KR102051708B1 - Hydroponic cultivation apparatus for ginseng - Google Patents

Abstract

The present invention relates to a ginseng fresh water cultivation apparatus that is circulated and supplied individually to the plurality of fresh water tanks stacked up and down, a plurality of vertical frame is installed perpendicular to the ground spaced at a predetermined interval in the left and right directions; A plurality of support plates stacked and spaced apart from each other along the height direction of the vertical frame; A plurality of fresh water tanks each seated on a support plate and supplied with nutrient solution therein; And nutrient solution circulation supply means for circulating and supplying nutrient solution to the plurality of fresh water tanks, wherein the nutrient solution is individually supplied to the plurality of fresh water tanks by the nutrient solution circulation supply means.

Description

Ginseng fresh water cultivation apparatus {Hydroponic cultivation apparatus for ginseng}

The present invention relates to a ginseng cultivation device, and more particularly, to a ginseng fresh water cultivation device in which nutrient solution is circulated and supplied individually to a plurality of fresh water tanks stacked up and down.

Ginseng (人蔘, Panax ginseng C.A. Meyer) is a perennial herb belonging to the family Arboraceae, and is known as an important medicine for oriental medicine.

Ginseng is used to rejuvenate, treat physical weakness, boredom, fatigue, anorexia, vomiting, diarrhea, etc. It helps pulmonary function, produces essence, enhances nephropathy and renal function. The pharmacological action of ginseng has been reported to have cerebral cortex excitement and suppression, equilibrium, antifatigue, anti-aging, immune enhancement, heart contraction, gonadotropin, hyperglycemia suppression, protein synthesis, homeostasis, anticancer, detoxification.

The consumption of ginseng has been greatly increased due to the increase of consumers' desire for health promotion, and it is spreading not only in East Asia but also in other parts of the world.

Ginseng is a perennial crop that takes 4 ~ 6 years to harvest and has very low land productivity compared to other crops, and grows in one place during the growing season, so it is more affected by soil characteristics than other crops. Many illnesses and pestilences occur, and chemical pesticides are often used to prevent these diseases.

However, as consumers' interest in health increases recently, consumption of eco-friendly agricultural products increases, and in the case of ginseng, it is necessary to grow eco-friendly agricultural methods. Accordingly, there have been attempts to shorten the growth period of ginseng and to reduce the use of pesticides.

Hydroponic cultivated ginseng is a clean agricultural product, and it is a trend to use not only roots but also leaves and stems as raw vegetables. For example, Korean Patent No. 10-0959254 discloses a ginseng hydroponic cultivation technique in which seedlings are planted on a bed having a soil including a nonwoven fabric, chaff, and the like, and sprayed nurtured to the roots of the seedlings.

However, the prior art can not be seen as a true hydroponic cultivation of ginseng cultivation only by nurturing supply, it is not easy to supply and manage nurturing. In addition, the prior art has the disadvantage that the installation cost is large and it is practically impossible to install on a small site on a small site.

In order to solve the drawbacks of the prior art, a ginseng hydroponic cultivation system that can grow ginseng without residual pesticides using freshwater rearing and indirect sunlight has been proposed (Korean Patent No. 10-1625647).

However, the prior patent adopts a series circulation structure in which the nurturing water is sequentially supplied from the uppermost tank to the lower tanks. In this case, while the control of the feed of the rearing stock in the tank is easy, the water quality difference of the rearing stock existing in each tank cannot be avoided. In other words, the water quality of the uppermost tank is the best and the water quality of the lowest tank is the worst. In addition, the water at the bottom of each tank is stagnant, green algae may occur easily. In this environment, there is a problem that crop growth may slow down and disease may occur.

The present invention has been made to solve the problems of the prior art as described above, and provides a ginseng fresh water cultivation apparatus of parallel circulation structure in which nutrient solution is supplied and collected separately for a plurality of fresh water tanks stacked in the vertical direction For the purpose.

In another aspect, the present invention is to provide a ginseng fresh water cultivation device that the nutrient solution continues to flow at a low speed in the fresh water tank as the nutrient solution flows into the fresh water tank uniformly low pressure.

In addition, another object of the present invention is to provide a ginseng fresh water cultivation apparatus capable of controlling the brightness of light required for the growth of ginseng.

In addition, another object of the present invention is to provide a ginseng fresh water cultivation apparatus that can maintain the appropriate humidity required for the growth of ginseng by forming the curtain to be open between the fresh water tanks stacked up and down.

The object of the present invention described above is a fresh water tank which is supplied with nutrient solution therein; And nutrient solution circulation supply means for circulating and supplying nutrient solution to the fresh water tank, wherein the nutrient solution circulation supply means comprises: a storage tank in which the nutrient solution is stored, and the nutrient solution in the storage tank connecting the storage tank and the fresh water tank. Ginseng fresh water, characterized in that it comprises a supply line for supplying the fresh water tank and the discharge line connecting the fresh water tank and the storage tank and guide the nutrient solution discharged from the fresh water tank to the storage tank. By providing a cultivation apparatus.

According to one aspect of the invention, the supply line, the first supply pipe, one end is connected to the storage tank and the other end extends higher than the height of the corresponding fresh water tank, the horizontal from the other end of the first supply pipe A second supply pipe extending in a direction, a third supply pipe extending downward from an end of the second supply pipe, and a fourth supply pipe horizontally extending from the third supply pipe to one side of a corresponding fresh water tank It may include.

