KR101350394B1 - Hydroponics equipment with cultivation plate having watercourse - Google Patents

Abstract

The present invention relates to a hydroponic cultivation device that reduces the working volume of nutrient solution, affects plant growth and development by directly supplying a relatively small amount of nutrient solution to a necessary part, and more easily manages the system. Is a cultivation tank in which a nutrient solution discharge port is formed and the nutrient solution is stored-circulated; A cultivation tray seated on an upper part of the cultivation tank and having a planting hole in which a pot containing a media in which a plant is planted or a media in which the plant is planted is mounted; And a circulating pump and a nutrient solution pipe connected to the nutrient solution discharge port to circulate the nutrient solution, wherein a water channel is formed between the planting holes at a predetermined position of the cultivation tray. The outlet is characterized in that the hydroponic cultivation device located in the waterway.

Description

Hydroponic Cultivation Plate Having Watercourse

The present invention reduces the working volume of the nutrient solution, affects plant growth and development by supplying a relatively small amount of nutrient solution directly to the required portion, and easy to manage (installation, dismantling, cleaning, expansion, etc.) of the system. The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation apparatus having a culture plate formed with a channel through which nutrient solution flows.

In recent years, there has been a tendency to avoid agricultural products using harmful pesticides in foods and to prefer eco-friendly organic agricultural products which are relatively expensive but not used pesticides. In addition to this, there is growing concern about the disturbance of imported agricultural products, the controversy about the harmfulness of genetically modified agricultural products (GMO), and the concern about direct cultivation of organic agricultural products such as vegetables for roasting, There is an increasing number of households.

In response to this, hydroponic cultivation of cultivating plants by cultivating plants by using a cultivation device and a nutrient supply device of a predetermined shape and structure or by supplying a nutrient solution containing nutrients to the plants instead of using a small amount even if used Nutrient cultivation method has been developed. This hydroponic cultivation is capable of continuous cultivation over a long period of time in the same place as compared to the cultivation of soil, as well as a constant harvest without difference in weather. In addition, the environment can be made in the same conditions, and the cultivation environment is clean, so that fresh and clean crops can be mass-produced throughout the year. And it is possible to automate the cultivation management to save labor and has the advantage of better quality and hygiene than the crop produced by soil cultivation.

The hydroponic cultivation system is generally composed of a support system for fixing and supporting crops such as pearlite, rock wool, rice hull, coco peat, styrofoam, sponge, etc. At this time, the nutrient supply system is divided into an upper feeding type (spray type or irrigation type) that supplies the nutrient solution from the upper part and a lower feeding type (salt type) which allows the root of the crop to be locked while feeding the lower part.

The top feeding system allows the nutrient solution to flow naturally from the top of the crop's leaves or support system by gravity and in the process to allow the crop to absorb moisture and nutrients, so that a relatively small volume of nutrient solution is sufficient and the supply of dissolved oxygen is relatively smooth. Has the advantage. However, in addition to the plumbing facilities for supplying the nutrient solution, there is a separate recovery facility for recovering the overfeeding (flowing down) nutrient solution, which is somewhat complicated and thus inconvenient to clean. In addition, due to the limited water level, its use is limited to shoots with short roots or for germination of crops.

The lower feed type is a tubular type (see Patent Document 10-0469004, Published Patent 10-2010-0109751, etc., see FIG. 1A) and a water tank type (10-1083817, etc. 1b). However, the tubular shape is composed of a large number of narrow tubular body is complicated to install and dismantle, and most of all has a disadvantage that is very difficult to clean to prevent contamination. Although the tank type is relatively easy to clean, it always requires an excess amount of nutrient solution, thereby causing a problem of complicated facilities (devices for supply and recovery of nutrient solution) and high possibility of contamination of the nutrient solution. In addition, the bottom-fed type often causes root rot because crop roots are always submerged in nutrient solution, making breathing difficult. To prevent this, there are cases where the level of nutrient solution is adjusted, but separate facilities and management are required for this.

On the other hand, conventional household hydroponic apparatus is a relatively large size and thus expensive priced or a small interior level products, it is difficult for consumers unfamiliar with hydroponic culture to select a size and price suitable for their purpose. There is this.

