KR20230155695A - water cultivation device for nutrient solution of plants - Google Patents

Abstract

The present invention relates to a nutrient solution hydroponic cultivation device for plants, which includes a container part filled with topsoil and fixing asparagus seedlings by the topsoil, and a container part that is bound to the bottom of the container part to temporarily absorb the nutrient solution dripping from the topsoil. It is bound in a way that it covers the absorbent part that supplies the roots of the seedlings and the lower part of the absorber part, preventing exposure of the roots to the atmospheric air, maintaining a humid state for a certain period of time, and easily supplying moisture when the nutrient solution comes down to the roots. The object is to provide a nutrient solution hydroponic cultivation device for plants that includes a drying prevention part that maintains the plant.

Description

Hydroponic cultivation device for nutrient solution of plants {water cultivation device for nutrient solution of plants}

The present invention relates to a nutrient solution hydroponic cultivation device for plants, and more specifically, to a nutrient solution hydroponic cultivation device for plants that supplies nutrient solution from a high position above the ground and enables hydroponic cultivation.

For the cultivation of general plants, house cultivation methods that are not related to the season are widely used, and open field cultivation methods are also used.

In the case of open field cultivation, the investment cost is low as seedlings are planted in the open field, but the yield is the lowest due to damage from natural disasters and pests due to drought and rainy season.

Also, in the case of house cultivation, it is a crop whose roots grow more than 1m, so the bigger the roots, the better the product can be made. In order for the roots to grow, the soil is dug at least 1m and then manure is added and the soil is filled to allow the roots to go down deeply. , there is also the problem that a lot of labor is required and the overall management cost of the cultivation operation is high.

In general, in a 50-pyeong cultivation facility in one house, planting in 4 rows is common, and it is common to keep a distance of 30cm per seedling (about 330 plants are grown).

Patent Document 001: Registered Patent No. 10-1934991

The present invention to solve the above-mentioned problems is a hydroponic cultivation method in which the topsoil is raised to the ground for cultivation, for example, by utilizing a nutrient solution hydroponic cultivation facility using topsoil filled with coco peat (coconut shell powder), perlite, etc., for soil cultivation. The purpose is to provide a nutrient solution hydroponic cultivation device for plants that not only reduces labor, but also increases yield while maximizing space utilization.

The present invention for achieving the above-mentioned objects is a container part filled with topsoil and fixing asparagus seedlings by the topsoil, and is bound to the lower part of the container part to temporarily absorb the nutrient solution dripping from the topsoil to hold the asparagus seedlings. It is bound in a way that covers the absorbent part that supplies the roots and the lower part of the absorbent part, preventing exposure of the roots to the atmospheric air, maintaining a humidified state for a certain period of time, and easily supplying and maintaining moisture when the nutrient solution comes down to the roots. One example of this feature is a nutrient solution hydroponic cultivation device for plants, which is comprised of a drying prevention portion.

The absorption part is an example of a nutrient solution hydroponic cultivation device for plants, which is composed of a puncture inducing part in which the roots of asparagus seedlings absorb the nutrient solution and pierce downward to induce growth.

An example of the feature of the puncture guide is a nutrient solution hydroponic cultivation device for plants in which the opening guide portion is formed at a predetermined thickness from the bottom to the top of the absorption portion of the hollow structure having a groove configuration.

The piercing inducing part has a structure that maintains a predetermined interval so that the asparagus seedling roots can pierce downward and grow, and communicates with a plurality of root piercing inducing grooves that induce the piercing, and both sides of the root piercing inducing grooves. An example of this feature is a nutrient solution hydroponic cultivation device for plants, which has a divided structure in a partitioned form and includes a plurality of split grasping guide line grooves that guide the roots to be grasped when drilled in the downward direction.

A plurality of fine root piercing guide grooves are formed on both sides adjacent to each other between the root piercing guide grooves to guide the puncture of the fine roots of asparagus seedlings so that they can pierce and grow in the downward direction, and a certain spacing between the fine root pierce guide grooves. A plant nutrient solution hydroponic cultivation device further comprising a plurality of temporary absorption storage grooves that are formed in a structure to maintain the nutrient solution and temporarily absorb and store the nutrient solution to induce the asparagus seedling roots to fully absorb the nutrient solution. There are characteristics of one example.

According to the present invention as described above, the roots of asparagus seedlings fixed in the container filled with top soil extend downward without interfering with the growth process through the absorption portion of the structure cut to a certain length at the bottom of the container. The development can be easily performed, and the absorption part can be easily modified even during the growth of the roots, which has the effect of improving the growth potential for the growth of the roots without interfering with the growth of the roots.

In addition, according to the present invention, since a drying prevention part formed of a covering structure is provided at the lower part of the absorbent part, the roots are not exposed to the air, so drying of the roots can be prevented, and a humidified state can be maintained for a certain period of time. Because of this, it has the effect of facilitating moisture supply when the nutrient solution passes through the top soil and comes down to the roots.