According to another feature of the invention, the discharge line, the first discharge pipe extending horizontally from the lower side of the other side of the corresponding fresh water tank and the nutrient solution in the corresponding fresh water tank from the end of the first discharge pipe A second discharge pipe extending upward to the same level as the water level, a third discharge pipe extending horizontally from the end of the second discharge pipe, and a fourth discharge pipe extending from the end of the third discharge pipe to the storage tank; It may include plumbing.

According to another feature of the present invention, the nutrient solution circulation supply means may further include a level control line installed to connect the storage tank and the fresh water tank to control the level of the nutrient solution stored in the fresh water tank. have.

According to another feature of the invention, the water level control line, the first auxiliary pipe extending upward from the storage tank, and horizontally extending from the first auxiliary pipe and penetrates through the corresponding fresh water tank, respectively, and inserted into the inside. The second auxiliary pipe and the lower end may include a third auxiliary pipe rotatably coupled to the end of the second auxiliary pipe, respectively, and the top extends perpendicularly to the second auxiliary pipe.

According to another feature of the invention, the water level control line is coupled to the end of the third auxiliary pipe, the height of the third auxiliary pipe is changed by the rotation of the third auxiliary pipe, the fourth auxiliary pipe The height of the ginseng fresh water cultivation device, characterized in that higher than the discharge line.

According to the ginseng fresh water cultivation apparatus according to the present invention, the nutrient solution is circulated and supplied to each of the plurality of fresh water tanks installed separately stacked up and down, so that the quality of the nutrient solution in the plurality of fresh water tanks, respectively By keeping it uniform, ginseng cultivation efficiency can be improved.

In addition, according to the ginseng fresh water cultivation apparatus according to the present invention, the nutrient solution is introduced at a low pressure uniformly through the upper surface of one side of the fresh water tank and discharged uniformly through the lower side of the other side of the fresh water tank to It occurs at a low speed, which induces circulation of the nutrient solution and maintains the growth environment of ginseng.

In addition, according to the ginseng fresh water cultivation apparatus according to the present invention, it is possible to adjust the brightness of the light irradiated from the fixed installed LED module.

In addition, according to the ginseng fresh water cultivation apparatus according to the present invention, by the mist nozzle provided in the upper portion of the fresh water tank, it is possible to maintain the appropriate humidity required in the growth process of ginseng.

1 is a perspective view of a ginseng fresh water cultivation apparatus according to a first embodiment of the present invention.
2 is a block diagram of a ginseng fresh water cultivation apparatus according to a first embodiment of the present invention.
3 and 4 is a configuration diagram of the mist nozzle and the LED module according to the first embodiment of the present invention.
5 is a detailed configuration diagram of the supply line and the discharge line according to the first embodiment of the present invention.
Figure 6 is a perspective view of a ginseng fresh water cultivation apparatus equipped with a curtain according to the first embodiment of the present invention.
7 is a block diagram of a ginseng fresh water cultivation apparatus according to a second embodiment of the present invention.
8 is a block diagram of a ginseng fresh water cultivation apparatus according to a third embodiment of the present invention.
9 is a block diagram of a ginseng fresh water cultivation apparatus according to a fourth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments described below are merely to describe in detail enough to be able to easily carry out the invention by those skilled in the art to which the present invention pertains, thereby limiting the protection scope of the present invention It does not mean. In describing various embodiments of the present invention, the same reference numerals will be used to refer to elements having the same technical features.

In addition, in the following embodiment, the ginseng is held as an example of a freshwater cultivation object, the present invention is not limited to this, and the freshwater cultivation apparatus according to the present invention is applicable to all ginseng varieties capable of cultivating freshwater in addition to ginseng. Reveal in advance.

First Example

1 is a perspective view of a ginseng fresh water cultivation apparatus according to a first embodiment of the present invention, Figure 2 is a block diagram of a ginseng fresh water cultivation apparatus according to a first embodiment of the present invention.

1 and 2, the ginseng fresh water cultivation apparatus 100 according to the first embodiment of the present invention, the plurality of vertical frame 200, the vertical frame 200 is installed perpendicular to the ground Nutrient circulation for circulating and supplying nutrient solution to a plurality of support plates 300 spaced apart from each other along a height direction, a plurality of fresh water tanks 400 seated on the support plates 300, and a fresh water tank 400 A supply means 500.

At this time, each of the fresh water tank 400 is connected to the supply line 520 and the discharge line 530 independently of each other and the circulation of the nutrient solution is made separately from each other. For example, the upper freshwater tank 400 and the lower freshwater tank 400 are each supplied with nutrient solution through a separate supply line 520, and each of the nutrient solution through a separate discharge line 530, respectively. Will be discharged.

The plurality of vertical frames 200 are vertically installed on the ground at predetermined intervals in the left and right directions, and the plurality of support plates 300 are horizontally spaced apart from each other in the vertical direction along the height direction of the vertical frame 200. . That is, the plurality of support plates 300 divide the space formed by the plurality of vertical frames 200 into a plurality of upper and lower layers. At this time, the interval between the pair of upper and lower adjacent support plates 300 may be disposed in the fresh water tank 400 and the LED module 310 which will be described later, do not hinder the growth of ginseng in the fresh water tank 400. It needs to be enough to not. In addition, the cover plate 210 is installed on the top of the vertical frame 200 to form the overall appearance of the ginseng fresh water cultivation apparatus 100.

