KR20010000065A - An apparatus and method of culturing the plant using method of the bottom sprinkling of water - Google Patents

Abstract

PURPOSE: A plant cultivating device using ebb-and-flow method and plant cultivating method using plant cultivating device promotes growth of plant by making optimum environment to be necessary for plant growth period, provides medicinal fluid and air simultaneously to root part of plant for 365days and 24hours by ventilating enough quantity of air to root of plant set in medium cell. CONSTITUTION: The plant cultivating device using ebb-and-flow method comprises medium cell(S) to be set with constant shape by wrapping artificial medium(1) with packing paper(3) like cloth or gauze to ventilate moisture and air smoothly; water vent flowerpot formed air and water ventilation hole to ventilate enough quantity of air and water to medium of medium cell(S), to have with-in medium cell(S); cooling/heating device to cool and heat root part of plant by being installed in the inner lower end of medium cell(S) had with-in the water vent flowerpot; automatic circulating device.

Description

An apparatus and method of culturing the plant using method of the bottom sprinkling of water}

The present invention relates to a plant cultivation using the bottom irrigation method, in particular, the plant cultivation apparatus using the bottom irrigation method that is always supplied to the nutrient solution and air to the root zone of the plant to maintain the optimal growth environment of the plant And a plant cultivation method using the apparatus.

In general, there are various methods for growing plants, such as ornamental or edible, such as, for example, by cultivating plants grown in a medium and supplying a nutrient solution containing nutrients necessary for plant growth. There is a cultivation method of cultivation.

Meanwhile, the medium cultivation method uses general soil or artificial medium (人工 倍 地), but conventional methods of planting and planting soil in the general cultivation of water and nutrients and supply of air necessary for the root of the plant Because it is not smooth, there is a disadvantage that the plant can not grow rapidly.

Therefore, when cultivation of plants or other special cultivation is used a nutrient solution cultivation method that provides a nutrient solution mixed with the nutrients necessary for plant growth.

The nutrient solution cultivation method is a hydroponic cultivation method that allows the plant roots to grow in direct contact with the nutrient solution and a medium diameter cultivation method that allows the plant roots to grow in a sustained state by being planted in the medium. have.

In addition, the method of supplying the water (nutrient solution) necessary for the growth of the plant in the culture medium culture method is the spraying method sprayed from the upper side (the leaf side) of the plant, and the water is dropped from the upper side of the plant and sprinkled only on the root part of the plant. There are two main methods of drip, and bottom irrigation, which supplies water from the bottom of the plant.

In such a method, in general, the method of watering not only adversely affects the leaves of the plant when some of the components contained in the nutrient solution supplied to the plant touch the leaves of the plant, It is inconvenient to adjust the supply cycle of the water needed for the roots accurately.

In addition, the drip method requires a facility for dropping the nutrient solution only to the root portion of the plant, and thus requires many facilities and the cost thereof, and it is inconvenient to precisely control the water supply time required for the root of the plant.

On the other hand, the bottom irrigation method is a method of supplying water only to the root portion, if necessary, not only does not require many facilities, but also an effective and practical method because of the advantage that can be controlled to breathe the root of the plant.

However, in using the bottom irrigation method as described above, there is a problem even if an excessive amount of water is supplied to the root of the plant, that is, the root of the plant is not always supplied with water, but also with air. By allowing the roots to breathe, the plant not only grows normally but also grows quickly.

Therefore, in cultivating the plant by the nutrient solution cultivation method using the bottom irrigation method, it is a very important factor to supply sufficient air and supply water to the root part of the plant.

In order to cultivate plants by the bottom irrigation method using nutrient solution as described above, various environments are required. Using artificial media used for nutrient cultivation as it is cannot produce the required environment as described above. The cultivation method could not be used effectively.

In general, when using an artificial medium, the medium is placed in a container of a predetermined shape such as a pot, and the plant is planted in the artificial medium. When the artificial medium is used as it is, the artificial medium is constant. Since it does not have a shape, when the seed or seedling of the plant is to be grown and then moved to another place, the artificial medium in which the plant is to be planted should be changed, and accordingly, there were many problems.

Ordinary artificial medium, even if bulky or standardized, such as the general soil is easily broken or shaping the disorganized state, the planted artificial medium could not be lifted as it is.

Therefore, in places such as flower gardens where flower crops must be produced every day, such as flower crops, seedlings or seeds of flower plants must be grown from the beginning, so that the seedlings or seeds are planted until the seedlings or seeds are fully matured. At the flower stand, flower production could not be made, so there was a problem of being unproductive.

