed. Detailed description thereof will be described with reference to FIGS. 1 and 2. Replace with the description in

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

1 is a front view for explaining a nutrient solution plant cultivation system according to a first embodiment of the present invention,

Figure 2 is a side view for explaining a nutrient plant cultivation system according to a first embodiment of the present invention,

3 is a cross-sectional view showing the nutrient solution cultivation container and nutrient solution potentiation of the present invention,

4 is a configuration diagram for the nutrient solution circulation is made in a certain cycle,

Figure 5 is a side view for explaining a nutrient plant cultivation system according to a second embodiment of the present invention,

Figure 6 is a side view of the nutrient plant planting system using the LED lighting of the present invention,

7 is a plan view for explaining a nutrient plant cultivation system according to a third embodiment of the present invention,

8 is a front view for explaining a nutrient plant cultivation system according to a third embodiment of the present invention,

9 is a side view for explaining a nutrient plant cultivation system according to a third embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: nutrient plant 2: nutrient solution

10: nutrient solution pot 11: hang chin

20, 20 ': Nutrient Solution 21: Housing

22: planting hole 23: cover

30: support structure 41: pump

42: nutrient solution tank 51: the first piping pipe

52: pipe nipple 53: nutrient solution stopper

54: second piping pipe 55: solar cell

56: wire 57: power supply

58: control unit 61: flow meter

62: oxygen blower 63: timer

71: shaft support 72: horizontal support

73: LED light 74: moving roller

75: third pipe pipe 76: fourth pipe pipe

Claims (13)

The cover is formed on the support structure 30, the upper cover is open and the inner side of the housing 21 and the cover formed with a potted seat hole 22 for opening and closing the upper portion of the housing 21 and for seating the nutrient solution potable 10 Nutrient solution cultivation vessel (20) formed with a (23), the pump 41 for transferring the nutrient solution (2) in the nutrient solution tank 42 to the nutrient solution cultivation vessel 20 of the upper end, and the nutrient solution cultivation vessel at the top (20) and the nutrient solution cultivation container 20 is connected to the bottom of the pipe nipple to allow the nutrient solution in the nutrient solution cultivation container 20 of the upper portion to be transferred to the nutrient solution cultivation container 20 at the bottom thereof The first piping pipe 51 is provided, the flow meter 61 is installed in the nutrient solution tank 42 to measure the amount of nutrient solution, and the nutrient solution cultivation vessel 20 to provide oxygen to the nutrient solution plant The operation of the oxygen blower 62 for supplying the pump 41 and the pump 41 for transferring the nutrient solution to the nutrient solution cultivation vessel 20 may be performed periodically. In a nutrient plant cultivation system comprising a timer (63) installed to count the lock time and an LED light (73) for irradiating LED light to the nutrient solution planted in the nutrient solution cultivation container (20), The nutrient solution cultivation container 20 is disposed in the lateral direction, the nutrient solution cultivation container 20 (20 ') located at the top end is connected to the third pipe pipe 75, of the nutrient solution tank 42 The fourth pipe pipe 76 is connected to the third pipe pipe 75 so that the nutrient solution is transferred to the top nutrient solution container 20, 20 ', and the nutrient solution is transferred to the solution solution container 20, 20'. Is connected to the first pipe pipe 51 to be transferred to the nutrient solution containers 20 of the second stage via the first pipe pipe 51, and the nutrient solution in the nutrient solution container 20 of the second stage After passing through the nutrient solution cultivation tank 20 of the third stage and the nutrient solution cultivation container 20 of the fourth stage in order to finally gather in the nutrient solution tank 42, respectively, connected to the first pipe pipe 51 in multiple stages Install; A nutrient solution stopper 53 installed inside the first pipe pipe 51 to suppress the flow of the nutrient solution contained in the nutrient solution growing container 20 and to adjust the discharge height; Nutrient plant cultivation system, characterized in that it further comprises a solar cell (55) installed to supply power to operate the pump (41). The cover is formed on the support structure 30, the upper cover is open and the inner side of the housing 21 and the cover formed with a potted seat hole 22 for opening and closing the upper portion of the housing 21 and for seating the nutrient solution potable 10 Nutrient cultivation container 20 having a nutrient solution cultivation tank (20), the nutrient solution in the nutrient solution tank 42 to the nutrient solution cultivation tank (20), nutrient solution cultivation container 20 and nutrient solution cultivation The second pipe pipe 54 is connected to the pipe 20 and the pipe nipple 52 is installed therein to allow the nutrient solution in the nutrient solution cultivation container 20 to be transferred to the nutrient solution cultivation container 20 next to the inside. A flow meter 61 installed in the nutrient solution tank 42 to measure the amount of nutrient solution, an oxygen blower 62 installed in the nutrient solution cultivation container 20 to supply oxygen to the nutrient solution plant, and the pump 41. Cultivated in the timer 63 and the nutrient cultivation container 20 is installed to count the time so that the operation of the In the nutrient plant cultivation system comprising an LED light (73) for irradiating LED light to the nutrient solution which is present, The nutrient cultivation container 20 is provided with a plurality in the lateral direction, and the nutrient solution cultivation container 20 'and the nutrient solution cultivation container 20' and the nutrient solution cultivation container ( 20 ') and the nutrient solution tank 42 are respectively connected to the second pipe pipe 54 so that the nutrient solution culture vessels 20 and 20' are arranged in a square shape as a whole; The nutrient solution of the nutrient solution tank 42 is connected to the fourth pipe pipe 76 so as to be transferred to the nutrient solution cultivation container 20; Nutrient plant cultivation system, characterized in that it further comprises a solar cell (55) installed to supply power to operate the pump (41). delete delete delete delete delete delete delete delete delete delete delete

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