KR910004464Y1 - Pot - Google Patents

Abstract

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Description

Potted structures of plants

1 is a perspective view of a potted structure enabling natural cultivation of non-powered according to the principles of the present invention.

2 is a side cross-sectional view of FIG.

Figure 3 is an exploded perspective view of a potted structure that enables hydroponic cultivation using power in accordance with the principles of the present invention.

4 is a side cross-sectional view of FIG.

* Explanation of symbols for main parts of the drawings

11: cultivation unit 12: culture unit

14: culture tank 18: hanging jaw

21: ion ore chamber 22: air ventilation chamber

25: air discharge pipe 26: discharge pipe

27: supply pipe 31: air pump

32: fertilizer container

The present invention relates to a new pollen structure for potted plants, flowers, vegetables and fruits.

Potted planting has conventionally been used in various forms, and hydroponic cultivation has been widely used.

However, the conventional structure for pot cultivation has a disadvantage in that the appearance of blue mold in the late spring season from April to June on the surface of the pollen is not so good, and the pot cultivation ends only once.

Therefore, pollen cultivation is not economical due to its short lifespan, and in order to have the durability of pollen cultivation, it is necessary to perform cumbersome work such as dividing and dividing pots.

In light of this, the skilled person in pot cultivation had to acquire the knowledge of pot cultivation for a long time, and even if he had acquired the knowledge, he had to accumulate his own experience until he understood the characteristics of pot cultivation.

Therefore, these factors have been the biggest drawback that pot cultivation has not been widely popularized.

This flower is designed to popularize pollen cultivation, which is easy to plant pollen, to minimize the cumbersome work of pollen cultivation, and to achieve predetermined horticulture. It is an object to provide a new pollen structure that can be achieved in this short term.

The inventors of the present invention oxygen is generated as a liquid contact ratio (蝶 掖 肥) ions in the fertilizer and water, and by the formation of these ions can induce the culture of plants, etc., and the culture medium that sinks to the bottom circulated to the upper and lower layers Since the culture element is easily degraded, it was tested to induce growth of plants and the like.

In addition, it was found that the plant cultivation is possible when such plant culture elements are permanently supplied to plants.

By devising a planter based on these facts, it is possible to educate an unskilled person in good horticultural skills in a short time, as well as to establish an ion ore chamber in which the cultured vacuole and the plurality of holes of the bulkhead of the tank are discharged. Fertilizer container having a culture tank communicated to a plurality of holes through, a cultivation unit having a plurality of holes for plant cultivation supported by a locking jaw located at the upper part thereof, a supply pipe placed in an upper portion of the culture unit, and a discharge pipe The mixture of air, fertilizer, and water to be injected and mixed circulates through the culture tank through the ion ore chamber, and discharges the gas to circulate oxygen by constituting the air discharge pipe from the incubation tank of the air pump to the outside. The pollen structure that supplies and cultivates the plant, that is, the pollen structure in this paper, is generally applied to hydroponic cultivation. Furnace culture tank and the ion ore chamber is arranged on the lower surface and the upper surface is configured by arranging the culture unit, air pump and fertilizer container.

The cultivation part is formed by cultivating a plant seedling in the bottom by forming a plurality of holes in the bottom, and the lower part of the cultivation part contains water to mix fertilizer and air, which circulates in the adjacent ion ore chamber. The culture tank is warranted up to the lower position where the air pump and fertilizer container supply pipes are placed. Therefore, the culture solution formed by mixing water, fertilizer and air is easily formed by drilling holes in the main wall of the ion ore chamber. By circulating therebetween, the culture solution is easily ionized to form so-called living water.

By ingesting the culture medium thus configured, the plants are configured to grow healthy without disease.

The air pump continues to provide fresh oxygen to the culture, and nutrients such as fertilizers are supplied at the scheduled time through the fertilizer container.

And through the air discharge pipe, the culture fluid is opened to the atmosphere to release harmful gas to the roots, such as carbon dioxide, which can be generated by contact of the roots to the plant.

With this structure, fresh oxygen is always supplied to the culture solution so that plants grow fresh and healthy, and fungi like carbon dioxide do not occur in late spring and early summer, so that flowers and vegetables can be easily grown. To provide a device.

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

1 and 2 show the potted structure constructed according to the principles of the present invention.

As shown in the figure, it consists of a case 1 of a rectangular parallelepiped.

The case 1 may be square, and the partition 2 is fixed adjacent to one side wall.

The partition 2 is perforated with a plurality of air circulation holes 3 in a predetermined diameter and arrangement.

In the case 1, the partition 2 is provided with an air ventilation chamber 4 containing the ion ore 8 and a culture tank 5 loaded with urea fertilizer. On one wall surface of the culture tank 5, an oxygen supply pipe 6 having a predetermined diameter to supply oxygen by supplying air and a delivery pipe 7 for supplying water are fixed.