Such a problem is due to the problem that it is difficult to move the medium in which the seedlings or seeds are germinated and grown, as it is, and the medium in which the grown flower plants are planted is moved to another place.

In addition, the growth of the plant is not enough to supply only the necessary nutrients with water, and in most flower crops, a sufficient amount of air must be supplied to the root portion in addition to the water and nutrients.

In other words, in the bottom irrigation method, the root of the plant necessarily needs time to breathe. Although it varies slightly depending on the season, temperature, and the type of plant, in severe cases, the root of the plant is damaged even if it does not breathe for only a few minutes. Will wear. Therefore, in order to cultivate plants effectively using the bottom irrigation method, the supply of nutrient solution and air to the root part of the plant must be controlled to be cross-supplied in a precise time.

In order to solve this problem, conventionally, a space in which a nutrient solution can be injected is provided at the bottom of the pot, and the nutrient solution is supplied and discharged at a predetermined time in the space, or a plant is planted on the surface of the water container in which the nutrient solution is contained. In the state that is arranged at a predetermined interval, by inserting the wick (good) with good water absorption at the bottom of the pot and the bottom of the wick soaked in the nutrient container under the pot, There is a method of absorbing the nutrient solution to supply the medium in the pot.

However, this method has the advantage that the plant can absorb water and nutrients at any time when the nutrient solution is always supplied, but the problem of supplying air to the medium is not completely solved, There is a disadvantage in that a structure for installing a planter with a wick is installed, and such a structure requires a special apparatus when several plants are to be grown at the same time.

On the other hand, temperature is also a very important factor in the growth environment of plants. In most cases, greenhouses are grown in low temperature temperatures, such as winter, to grow plants in these greenhouses. Because the temperature in the part is more important, the general heating method raises the overall temperature of the greenhouse to match the temperature of the root part necessary for the growth of the plant, which requires a large cost to heat the entire greenhouse, which is economically disadvantageous. .

Therefore, in order to solve this problem, it is desirable to raise the temperature only at the root part of the plant while maintaining the temperature inside the greenhouse properly.

On the other hand, in general, when cultivating crops using nutrient solution, if the summer temperature increases, the amount of dissolved oxygen contained in the nutrient solution decreases as the temperature of the nutrient solution increases.

In addition, the respiratory action of the roots vigorously occurs at a high temperature due to the strong sunshine in the summer, and as described above, when the amount of dissolved oxygen contained in the nutrient solution is insufficient, the amount of oxygen sucked from the root part of the plant becomes insufficient. The growth of the remarkably poor, thereby causing the discoloration or suffocation of the plant brown color, which causes a huge disruption to the growth of the plant.

For example, in the case of roses, it is recognized that it is impossible to produce high quality roses due to the phenomenon described above in summer.

Some methods to solve this problem are to mix distilled water with hydrogen peroxide in the nutrient solution to supply a large amount of oxygen in the nutrient solution, but this method is very cumbersome and suitable for large farms There is a problem that could not be.

In general, as the temperature rises to 10 ° C, the respiration of the roots increases several times, and as the temperature increases, the amount of dissolved oxygen contained in the nutrient solution decreases significantly, resulting in oxygen deficiency at the root of the plant.

When the dissolved oxygen of the root portion is less than 2ppm, the growth is remarkably poor, and if it is less than 0.5ppm, the growth is usually stopped and the tip of the root is dried out, which leads to a significant drop in product productivity.

In addition, when decorating the interior of a building with flowers or houseplants, or when decorating a street, the heads of plants or plants that are planted with plants or plants are installed high above the ground, or the heads where plants are planted in multiple stages. There is a case.

When the pots planted in this way is located high above the ground, or when the pots are arranged in multiple stages, there is a problem that is difficult to use a bottom irrigation method for supplying water required for plant growth from the root of the plant.

In order to solve this problem, there is a device that uses a power pump to supply water to a potted plant located high above the water source where the nutrient solution is stored.

However, this device requires power because it requires the use of a water pump, and it also requires an additional means such as a water level sensor to ensure that the amount of water supplied to the water pump is always supplied correctly according to the characteristics of the plant. There was a downside.

In addition, even using such a sensor, there is a problem that it is difficult to accurately match the time that the root of the plant can breathe with supplying the moisture necessary for the growth of the plant.

