KR20150040434A - Stacking type cultivating apparatus of sprouts - Google Patents

Abstract

The present invention relates to a multistage type vegetable cultivation apparatus, and the purpose of the present invention is to provide a multistage type vegetable cultivation apparatus having excellent productivity compared with the cultivation area. To this end, the multistage type vegetable cultivation apparatus according to the present invention comprises a plurality of trays and stacking columns. Each of the plurality of trays includes a cultivation space of vegetable seeds, which is formed by a bottom plate and a side wall formed along the edge of the bottom plate. Each of the stacking columns has an upper interlocking portion and a lower interlocking portion. The stacking columns are fixed at three or more locations of each of the trays in a vertical direction. The upper interlocking portion of the tray is interlocked with a lower interlocking portion of another tray which is adjacent to and above the tray, and the lower interlocking portion of the tray is interlocked with an upper interlocking portion of another tray which is adjacent to and below the tray.

Description

[0001] The present invention relates to a stacking type cultivating apparatus of sprouts,

The present invention relates to a multi-stage vegetable growing apparatus.

Bean sprouts such as bean sprouts, sprouts and sprouts are germinated seeds and grow well in high temperature and high humidity environment. Therefore, it is more important to supply water frequently and drain more frequently if you are to grow these vegetables properly.

As growers for growing pickles, containers are used which are generally tubular and have a small drainage hole at the bottom. However, such a container has a limited production amount depending on the cultivation area, and it grows in a wheat field, and stresses a field vegetable.

On the other hand, in the method of supplying water to the vegetable grower, a sprinkling plant that sprinkles water on the lower side of the plant by using a sprinkler is mainly used in a space provided with a sprinkler on the ceiling. However, this sprinkling space has a humidity of 90% or more and a temperature of 18 to 30 ° C, which provides a good environment for the growth of bacteria and viruses, which can cause diseases such as rotting. In addition, in the case of the multistage cultivation apparatus stacked in the height direction, the watering ceremony is not suitable because the water can not be properly supplied to the beech vegetables arranged in the lower layer.

And since the cultivation equipment is relatively heavy, it is inconvenient for the operator to carry it directly. In order to solve this inconvenience, the bulk tray can be moved by using the tray, but the bulk tray is also a single type, so productivity is low compared to the cultivation area.

It is an object of the present invention to provide a multi-stage vegetable growing apparatus which is superior in productivity compared with a cultivation area, prevents diseases such as blight, and can produce and manage hygienically.

Another object of the present invention is to provide a multi-stage vegetable growing apparatus capable of efficiently and easily supplying water and having excellent mobility.

In order to achieve the above object, a multi-stage vegetable growing apparatus according to the present invention comprises a bottom plate and a plurality of trays having sidewalls formed along the periphery of the bottom plate to form a cultivation space for the seeds of the vegetable seeds, and an upper and a lower The upper jaws engage the lower jaws of the adjacent adjacent upper trays and the lower jaws engage with the upper jaws of the adjacent adjacent lower tray, .

It is preferable that at least one of the laminated pillars has a drainage receiving hole for draining the water inside the tray to discharge the water inside the tray.

And a water supply pipe coupled to at least one of the laminated columns is easy to supply water to the seeds housed in the tray.

In addition, it is preferable that the water supply pipe penetrates the laminated column in the lateral direction in view of design and structural stability.

On the other hand, it is possible to improve the mobility by providing the wheel assembly at the lower end of the laminated column disposed at the lowermost position.

The multi-stage vegetable growing apparatus according to the present invention is superior in productivity compared to the cultivation area, can prevent disease such as blight, and can form relatively low humidity, thus enabling hygienic production and management. In addition, the conventional sprinkling system is more efficient than the water supply because the amount of water is wasted more than the amount of water to be supplied, while the multi-stage vegetable growing apparatus according to the present invention is efficient because it can use only water directly affecting the production of the pickling . And a wheel assembly is installed at the lower end of the laminated column disposed at the lowermost position.

FIG. 1 is a perspective view showing a multi-stage vegetable growing apparatus according to the present invention,
FIG. 2 is a perspective view of a multi-stage vegetable growing apparatus according to the present invention,
FIG. 3 is a perspective view illustrating a multi-stage vegetable growing apparatus according to another embodiment of the present invention,
FIG. 4 is a perspective view of a multi-stage vegetable growing apparatus according to another embodiment of the present invention,
5 is a perspective view illustrating a multi-stage vegetable growing apparatus according to another embodiment of the present invention.