Patent Registration 10-0469004 Patent Publication 10-2010-0109751 Patent Registration 10-1183817

The present invention is to solve the problems of the prior art as described above, it is an object of the present invention to provide a hydroponic cultivation device of the nutrient solution upper feed type or the upper bottom feed type of a simple structure. That is, an object of the present invention is to provide a hydroponic cultivation apparatus that can simultaneously wet the roots of crops with an appropriate amount of nutrient solution.

In addition, an object of the present invention is to provide a hydroponic cultivation device is a simple structure and very easy to clean.

In addition, an object of the present invention is to provide a hydroponic cultivation apparatus that is configured in a modular form that can be used by users arbitrarily stacked.

The present invention for achieving the above object is a cultivation tank is formed nutrient solution discharge port is stored-circulated nutrient solution; A cultivation tray seated on an upper part of the cultivation tank and having a planting hole in which a pot containing a media in which a plant is planted or a media in which the plant is planted is mounted; And a circulating pump and a nutrient solution pipe connected to the nutrient solution discharge port to circulate the nutrient solution, wherein a water channel is formed between the planting holes at a predetermined position of the cultivation tray. The outlet is characterized in that the hydroponic cultivation device located in the waterway.

As described above, according to the present invention, when the nutrient solution is supplied to the water channel, the nutrient solution is recovered to the cultivation tank through the media of the planting hall through the water channel. In the culture apparatus according to the present invention, the plants are soaked in the nutrient solution from the top to the bottom while the roots are exposed to the air or the lower part is submerged in the nutrient solution. At this time, the nutrient solution is in sufficient contact with the air in the passage of the nutrient solution from the waterway to the bottom of the root. Therefore, according to the present invention, by supplying a small amount of nutrient solution continuously or periodically, the dissolved oxygen can supply sufficient moisture and nutrients, and the nutrient solution flows down the roots to stimulate the roots, thereby allowing for more smooth growth. There is a number.

In addition, the hydroponic cultivation apparatus according to the present invention is easy to clean because the structure of each component is a simple prefabricated structure, and thus can greatly reduce the possibility of contamination of algae.

In addition, according to the present invention, since the user can purchase and use a set of hydroponic cultivators without any great burden, and can additionally purchase and stack the hydroponic cultivation apparatus, a hydroponic cultivation apparatus having less burden and excellent expandability is possible.

Figure 1a, 1b is an example of a hydroponic cultivation apparatus according to the prior art, respectively.
Figure 2a is an exemplary perspective view of a hydroponic cultivation apparatus according to the present invention, Figure 2b is a plan view of the cultivation plate in the hydroponic cultivation device.
Figure 3a and 3b is a vertical cross-sectional view in the horizontal and vertical direction passing through the planting hole in the hydroponic apparatus according to the present invention, respectively.
4A and 4B are conceptual cross-sectional views of two consecutive stacked hydroponic cultivation apparatuses according to the present invention, respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings illustrate only the contents and scope of technology of the present invention, and the technical scope of the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the technical idea of the present invention based on these examples.

The present invention is a nutrient solution outlet (11) is formed cultivation tank 10 is stored-circulated nutrient solution; A cultivation tray 20 seated on an upper part of the cultivation tank 10 and having a planting hole 21 on which a port 30 containing a media in which a plant is planted or a media in which the plant is planted is mounted; And a circulating pump 12 and a nutrient solution tube 13 connected to the nutrient solution outlet 11 to circulate the nutrient solution, wherein the planting hole is disposed at a predetermined position of the cultivation tray 20. A water channel 22 is formed between the 21 and the outlet of the nutrient solution tube 13 relates to a hydroponic cultivation apparatus located in the water channel 22. Since the hydroponic cultivation apparatus according to the present invention is characterized by the structure of the cultivation tray 20, a detailed description of the structure or arrangement of the nutrient solution tube 13 and the circulation pump 12 is omitted, but these are the hydroponic cultivation apparatus of the prior art. Reference will be made to easily.

In the present invention, 'media' refers to fixing and supporting the plant in contact with the plant, and means a material such as artificial soil such as pearlite, rock wool, rice hull, cocofit, styrofoam, sponge, or the like. Among them, rock wool, styrofoam, sponge, etc., which can maintain a shape, may be mounted in the planting hole 21 without the port 30 (of course, may be mounted in the port 30), artificial soil, rice hull, coco A material such as a fit is mounted in the planting hole 21 by being contained in the port 30.