The fresh water tank 400 is seated on each support plate 300. The fresh water tank 400 is formed in a shape of an enclosure having an open top to accommodate a nutrient solution therein. In addition, a holder (not shown) for mounting the ginseng growing in the fresh water tank 400 may be installed, respectively.

Here, the nutrient solution means a culture solution required by ginseng growing in the fresh water tank 400, basically means a liquid mixed with nutrient solution to help the growth of water and ginseng. The nutrient solution is supplied to the interior of the fresh water tank 400 from the outside, the nutrient solution supplied to one side of the fresh water tank 400 is discharged by slowly flowing to the other side of the fresh water tank 400, the discharged nutrient solution will be described later The nutrient solution is supplied back to the fresh water tank 400 by the circulation supply means 500. That is, the circulating flow of the nutrient solution is continuously formed in the fresh water tank 400, and accordingly, the water quality of the nutrient solution may be maintained uniformly.

On the other hand, inside the fresh water tank 400 may be installed a cradle (not shown, a formal plate) to mount the ginseng to be cultivated. The cradle is mounted so as to stably mount a plurality of ginseng and the root portion to be immersed in the nutrient solution in the state that the ginseng floating in the nutrient solution is mounted in the fresh water tank 400 or maintains the state in the nutrient solution.

A cradle (not shown) may be coupled to the fresh water tank 400 to cover the open top of the fresh water tank 400. The cradle is stably mounted and supported ginseng at the same time is coupled to the upper portion of the fresh water tank 400 so that only the root portion of the ginseng can be immersed in the nutrient solution of the fresh water tank 400.

In the drawings, the support plate 300 and the fresh water tank 400 installed in the plurality of vertical frames 200 are described as being plural, but the present invention is not limited thereto, and the support plate 300 and the fresh water tank 400 are not limited thereto. It may be composed of only one.

The ginseng in the fresh water tank 400 needs light for growth, and thus, an LED module 310 for irradiating light toward the ginseng is installed on the upper side of each fresh water tank 400.

In general, for about 30μmol / m ² s ~ amount of light, in particular Ginseng of 150μmol / m ² s to the growth of crops requires a light amount of 50μmol / m ² s, is required in accordance with the growth of ginseng suitably adjust the irradiation light amount There is. For example, if ginseng continues to grow after emergence and approaches the light irradiation means, it is necessary to appropriately reduce the amount of light in order to maintain the light received by the ginseng at an appropriate level.

In order to adjust the amount of light, the light irradiation means can be configured to be movable up and down so as to maintain a proper distance from the growing crop. However, when the light irradiation means is configured to be movable up and down in this manner, there is a problem that the time, effort, and cost required for the configuration and maintenance of the light irradiation means are unnecessarily increased.

Therefore, the present invention is fixed to the LED module 310 which is a light irradiation means, but configured to adjust the amount of light irradiated from the LED module 310 according to the growth of ginseng.

Specifically, the LED module 310 according to the present invention is fixedly installed on the upper side of the fresh water tank 400, respectively. For example, by installing the LED module 310 on the bottom surface of each support plate 300 spaced apart in the vertical direction, light is irradiated to the fresh water tank 400 below the support plate 300 on which the LED module 310 is installed. You can do that. In this case, since the fresh water tank 400 is not installed below the lowest support plate 300, there is no need to install the LED module 310, and for irradiating light to the fresh water tank 400 of the uppermost layer. The LED module 310 may be installed on the bottom surface of the cover plate 210.

3 and 4 are configuration diagrams of the LED module according to the first embodiment of the present invention.

The light irradiation means according to the first embodiment of the present invention includes a dimmer (DIMMER) 320 for adjusting the brightness of the LED module 310, and a power supply device 330 for supplying power to the dimmer 320 It is configured, the brightness of the light irradiated by the LED module 310 according to the growth of ginseng can be appropriately adjusted step by step.

Referring back to FIG. 2, the ginseng fresh water cultivation apparatus 100 according to the first embodiment of the present invention maintains the water quality uniformly at a predetermined level of each fresh water tank 400 spaced apart in the vertical direction. To this end, the nutrient solution in each fresh water tank 400 is configured to be individually circulated by the nutrient solution circulation supply means 500.

Here, the nutrient solution circulation supply means 500 does not circulate the nutrient solution in the plurality of fresh water tanks 400 spaced apart in the vertical direction in a series structure, but circulates the nutrient solution in each fresh water tank 400 individually. It adopts a parallel structure that can be used for individual circulation. Therefore, the water quality of the nutrient solution in each fresh water tank 400 can be maintained uniformly to a certain level, and the growth efficiency of ginseng can be improved.

As shown in FIG. 2, the nutrient solution circulation supply unit 500 supplies nutrient solution to each fresh water tank 400 separately, and separately collects nutrient solution from each fresh water tank 400, respectively. It is composed of a structure capable of circulating the nutrient solution to the fresh water tank 400 separately.

