KR20130017139A - The water culture device - Google Patents

Abstract

PURPOSE: A hydroponic culture facility is provided to minimize a facility for a nutrient solution supply and a water level control which were mounted in each cultivator. CONSTITUTION: A frame(1) comprises four perpendicular frames(11) installed vertically and a horizontal frame(12) forming the mounting space of multi-stage perpendicularly by connecting mutual perpendicular frames. A nutrient solution acceptance panel(2) comprises a settlement section(21) for settling a cultivator growing plants, one or more nutrient solution saving protrusion(22) forming a nutrient solution acceptance part(23) in which nutrient solution is stored, a water level control drainpipe(24) making a nutrient solution higher than an optimal water level fall down, a complete drainage hole(25) formed to be penetrated in the other side of a water level control drainpipe. A nutrient solution storage tank(3) forms a water level sensor(31) sensing a given or higher water level and a drainage hole. A nutrient solution supply pipe(4) supplies nutrient solution to a nutrient solution acceptance panel(2) located in the top by a nutrient solution supply pump(41). The upper end of a drainage pipe(5) is connected to a water level drainage pipe in the lower surface of a nutrient solution acceptance panel(2) so that given or higher water level of nutrient solution is flowed in, a drainage pipe equips with a first valve, and the lower end is located in the nutrient solution acceptance panel of an adjacent lower part or the upper surface of a nutrient solution storage tank. A second drainage pipe(6) equips with a second valve(61) in the center, and the lower end comprises a second drainage pipe located in the nutrient solution acceptance panel of an adjacent lower part or the upper surface of a nutrient solution storage tank. The bottom surface of a nutrient solution storage tank is made of a V shape formed in a slope from center to both ends.

Description

Hydroponic Cultivation Equipment

The present invention relates to a hydroponic cultivation device, and in more detail, the conventional hydroponic cultivation device solves the problem of supplying nutrient solution to each cultivation container and adjusting the water level, so that it has a complicated sensor and device configuration. The present invention relates to a hydroponic cultivation apparatus developed to allow the supply of nutrient solution and control of water level to a relatively simple device.

Hydroponic cultivation refers to a method of growing a plant in a culture solution made of water and water-soluble nutrients without using soil. Unlike general cultivation methods, there is a limited number of plants that can be cultivated. It is a high value-added agriculture.

In addition, there is an advantage in that more plants can be grown in a limited space, such as by vertically arranging or rotating rotation of the cultivation plate according to the cultivated plants.

In this case, the hydroponic cultivation equipment is a method for supplying water to a box-type waterproof container by using an expensive nutrient supply device and a pump device that mix water-soluble fertilizer with water. Each cultivation container is equipped with a water level sensor, an individual control pump, and an electronic control valve to maintain a constant water level.

However, the technology that gives each cultivation container the role of supplying and draining nutrient solution, controlling water level, mixing nutrient solution and water, etc. is complicated in structure, which leads to increased failure rate of equipment, increased facility introduction cost, and complex / large control system. There was a problem, and the major devices such as nutrient solution and sensor were not imported in Korea because they did not have a suitable substitute in Korea.

(Patent Document 1) Korean Patent Registration No. 10-0864475-0000 (October 14, 2008) (Patent Document 2) Republic of Korea Patent Publication No. 10-1995-0005780 (31 May 1995) (Patent Document 3) Korean Patent Registration No. 10-051569-00000 (September 09, 2005) (Patent Document 4) Republic of Korea Patent Publication No. 10-2011-0064466 (June 15, 2011) (Patent Document 5) Korean Utility Model Publication No. 20-1999-0035012 (September 06, 1999)

The present invention has been developed to solve the above problems, the object is to develop a hydroponic cultivation apparatus that can minimize the device for nutrient supply and level control that had to be mounted in each cultivation barrel.

Moreover, it is to develop the hydroponic cultivation apparatus which is easy to drain the nutrient solution as needed.

