KR200470326Y1 - Hydroponic cultivation - Google Patents

Abstract

According to the present invention, when the water contained in the upper plant cultivation unit installed in multiple stages reaches a certain level, the root of the plant provided in the upper plant cultivation unit as most of the water contained in the upper plant cultivation side is automatically recovered to the lower plant cultivation side. It is related to hydroponic cultivation having an automatic water drainage function that can maximize the growth rate of the plant by a long time to contact the air.

Description

Hydroponic cultivator with automatic water drainage function {Hydroponic cultivation}

The present invention relates to a hydroponic cultivator, and more specifically, to improve the structure of hydroponic cultivators, water is automatically drained when water reaches a certain level, so that the plant is exposed to the air, which automatically maximizes the growth rate. It relates to a hydroponic cultivator having a function.

In general, hydroponic cultivation is a type of plant cultivation method recently attracting attention in that it can maintain pollution-free cultivation and freshness. The hydroponic cultivation method is a cultivation method so that the roots of the hydroponic plants suspended in the life is immersed in a state of being submerged, and the land is rapidly spread because it can be consumed regardless of the season of farmland and pollution-free fresh vegetables according to industrial development.

Briefly described in the 'Public utility model publication No. 1999-35012' briefly described about the hydroponic plant cultivation device, the circulation pump is accommodated on one side of the tank, each space is formed on the upper corner of the tank each one Is fixed in multiple stages at the top of the plurality of footnotes communicating with the outlet side of the circulation pump, and has a closed bottom structure and communicates a pair of diagonally facing footnotes or a pair of horizontally adjacent footnotes among the plurality of footnotes. At least one water supply pipe to be characterized in that it comprises a plurality of cultivation tank is installed on the bottom. As such, the water discharged into the first and second drainage tanks includes holes formed at predetermined positions in the first and fourth footnotes formed in the first cultivation tank, and second and fourth footnotes formed in the second cultivation tank. By being discharged through a hole formed at a certain position of the footnote and circulated to be stored in the tank again, water of a certain height is always stored in the first and second cultivation tanks. As such, in the conventional hydroponic cultivation apparatus, water is stored at a constant height in the first and second cultivation plants. In this case, since the roots of the plants are always submerged in the water, factors which inhibit growth such as photosynthesis of air and light There was a problem that is difficult to maximize the growth rate of the plant.

The present invention for solving the above problems is that when the water contained in the upper plant cultivation unit installed in multiple stages reaches a certain level, the upper plant cultivation as most of the water contained in the upper plant cultivation side is automatically recovered to the lower plant cultivation side The root of the plant provided in the wealth is in contact with the air is prolonged to provide a hydroponic cultivation having an automatic water drainage function that can maximize the growth rate of the plant.

" 자 형상으로 물을 먼저 유입시키는 유입관과, 유입공에 연결되어 하측 식물재배부로 회수시키는 회수관으로 이루어지며, 상기 식물재배부내에 물이 일정수위에 도달하였을 때 사이펀 작용을 극대화하기 위해 유입관과 회수관의 직경이 2∼3:1 비율을 형성된 것을 특징으로 한다.
Hydroponic cultivator with automatic water drainage function of the present invention for solving the above problems; A plurality of plant cultivation units installed in multiple stages on the inside of the support, the partition having a partition therein and having a communication hole for moving water to the other partition space; A plurality of water supply pipes connected to the submersible pump and the submersible pump installed in the lower plant cultivation unit to move water to the upper plant cultivation side; A cover detachably coupled to each plant cultivation unit and having a plurality of seating holes for seating the plant; Installed in the plant cultivation unit except the lower plant cultivation unit, "

"It consists of an inlet tube to introduce water into the shape of a first, and a recovery tube connected to the inlet hole to recover to the lower plant cultivation, and when the water reaches a certain level in the plant cultivation inlet to maximize the siphon action It is characterized in that the diameter of the tube and the recovery tube is formed in a ratio of 2-3: 1.

Accordingly, the hydroponic cultivator having the automatic water drainage function of the present invention is capable of repeatedly contacting the air for a predetermined time with the roots of the plants growing in the upper and lower plant cultivation units installed in multiple stages, thereby maximizing the growth of the plants. There is.

1 is an exploded perspective view of a hydroponic cultivator according to the present invention,
Figure 2 is one end view of the hydroponic cultivator according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 and 2, the hydroponic cultivator of the present invention is installed on the support 10, the plant cultivation unit 20 is installed in multiple stages on the support 10, and the plant cultivation unit 20 Is connected to the submersible pump 40 and the submersible pump 40 is a water supply pipe 50 for moving the water toward the plant cultivation unit 20, the cover is detachably coupled to each plant cultivation unit 20 30 and a drain induction unit 60 for automatically recovering the water contained in the upper plant cultivation unit 20 to the lower plant cultivation unit 20 side.

