KR101414557B1 - A Slim port assembly for ebb and flow system - Google Patents

Abstract

The present invention relates to a slim type potting port assembly for an end-of-flow application, and more particularly, to a submerged potting port assembly for an end-of- To a feed or nutrient solution.
According to the embodiment of the present invention, unnecessary supply of nutrient solution or supply liquid is blocked, the area occupied by the entire apparatus is reduced through the reduction of the nutrient solution supply unit and the reduction of the EBB bottom watering apparatus, and the installation area can be efficiently used. In addition, the simplified EBB bottom watering system is easy to move.

Description

{A Slim port assembly for ebb and flow system}

The present invention relates to a slim type potting port assembly for an end-of-flow application, and more particularly, to a submerged potting port assembly for an end-of- To a feed or nutrient solution.

The use and emission of large amounts of fertilizer in greenhouse crop cultivation can cause soil and surface water contamination in the greenhouse, which is already a social problem worldwide. In order to solve these problems, a circulating irrigation system has been introduced. Ebb and flow ("EBB") bottom irrigation system, which can produce high quality products while reducing fertilizer and moisture, .

1 is a perspective view of an EBB bottom watering apparatus according to the prior art.

The EBB bottom watering method is such that the nutrient solution flows into the flowerpot through the pipe (3) located in the flowerpot, and the nutrient is supplied to the plant by using the principle that the nutrient solution moves to the upper part of the soil.

The EBB bottom irrigation system has the advantage of saving fertilizer amount and labor compared to existing head irrigation because it feeds the nutrients and moisture needed for growth without physical stimulation to the plant. In addition, since no water is added to flowers or leaves, it is possible to reduce the insect pests occurring in humid conditions, thereby producing a product with excellent quality.

However, in the case of applying the EBB bottom watering method according to the prior art, as shown in FIG. 1, the space between the pots in which the plant is grown and the pots 2 containing the pots and storing the nutrient solution is excessive, There is a problem that the amount of the nutrient solution to be supplied is more than necessary.

Further, the area occupied by the nutrient solution supply section is not so small, and there is a problem that the space occupied by the cultivation apparatus is large.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and in particular, to provide a slim type cultivation port assembly for an EV and flow that provides a nutrient solution or a feed liquid at a proper level required for EBB bottom irrigation with a small amount of nutrient solution or feed solution do.

Further, it is desirable to provide a slim type cultivation port assembly for use in an efficient use of an installation space.

Further, it is an object of the present invention to provide a slim-type cultivation port assembly for an evolved flow that can be easily moved through simplification of the apparatus.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, A second flower pot including a drain connected to the nutrient solution supply unit so as to have a predetermined spaced space outside the first flower pot; And a holder that is located in a space between the first pot and the second pot and connected to the nutrient supply portion to supply the nutrient solution to the space.

In addition, the cradle may further include: a mounting part connected to the nutrient solution supply part and located outside the second pot; And a supply part extending from the mount part to a space between the first pot and the second pot and supplying the nutrient solution to the space, wherein the supply part extends longer than the mount part.

It is also preferable that a plurality of the cradles are provided, and the plurality of cradles are arranged at regular intervals in the space.

It is preferable that the plurality of cradles positioned on both sides of the second pollen are positioned so as to intersect with each other.

It is preferable that the side faces of the first pot and the second pot are inverted triangles.

According to an embodiment of the present invention, it is possible to provide the nutrient solution or the supply solution up to a proper water level required by the EBB bottom watering system only by providing a small amount of the nutrient solution or the supply solution, thereby preventing unnecessary nutrient solution or supply solution from being provided.

More specifically, the amount of nutrient solution required is reduced by 1/3 compared to the conventional EBB bottom watering system, thereby shortening the time of fluid supply and the operation time of the motor pump. Do.

In addition, as the required nutrient solution is reduced, the disinfection of the nutrient solution and the scale of the filtration device can be reduced.

In addition, the area occupied by the entire apparatus is reduced to about 1/3 through the reduction of the nutrient solution supply unit for storing the nutrient solution or the supply solution and the reduction of the EBB bottom watering apparatus, so that the installation area can be efficiently used.

In addition, the streamlined EBB bottom watering system is easy to move and easy to install.

1 is a perspective view of an Ebb and flow bottom watering apparatus according to the prior art.
2 is a perspective view of an Ebb and flow bottom watering device according to an embodiment of the present invention.
3 is a perspective view of a first flowerpot according to an embodiment of the present invention.
4 is a perspective view of a second flowerpot according to an embodiment of the present invention.
5 is a perspective view of a cradle according to an embodiment of the present invention.

The components and operation of the slim-type cultivation port assembly used in the EBB bottom watering apparatus according to the present invention will be described with reference to FIGS. A slim type cultivation port assembly for an end-of-flow according to an embodiment of the present invention includes a first pot 100, a second pot 200 and a cradle 300.

The first flowerpot 100 is a space where a plant to be cultivated by the bottom watering method is located, and preferably a plurality of plants can be located in the single first flowerpot 100.

In addition, the first pot 100 may be inclined toward the center direction, and as shown in FIG. 3, the side surface may be inverted triangular as an embodiment of the invention. The inclined one side of the first flowerpot 100 according to the embodiment may form 60 degrees with the ground surface.

The first flower pot (100) includes a through hole (130).

The through hole 130 is an inlet through which the nutrient solution or the supply solution stored in the space between the first pot 100 and the second pot 200 is introduced into the first pot 100, And is also a discharge port through which the supply liquid is discharged again into the space.