FIG. 1 and FIG. 2 are perspective views showing a multi-stage vegetable growing apparatus according to the present invention in a stacked state and in a separated state. As shown in these drawings, the present crop cultivation apparatus comprises a tray 10 having a rectangular tube shape stacked on each other, a plurality of trays 10 arranged at four corners of each tray 10, A laminated column 30 and a cultivation container 15 accommodated in the tray 10. [

Each tray 10 has a rectangular bottom plate 11 and four side walls 13 standing upright along the periphery of the bottom plate 11. A plurality of fine through holes may be formed in the bottom plate 11. [ At the four corners formed by the tray 10, a tubular laminated column 30 standing up in a direction perpendicular to the bottom plate 11 is provided.

The laminated column 30 has a channel extending from one end to the other end along the axial direction. In the laminated column 30, the upper and lower engaging portions 31 and 32 are formed so that a plurality of trays 10 can be stacked on each other. The outer diameter of the lower engaging portion 32 is slightly smaller than the inner diameter of the upper engaging portion 31. Accordingly, the lower engaging portion 32 can be inserted into the pipe formed in the upper engaging portion 31. [

On one hand, one of the four stacked columns 30 disposed on each layer is provided with a water supply pipe 35 capable of supplying water into the tray 10. These water supply pipes (35) penetrate the lamination column (30) in the lateral direction and are provided such that one end faces the center of the rectangular tray (10). Accordingly, the hose connected to the faucet may be attached to the other end of the water supply pipe 35 to supply or stop the water inside the tray 10 according to the operation of the faucet. At this time, instead of the water, the nutrient solution may be supplied to the supply port of the nutrient solution tank containing the nutrient solution.

A drainage receiving hole (33) is formed on the lower side of the water supply pipe (35) in the laminated column (30). The drainage receiving hole 33 is provided for discharging the water inside the tray 10 and partially formed in an area where the bottom plate 11 of the tray 10 and the laminated column 30 are in contact with each other. The center of the bottom plate 11 may protrude from the outer area so that the water in the tray 10 can be easily discharged to the drainage receiving hole 33. [ Each water supply pipe 35 and the drainage reception hole 33 may be additionally provided in another laminated column 30. [

A cultivating container (15) is accommodated in the inner space of the tray (10). This cultivation vessel 15 is provided in a rectangular tube shape like the tray 10 and is provided in a smaller size than the tray 10 so as to be accommodated in the tray 10. At one corner of the four corners of the cultivation vessel 15, a cut-out portion 19 partially cut so that the water supply pipe 35 can be accommodated in the cultivation vessel 15 is formed. The water supply pipe (15) is accommodated in the cultivation vessel (15) through the cut part (19).

At the bottom of the cultivation vessel 15, a plurality of bottom through holes 16 through which the water supplied by the water supply pipe 35 can escape are formed. Further, a lid 17 is provided on the upper side of the cultivation vessel 15 for closing the opened upper part. The lid (17) serves to store moisture inside the cultivation vessel (15) and to block light. On the upper surface of the lid 17, a lid handle 18 is provided for facilitating the operation of the lid 17. Although the lid 17 is shown in the form of a flat plate in the drawing, it may be provided in a cylindrical shape with side walls protruding along the bottom surface of the lid 17.

The tray 10 and laminate column 30 set disposed at the lowermost position are partially different from each other in comparison with the tray 10 and laminate column 30 sets disposed thereon. A drain pipe 34 for discharging water falling along the pipeline to the outside and a wheel assembly 40 for improving the mobility of the cultivation apparatus are additionally provided in the laminated column 30 disposed at the lowermost position.

In detail, a wheel assembly 40 for easily moving the cultivation apparatus is provided at the lower end of each laminated column 30 disposed at the lowermost position. The wheel assembly 40 includes a wheel frame 43 inserted and fixed to the lamination post 30 and a wheel 41 mounted on the wheel frame 43 and capable of being pivoted relative to the ground. Accordingly, the planting apparatus can be moved by pushing the planting apparatus without directly carrying it.

A drain pipe 34 for discharging the water finally delivered from the plurality of trays 10 disposed on the upper side to the outside is provided in the laminated column 30 disposed at the lowermost position. The laminated column 30 disposed at the lowermost position is provided in a closed form so that all the water can be discharged through the drain pipe 34.

