KR100570729B1 - Cultivation device of plant - Google Patents

Abstract

The present invention relates to a crop cultivation apparatus, and more particularly, to a crop cultivation apparatus that is easy to assemble and move installation, and can promote the growth and development of crops. The present invention is a crop cultivation apparatus for cultivating plants by cultivation or nutrient solution cultivation, the upper portion is open and has a reservoir part 12 on the inside, the reservoir part 12 of the rectangular water is stored watering or nutrient solution A reservoir 10; The plant soil is filled therein, and the lower side is submerged in the reservoir 12 of the reservoir 10, and a plurality of penetratings for supplying water or nutrient solution from the reservoir 12 to the soil. A cultivation vessel 20 having a ball 10a on at least one side, and an outer side surface thereof spaced apart from the inner side of the storage container 10, and sliding along the long axis direction of the storage container 10; Sliding means for slidably fixing the cultivation container 20 to the low container 10, the sliding means for sliding the cultivation container 20; characterized in that it comprises a.

Crops, reservoir, cultivation, containers, topsoil, flanges, rails, slides

Description

Crop cultivation unit {CULTIVATION DEVICE OF PLANT}

1 is an exploded perspective view of a crop cultivation apparatus according to the present invention.

Figure 2 is a plan view showing a connection state of the storage container according to the present invention.

3 is a perspective view of a cultivation container according to the present invention.

4 is a cross-sectional view taken along line a-a 'in FIG.

5 is a sectional view taken along the line b-b 'of FIG.

Figure 6 is a cross-sectional view showing another embodiment of the cultivation container according to the present invention.

Figure 7 is a cross-sectional view showing another embodiment of the cultivation container according to the present invention.

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

 1: crop cultivation device 10: water storage container

12: reservoir 13: rail

14,24: Side plate 15,25: Side plate insertion groove

16: assembly means 20: cultivation container

10a: through hole 22: sliding means

22a: flange 22a ': through hole

The present invention relates to a crop cultivation apparatus, and more particularly, to a crop cultivation apparatus for cultivating various crops by supplying water or nutrient solution.

In general, hydroponic cultivation and nutrient cultivation known in the prior art is to flatten the ground floor of the greenhouse to install the cultivation panel on the bottom surface, or to install a panel to maintain a constant height from the ground Hydroponic cultivation method for circulation of groundwater; As described above, the panel is connected to a bench or concrete structure, and a nutrient solution re-producing method is provided to supply a liquid nutrient solution to a cultivated plant by installing a separate nutrient solution supply system.

In particular, when growing crops using hydroponic or nutrient farming, a large amount of crops can be harvested within a short period of time, and they are much less controlled by the natural environment than soil cultivation. Crops include fruits and vegetables such as cucumbers, tomatoes, cherry tomatoes, peppers, leafy vegetables such as lettuce, parsley, and dive, green onions and perilla, and flowers such as roses, gerberas, chrysanthemums, carnations, and lilies.

As a crop cultivation container used for hydroponic and nutrient farming, a box-type cultivation container made of styrofoam or synthetic resin is generally used. In the case of a cultivation container made of styrofoam, handling and storage are not easy. Not only does it cost a lot of logistics costs, it is well broken and difficult to dispose of the situation is limited use.

Therefore, most crop cultivation sites use crop cultivation containers made mainly of synthetic resins, which are conventional square or rectangular boxes of a certain size having a plurality of drainage holes formed on the bottom surface and having an independent shape. Because it is composed of, continuous assembly is impossible to use, there was a disadvantage that the workability due to crop cultivation is significantly reduced.

Particularly, in the case of nutrient cultivation, the remaining amount (more than half of the nutrient solution supplied) which is absorbed by the plant in the nutrient solution supplied into the container is lost through the drainage holes of the container, so that the cultivation loss due to the expensive nutrient solution waste occurs. There was a problem.

Moreover, due to the waste of nutrient solution as described above, the additional cost of cultivating crops is considerably consumed, and there is a problem in that a large number of effects of nutrient cultivation cannot be expected.

In addition, the nutrient solution flowing out through the drainage holes as described above is the main culprit to contaminate the soil and water quality, there is an urgent need for a nutrient solution processing system that can prevent this.

In addition, the conventional cultivation containers as described above have to install a separate irrigation device for supplying water necessary for crops, and thus, there is a problem in that facility investment costs are considerably increased, especially during winter heating such as a plastic house. Since the temperature is controlled to increase the temperature, not only the heating efficiency is lowered, but also the heating time takes longer and the heating cost is greatly increased.