In order to achieve the above object, the present invention includes a frame consisting of four vertical frames vertically placed, and a horizontal frame connected to each other to form a vertical mounting space vertically;

The upper surface is mounted in the mounting space except the bottom of the frame has the shape of an open rectangular barrel, and the corresponding inner surface protrudes inward so that the planting step to allow the cultivation plant to grow hydroponicly grown plants and One or more nutrient-saving protrusions protruding upwardly in the longitudinal direction on the bottom to form a nutrient solution in which the nutrient solution is stored in the space therebetween; At least one nutrient solution receiving panel including a drain pipe and a complete drain hole formed through the other side of the water level control drain pipe;

A nutrient solution storage tank mounted in a mounting space formed at the bottom of the frame and having a shape of a rectangular cylinder having an upper surface open, a water level sensor detecting a predetermined level or more, and a drainage hole formed in the bottom surface so as to be opened and closed;

A nutrient solution supply pipe for supplying nutrient solution to a nutrient solution receiving panel located at the top by a nutrient solution supply pump mounted to the nutrient solution storage tank;

At the bottom of the nutrient solution receiving panel, the upper end is connected to the water level control drainage pipe so that the nutrient solution flows over a predetermined level, and has a first valve in the middle, and the lower end is located on the upper surface of the nutrient solution receiving panel or the nutrient solution storage tank of the adjacent lower part. A first drain pipe;

At the bottom of the nutrient solution receiving panel, the upper end is connected to the complete drainage hole, and has a second valve in the middle, and the lower end is composed of a second drain pipe located on the upper surface of the nutrient solution receiving panel or the nutrient solution storage tank adjacent to the lower part. do.

In addition, the bottom surface of the nutrient solution storage tank is characterized in that it is made of a 'V' shape formed inclined from both sides in the center.

In addition, the bottom surface of the nutrient solution receiving panel is characterized in that it is formed to be inclined so that the portion where the complete drain hole is formed than where the water level control drain pipe is formed.

As described above, the present invention provides a hydroponic cultivation apparatus capable of minimizing a device for nutrient solution supply and water level control, which had to be mounted on each cultivation container, thereby reducing the failure rate of the equipment by simplifying and miniaturizing the equipment. It has the effect of reducing the cost of introducing expensive control equipment, which mostly depended solely on imports.

In addition, it is necessary to maintain a constant water level at all times in general, and to drain the nutrient solution completely by simple operation as necessary, thereby periodically exposing the roots of plants to the air to prevent the roots from rotting and to effectively grow. There is.

Figure 1 is a perspective view of an embodiment of the present invention.
2 is an exploded perspective view according to an embodiment of the present invention.
3 is a sectional view showing main parts of an application example according to an embodiment of the present invention;
4 is a conceptual diagram showing the supply and flow of nutrient solution according to an embodiment of the present invention
5 is a sectional view of main parts according to an embodiment of the present invention;
6 is a cross-sectional view showing the complete drainage of nutrient solution according to an embodiment of the present invention
7 is a cross-sectional view showing a nutrient solution receiving panel according to another embodiment of the present invention
8 is a perspective view showing an application example of another method of the present invention

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a perspective view according to an embodiment of the present invention, Figure 2 is an exploded perspective view according to an embodiment of the present invention, Figure 3 is a sectional view of the main portion showing an application example according to an embodiment of the present invention, Figure 4 Is a conceptual diagram showing the supply and flow of nutrient solution according to an embodiment of the present invention, Figure 5 is a sectional view of the main part according to an embodiment of the present invention, Figure 6 is a complete drainage of nutrient solution according to an embodiment of the present invention As shown in the cross-sectional view, a frame (1) consisting of four vertical frames (11) vertically placed and a horizontal frame (12) connecting the vertical frames (11) to each other to form a multi-stage mounting space vertically Is installed.

At this time, when the horizontal frame 11 is mounted at the same height in the front and rear, left and right, the mounting space is formed to be hung therein to be equipped with the nutrient solution receiving panel (2) to be described later, the lower portion of the illumination (13) is mounted separately to grow the plant It is preferable to promote the.