The through hole 130 may be located in the first pot 100 without restriction, but is preferably located at the bottom of the first pot 100 for effective inflow and drainage. Also, according to an example of the invention, when the side face of the first pot 100 is triangular, the through hole 130 may be located on both sides inclined as shown in FIG.

Further, although the number of the through holes 130 is not limited, it is preferable that a plurality of the through holes 130 are included for effectively flowing and discharging the nutrient solution. When a plurality of through holes 130 are located, as shown in FIG. 3 as an example of the invention, the plurality of through holes 130 may be located at regular intervals.

The through hole 130 can be any shape for effectively flowing and discharging the nutrient solution or the supply solution, and a round shape is preferable as an example of the invention. Also, the size of the through hole 130 is not limited, but in the case of the circular embodiment, the diameter may be 3 mm.

The second pots (200) are overlapped to have a predetermined spaced space outside the first pots (100). The space separated between the first pot 100 and the second pot 200 is reduced as compared with the prior art and provides a nutrient solution or a nutrient solution at a proper level required by the bottom irrigation system with a smaller amount of nutrient solution or a supply solution.

The shape of the second flower pot 200 is not limited, but is inclined toward the center direction to effectively exhibit the above effect, and may be similar to the first pot 100, as shown in FIG.

The second pot 200 includes a drain hole 230.

The drain port 230 is stored as it is in the space between the first pot 100 and the second pot 200 after a predetermined period of time set in the EBB bottom watering method or may be stored in the space between the first pot 100 and the second pot 200 Is connected to the discharge passage 270 through which the nutrient solution or the supply liquid flows again to the nutrient supply portion 10. [

The drain hole 230 may be any shape for discharging the nutrient solution or the supply solution from the second pot 200, and may be circular as an example of the invention and have a diameter of about 16 mm.

The position of the drain port 230 is not limited, but may be located at the lower end of the second flower pot 200 as shown in FIG. 4, and more specifically, at about 15 mm at the lower end of the second flower pot 200 .

The holder 300 is located in a space between the first pollen pot 100 and the second pollen pot 200, and the nutrient solution or the feed solution is flowable to provide the nutrient solution or the feed solution to the space.

One end of the holder 300 is connected to the nutrient solution supply unit 10 and supplies the nutrient solution or the supply solution to the space through the other end. The holder 300 can be any shape for flowing and supplying the nutrient solution or the feed solution, but according to an embodiment of the present invention, a part of the holder 300 is placed in the second pot 200, Located.

A plurality of cradles 300 may be disposed in the space, and preferably, the cradles 300 may be disposed at regular intervals. In addition, the second pot 200 may be positioned at intervals of 1 m on both inclined sides of the second pot 200, and the cradle 300 may be positioned at the opposite sides of the second pot 200 as an example of the invention.

The holder 300 includes a mounting portion 310 and a supply portion 350.

The mounting portion 310 is connected to the supply passage 370 connected to the nutrient supply portion 10 to receive the nutrient solution. The mounting portion 310 is mounted above the second pot 200 as an example of the invention. The mounting part 310 may be inserted on the upper part of the second pot 200 and the mounting part 310 may be fixed to the second pot 200 as shown in FIG. Corresponding shapes are preferred.

The supplying part 350 is in the form of an extension of the mounting part 310 and is located in a space between the first pot 100 and the second pot 200. The nutrient solution or the supply solution flowing from the nutrient solution supply unit 10 through the supply unit 350 may be introduced into the space and the fluid may be introduced into the space and may be elongated longer than the mounting unit 310 as an example of the invention .

When the slurry cultivation assembly according to the embodiment of the present invention is used, the nutrient solution is supplied to the first pot 100 and the second pot 200 through the nutrient supply portion 10 and the mounting portion 300 connected to the supply passage 370, Nutrient solution or feed liquid is supplied into the space.

The first pot (100) and the second pot (200) having a similar shape have a smaller spaced space. In this case, the nutrient solution or the feed liquid at an appropriate level required by the EBB bottom watering method is fed with a small amount Nutrient solution or feed liquid.

The nutrient solution provided in the space is supplied into the first pot 100 through the through hole 130 of the first pot 100.

After a predetermined time required for the EBB bottom watering method has elapsed, the nutrient solution stored in the space is returned to the nutrient supply part 10 again through the passage connected to the drain port 230. The EBB bottom watering system repeats this nutrient circulation and grows the plant.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

2: Port
3: pipe
10:
100: 1st pot
130: Through hole
200: second pot
230: drain
270: discharge passage
300: Cradle
310:
350:
370: Supply passage

Claims (5)

A first flower pot inclined in the center direction and including a plurality of through holes;
A second flower pot including a drain connected to the nutrient solution supply unit so as to have a predetermined spaced space outside the first flower pot; And
A second pot and a second pot disposed in the space between the first pot and the second pot,
/ RTI >
The cradle,
A receiving part connected to the nutrient solution supplying part and located outside the second pot; And
And a supply part for supplying the nutrient solution to the space, extending from the mounting part to a space between the first pot and the second pot,
≪ / RTI >
Slim, cultivated port assembly for ever and flow.
The method according to claim 1,
Characterized in that the supply portion extends longer than the mounting portion.
Slim, cultivated port assembly for ever and flow.
The method according to claim 1,
A plurality of said cradles,
Characterized in that the plurality of cradles are arranged at regular intervals in the space.
Slim, cultivated port assembly for ever and flow.
The method of claim 3,
The plurality of cradles positioned on both sides of the second pollen,
Characterized in that it is located crosswise,
Slim, cultivated port assembly for ever and flow.
The method according to claim 1,
Characterized in that the side faces of the first pot and the second pot are inverted triangles,
Slim, cultivated port assembly for ever and flow.

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