By such a configuration, the air in the air ventilating chamber 4 generates the collection ratio ions together with the water supplied in the case of the delivery plate 7 to the urea fertilizer in the culture tank 5.

In addition, it is noted here that the coral is injected into the water of the culture solution to prevent the decay of plant roots, but in conventional cultivation pots because there is no oxygen supply composition there was a disadvantage that the water is generated from April to June.

3 and 4 show the pollen structure 1 of one embodiment for hydroponic cultivation constructed in accordance with the principles of the present invention.

The structure 1 may be a cuboid or a cube as shown in the drawing, and is composed of a cultivation unit 11 and a culture unit 12.

The culture unit 12 is formed adjacent to one side wall thereof, and a partition chamber 13 is fixed, and an apparatus chamber 15 provided with a culture solution tank 14 in which the culture solution is stored.

Under the partition 13, a plurality of culture fluid circulation holes 17 are drilled in a predetermined diameter and arrangement on all sides to allow the culture fluid in the culture fluid tank to pass therethrough.

A plurality of locking jaws 18 are installed at predetermined heights and positions so as to appropriately support the cultivation unit 11 around the circumferential wall of the culture medium tank 14. The case that is pushed into the apparatus chamber 15 and fixed therein is formed with an ion ore chamber 21 loaded adjacent to one side wall thereof.

A plurality of culture circulation holes 17 are formed in both side walls of the ion ore chamber 21 and formed by a predetermined diameter and arrangement to assist in circulating the culture solution.

Therefore, the culture liquid in the culture liquid tank 14 is circulated through these circulation holes 17 and ion ore.

In the upper part of the case, an exhaust circulation pipe 25, an air pipe 26, an air pump 31, and a fertilizer container 32 for supplying fertilizer and a supply pipe 27 are formed.

On the other hand, in the culture tank 14 is formed a locking step 18 is fitted and supported by the cultivation unit (11).

The cultivation section 11 has inverted truncated cone-shaped holes 23 arranged in a predetermined arrangement on the bottom surface thereof so that the upper area is wide and the narrower toward the bottom so that the culture plants and the like can be properly inserted.

Meanwhile, in the apparatus chamber 15, the air pump 31 and the fertilizer supply pipe 27 for forcibly injecting air into the air ventilation chamber 22 by the culture medium pipe 25, the air supply pipe 26, and the air ventilation unit by the fertilizer supply pipe 27. A box 33 in which the fertilizer container 32 for supplying fertilizer into the chamber 22 is installed is fixed to the case 16 at the top.

In the lower part of the box, holes 35, 36, and 37 having a predetermined diameter into which the culture medium circulation pipe 25, the air supply pipe 26, and the air pump 31 and the fertilizer supply pipe 27 are inserted. Are perforated.

A cross-sectional view of the state assembled in such a configuration is shown in FIG.

The culture unit 11 is fixed in the culture medium tank 14, and a case 16 and a box 33 are provided in the apparatus chamber 15.

In addition, the fertilizer container 32 of the culture medium circulation pipe 25 and the air pump 31 may be appropriately arranged and fixed in the box 33, and the case may be formed by the pipes 25, 26, and 27. Since the communication with the air ventilation chamber 22 of 16), the culture medium in the culture tank 14 passes through the ion ore chamber 21, the air is injected by the operation of the air pump 31 in the air ventilation chamber 22 After the carbon dioxide generated in the discharge pipe 25 is discharged, the culture solution is always maintained in the state of living bottled water.

Although the case 16 is configured to be inserted into the culture unit 12 separately, the present invention is not limited thereto, and the box 33 is also installed separately in the apparatus room 15, but the present invention is not limited thereto. The air pump 31 and the air supply pipe 26 and the fertilizer container 32 and the supply pipe 27 may be installed without installation.

Of course, even in a region without power failure or electricity, the pollen structure is injected with oxygen to ionize the culture by the natural circulation of the culture.

Claims (1)

As a pollen structure, the culture medium tank 14 and the ion ore chamber 21 in which a plurality of holes of the partition walls of the culture tank 14 are disposed in communication with each other are connected to the plurality of holes through the partition walls of the ion ore chamber 21. The culture section 12 composed of the air ventilation chamber 22 is disposed below and adjacent to the cultivation section 11 having a plurality of holes for plant cultivation supported by the locking jaw 18 at the upper portion thereof. A fertilizer container 32 having a supply pipe 27 and an air pump 31 having a delivery pipe 26 installed at an upper portion of the air ventilation chamber 22 and external from the culture unit 12. It consists of an air discharge pipe (25) which is in communication with the air, the mixture of air, fertilizer, and water injected and circulated through the culture tank of the ion ore to discharge the harmful gas toward the outside, no mold, no plant Plant cultivation pots are configured to grow.