KR20170046983A - Low potassium home grown vegetable cultivation apparatus and the method thereof for kidney patients - Google Patents

Abstract

The present invention relates to a low potassium vegetable cultivation apparatus for a household for a kidney patient and a method for cultivating low potassium vegetable. More specifically, the low potassium vegetable cultivation apparatus for a household for a kidney patient enables plants to be cultivated in water, adjusts an amount of potassium contained in the plants, and comprises: a frame main body; a cultivation housing which is arranged in the frame main body, has an open upper side, and has a filling space to be filled with a standard nutrient solution of National Institute of Horticultural and Herbal Science; a first circulation supply unit which circulates and supplies a standard nutrient solution of National Institute of Horticultural and Herbal Science without potassium to the cultivation housing; a second circulation supply unit which circulates and supplies a standard nutrient solution of National Institute of Horticultural and Herbal Science including potassium to the cultivation housing; and a control unit which controls the first circulation supply unit and the second circulation supply unit. After plant are grown by supplying the standard nutrient solution of National Institute of Horticultural and Herbal Science without potassium through the first circulation supply unit, the plant are grown again by supplying the standard nutrient solution of National Institute of Horticultural and Herbal Science including potassium through the second circulation supply unit. Therefore, an amount of potassium contained in the plants can be adjusted so plants with low potassium can be cultivated in an easy manner. As a user controls the control unit by sending a signal with a wireless terminal, the first circulation supply unit and the second circulation supply unit are remotely controlled. Therefore, plants can be cultivated to have an amount of potassium adjusted in an easy manner.

Description

[0001] The present invention relates to a low-potassium vegetable cultivation apparatus for a kidney patient and a method for growing the same,

The present invention relates to an apparatus for cultivating a low-potassium vegetable garden for a kidney patient and a method for cultivating a low-potassium vegetable vegetable for the kidney patient. More particularly, the present invention relates to a method of cultivating a plant by growing a plant by supplying a standard nutrient solution containing potassium through a first circulation supply unit, By supplying the standard nutrient solution containing no potassium through the portion, the amount of potassium contained in the plant can be regulated by regrowing, so that the plant of low potassium can be easily cultivated. By controlling the control unit by sending a signal to the wireless terminal And a method for cultivating a low potassium vegetable for household use for a kidney patient for allowing a plant to be cultivated so that the amount of potassium is easily controlled by controlling the first circulation supply unit and the second circulation supply unit remotely.

Patients with renal insufficiency are generally unable to excrete potassium because their renal potassium excretion ability is impaired. As a result, there is a risk of hyperkalemia, which causes arrhythmia and, in severe cases, cardiac arrest.

Therefore, it is necessary to restrict potassium intake to 1,500 ~ 2,000 mg per day for patients with renal failure, depending on the stage of chronic renal disease. Potassium is included in many ingredients, so patients with kidney disease should be careful about the intake of protein and salt, and be aware of potassium intake.

Potassium is essential for the growth of plants, as is well known as one of the three elements of a plant, and it must be included in vegetables. Therefore, it is required to provide vegetables having a low potassium content.

In order to solve the above problems, there has been disclosed a method of cultivating a low potassium vegetable as disclosed in Korean Patent Application No. 10-2015-7004241 as a method of providing vegetables having a low potassium content.

According to the prior art documents, vegetables having a low potassium content are realized by cultivating them in a potassium-containing standard nutrient solution and then cultivating them in a potassium-free standard nutrient solution. For example, Patent Document 1 below discloses a method of cultivating a low potassium spinach by specifying a cultivation period in a standard nutrient solution containing potassium-containing standard nutrient solution and potassium-free standard nutrient solution.