Here, the upper surface to be mounted in the mounting space except the lower end of the frame 1 has a shape of an open rectangular tube, and on the inner sides corresponding to each other, a cultivation barrel for protruding inward to grow the hydroponicly grown plant 71 ( 7) one or more nutrient solution-saving protrusions forming a ridge step 21 for allowing the nutrient solution to be mounted, and a nutrient solution accommodating portion 23 that protrudes upward in the longitudinal direction on the bottom thereof and stores the nutrient solution 8 in the space therebetween. (22), a water level control drainage pipe 24 protrudes in a cylindrical shape on one side and the nutrient solution 8 above an appropriate level so as to fall to the bottom, and a complete drainage hole formed through the other side of the water level control drainage pipe 24; At least one nutrient solution receiving panel (2) consisting of (25);

A water level sensor 31 mounted in a mounting space formed at the lowermost end of the frame 1 and having an upper surface open and detecting a water level above a predetermined level, and a drain hole 32 formed to be opened and closed on a bottom surface thereof. The nutrient solution storage tank 3 is formed;

A nutrient solution supply pipe (4) for supplying the nutrient solution (8) to the nutrient solution receiving panel (2) located at the top by a nutrient solution supply pump (41) mounted to the nutrient solution storage tank (3);

At the bottom of the nutrient solution receiving panel (2), the upper end is connected to the water level control drainage pipe (24) so that the nutrient solution (8) of a certain level or more flows therein, and has a first valve (51) in the middle and the lower end of the adjacent lower part. A first drain pipe (5) positioned on an upper surface of the nutrient solution receiving panel (2) or the nutrient solution storage tank (3);

At the bottom of the nutrient solution receiving panel (2), an upper end is connected to the complete drainage hole (25), and has a second valve (61) in the middle, and a lower end of the nutrient solution receiving panel (2) or a nutrient solution storage tank (3). The hydroponic cultivation apparatus of the present application is completed by mounting the second drain pipe 6 located on the upper surface of the).

The principle of the present application by the above configuration is to first supply the nutrient solution 8 by using the nutrient solution supply pump 41 to the nutrient solution receiving panel 2 to naturally fill the channel-type passage of the nutrient solution receiving part 23 of several compartments. do.

At this time, if the nutrient solution (8) is raised above the protrusion height of the water level control drain pipe (24), the water level flows down to the lower compartment as the water level is exceeded through the first drain pipe (5), the water level control panel (2) The nutrient solution 8 is not filled above the protruding height of the drainage pipe 24, and when the level of the nutrient solution 8 falls below the protruding height of the water level control drainage pipe 24, the nutrient solution 8 no longer flows down. The nutrient solution receiving panel 2 is a principle that the nutrient solution 8 of a certain level is stored.

In addition, the nutrient solution-saving protrusion 22 protrudes inside the nutrient solution receiving panel 2 in a form in which a box is placed upside down to prevent unnecessary waste in which the nutrient solution 8 is filled up to an unnecessary portion where the root of the plant 71 is not disposed. As a result, as necessary, the nutrient solution 8 is stored in the nutrient solution receiving panel 2.

In hydroponic cultivation, if the root of the plant (71) is always contained in the nutrient solution (8), it may interfere with the respiration of the root and may completely drain the nutrient solution (8) as necessary. In order to empty the nutrient solution receiving panel (2) is provided with a complete drainage hole (25) to open the second valve 61 so that all the nutrient solution can be completely drained.

Operation according to the configuration of the present invention first dissolve the nutrient solution (8) in the nutrient solution storage tank (3) by the water level sensor (31) and then operate the nutrient solution supply pump 41 to the nutrient solution (8) in the nutrient solution receiving panel (2) ).

At this time, when the nutrient solution 8 above the appropriate level rises to the top nutrient solution receiving panel 2, the nutrient solution 8 naturally flows through the water level control drainage pipe 24 to the nutrient solution receiving panel 2 immediately below. The nutrient solution (8) to the nutrient solution receiving panel (2) located in the operating nutrient solution supply pump 41 until the nutrient solution (8) flows back into the nutrient solution storage tank (3).

Unlike the existing technology, it is circulated without overflowing the nutrient solution even if the nutrient solution is supplied more than necessary due to the malfunction of the pump control unit, etc. Automatic level adjustment is possible.