In addition, compared to soil cultivation methods or other hydroponic cultivation methods, cultivation can be done using a small amount of water, the ability to supply oxygen to the roots is superior to other cultivation methods, the cost of topsoil is significantly less, and the anti-drying part is used. Root length can be adjusted by extending the length, and above all, there is a space-efficient cultivation effect that allows several times as many crops to be grown even in a small area.

Figure 1 is a three-dimensional perspective view showing the concept in which the nutrient solution hydroponic cultivation device for plants according to an embodiment of the present invention is installed in a high snow state.
Figure 2 is a three-dimensional perspective view of the nutrient solution hydroponic cultivation device for plants shown in Figure 1.
FIG. 3 is a diagram conceptually showing the planar structure and longitudinal cross section A-A' of the absorbent portion 200 shown in FIG. 2.

The embodiments described later in the present invention do not limit the scope of the present invention, but are merely illustrative of the components presented in the claims of the present invention, and are specific to the fact that they can be modified and implemented in various other forms. It should be interpreted based on the overall technical idea, and the drawings attached for reference to the present invention are merely for reference to aid understanding of the present invention, so the attached drawings do not limit the technical rights of the present invention.

Hereinafter, the nutrient solution hydroponic cultivation device for plants according to a preferred embodiment of the present invention will be described in more detail.

The plant applied to the present invention is, for example, an asparagus plant, and includes a container portion 100 shown in FIG. 2 for cultivating such an asparagus plant, an absorption portion 200 configured to be coupled to the lower end of the container portion 100, and the A plant nutrient solution hydroponic cultivation device comprising a drying prevention portion 300 configured to be sealed at the bottom of the absorbent portion includes a hanging rod coupled to the top of a predetermined frame 10 structure, as shown in Figure 1, for example. 20) It can be installed in a way that maintains the high level state with a hanging structure.

The container part 100 can be filled with a certain amount of topsoil and can perform the function of fixing asparagus seedlings by the filled topsoil, and the absorbent part 200 is coupled to the lower part of the container part 100. It is composed of a structure that can temporarily absorb the nutrient solution supplied to the container unit 100.

This absorbent part 200 is, for example, a sponge member cut to a certain length, and prevents the top soil from going down, does not interfere with the phenomenon of easily extending downward when the roots of asparagus seedlings grow, and even if the roots grow thick, Due to the nature of the sponge, it can be easily changed, so it can perform an action that does not interfere with the growth of roots.

In addition, the absorbent part 200 may be a member made of a material such as a sponge cut to a certain length from the lower part of the container part 100, and may be coupled to the lower part of the container part 100 in a structure that binds to the lower part of the container part 100. You can.

In addition, the drying prevention part 300 may be a member made of, for example, a resin material cut to a certain length from the lower part of the absorbent part 200, and may be coupled in a structure bound to the lower part of the absorbent part 200. However, as a resin material, for example, vinyl may be bound and combined in a structure that covers the lower part of the absorbent part 200.

In particular, since the absorbent part 200 is a member made of a sponge material, when the nutrient solution is supplied through the container part 100 and falls to the lower part of the topsoil, the absorber 200 absorbs the nutrient solution falling from the topsoil. It can be absorbed and retained temporarily.

Since the absorbing part 200 temporarily absorbs and retains the nutrient solution, the roots of asparagus seedlings can absorb the nutrient solution as effectively as possible, and the roots absorb the nutrient solution to their heart's content without the nutrient solution being wasted. As a result, hydroponic cultivation of asparagus seedlings is easily accomplished and their growth is inevitably accelerated.

Ultimately, the container part 100 can be filled with a certain amount of topsoil, and asparagus seedlings can be fixed in the topsoil filled in this way, and the absorbent part 200 is, for example, a sponge cut to a certain length to prevent the topsoil from going down. This prevents it from interfering with the downward extension of the roots as they grow, and as the roots grow thicker, the nature of the sponge allows for easy deformation, which has the effect of not affecting the growth of the roots.

In addition, the drying prevention unit 300 can prevent the roots from being exposed to the air, so that a humid state can be maintained for a certain period of time using, for example, a resin material, and provides moisture when the nutrient solution passes through the topsoil and comes down to the roots. This can have the effect of being easily supplied.

In addition, the cultivation effect can be achieved while using up to 98% less water than existing soil cultivation methods and less than other hydroponic cultivation methods, the ability to supply oxygen to the roots is superior, the cost of topsoil is significantly lower, and vinyl as a resin material is used. Not only can the root length be adjusted by extending the length, but it is also possible to grow more than three times as many crops in a small area (for example, 960 plants are possible in a 50 pyeong facility).

Meanwhile, the absorbing part 200 may be structured as a piercing inducing part 210 that allows the roots of asparagus seedlings to absorb the nutrient solution and pierce downward to promote growth.