However, in the conventional low potassium cultivation method, vegetable is grown in a potassium-containing standard nutrient culture housing containing potassium, and then a standard nutrient solution containing potassium is injected to grow again. There is a problem that it is necessary to move to a housing containing no potassium. In a state in which the plant is not moved, the operator must repeat the process of extracting the standard nutrient solution containing potassium of the first housing and then filling the standard nutrient solution containing no potassium, There is a problem in that the process is delayed and excessive labor costs are incurred and the productivity is lowered.

The above-mentioned invention means the background art of the technical field to which the present invention belongs, and does not mean the prior art.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art described above, and it is an object of the present invention to provide a method and an apparatus for feeding a standard nutrient solution containing potassium through a first circulation supply unit, The amount of potassium contained in the plant can be regulated by regenerating the nutrient solution by supplying the standard nutrient solution which is not supplied to the first nutrient solution. Thus, a plant of low potassium can be easily cultivated. By controlling the control unit by sending a signal to the wireless terminal, And a second circulation and supply unit, so that the plant can be cultivated so that the amount of potassium can be easily controlled, and a method for cultivating a low-potassium vegetable of the present invention for a kidney patient.

The present invention relates to a vegetable growing apparatus for hydroponically cultivating a plant and controlling the amount of potassium contained in the plant to be cultivated, the apparatus comprising: a frame body; an upper surface disposed inside the frame body, A first circulation supply unit circulating and supplying a standard nutrient solution containing potassium to the cultivation housing; a second circulation supply unit circulating and supplying a standard nutrient solution containing no potassium to the cultivation housing; And a control unit for controlling the first circulation supply unit and the second circulation supply unit.

The first circulation and supply unit may include a first tank filled with a standard nutrient solution containing potassium, a circulation line connecting the first tank and the cultivation housing, and a first pump installed in the circulation line, The second circulation supply unit includes a second tank filled with a standard nutrient solution containing no potassium, a circulation line connecting the second tank and the cultivation housing, and a second pump installed in the circulation line. do.

In addition, the cultivation housing is disposed in the frame main body, and the cultivation housings are connected to the first circulation supply unit and the second circulation supply unit, so that the standard nutrient solution is circulated and received.

In addition, the frame body is further provided with a lighting device, and is characterized in that light irradiated to plants arranged in the cultivation housing is irradiated.

The present invention relates to a method of cultivating a plant for hydroponics and controlling the amount of potassium contained in a plant to be cultivated, the method comprising the steps of: arranging a seedling in a cultivation housing provided with a support portion provided on a frame body; A standard nutrient solution supply step of supplying the standard nutrient solution of the first circulation and supply part to the grow housing; a light supplying step of irradiating light to the plant with the illumination device installed in the frame main body; Supplying a standard nutrient solution of the KSGS standard nutrient solution containing the potassium of the second circulation supply part and a cultivation step of separating the plants from the frame main body.

The present invention relates to an apparatus for cultivating a low-potassium vegetable garden for a kidney patient and a method for cultivating the low-potassium vegetable garden in which a plant is grown by supplying a standard nutrient solution of a gardening special scientific institute containing potassium through a first circulation supply unit, The amount of potassium contained in the plant can be regulated by supplying the standard nutrient solution to the gardening special research institute which is not supplied with the nutrient solution. Thus, a plant of low potassium can be easily cultivated. By controlling the control unit by sending a signal to the wireless terminal, The first circulation supply unit and the second circulation supply unit are controlled so that the plant can be easily cultivated so that the amount of potassium is regulated.

1 is a cross-sectional view illustrating a household low potassium vegetable growing apparatus for a kidney patient according to the present invention.
FIG. 2 is a view showing an operation state of a household low-potassium vegetable growing apparatus for a kidney patient according to the present invention.
FIG. 3 is a view showing another embodiment of a household low potassium vegetable growing apparatus for a kidney patient according to the present invention.
FIG. 4 is a flowchart illustrating a method for growing a low-potassium vegetable garden for a kidney patient according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a household low potassium vegetative growth apparatus and a low potassium vegetative growth method for a kidney patient according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as an example, and various embodiments may be implemented through the present invention.