At this time, the bottom surface of the nutrient solution storage tank (3) is preferably made of a 'V' shape formed inclined from both sides in the center, it is preferable to form a drain hole 32 in the center to facilitate the drainage of nutrient solution.

7 is a cross-sectional view showing a nutrient solution receiving panel according to another embodiment of the present invention, Figure 8 is a perspective view showing an application example of another method of the present invention, the bottom surface of the nutrient solution receiving panel (2) is the water level control drain pipe It is formed to be inclined so that the portion where the complete drainage hole 25 is formed is lower than where the 24 is formed so that the nutrient solution 8 naturally flows toward the complete drainage hole 25.

In addition, since the complete drain hole should be blocked during the nutrient solution storage period, the first drain pipe 6 is equipped with a second valve 61 which is controlled electronically or manually.

In addition, the arrangement of the nutrient solution receiving panel (2) is based on a vertical multi-stage arrangement and the water level control drain pipe (24) is arranged in a row to prevent the nutrient solution (8) flowing out of the upper stage from flowing straight down without filling the lower stage. It is preferable to arrange to cross.

1: frame
11: vertical frame 12: horizontal frame
13: lighting
2: nutrient solution panel
21: mounting step 22: nutrient solution saving protrusion
23: nutrient solution container 24: water level control drain pipe
25: complete drainage hole
3: Nutrient Storage Tank
31: water level sensor 32: drainage hole
4: Nutrient supply piping
41: nutrient solution pump
5: first drain pipe
51: first valve
6: second drain pipe
61: second pump
7: planting barrel
71: plants
8: nutrient solution

Claims (3)

A frame (1) consisting of four vertical frames (11) vertically placed, and a horizontal frame (12) which connects the vertical frames (11) to each other to form a multi-stage mounting space vertically;
Cultivation container (7) to have a top surface mounted in the mounting space except the lower end of the frame (1) has a shape of an open rectangular barrel and protrudes inward to the inner side to grow the hydroponic plant (71) One or more nutrient-saving protrusions 22 which protrude upwardly in the longitudinal direction on the bottom surface and allow the nutrient solution receiving portion 23 to store the nutrient solution 8 in the space therebetween. ), A water level control drainage pipe 24 protruding in a cylindrical shape on one side so that the nutrient solution 8 above a proper level falls down, and a complete drainage hole 25 formed through the other side of the water level control drainage pipe 24. At least one nutrient solution receiving panel (2) consisting of;
A water level sensor 31 mounted in a mounting space formed at the lowermost end of the frame 1 and having an upper surface open and detecting a water level above a predetermined level, and a drain hole 32 formed to be opened and closed on a bottom surface thereof. The nutrient solution storage tank 3 is formed;
A nutrient solution supply pipe (4) for supplying the nutrient solution (8) to the nutrient solution receiving panel (2) located at the top by a nutrient solution supply pump (41) mounted to the nutrient solution storage tank (3);
At the bottom of the nutrient solution receiving panel (2), the upper end is connected to the water level control drainage pipe (24) so that the nutrient solution (8) of a certain level or more flows therein, and has a first valve (51) in the middle and the lower end of the adjacent lower part. A first drain pipe (5) positioned on an upper surface of the nutrient solution receiving panel (2) or the nutrient solution storage tank (3);
At the bottom of the nutrient solution receiving panel (2), an upper end is connected to the complete drainage hole (25), and has a second valve (61) in the middle, and a lower end of the nutrient solution receiving panel (2) or a nutrient solution storage tank (3). Hydroponic cultivation apparatus, characterized in that consisting of a second drain pipe (6) located on the upper surface.
The hydroponic cultivation apparatus according to claim 1, wherein the bottom surface of the nutrient solution storage tank (3) has a shape of a 'V' formed to be inclined to both sides from the center.
According to claim 1 or 2, wherein the bottom surface of the nutrient solution receiving panel (2) is characterized in that the inclined portion so that the portion formed with the complete drain hole 25 is lower than the place where the water level control drain pipe 24 is formed. Hydroponic cultivation equipment.

Images