On the other hand, without using a water pump as described above, using a wick such as cotton or sponge can be thought of a way to supply to the crops located in the high water from the water source (water source), but with a cotton or sponge under normal atmospheric pressure Using a wick of the same material to guide the low water to a high place there is a limit, that is, using the same material as the wick as it can usually induce water only up to a height of about 10cm.

Therefore, in the case where crops are arranged at a height of 1 m or more from a water source, as known methods up to now for effectively supplying an appropriate amount of water to crops, there is a method of using a power pump as described above.

However, in the case of using such a power pump, there is a problem in that it is not possible to adopt a plant cultivation method in which nutrient solution is always supplied to the medium and air can also be supplied.

Therefore, the present invention solves the problems caused in the plant cultivation method using artificial media as described above, while growing plants using artificial media with high porosity and good water drainage, grown in artificial media ( The purpose of the present invention is to provide a plant cultivation apparatus having a medium cell to smoothly move the 成 木 to other places, and to smoothly absorb the nutrient solution and communicate the air.

Another object of the present invention is to allow the nutrient solution to communicate with the outside in the state in which the medium cell is contained therein, sufficient amount of air to communicate with the root of the plant planted in the medium cell for 365 days 24 hours It is to provide a plant cultivation apparatus that allows the nutrient solution and air to be supplied at the same time to grow plants at high speed.

Another object of the present invention, plant cultivation that can not only cool or heat the root zone of the plant as necessary, but also to force the air supply to the root of the plant to promote rapid growth of the plant To provide a device.

Still another object of the present invention is to provide a nutrient solution in a multi-potted plant and a potted plant in a high pot when the potted plant is arranged in multiple stages or when the potted plant is placed at a high interval at least a predetermined interval through which the nutrient solution required for plant growth is contained. The purpose is to provide a plant cultivation apparatus that can automatically supply the plant.

In addition, an object of the present invention is to provide a continuous nutrient solution type plant cultivation apparatus that allows the nutrient solution and air to be constantly supplied to the roots of the plants planted in the medium so that the plants can grow in an optimal state.

The present invention for achieving the above object, in the plant cultivation apparatus using the bottom irrigation method to grow the plant by supplying the moisture or nutrients necessary for the growth of the plant from the bottom of the medium in which the plant is planted, the plant The medium for planting is made of artificial medium consisting of a mixture of cocopite, pearlite or huntan, the artificial medium is made of secondary packaging by the outer packaging in the state of primary packaging by the inner packaging, the inner The wrapping paper is made of a material that communicates moisture and air smoothly, and the outer wrapping paper is made of a material having a predetermined strength to maintain the inside of the medium in a constant shape, and a plurality of water passage holes at the bottom of the outer wrapping paper. Incision guides for planting seedlings or seeds on top of outer and inner wrappers It has the feature that the medium consisting of cells formed.

By using such a medium cell, it is possible to fundamentally solve the problems as described above in connection with the present invention.

In addition, the medium cell can be used alone or in a ventilated pollen according to the present invention so that the nutrient solution and air are always supplied to the root of the plant so that the root of the plant can be maintained in an environment free from stress due to drying and humidity. Since the growth of the plant can be accelerated at high speed, the ventilation pollen according to the present invention has a structure in which a plurality of ventilation holes are formed in the side wall thereof.

These vent holes may be formed in different locations and numbers depending on the size of the pot. That is, in the case of a small pot, a vent hole is formed in the entire sidewall of the pot. It should be formed from the bottom of the pollen to the bottom of the pot at a point higher than about 1/3 volume.

Thus, for example, a plastic basket such as a plurality of holes formed on the sidewall may be used as a substitute for the pot.

Here, the formation criteria of the ventilation hole depends on the size of the pot and the size of the plant, but generally the capillary phenomenon can occur in the medium cell of the present invention placed inside the pot, depending on whether or not the entire sidewall of the pot It is preferable to use the one in which the ventilation hole is formed or to use the one in which the ventilation hole is formed below the boundary line which divides one third of the internal volume as described above.

Then, the ventilated flower or medium cell is inserted into a separate nutrient storage container containing a separate nutrient solution, but only one third of the volume is immersed in the nutrient solution of the nutrient solution container, the nutrient solution in the nutrient solution is always in the medium cell In addition to being supplied to the roots of planted plants, air is also supplied through the non-immersed part of the nutrient solution of the medium, so that the roots of the plants can absorb the nutrients at all times without being stressed by drying and humidity, and can breathe at the same time. It can keep the optimum growth state at all times and can grow at high speed.