FIG. 1 is a sectional view showing a household low potassium vegetable growing apparatus for a kidney patient according to the present invention, FIG. 2 is a view showing an operating state of a household low potassium vegetable growing apparatus for a kidney patient according to the present invention, FIG. 4 is a flowchart illustrating a method for growing a household low-potassium vegetable for a kidney patient according to the present invention. FIG.

As shown in the figure, a household low potassium vegetable growing apparatus 10 for a kidney patient (hereinafter referred to as a low potassium vegetable growing apparatus) is a vegetable growing apparatus for hydroponically growing a plant and controlling the amount of potassium contained in the plant to be cultivated The low-potassium vegetable cultivation apparatus 10 includes a frame body 20, a cultivation housing 30, a first circulation supply unit 40, a second circulation supply unit 50, and a control unit 60.

The cultivating housing 30 may be screwed or fastened to the frame or the outer wall of the frame body 20 or may be attached to the outer surface of the frame body 20. The frame body 20 is made of metal or synthetic resin, Welded and fixed.

The frame body 20 may be formed in a housing structure having a door and a wall surface.

Alternatively, it is also possible to form a pair of rails (not shown) inside the frame body 20, and arrange the cultivation housing 30 so as to be guided to the upper portion of the rail and to be supported

The cultivation housing 30 is made of a metal material or a synthetic resin material and is welded or screwed into the frame body 20 or guided to the rail so that the top surface is opened and the interior of the cultivation housing 30 is filled with the standard nutrient solution And has a filling space.

1, the cultivation housings 30 are disposed in the frame body 20 in such a manner that the cultivation housings 30 are stacked with a predetermined distance therebetween, (40) and the second circulation and supply unit (50) so as to receive circulation supply of the standard nutrient solution of the Horticultural Special Scientific Institute.

The first circulation and supply unit 40 circulates and supplies the standard nutrient solution containing the potassium to the cultivation housing 30, and the first circulation and supply unit 40 includes a first nutrient solution A first circulation line 42 for connecting the first tank 41 and the cultivation housing 30 to each other and a circulation line 42 for connecting the first tank 41 and the cultivation housing 30; And a first pump (43) for circulating the standard nutrient solution of the Institute of Scientific Research to supply or discharge the nutrient solution to the cultivation housing.

At this time, it is preferable that the circulation line 42 further includes a valve controlled by the controller 60.

The second circulation and supply unit 50 circulates and supplies the standard nutrient solution of the gardening special scientific institute without potassium (removed) to the cultivation housing 30, and the second circulation and supply unit 50 includes a gardening special feature A circulation line 52 having a piping structure for connecting the second tank 51 and the cultivation housing 30 to each other and a circulation line 52 connected to the circulation line 52, And a second pump (53) for circulating the standard nutrient solution of the Horticulture Special Scientific Institute of the second tank to supply or discharge the nutrient solution to the cultivation housing.

At this time, the circulation line 52 is preferably provided with a valve and a filter controlled by the controller 60.

The controller 60 is installed inside the frame body 20 and electrically connects the first pump 43 and the second pump 53 of the first circulation and supply unit 40 and the second circulation and supply unit 50, So as to control the supply and discharge of the standard nutrient solution to the cultivation housing 20.

The frame body 20 is further provided with a lighting device 70 so that light irradiating the plant placed in the cultivation housing 30 can help plants grow.

The method for cultivating a domestic low potassium vegetable for a kidney patient using the domestic low potassium vegetative growing apparatus for a kidney patient having the above-described structure is characterized in that the seedling is placed inside a cultivation housing 30 provided with a support portion provided on the frame body 20 (S2) for supplying a standard nutrient solution of the Horticultural Research Institute's Special Scientific Institute, which contains potassium of the first circulating and supplying section (40), to the cultivation housing (20) A light supplying step S3 for irradiating light to the plant with the lighting device 70 installed in the main body 10 and a second circulation supplying part 50 for discharging the standard nutrient solution of the gardening special research institute of the cultivation housing 20, (S 4) supplying a standard nutrient solution of a gardening special scientific institute that supplies potassium-free (removed) gardening specially designated scientific nutrient solution to the frame body 20 and a cultivation step (S 5) Grow By it is, and finish the series of processes.