In detail, the nutrient solution circulation supply unit 500 is disposed below the lowermost support plate 300 among the plurality of support plates 300 and stores the nutrient solution in the storage tank 510, the storage tank 510, and the plurality of support plates 300. Pumps installed in the plurality of supply lines 520 and the plurality of supply lines 520 respectively connecting the fresh water tank 400 to each other and supplying the nutrient solution of the storage tank 510 to the fresh water tank 400 ( 540, the plurality of fresh water tanks 400 and the storage tank 510 are respectively connected to the plurality of discharge lines 530 for guiding the nutrient solution discharged from the fresh water tank 400 to the storage tank 510. It includes, each of the supply line 520 and the discharge line 530 may be installed a valve 550 to adjust the opening and closing degree of the flow path. The user adjusts the valve 550 of the supply line 520 and the valve 550 of the discharge line 530 so that the amount of nutrient solution injected into the freshwater tank 400 and the amount of nutrient solution discharged and the freshwater tank 400 The level of nutrient solution in the body can be adjusted.

In this case, a plurality of supply lines 520 are formed as many as the number of fresh water tanks 400 so as to be connected to each other independently of the storage tank 510 and the fresh water tank 400, and the discharge line 530 is also provided. Plural number is formed as the number of the hydroponic tank 400 is installed to connect the freshwater tank 400 and the storage tank 510 each independently.

As a result, the nutrient solution of the storage tank 510 is supplied by the pump 540 along the respective supply line 520 to the corresponding fresh water tank 400, and flows inside the fresh water tank 400 so that each It is discharged to the storage tank 510 along the discharge line 530, and is circulated in the form to be supplied to the fresh water tank 400 again along the supply line 520. At this time, the amount of water supplied through the pump 540 is different depending on the length and height of each of the supply line 520 and the discharge line 530, respectively installed in the supply line 520 or the discharge line 530 By adjusting the opening degree of the valve 550, it is possible to supply the same amount of nutrient solution to each fresh water tank 400.

In addition, in consideration of the growing environment of ginseng in the fresh water tank 400, the speed of the nutrient solution flowing in the fresh water tank 400 is preferably not as fast as possible. In other words, the nutrient solution in the fresh water tank 400 is good to flow slowly from one side of the fresh water tank 400 to the other side so as not to adversely affect the growth of ginseng. Accordingly, the pump 540 installed in each supply line 520 supplies the nutrient solution at a pressure such that the nutrient solution is not stagnant in the supply line 520 but injected into one side of the corresponding fresh water tank 400. It is preferable. At this time, the nutrient solution supplied to one side of the fresh water tank 400 is the fresh water tank 400 by the difference between the injection pressure by each pump 540 and the height of the fresh water tank 400 for the storage tank 510. Slowly moving to the other side of the collection tank 510 is collected through the discharge line (530).

The nutrient solution flowing into the fresh water tank 400 is injected at a low pressure, but needs to be slowly moved and discharged after being uniformly introduced into the space. For this purpose, the pump 540 installed in each supply line 520 basically needs to supply the nutrient solution in the storage tank 510 at a low pressure, and each individual supply line 520 and the discharge line 530 It is desirable to have an optimal arrangement structure.

That is, according to the first embodiment of the present invention, each individual supply line 520 and the discharge line 530 is not simply connected to the corresponding fresh water tank 400, respectively, but have a specific shape and at a specific position It has a structure that is connected, it will be described in detail with reference to FIG.

5 is a detailed configuration diagram of the supply line and the discharge line according to the first embodiment of the present invention.

The supply line 520 according to the first embodiment of the present invention includes a first supply pipe 521 having one end connected to the storage tank 510 and the other end extending higher than the height of the corresponding fresh water tank 400. ), A second supply pipe 522 extending in the horizontal direction from the other end of the first supply pipe 521, a third supply pipe 523 extending downward from the end of the second supply pipe 522, and And a fourth supply pipe 524 extending horizontally from one of the three supply pipes 523 to an upper side of the corresponding fresh water tank 400.

In this case, a supply branch pipe 525 may be formed between the third supply pipe 523 and the fourth supply pipe 524. In this case, the supply branch pipe 525 is formed extending in the direction perpendicular to the third supply pipe 523 (for example, the width direction of the fresh water tank 400) at the end of the third supply pipe 523, A plurality of fourth supply pipes 524 are formed at predetermined intervals along the length direction of the supply branch pipe 525.

One end of the first supply pipe 521 is coupled to communicate with the storage tank 510, and a pump 540 for supplying nutrient solution is installed at one side of the first supply pipe 521. At this time, the other end of the first supply pipe 521 extends vertically, extending to a point higher than the top height of the corresponding fresh water tank (400). The reason why the other end of the first supply pipe 521 extends higher than the height of the corresponding fresh water tank 400 is that the nutrient solution corresponds to the fresh water tank 400 through the plurality of fourth supply pipes 524. In order to be uniformly supplied into).

The second supply pipe 522 moves the nutrient solution supplied through the first supply pipe 521 in the horizontal direction to guide the third supply pipe 523. At this time, the nutrient solution is moved by the pressure is added downward through the third supply pipe 523, whereby the nutrient solution can be supplied at a constant pressure to the end of the supply branch pipe 525. That is, the nutrient solution supplied from the storage tank 510 to the first supply pipe 521 by the pump 540 passes through the second supply pipe 522, the third supply pipe 523, and the supply branch pipe 525. In addition, the plurality of fourth supply pipes 524 are uniformly injected into the fresh water tank 400 corresponding to the same pressure, respectively.

In other words, in order for the nutrient solution to be uniformly injected at the same pressure through the plurality of fourth supply pipes 524, the pressure of the nutrient solution is constant to all regions within the supply branch pipe 525 to which the plurality of fourth supply pipes 524 are connected. Should be delivered uniformly. Accordingly, the third supply pipe 523 should be able to receive the nutrient solution at a higher position than the corresponding fresh water tank 400 and deliver the nutrient solution to the supply branch pipe 525 at a pressure added by the potential energy. The other end of the first supply pipe 521 extends higher than the height of the corresponding fresh water tank 400.