Therefore, in recent years, the applicant has disclosed a "structure of nutrient solution recycling system and nutrient solution cultivation container" to solve the above-mentioned conventional problems,

It is provided with a perforated plate formed with a plurality of drainage holes in the interior of the container body, the perforated plate is provided spaced apart from the bottom surface, a predetermined reservoir for storing and circulating the water or nutrient solution between them By having a structure in which a space is formed, fresh water or nutrient solution is absorbed into the upper soil through the drainage holes of the perforated plate spaced apart from the bottom of the main body, and is supplied to the planted crop to grow the crop. It is to promote development.

In addition, the cultivation container having such a structure can prevent the expensive nutrient solution from being lost to the outside, and by circulating and recycling it, it is possible to prevent contamination of the soil caused by the nutrient solution spillage, as well as to effectively reduce and install farming costs. Semi-permanent use of the structure is now possible.

In addition, the continuous use of the cultivation container can be used to assemble, to improve the workability according to the cultivation of crops, and to provide a number of useful benefits, such as reducing the heating cost in winter.

However, even in the case of the above-mentioned cultivation container, there is a disadvantage in that it is not easy to move and install the container because it is not provided with a separate moving means for continuously installing it.

In other words, in order to install the cultivation container planted with crops on the bottom of the greenhouse, as shown in the prior art, a worker must move the cultivation container planted manually by hand, and then rearrange it. There were uncomfortable and cumbersome problems.

In addition, the conventional cultivation vessels have a problem that the growth of the soil is filled with a single-wall structure, because the cultivation vessel is filled with soil, causing a rapid rise in temperature in the summer, inhibiting the growth of crops.

The present invention has been made to solve the problems of the prior art as described above,

An object of the present invention is to provide a crop cultivation apparatus that is easy to assemble and move installation, improve the various environments according to crop growth, thereby promoting the growth and development of crops.

Crop cultivation apparatus of the present invention for achieving the above object is a crop cultivation apparatus for cultivating plants by watering cultivation or nutrient solution cultivation, the upper portion is open and has a reservoir on the inside, the water reservoir is watering or nutrient solution A rectangular reservoir containing water; Filled with plant culture tops inside, the lower side is submerged in the reservoir part of the reservoir, and has at least one through-hole on the side surface a number of through holes for supplying water to the soil. The side surface is spaced apart from the inner surface of the low container, the cultivation container sliding along the long axis direction of the low container; Sliding means for slidably fixing the cultivation container to the low container, the sliding means for sliding the cultivation container.

Hereinafter, with reference to the accompanying drawings in detail the crop cultivation apparatus according to the present invention.

Attached Figure 1 shows an exploded perspective view of the crop cultivation apparatus according to the present invention, Figure 2 is a plan view showing a connection state of the low container according to the present invention, Figure 3 is a cultivation container of the present invention It shows a perspective view, respectively.

4 is a sectional view taken along the line a-a 'of FIG. 1, and FIG. 5 is a sectional view taken along the line b-b' of FIG.

As shown, the crop cultivation apparatus 1 according to the present invention is roughly divided into a rectangular storage container 10 and a cultivation container 20. The storage container 10 as described above has a reservoir 12 in which an upper portion is opened and watering or nutrient solution is stored inside.

In addition, both ends of the storage container 10 is provided with an assembling means 16 that can be continuously assembled, the assembling means 16 is composed of a pair of male and female assembling grooves 16a and assembling protrusions 16b, This assembling groove 16a and assembling protrusion 16b are continuously assembled and extended.

Then, the cultivation vessel 20 is filled with plant culture tops (上 土) inside, and inserted into the inside of the reservoir 10, the bottom side of the container is submerged in the reservoir 12, At least one side has a plurality of through-holes (10a) for supplying the watering or nutrient solution of the reservoir 12 to the soil.

In addition, the outer surface of the cultivation container 20 is spaced apart from the inner surface of the storage container 10, is slidably installed along the long axis direction of the storage container 10, and the sliding cultivation container 20 It further comprises a sliding means (22).

Such a sliding means 22 is a rail 13 formed on both sides of the upper end of the storage container 10 along the long axis direction of the storage container 10, and the cultivation container so as to mate with the corresponding rail (13) It is formed on both sides of the upper end of the 20, and includes a flange (22a) sliding along the rail (13). Each of the flanges 22a extends outwardly and has a downwardly bent structure. In addition, a plurality of through holes 22a 'are formed on the upper surfaces of the flanges 22a extending in the outward directions as described above, respectively, for smooth flow and supply of air.