On the other hand, when water is supplied into the tray 10 through the water supply pipe 35, the drainage reception hole 33 and / or the drainage pipe 34 are closed, and when the water is full, the drainage reception hole 33 and / A means for opening the drain pipe 34 may be further provided. This means that a buoyancy hole is provided in the channel of the laminated column 30 to close the drainage receiving hole 33 and / or the drainage pipe 34 when the buoyancy hole is located lower than the set position, And to allow the drainage reception hole 33 and / or the drainage pipe 34 to be opened when it is present. When the buoyancy hole is provided in the tray 10 and the buoyancy hole is located lower than the set position, the drainage reception hole 33 and / or the drainage pipe 34 are closed. If the buoyancy hole is located higher than the set position, 33 and / or the drain pipe (34).

FIG. 3 and FIG. 4 are perspective views showing a multi-stage vegetable growing apparatus according to another embodiment of the present invention, which are stacked and separated. As shown in these drawings, the cultivating apparatus according to another embodiment of the present invention differs from the embodiment shown in Figs. 1 and 2 in that the laminating column 30 is arranged on the outer surface 13 of the side wall 13 of the rectangular tray- As shown in Fig.

A side wall through hole 14 communicating with the drain water receiving hole 33 formed in the laminated column 30 is formed in the side wall 13 welded to the laminated column 30, 13).

The cultivation apparatus described in these two embodiments can be selected according to the manufacturer's production environment. The seedlings to be cultivated may also be disposed in the cultivation vessel 15 or may be disposed directly in the tray 10 without the cultivation vessel 15. Also, soil may be provided inside the cultivation vessel 15 or the tray 10.

With the above structure, the cultivation apparatus according to the present invention is supplied and discharged with water or a nutrient solution in the following manner.

First, each water supply pipe 35 is connected by a hose to a supply valve for supplying water, and water is supplied to the tray 10 according to the operation of the valve. Thus, the water supplied through the water supply pipe 35 is filled in the tray 10. This is because the water inside the tray 10 is discharged to the outside through the drainage receiving hole 33, but is filled because the amount to be supplied is larger than the discharged amount. On the other hand, the water can be filled or discharged by the drainage receiving hole 33 and / or the opening / closing means of the drainage pipe 34 installed in the channel of the laminated column 30 and / or the space inside the tray 10.

After the prescribed amount of water is supplied, the supply is stopped. The water contained in the tray 10 flows out through the side wall through hole 14 and the drain reception hole 33. [ The water falls along the channel of the laminated column 30 and finally discharged to the outside through the drain pipe 34 disposed at the lowermost position.

5 is a perspective view illustrating a multi-stage vegetable growing apparatus according to another embodiment of the present invention. The water supply pipe 35 and the drainage reception hole 33 are not provided in one laminate column 30 and the water supply pipe 35 and the drainage reception hole 33 are formed in different laminate columns 30 30 as shown in FIG.

Meanwhile, the multi-stage vegetable growing apparatus according to the present invention can grow mushrooms as well as beef and sprouts vegetables. Cultivation of the mushrooms may be performed in a dark room in which the lid 17 is covered with the cultivation vessel 15. Mushrooms can be produced by providing a spray nozzle at the end of the water supply pipe 35 and making the cultivation container 15 lower than the water supply pipe 35.

10: tray 11: bottom plate
13: side wall 14: side wall through hole
15: Cultivation vessel 16: Floor through hole
17: lid 18: lid handle
19: Cutting section 30: Lamination column
31: upper engaging portion 32: lower engaging portion
33: Drain receiving hole 34: Drain pipe
35: water pipe 40: wheel assembly
41: wheel 43: wheel frame

Claims (5)

In a multi-stage vegetable growing apparatus,
A plurality of trays having a bottom plate and sidewalls formed along the periphery of the bottom plate to form a cultivation space for the seeds;
The upper and lower jaws being vertically fixed to at least two positions of the respective trays with an upper engaging portion and a lower engaging portion, the upper engaging portion engaging with a lower engaging portion of an adjacent upper tray, And a laminating column engaging with the upper engaging portion of the multi-stage vegetable growing apparatus. The method according to claim 1,
Wherein at least one of the laminated columns has a drainage receiving hole for draining water inside the tray. The method according to claim 1,
And a water supply pipe connected to at least one of the laminated columns. The method of claim 3,
Wherein the water supply pipe passes through the laminated column in the lateral direction. The method according to claim 1,
And a wheel assembly is installed at a lower end of the laminated column disposed at the lowermost position.

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