Here, in the present invention, the crop to be applied to the standard nutrient solution for the Horticultural Research Institute's specific crop is spinach.

The support is a plurality of gravel or sands disposed in the cultivation housing for securing root portions of seedlings.

The plant is grown by supplying the standard nutrient solution containing the potassium through the first circulation and supply unit 40 in the above-described manner, and then the plant is grown through the second circulation supply unit 50, The plant can be easily cultivated because the amount of potassium contained in the plant can be controlled by supplying the radio transceiver to the control unit 60. The radio transceiver is installed in the frame body 20 so as to be electrically connected to the controller 60, It is also possible to remotely control the first circulation supply unit and the second circulation supply unit by sending a signal to the wireless terminal and controlling the control unit.

10: vegetable growing apparatus 20: frame body
30: cultivation housing 40: first circulation supply part
50: second circulation supply unit 60:
70: Lighting device
41: first tank 42: circulation line
43: first pump
51: second tank 52: circulation line
53: Second pump
S1: seedling arrangement step S2: supply step of standard nutrient solution of KSARA
S3: Light supply step S4: Supplying standard nutrient solution of KSAT
S5: Cultivation step

Claims (5)

A vegetable growing apparatus for hydroponically cultivating plants and controlling amount of potassium contained in plants to be cultivated,
A frame body;
A cultivation housing disposed inside the frame body, the cultivation housing having a top surface opened and a filling space for filling a specimen nutrient solution of the Horticultural Research Institute;
A first circulation supply unit circulating and supplying the standard nutrient solution of the Horticulture Special Scientific Institute containing potassium to the cultivation housing;
A second circulation supply unit for circulating and supplying the standard nutrient solution of the Horticultural Research Institute, which does not contain potassium, to the cultivation housing; And
And a control unit for controlling the first circulation supply unit and the second circulation supply unit.
The method according to claim 1,
Wherein the first circulation and supply unit includes a first tank filled with a standard nutrient solution for gardening special scientific institute containing potassium,
A circulation line connecting the first tank and the cultivation housing,
And a first pump installed in the circulation line,
Wherein the second circulation and supply unit includes a second tank filled with a standard nutrient solution of the Horticultural Research Institute, which does not contain potassium,
A circulation line connecting the second tank and the cultivation housing,
And a second pump installed in the circulation line.
The method according to claim 1,
Wherein the cultivation housings are connected to the first circulation supply unit and the second circulation supply unit so as to circulate and receive the standard nutrient solution of the Horticultural Research Institute. Domestic low potassium vegetable growing equipment.
The method according to claim 1,
Wherein the frame body further comprises a lighting device to illuminate plants disposed in the cultivation housing with light.
The present invention relates to a method of cultivating vegetables in which plants are hydroponically cultured and the amount of potassium contained in the cultivated plants is controlled,
A seedling arrangement step of arranging the seedlings in a cultivation housing provided with a support part provided in the frame body;
Supplying a specimen nutrient solution of the Horticultural Special Research Institute of the first circulation and supply section to the cultivation housing;
A light supplying step of irradiating the plant with light by an illumination device installed in the frame body;
Supplying a standard nutrient solution for garden horticultural special scientific institute that does not contain potassium to supply a specimen nutrient solution of a horticultural special academy standard that does not contain potassium of the second circulation supplying part after draining a specimen nutrient solution of a horticultural specie scientific institute of the cultivating housing; And
And a planting step of separating the plant from the frame body.

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