At this time, the through hole (22a ') is formed to penetrate at regular intervals on the flange 22, in order to easily adjust the interval in which the crop is planted.

In addition, the through hole 10a of the cultivation container 20 is formed on both side surfaces and the bottom surface of the storage container 10 opposite to the inner side in the longitudinal direction of the long axis direction, and the irrigation or nutrient solution of the water storage part 12 is grown in the cultivation container ( 20) has a structure to supply through both sides and the bottom.

On the other hand, the water storage and cultivation vessel (10, 20) is provided with side plates 14, 24 of the both ends of the long axis direction separately, and side plate insertion groove into which the side plates (14, 24) are selectively inserted into each end side edge portion By forming the inwards (15, 25), the side plates (14, 24) is configured to seal or open both ends of the reservoir and the cultivation vessel (10, 20).

Figure 5 shows another embodiment of the cultivation container according to the present invention, a partition wall 26 having a plurality of through holes 10a and partitioned spaces 26a in the inner central portion of the cultivation container 20. This shows what is formed integrally.

This shows that the watering or nutrient solution of the reservoir 12 can be supplied to both inner sides as well as the inner side of the cultivation container 20, so that the watering or nutrient solution thus supplied can be evenly absorbed into the soil.

Figure 6 shows another embodiment configuration of the cultivation container according to the present invention, showing that the appearance shape of the cultivation container 20 is made up of a normal light bottom narrow (上 (下 狹).

This shows that the multiple containers can be superimposed upon each other when the cultivation container 20 is stored, thereby facilitating the storage and transport of the container.

Reference numeral 19 denotes a reinforcing bar integrally formed on the outer wall along the long axis direction of the storage container 10. This reinforcement bar serves to reinforce the outer wall of the container, and at the same time, the worker can easily check the height of the storage container 10 to be embedded, and can be installed in a horizontal state.

Next, with reference to the accompanying drawings, Figures 1 to 4 will be described in detail the operation of the present invention.

1 to 4, first, the low container 10 is embedded in the bottom of the greenhouse and fixed, and then the cultivation vessel 20 is inserted from the upper side to be slidably installed. At this time, the storage container 10 is installed to extend in the longitudinal direction of the bottom surface of the greenhouse by assembling the assembly groove (16a) and the assembling projection (16b) formed on both ends in succession, in the reservoir 12 provided inside these Store with water or nutrient solution.

In such a state, when the cultivation vessel 20 filled with plant culture tops inside is inserted into the storage vessel 10, the flange 22a formed at the top of the cultivation vessel 20 is a storage vessel. As it engages with the rail 13 of 10, it becomes a slidable state. In addition, the cultivation vessel 20 is installed so as to be slidable, the lower side is submerged in the reservoir 12 of the reservoir 10, the watering or nutrient solution stored in the reservoir 12 is the cultivation vessel It is supplied to the top soil through the through holes 10a of the 20.

In this way, when the installation of the storage container 10 and the cultivation container 20 is completed, the said cultivation container 20 is slid sequentially along the longitudinal direction of the storage container 10, and is continuously moved and installed. At this time, the cultivation container 20 slides in the longitudinal direction of the storage container 10 while the flanges 22a provided at the upper ends of both sides are engaged with and supported by the upper rail 13 of the storage container 10. . In addition, since the cultivation vessels 20 which are slid in this manner are in contact with each other to form an adjacent state, continuous movement and installation are possible.

As described above, in cultivating various crops, by providing a cultivation container 20 having a non-powered medium carrying function, it is possible to solve the inconvenience and inconvenience of the worker at the same time, and also increase the efficiency of the work.

In addition, the water and cultivation vessel (10, 20) is installed in this way, the inner and outer surfaces are spaced apart by a predetermined interval through which water or nutrient solution is supplied, and the air required for crop growth and oxygen supply is made smoothly Promote the growth and development of planted crops. At this time, the watering or nutrient solution supplied through the inner and outer surface space as described above is supplied to the crop while being absorbed into the soil through the through holes (10a) formed on both sides of the cultivation vessel (20).

Furthermore, as above, the water storage and the cultivation vessels (10, 20) is spaced apart by a predetermined interval to form a double wall structure, providing excellent thermal insulation effect to suppress the rapid rise in temperature in the summer, and provide a heating effect in winter It can provide a suitable environment according to.