The support 10 is preferably installed at the corner of the plant cultivation unit 20, although not shown in the figure, it is possible to adjust the spacing of the plant cultivation unit 20.

The plant cultivation unit 20 has a receiving space, the partition wall 21 is provided so that the inside is partitioned, the communication hole 22 penetrates through the partition wall 21 so that the water communicates with each other, and seated along the upper edge Grooves 23 are formed.

The submersible pump 40 is installed in the plant cultivation unit 20, although not shown in the drawing is performed by a timer or a control unit.

The cover 30 is detachably installed in the seating groove 23 of the plant cultivation part 20, and a plurality of seating holes 31 are formed to seat the plant at a predetermined interval.

" 자 형상으로 구비되며, 물을 먼저 유입시키는 유입관(61)과, 상기 유입공에 연결되어 하측 식물재배부(20)로 회수시키는 회수관(62)으로 이루어진다.The drain induction part 60 is approximately "

"It is provided in the shape of a, consists of an inlet pipe 61 for introducing water first, and a recovery pipe 62 connected to the inlet hole to recover to the lower plant cultivation unit 20.

The inlet pipe 61 is installed close to the bottom surface of the plant cultivation unit 20 to recover most of the water filled in the upper plant cultivation unit 20.

In addition, the inflow pipe 61 and the recovery pipe 62 have a diameter of 2 to 3: 1 so that siphon action can be effectively performed. In addition, if the diameter of the inlet pipe 61 and the recovery pipe 62 is provided in a 1: 1 ratio, the siphon action does not occur. In addition, although the siphon action occurs because the diameter of the inflow pipe 61 and the recovery pipe 62 is 4: 1, the recovery amount is drastically smaller than the inflow of water, thereby interrupting the flow of water during the passage. There was a problem occurring in the blockage phenomenon.

As described above, when explaining the action and effect on the hydroponic cultivation of the present invention, first, after filling a certain amount of water in the lower plant cultivation unit 20, a small amount by the operation of the underwater pump 40 Water is slowly filled into the upper plant cultivation unit 20 through the water supply pipe (50). As such, when most of the water filled in the lower plant cultivation unit 20 is moved to the upper plant cultivation unit 20, the water level of the lower plant cultivation unit 20 is lowered, so that the root of the plant is exposed to the air. Subsequently, the water of the upper plant cultivation part 20 is moved to the drainage induction part 60 side through the communication hole 22 of the partition wall 21, and when the water level rises on the drainage induction part 60 side, water pressure is pressed at the moment. As it is automatically generated by the siphon phenomenon, a large amount of water flows into the inflow pipe 61 side of the drainage induction part 60, and then most of the water passes through the recovery pipe 62 connected to the inflow pipe 61. The lower plant cultivation unit 20 is moved. At this time, most of the water filled in the upper plant cultivation unit 20 is moved to the lower plant cultivation unit 20 side, the water level of the upper plant cultivation unit 20 is the same or lower than the lower end of the inlet pipe (61) If it falls low {air pocket phenomenon} instantaneous water and air are introduced at the same time no more water is moved to the lower plant cultivation unit 20 side.

As such, as most of the water filled in the upper plant cultivation unit 20 is moved toward the lower plant cultivation unit 20, the roots of the plants inserted into the seating holes 31 of the cover 30 are exposed to the air. Photosynthesis by air and light can maximize plant growth.

As described above, various design modifications may be attempted within the same scope as the subject matter of the present invention, but the design change may not deviate from the scope of the present invention unless the present design produces no unexpected new effects. will be.

10: support 20: plant cultivation
30: cover 60: drainage guide

Claims (1)

A support table 10;
The upper and lower plant cultivation is installed in multiple stages inside the support 10, the partition wall 21 is provided so that the inside is partitioned, and the partition wall 21 has a communication hole 22 to move water to the other partition space. Section 20;
A plurality of water supply pipes (50) connected to the submersible pump (40) and the submersible pump (40) installed in the lower plant cultivation unit (20) to move water to the upper plant cultivation unit (20);
A lid 30 detachably coupled to each of the plant cultivation units 20 and having a plurality of seating holes 31 for seating plants;
Is installed in the plant cultivation unit 20 except for the lower plant cultivation unit 20, "

"It consists of an inlet pipe 61 for introducing water into the first shape, and a recovery pipe 62 connected to the inlet hole to recover to the lower plant cultivation unit 20, the water in the plant cultivation unit 20 Hydroponic cultivator with automatic water drainage, characterized in that the diameter of the inlet tube 61 and the recovery tube 62 is formed in a ratio of 2 to 3: 1 to maximize the siphon action when a certain level is reached.

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