For example, the opening inducing part 210 may be formed at a predetermined thickness from the lower part to the upper part of the absorbing part 200 having a hollow structure having a groove configuration, as shown in Figure 3.

The piercing inducing part 210 has a structure that maintains a predetermined interval so that the roots of asparagus seedlings can pierce downward and grow, and includes a plurality of root piercing guide grooves 211 that induce the piercing, and the root piercing guide. It has a divided structure that communicates with both sides of the grooves 211 and can be configured to include a plurality of split gripping guide line grooves 212 that guide the roots to be gripped when they are pierced in the downward direction.

In addition, a plurality of fine root piercing guide grooves 213 may be formed on both sides adjacent to the root piercing guide grooves 211, and these fine root piercing guide grooves 213 are formed by fine roots of asparagus seedlings piercing downward. The opening can be induced so that growth can occur.

In addition, temporary absorption and storage grooves 214 may be formed between the root opening guide grooves 213 in a structure that maintains a constant distance between them. The temporary absorption and storage grooves 214 temporarily absorb and store the nutrient solution. It can induce the roots of asparagus seedlings to fully absorb the nutrient solution.

The container portion 100 may be made, for example, of a material that is a mixture of red clay powder, dry rice straw powder, and rosin solution, including 40 to 50 parts by weight of red clay powder, 30 to 40 parts by weight of dry rice straw powder, and 15 to 25 parts by weight of rosin solution. It can be formulated by mixing.

If the red clay powder is less than 40 parts by weight, the strength of the container part 100 is weak and the container part 100 may be broken due to the volume difference due to the temperature difference, so it is not suitable for use as a container for filling the top soil, and if the red clay powder exceeds 50 parts by weight In some cases, ventilation may be weakened toward the roots of asparagus seedlings buried in the topsoil, resulting in root death.

If the dry rice straw powder is less than 30 parts by weight, root rot may occur due to weakened ventilation, but if it is more than 40 parts by weight, it may act as a factor in weakening the strength of the container unit 100.

If the rosin solution is less than 15 parts by weight, the insect repellent property is poor, and if it exceeds 25 parts by weight, the insect repellent effect is significant, but it may act as a factor that impedes ventilation, and the weight part of the rosin solution may be within the limited range as described above. In this case, an appropriate insect repellent effect can be achieved while not impairing ventilation.

In particular, asparagus plants are perennial crops that usually take more than 3 years from sowing to harvest, and the harvest period is about 15 years, and the roots grow more than 1 m, and the container portion 100 and the absorption portion When asparagus plants are grown in a plant nutrient solution hydroponic cultivation device consisting of (200) and the drying prevention unit (300), the harvest period can be shortened and root growth can be promoted.

Frame (10) Hanging rod (20)
Container part (100) Absorption part (200)
Drilling guide part (210) Root piercing guide groove (211)
Split phage guide line groove (212) Fine root piercing guide groove (213)
Temporary absorption storage groove (214) Drying prevention part (300)

Claims (5)

A container part that is filled with topsoil and secures asparagus seedlings by the topsoil;
An absorption part bound to the lower part of the container part to temporarily absorb the nutrient solution falling from the top soil and supply it to the roots of the asparagus seedlings; and
A drying prevention part that is bound to the lower part of the absorbent part to prevent exposure of the roots to the atmospheric air, maintains a humidified state for a certain period of time, and easily supplies moisture when the nutrient solution comes down to the roots.
A nutrient solution hydroponic cultivation device for plants, characterized in that it consists of a composition comprising. According to paragraph 1,
The absorption part is a nutrient solution hydroponic cultivation device for plants, characterized in that the asparagus seedling roots absorb the nutrient solution and pierce in the downward direction, and are composed of a structure of an opening inducing part to induce growth. According to paragraph 2,
A nutrient solution hydroponic cultivation device for plants, characterized in that the opening inducing part is formed in a predetermined thickness area from the lower part to the upper part of the absorption part of the hollow structure having a groove configuration. According to paragraph 3,
The piercing inducing part
A plurality of root piercing guide grooves that guide the piercing in a structure that maintains a predetermined interval so that the asparagus seedling roots can pierce and grow in the downward direction; and
A plurality of split gripping guide line grooves that communicate with both sides of the root piercing guide grooves and have a segmented structure that guides the roots to be gripped when pierced in the downward direction;
A nutrient solution hydroponic cultivation device for plants, characterized in that it consists of a composition comprising. According to paragraph 4,
A plurality of fine root piercing guide grooves formed on both sides adjacent between the root piercing guide grooves to guide the puncture of the fine roots of asparagus seedlings so that they can pierce and grow in the downward direction; and
A plurality of temporary absorption storage grooves formed in a structure that maintains a constant distance between the fine root opening guide grooves to temporarily absorb and store the nutrient solution to induce the asparagus seedling roots to fully absorb the nutrient solution;
A nutrient solution hydroponic cultivation device for plants, characterized in that it consists of a composition further comprising.