Here, the plurality of fourth supply pipe 524 is connected to one side of the corresponding fresh water tank 400, according to the first embodiment of the present invention is connected to the upper side of one side of the fresh water tank 400. In this case, the nutrient solution introduced from the upper side of the fresh water tank 400 is naturally moved to the lower portion of the fresh water tank 400, and the circulation force and flow of the nutrient solution is improved.

On the other hand, the discharge line 530 according to the first embodiment of the present invention, the first discharge pipe 531 and horizontally extending from the lower side of the other side of the corresponding fresh water tank 400, the first discharge pipe 531 A second discharge pipe 532 extending upwardly to the same height as the level of the nutrient solution in the corresponding fresh water tank 400 and a third discharge formed horizontally extending from the end of the second discharge pipe 532. A pipe 533 and a fourth discharge pipe 534 extending from the end of the third discharge pipe 533 to the storage tank 510.

In this case, a discharge collection pipe 535 may be formed between the first discharge pipe 531 and the second discharge pipe 532. In this case, the discharge collection pipe 535 is formed extending in a direction perpendicular to the first discharge pipe 531 (for example, the width direction of the fresh water tank 400) at the end of the first discharge pipe 531, A plurality of first discharge pipe 531 is formed spaced apart by a predetermined interval along the longitudinal direction of the discharge collection pipe 535.

According to the first embodiment of the present invention, the first discharge pipe 531 is connected to the lower side of the other side of the corresponding fresh water tank 400. The flow of nutrient solution in the freshwater tank 400 by discharging the nutrient solution introduced into one side of the fresh water tank 400 through the fourth supply pipe 524 to the lower side of the other side of the fresh water tank 400. This is to make it smooth.

When the nutrient solution discharged through the plurality of first discharge pipe 531 is introduced directly into the storage tank 510, to equalize the amount of nutrient solution introduced into the corresponding fresh water tank 400 and the amount of nutrient solution discharged It becomes difficult, and it becomes difficult to keep constant the level of nutrient solution.

Therefore, the nutrient solution discharged from the plurality of first discharge pipes 531 is collected into the discharge collection pipe 535, and then moved upward through the second discharge pipe 532 extending vertically upwardly and discharged. do. At this time, the end of the second discharge pipe 532 extends to the same level as the level of nutrient solution accommodated in the corresponding fresh water tank (400).

In other words, when the second discharge pipe 532 is extended to a specific length, the level of the nutrient solution contained in the fresh water tank 400 is determined by the height of the end of the second discharge pipe 532.

Since the end of the second discharge pipe 532 extends to the upper height of the corresponding fresh water tank 400, the level of nutrient solution in the corresponding fresh water tank 400 is the end height of the second discharge pipe 532. It may be maintained at the same height as. The nutrient solution introduced into the second discharge pipe 532 is collected to the storage tank 510 through the fourth discharge pipe 534 by the downward pressure due to the height difference through the third discharge pipe 533.

Through the connection and arrangement of the individual supply line 520 and the discharge line 530 as described above, and the connection position to the corresponding fresh water tank 400, the nutrient solution is uniform into the corresponding fresh water tank 400. It is circulated while moving slowly, and the water level of the fresh water tank 400 can be continuously maintained.

Meanwhile, the growth of ginseng is required to maintain an appropriate humidity. Ginseng is required a high humidity of about 70% to 80% during germination and germination, and it is preferable to maintain a humidity of about 55% to 60% after germination.

To control the humidity, as shown in FIGS. 3 and 4, at least one mist nozzle 340 is disposed on the upper side of the fresh water tank 400, or separately from the LED module 310. Can be installed. As an example, as shown in FIG. 3, a mist nozzle 340 may be installed at the center of the LED module 310. As another example, one mist nozzle may be provided at each edge of the LED module as shown in FIG. 4. 340 may be installed. In this case, by allowing the mist nozzle 340 to periodically spray the moisture it is possible to control the humidity around the ginseng cultivated in the fresh water tank (400).

According to the first embodiment of the present invention, by installing a curtain (350, see Fig. 6) to cover the ginseng growth space in the ginseng fresh water cultivation device 100, by adjusting the opening degree of the curtain 350 to control the humidity I can regulate it. In this case, the curtain 350 may be used together with the mist nozzle 340 described above, and the humidity may be adjusted using only the curtain 350 without the mist nozzle 340. In addition, the humidity may be adjusted using only the mist nozzle 340 described above without the curtain 350.

6 is a perspective view of a ginseng fresh water cultivation apparatus equipped with a curtain according to the first embodiment of the present invention.

According to the ginseng fresh water cultivation apparatus 100 according to the first embodiment of the present invention, as shown in FIG. 6, the ginseng exposed portion (ginseng growth space) is covered with the curtain 350. The curtain 350 may be made of, for example, a vinyl material and is installed between the support plate 300 and the fresh water tank 400 disposed below the curtain plate. On the other hand, in the case of the fresh water tank 400 disposed on the top side, the curtain 350 may be disposed between the cover plate 210 and the top fresh water tank 400 for humidity control.