In the present invention, the cultivation tank 10 may simultaneously have a nutrient storage tank function in a conventional hydroponic cultivation system, or may have a separate nutrient storage tank.

Figure 2a is an exemplary perspective view of the hydroponic cultivation apparatus according to the present invention (nutrient solution outlet 11, circulation pump 12 and nutrient solution tube 13 is not shown), Figure 2b is a plan view of the cultivation plate in the hydroponic cultivation device 3A and 3B illustrate vertical cross-sectional views in the horizontal and vertical directions passing through the planting hole 21 in the hydroponic apparatus, respectively. In the illustrated example, the hydroponic cultivation apparatus according to the present invention has a substantially flat rectangular parallelepiped shape, but this is merely illustrative, and the horizontal cross section may be any shape such as circular, polygonal, elliptical or irregular. In addition, although the planting holes 21 are arranged in 2 × 3, it is obvious that the number and arrangement method of the planting holes 21 are not limited.

For reference, in the portion indicated by a blue ellipse in FIG. 3A, the water channel 22 may be formed to the end of the cultivation tray 20, or may be formed only up to the inside, as shown in the drawing.

As shown, the cultivation plate in the hydroponic cultivation apparatus according to the present invention is seated on the upper part of the cultivation tank 10, in order to prevent the overflow to the outside when the excess nutrient solution is supplied, as shown in FIG. It is preferable to allow the plate to be seated in the culture tank 10. That is, it is good to make the outer wall of the cultivation tank 10 higher than the cultivation plate.

Although not shown, a nutrient solution outlet 11 (not shown) is formed at a predetermined height from the bottom or bottom of the cultivation tank 10, and the nutrient solution outlet on the channel 22 (close to the side wall surface) of the cultivation plate. A nutrient solution tube 13 communicating with (11) is exposed, and a circulation pump 12 for circulating the nutrient solution is interposed between the nutrient solution outlet 11 and the nutrient solution tube 13. Meanwhile, a separate nutrient solution storage tank may be provided between the nutrient solution outlet 11 and the nutrient solution tube 13.

The nutrient solution in the hydroponic cultivation apparatus according to the present invention is [cultivation tank (10) → nutrient solution outlet (11) → (nutrient solution storage tank) → circulating pump (12) → nutrient solution pipe (13) → water channel (22) → planting hole (21) → cultivation (10)] is circulated through, it may be to be continuously circulated in small quantities, or may be circulated at a predetermined time interval.

Media or media is inserted into the planting hole 21, or the port 30 containing the media is seated in the planting hole 21. At this time, if the waterway 22 is directly connected to the planting hole 21, water may be supplied only in the direction in contact with the waterway 22. In order to prevent this phenomenon and to ensure that water is evenly supplied to the plants from all four sides, it is necessary to have the inclined step 23 at the outer periphery of the planting hole 21 to be equal to or gradually deeper in the waterway 22. good. The figure shows that the inclined step 23 is formed.

Thus, the hydroponic cultivation device according to the present invention, which can be easily assembled and the nutrient solution flows on the surface of the cultivation plate, is formed, the user can easily dismantle and re-assemble It is easy to assemble and easy to clean.

On the other hand, if the channel 22 of the cultivation plate is exposed, there is a risk of contamination with external impurities and the nutrient solution is not easily evaporated, but also not very good appearance. Accordingly, in the present invention, the cover plate 40 having the opening hole 41 corresponding to the planting hole 21 is formed at a portion where the planting hole 21 is formed is further seated on the upper surface of the cultivation tray 20. It is preferable. At this time, the nutrient solution tube 13 is aesthetically good to be located between the cultivation plate and the cover plate (40).

By the addition of the cover plate 40, the channel 22 in the present invention substantially functions as the tubular body 120 shown in FIG. 1, but in the present invention, the cover of the present invention is almost impossible in the present invention. Separating the plate 40 can be easily cleaned.

As described above, since hydroponic cultivation is not generally known, it is desirable for a user to purchase a small hydroponic cultivation apparatus that can be expanded first, and then determine whether to purchase additional hydroponic cultivation. In addition, the small hydroponic cultivation device installed in the veranda or indoors requires additional installation of artificial light sources such as LEDs because natural light alone is insufficient for plant growth.