On the other hand, the water storage and cultivation vessel (10, 20) by selectively assembling the side plates (14, 24) at both ends in the long axis direction, so as to seal or open both ends of each container, the water and cultivation The internal cleaning of the containers 10 and 20 as well as the processing and disinfection of the topsoil contained in the cultivation vessel 20 is very easy.

In particular, such a low water container (10) is piped and installed in the nutrient solution recycling system structure, to easily recover and circulate the remaining amount of nutrient solution supplied to the crop to prevent waste of expensive nutrient solution, and to recycle the crop again This effectively reduces farming costs and does not pollute the surrounding environment.

As described above, the low water container 10 connected to the nutrient recycling system is fixed to the lower end of the side plate 14, and a connection pipe 17 is installed, and the drain pipe 18 connected to the nutrient solution recycling system structure through the connection pipe 17. Will be available for connection.

In addition, one side of the storage container 10 in which the side plate 14 is assembled, a bypass pipe 18 ′ for easily recovering water or nutrient solution through the recovery pipe is connected.

On the other hand, since the soil used in the present invention uses chaff which can be easily obtained from a general farmhouse, pollution-free agricultural products can be grown by excluding the use of soil contaminated with organic matter accumulation and various waste water as in the prior art.

In addition, the chaff is organic matter, so siliceous can be a good compost if the treatment is good, as well as the role of improving the soil, the import substitution effect of peat moss, coco peat, etc. imported for the soil is large, Can be effectively saved.

 As described above, the crop cultivation container according to the present invention can be easily moved and installed by inserting a cultivation container in which crops are planted into a low container, thereby reducing labor costs and labor according to crop cultivation and improving work efficiency. You can get the effect.

In addition, since the cultivation container is inserted into the inside of the low container to form a double wall structure, it is possible to obtain excellent heat insulating effect.

In addition, since it is possible to completely block the damage of nematodes and salts (diseases, insects) in the cultivation of crops, friendly crop cultivation is possible.

In addition, the irrigation or nutrient solution required for crop cultivation is prevented from being lost to the outside, and circulation and circulation can be recycled, thereby preventing soil and water pollution caused by nutrient spills, as well as effectively reducing farming costs and half of the installation structure. Permanent use is possible, and the air distribution and oxygen supply are smooth, and the high yield of crops can be obtained.

Claims (7)

In the crop cultivation apparatus for growing plants by irrigation or nutrient cultivation, The upper part is open and has a water storage part 12 inward, The water storage part 12 has a rectangular water storage container 10 which stores water and nutrient solution; The plant soil is filled therein, and the lower side is submerged in the reservoir 12 of the reservoir 10, and a plurality of penetratings for supplying water or nutrient solution from the reservoir 12 to the soil. A cultivation vessel 20 having a ball 10a on at least one side, and an outer side surface thereof spaced apart from the inner side of the storage container 10, and sliding along the long axis direction of the storage container 10; And a sliding means (22) for slidably fixing the cultivation container (20) to the low water container (10) and sliding the cultivation container (20). The method of claim 1, Crop cultivation apparatus, characterized in that the both ends of the storage container 10 is provided with assembly means 16 that can be continuous and assembled. The method of claim 2, The assembling means (16) is a crop cultivation device, characterized in that it comprises an assembling groove (16a) and an assembling projection (16b) formed to correspond to the one end and the other end of the storage container (10), respectively. The method of claim 1, The through hole 10a of the cultivation vessel 20 is formed on both side surfaces and the bottom surface of the storage container 10 opposite to the inner side in the major axis direction of the cultivation vessel 20, and the irrigation or nutrient solution of the reservoir 12 is grown in the cultivation vessel 20. Crop cultivation device, characterized in that configured to supply through both sides and bottom. The method of claim 1, The sliding means comprises: rails 13 formed on both sides of an upper end of the low container 10 along the long axis direction of the low container 10; And a flange 22 formed on both sides of an upper end of the cultivation container 20 to correspond to the rail 13 and sliding along the rail 13. The method according to claim 1 or 2, The reservoir and the cultivation vessel (10, 20) is provided separately the side plates (14, 24) of the both ends of the long axis direction, side plates (14, 24) are selectively selected at the edge portion of each reservoir and cultivation vessel (10, 20) Forming the side plate insertion groove (15, 25) to be inserted inwardly, the side plate (14, 24) crop storage device, characterized in that configured to seal or open both ends of the reservoir and the cultivation vessel (10, 20). The method according to any one of claims 1 to 4, Crop cultivation apparatus, characterized in that the partition wall (26) having a plurality of through holes (10a) and partitioned space (26a) in the inner central portion of the cultivation container (20) integrally formed.

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