Here, the curtain 350 is installed to adjust the opening degree of the ginseng growth space. For example, it can be configured to walk sideways similar to the general home curtains to adjust the opening degree of the ginseng growth space, the top of the curtain 350 is fixed to the support plate 300 or cover plate 210 and the bottom is downward It is configured to stretch, so that the lower end of the curtain 350 to be rolled up as necessary to be fixed so as not to loosen (aka, 'foot structure'), the degree of opening of the ginseng growth space may be adjusted.

However, the structure that can walk sideways, similar to the general curtain, the humidity may vary depending on the left and right positions of the fresh water tank 400, exposure of humidity according to the left and right positions of ginseng rather than the curtain 350 to open and close sideways It is desirable to apply a foot structure that can be uniform in degree.

On the other hand, nutrient solution is naturally required for the growth of ginseng, and keeping the temperature of this nutrient solution also helps the growth of ginseng. Therefore, the ginseng fresh water cultivation apparatus 100 according to the first embodiment of the present invention includes a nutrient solution temperature adjusting means 600 consisting of a heater or a cooler connected to the storage tank 510, as shown in FIG. 2. It is desirable to.

At this time, the nutrient solution in the storage tank 510 is supplied to the nutrient solution temperature adjusting means 600 along the fifth supply pipe 610 by the pump 620, and is cooled or heated to a preset temperature, and then discharged to the fifth. The pipe 630 is returned to the storage tank 510 again. Accordingly, the nutrient solution in the storage tank 510 can maintain a water temperature to help the growth of ginseng.

In addition, the amount of dissolved oxygen in the nutrient solution plays an important role in the growth of ginseng. Generally, an oxygen generator is used to increase the amount of dissolved oxygen in the fresh water tank 400. Nitrogen and oxygen are present in the air at a ratio of about 4: 1. When the water temperature is 20 ° C, nitrogen is 160mg / L (when using 100% pure nitrogen) and oxygen is 31mg / L (when using 100% pure oxygen). Melt saturation concentration. Nitrogen occupies most of the space that can be dissolved when air is put in water, so the saturation concentration of oxygen is only about 9 ppm.

Therefore, the method of dissolving oxygen in water removes most of the nitrogen from the air and increases the concentration of oxygen to 90% or more, and the concentration of dissolved oxygen increases to 20 ppm or more. Maintaining more than 20 ppm oxygen not only speeds up the growth of ginseng (about 30% increase), but also reduces the incidence of ginseng disease.

As a method for supplying oxygen to the water of the fresh water tank 400, when oxygen is dissolved in water using a dissolver and supplied to the tank, the concentration of dissolved oxygen at the inlet side is high, but the flow rate of the tank is slow, The concentration of dissolved oxygen is significantly lower compared to the intake side. For example, when the amount of dissolved oxygen at the inlet side is 25 ppm, the amount of dissolved oxygen at the outlet side is less than 15 ppm.

Therefore, the ginseng fresh water cultivation apparatus 100 according to the first embodiment of the present invention, by supplying oxygen of 90% or more purity made by an oxygen generator (not shown) directly to the tank using a disperser (not shown), The amount of dissolved oxygen in the solution can be kept uniform. In the case of using the disperser as described above, it is not only inexpensive (about 1/10) than using the dissolver, but also has the advantage that the amount of dissolved oxygen in the water tank is kept uniform.

On the other hand, ginseng grows well when the nutrient solution in the fresh water tank 400 is slowly circulated and the flow rate is not too fast. As an example, the actual fresh water tank 400 adopts a specification of 4 m (length) x 0.9 m (width) x 0.3 m (height), and the individual pump is 6 to 8 L / min. When it is configured to supply the nutrient solution, ginseng appeared to grow well in the fresh water tank (400).

Since the total amount of nutrient solution in the tank specification is 1,080L, when the individual pump 540 supplies the nutrient solution at 6L / min, the time (movement time) during which the nutrient solution is filled is 180min, and the individual pump 540 is 8L / min. When the nutrient solution is supplied, the filling time (moving time) is 135 min. Since the length of the fresh water tank 400 is 4 m (400 cm), the flow rate in the fresh water tank 400 is preferably in the range of 400/180 (cm / min) to 400/135 (cm / min). Do. That is, the flow rate of the nutrient solution in the tank is preferably in the range of about 2.2 (cm / min) ~ 3 (cm / min).

Meanwhile, the nutrient solution in the fresh water tank 400 is injected through the plurality of fourth supply pipes 524 and is discharged through the plurality of first discharge pipes 531. In this case, the plurality of fourth supply pipes 524 are respectively connected to the upper side of one side of the corresponding fresh water tank 400, the plurality of first discharge pipe 531 is the other side of the corresponding fresh water tank 400 Respectively connected to the lower part.

In this structure, the nutrient solution in the fresh water tank 400 is circulated while moving from the upper side to the lower side of the other side, so that the nutrient solution can smoothly escape through the first discharge pipe 531, the first discharge pipe 531. It is preferable to form the inner diameter of the larger than the inner diameter of the fourth supply pipe (524).

For example, the fourth supply pipe 524 may use an inner diameter of 15 mm, and the first discharge pipe 531 may use an inner diameter of 20 mm. At this time, the inner diameter of the first to third supply pipes 521 to 523 and the supply branch pipe 525 is 30mm, and the second to fourth discharge pipes 532 to 534 and the discharge collection pipe 535 are used. The inner diameter can use 40mm. That is, the discharge line 530 may have a larger cross-sectional area than the supply line 520 so that the nutrient solution may flow out of the fresh water tank 400 smoothly.