In response to this demand, the present invention has been made to allow a modular and / or artificial light source. That is, in the hydroponic cultivation apparatus according to the present invention, two or four frame pillar upper coupling grooves are formed on the upper surface or the side of the cultivation tank, and a frame pillar lower coupling groove is formed on the vertical lower surface of the upper coupling groove. skip). The upper coupling groove and the lower coupling groove may be formed in a pair (two each) or two pairs (four each) in a symmetrical direction.

4A and 4B are cross-sectional views of an example in which two hydroponic cultivation apparatuses according to the present invention are stacked in succession. It may be desirable to have a separate nutrient storage tank for continuous lamination. In the case of continuous lamination, the nutrient solution may be circulated independently in each of the two hydroponic cultivators as shown in FIG. 4A. However, as shown in FIG. 4B, the two hydroponic cultivators may be connected so that the nutrient solution has one circulation structure.

The hydroponic cultivation device according to the present invention functions as a 'plant factory' by assembling-combining two or four frame pillars to a cultivation tank upper coupling groove of such a structure and coupling a predetermined light source unit to the frame pillar to be movable. It becomes possible. In the field of plant cultivation, it is well known to have a light source unit, and a method of fixing an object (light source unit) to two or more pillars (frame pillars) by adjusting daytime is also widely known, and thus, further explanation or illustration thereof is omitted. According to the present invention, the light energy is effectively utilized by adjusting the height of the light source unit in accordance with the growth (size) of the plant.

It is also possible to repeat assembling-combining two or four frame pillars on the cultivation tank upper coupling groove, and putting the other cultivation tanks thereon to assemble-combining the frame pillars on the lower coupling grooves. Thereby, the hydroponic cultivation apparatus can be easily installed in multiple stages in the present invention. At this time, each stage may have a separate circulation pump 12 so that the nutrient solution can be circulated independently, but the nutrient solution discharge port 11 of the hydroponic cultivation tank 10 at the bottom of the circulation pump 12 in the middle Connected to the nutrient solution tube 13 of the cultivation tank 10 at the top, and the nutrient solution outlet 11 of the remaining cultivation tank 10 and the nutrient solution tube 13 immediately below (without the circulation pump 12) By connecting one circulating pump 12 it is possible to circulate the nutrient solution to the multi-stage hydroponic cultivation device.

10. Growing
11. Nutrient outlet 12. Circulation pump 13. Nutrient tube
20. Cultivation Tray
21. Planting Hall 22. Waterway 23. Step
30. Port (or Media)
40. Cover plate
41. Opening hole

Claims (6)

A cultivation tank 10 in which a nutrient solution outlet 11 is formed so that the nutrient solution is stored-circulated; A cultivation tray 20 seated on an upper portion of the cultivation tank 10 and having a planting hole 21 on which a pot 30 containing a media in which plants are planted or a media in which plants are planted is mounted; And a circulating pump (12) and a nutrient solution tube (13) connected to the nutrient solution outlet (11) to circulate the nutrient solution.
A water channel 22 is formed between the planting holes 21 at a predetermined position of the cultivation tray 20,
The outlet of the nutrient solution tube 13 is located in the waterway 22,
Hydroponic system characterized in that the cover plate 40 having the opening hole 41 corresponding to the planting hole 21 is formed on the top surface of the cultivation tray 20 is formed in the portion where the planting hole 21 is formed. Cultivation device.
The method of claim 1,
Hydroponic cultivation device, characterized in that the stepped inclined to the same as the depth of the waterway (22), or gradually deeper on the outer periphery of the planting hole (21).
delete The method according to claim 1,
Two or four frame pillar upper coupling groove is formed on the top or side of the cultivation tank, hydroponic cultivation device, characterized in that the frame pillar lower coupling groove is formed on the vertical lower surface of the upper coupling groove.
5. The method of claim 4,
Two or four frame pillars coupled to the upper coupling groove,
Hydroponic cultivation apparatus further comprises a light source unit for irradiating light to the planted by being coupled to the frame pillar so as to be movable.
5. The method of claim 4,
Two or four frame pillars are coupled to the upper coupling groove of the hydroponic cultivation apparatus, and another hydroponic cultivation apparatus is coupled to the upper portion of the hydroponic cultivation apparatus.

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