Meanwhile, in order to clean the fresh water tank 400 or completely discharge the nutrient solution, a drain hole (not shown) may be formed on the lower surface of the fresh water tank 400. In order to completely remove and clean the nutrient solution in the fresh water tank 400, the drain opening may be opened to discharge the nutrient solution to the outside.

2nd Example

The ginseng fresh water cultivation apparatus 100a according to the second embodiment of the present invention has a similar configuration to that of the first embodiment described above, except that a water gauge 410 is installed in the fresh water tank 400 to detect the water level. There is a difference in that.

Accordingly, the same components having the same functions as those of the first embodiment described above will be denoted by the same reference numerals, and redundant description thereof will be omitted. Hereinafter, the second embodiment of the present invention will be described based on differences from the first embodiment. The ginseng fresh water cultivation apparatus 100a according to an example will be described.

7 is a block diagram of a ginseng fresh water cultivation apparatus according to a second embodiment of the present invention.

As shown in FIG. 7, the ginseng fresh water cultivation apparatus 100a according to the second embodiment of the present invention includes a plurality of water gauges 410 respectively installed in the plurality of fresh water tanks 400.

As an example, the water level meter 410 sets the upper and lower limits of the water level using an electrode type three-pole holder and connects them to the pump 540 of the supply line 520 so that the water level reaches the upper limit of the pump 540. No more nutrient solution is supplied to the fresh water tank 400 by cutting off the power connected to the water, and when the water level reaches the lower limit, the power is connected to the pump 540 to reliably supply the fresh water tank 400 You can adjust the water level.

The third Example

The ginseng fresh water cultivation apparatus 100b according to the third embodiment of the present invention is similar in structure to that of the first embodiment described above, except that the fourth supply pipe 524 is lower than the fresh water tank 400. The difference is that they are connected together.

Therefore, the same components having the same functions as those of the first embodiment described above will be denoted by the same reference numerals, and redundant descriptions thereof will be omitted. Hereinafter, the third embodiment of the present invention will be described based on differences from the first embodiment. The ginseng fresh water cultivation apparatus 100b according to the example will be described.

8 is a block diagram of a ginseng fresh water cultivation apparatus according to a third embodiment of the present invention.

According to the third embodiment of the present invention, as shown in FIG. 8, a plurality of fourth supply pipes 524 are connected to the lower portions of the corresponding fresh water tanks 400, respectively.

Both sides of the inlet and outlet ports of the fresh water tank 400, that is, the fresh water tank 400 is the portion where the nutrient solution is most likely to stagnate. Thus, when the nutrient solution is stagnated in the water tank, there is a concern that green algae may occur.

According to the third embodiment of the present invention, the plurality of fourth supply pipe 524 and the plurality of first discharge pipe 531 in the lower portion of the fresh water tank 400 in order to prevent the green algae caused by stagnation of nutrient solution Each of them is connected to each other, thereby forming a flow of nutrient solution from the top to the bottom of the fresh water tank 400, thereby preventing the occurrence of green algae by a smooth flow of the nutrient solution.

On the other hand, the third embodiment of the present invention, of course, the water gauge 410 of the above-described second embodiment may be mounted.

4th Example

The ginseng fresh water cultivation apparatus 100c according to the fourth embodiment of the present invention is similar in structure to that of the third embodiment described above, except that the discharge line 530 is connected to the other side of the fresh water tank 400. There is a difference in that the level control line 700 is further installed.

Therefore, the same components having the same functions as the above-described embodiments will be denoted by the same reference numerals, and redundant description thereof will be omitted. Hereinafter, the fourth embodiment of the present invention will be described based on differences from the above-described embodiments. The ginseng fresh water cultivation apparatus 100c according to the present invention will be described.

9 is a block diagram of a ginseng fresh water cultivation apparatus according to a fourth embodiment of the present invention.

As shown in FIG. 9, the ginseng fresh water cultivation apparatus 100c according to the fourth embodiment of the present invention includes a water gauge 410 installed for detecting the water level in the fresh water tank 400 and an overflow (over-). and a level control line 700 for discharging the flow of nutrient solution into the storage tank 510.

Here, the water level control line 700 extends horizontally from the first auxiliary pipe 710 and the first auxiliary pipe 710 extending upwardly from the storage tank 510 and penetrates the corresponding fresh water tank 400, respectively. The plurality of second auxiliary pipes 720 and the lower end is inserted into the rotatably coupled to the end of the second auxiliary pipe 720, respectively, and the upper end is respectively extended perpendicular to the second auxiliary pipe 720 It may include a plurality of third auxiliary pipe 730, and may further include a fourth auxiliary pipe 740 is formed to extend horizontally to a predetermined length from the end of the third auxiliary pipe 730.

The first auxiliary pipe 710 is extended upward from the storage tank 510, the second auxiliary pipe 720 is spaced apart from each other along the height direction of the first auxiliary pipe 710 is branched, fresh water tank ( It penetrates 400 and is inserted into the fresh water tank 400. In this case, in the exemplary embodiment shown in the drawing, although the plurality of second auxiliary pipes 720 are illustrated to communicate with one first auxiliary pipe 710, the first auxiliary ones are separately provided to the plurality of second auxiliary pipes 720, respectively. It is also possible for the pipe 710 to be connected.

The third auxiliary pipe 730 is vertically coupled to the second auxiliary pipe 720 and is rotatable in the vertical direction about the second auxiliary pipe 720. Accordingly, as shown in FIG. 9, the fourth auxiliary pipe 740 horizontally coupled to the end of the third auxiliary pipe 730 rotates the third auxiliary pipe 730 in the fresh water tank 400. The height is changed according to, and the height of the fourth auxiliary pipe 740 can be adjusted according to the set overflow level.

In this case, the water level of the fresh water tank 400 can be appropriately adjusted according to the root growth of cultivated ginseng. As an example, if a cradle (not shown) with ginseng roots is placed on a tank, 1/2 to 2/3 of the ginseng roots should be placed in order to prevent the whole ginseng roots from touching the water and splitting. It is desirable to submerge in water. According to the present invention, for example, when the year-old ginseng is grown, the root length is short, so that the level of the nutrient solution accommodated in the fresh water tank 400 is set high, and the level of the nutrient solution is lowered according to the length of the root that becomes longer toward the perennial root. It can be set.

On the other hand, the minimum height of the fourth auxiliary pipe 740 is preferably slightly higher than the height of the third discharge pipe 533, when the height of the fourth auxiliary pipe 740 is lower than the third discharge pipe 533, the water level This is because a siphon phenomenon may occur in the control line 700. In addition, when the height of the fourth auxiliary pipe 740 is lower than the third discharge pipe 533, the nutrient solution is discharged to the fresh water tank 400 before the water level of the nutrient solution reaches the desired height. This is because you can't hold the amount of fluid you want.

According to the fourth embodiment of the present invention, by adjusting the valve 550 of the supply line 520 and the valve 550 of the discharge line 530, the amount of nutrient solution injected into the fresh water tank 400 and the amount of nutrient solution discharged are The amount and level of fresh water tank 400 can be adjusted.

At this time, it is preferable to make the injection amount of the nutrient solution a little more than the discharge amount, when the water level of the fresh water tank 400 reaches the height of the fourth auxiliary pipe 740, the overflowed nutrient solution through the level control line 700 Discharged.

On the other hand, if the amount of the nutrient solution supplied to the fresh water tank 400 is too large compared to the discharge, the water level exceeds the height of the fourth auxiliary pipe 740 reaches the upper limit of the preset level gauge 410. At this time, the power supplied to the pump 540 of the supply line 520 is cut off and further supply of nutrient solution is stopped, and when the water level is lower than the height of the fourth auxiliary pipe 740, the water level meter 410 detects and supplies it. Power is supplied to the pump of the line 520 and the nutrient solution is supplied back to the fresh water tank (400). Of course, it is also possible to use only the level control line 700, without a separate level gauge 410.

While the embodiments of the present invention have been described above, it will be understood by those skilled in the art that various modifications may be made without departing from the scope of the claims.

100,100a, 100b: Ginseng fresh water cultivation device
200: vertical frame 210: cover plate
300: support plate 310: LED module
340: mist nozzle 350: curtain
400: fresh water tank 410: water gauge
500: nutrient solution circulation supply means 510: storage tank
520: supply line 530: discharge line
600: nutrient solution temperature control means 700: water level control line

Claims (6)

Fresh-water tanks with nutrient solution supplied therein; And
It includes a nutrient solution circulation supply means for circulating supply of nutrient solution to the fresh water tank,
The nutrient solution circulation supply means,
A storage tank for storing nutrient solution, a supply line connecting the storage tank and the fresh water tank, and supplying the nutrient solution in the storage tank to the fresh water tank, connecting the fresh water tank and the storage tank, A discharge line for guiding the nutrient solution discharged from the water tank to the storage tank, and a level control line installed to connect the storage tank and the fresh water tank to control the level of the nutrient solution stored in the fresh water tank,
The water level control line may include a first auxiliary pipe extending upward from the storage tank, a second auxiliary pipe extending horizontally from the first auxiliary pipe and inserted into the corresponding fresh water tank, respectively, and having a lower end thereof. A third auxiliary pipe rotatably coupled to an end of the second auxiliary pipe and having an upper end extending vertically with respect to the second auxiliary pipe, respectively, and extending horizontally from the end of the third auxiliary pipe to a predetermined length; Ginseng fresh water cultivation apparatus comprising a fourth auxiliary pipe whose height is changed by the rotation of the third auxiliary pipe. The method according to claim 1,
The supply line,
A first supply pipe having one end connected to the storage tank and the other end extending higher than a height of a corresponding fresh water tank, a second supply pipe extending horizontally from the other end of the first supply pipe, and the second supply pipe; A ginseng fresh water cultivation apparatus comprising a third supply pipe extending downward from an end of the supply pipe, and a fourth supply pipe horizontally extending from the third supply pipe to one side of the corresponding fresh water tank. The method according to claim 1,
The discharge line,
A first discharge pipe extending horizontally from the lower side of the other side of the corresponding fresh water tank, and a second discharge pipe extending upward from the end of the first discharge pipe to a height equal to the level of the nutrient solution in the corresponding fresh water tank; And a third discharge pipe extending horizontally from an end of the second discharge pipe, and a fourth discharge pipe extending from the end of the third discharge pipe to the storage tank. . The method according to claim 3,
Ginseng fresh water cultivation device, characterized in that the height of the fourth auxiliary pipe is higher than the height of the third discharge pipe. delete delete

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