In addition, the cooling / heating air pipe is installed inside the lower portion of the medium cell contained in the ventilated fraction, when a large amount of air is required at the root of the plant in summer, by supplying air through the cooling / heating air pipe, the medium cell In addition to supplying the necessary air to the roots of plants planted in the plant, the air temperature can be used to forcibly cool / heat the roots of plants.

Therefore, in case of abnormal temperature such as high or low temperature, not only can the plant roots breathe normally, but also it can adjust the temperature of the root part to a temperature suitable for growth so that the plant can always maintain the optimal growth state. It is.

On the other hand, in the potted plant is installed at a high level from the nutrient solution storage tank, but arranged in multiple stages, it is possible to install and use a nutrient solution supply for automatic circulation supply of nutrient solution between the ventilated nutrient solution storage tank, The nutrient solution supply table can be constructed with a corrugated pipe filled with a high density water absorbent material therein and a water supply mechanism formed by winding a spiral tube filled with a high density water absorbent material on the surface of the corrugated pipe.

1 is a perspective view showing an embodiment of a discharge cell according to the present invention,

2 is a perspective view showing another embodiment of a discharge cell according to the present invention,

3 is a perspective view showing one embodiment of a ventilated pollen according to the present invention;

4 is a perspective view showing another embodiment of the ventilation pot according to the present invention;

5 is a cross-sectional view showing a state of cultivating a plant by seating the culture cell of FIG.

Figure 6 is a cross-sectional view showing a state supporting column is made of a discharge cell and the discharge cell according to the present invention,

7 is a cross-sectional view illustrating a state in which a cooling / heating apparatus for cooling or heating the root zone of a plant is installed at an inner lower end of a medium cell according to the present invention;

8 is a cross-sectional view showing an example of the nutrient solution supply device for automatically supplying the nutrient solution to the discharge cell from the source when the discharge cell according to the present invention is installed from a high place,

FIG. 9 is a perspective view illustrating a nutrient solution supplying device for supplying nutrient solution to a multi-stage discharge cell as another embodiment of FIG. 8.

* Explanation of symbols on the main parts of the drawings

1-Artificial mixed medium 3-Internal packaging material

5-Outer packaging 7-Upper packaging

9-lower wrapper 11-hole

13-Incision Guide 21-Ventilated Flower Pot

23-vent hole 25- nutrient solution bottle

31- Air Pipe 33-Gravel

35-Auxiliary Flowerpot 41-Nutrient Storage Tank

43-Nutrient Supply Pipe 45-Motor

51-Nutrient Supply Table 53-Moisture Supply Table

55-Corrugated Tube 57-Spiral Tube

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

1 and 2 are perspective views of a discharge cell (S) according to the present invention, as shown in these figures, the discharge cell (S) is packaged so that the medium 1 is kept in a constant form by wrapping paper. Although this wrapping paper may be made into 1 layer, it can also be set as the structure which was secondary-packed by the outer wrapping paper 5 in the state which was primaryly wrapped by the inner wrapping paper 3 as needed.

Here, the medium (1) is an inorganic material that does not cause chemical reactions with the nutrient solution supplied to the plant is basically mixed with water, but the composition of the plant to be cultivated as artificial medium, that is, the crop type is different from the general soil The main raw material is usually a mixture of coco peat, pearlite or hultan.

The artificial mixed medium does not cause chemical reaction with the nutrient solution as described above, and can be supported by the roots of plants, and also does not cause pollution to the natural environment because natural substances are used as they are.

In addition, the artificial mixed medium (1) not only has excellent water absorption and drainage rate, but also has a large porosity, so that the roots of the plant can be sufficiently in contact with the air. Has the advantage of maintaining the best growth environment.

In addition, the artificial mixed medium (1) may be used in the container or potted as it is not in a bulk shape, but using the inner packaging (3) and the outer packaging (5) as needed as shown in Figure 1 It is possible to form a rectangular shape as shown in FIG. 2 or a circular shape as shown in FIG. 2 so that the shape can be maintained as it is even in a planted state.

On the other hand, the inner packaging paper 3 may use only a packaging made of one material or, if necessary, the upper and lower packaging papers 7 and 9 may be separated from each other.

In this case, the upper packing paper 7 supports the internal medium 1 with a sufficient supporting force by using a nonwoven fabric to maintain a constant shape, while the plants planted in the artificial medium 1 irrespective of the watering method of supplying the nutrient solution. The nutrient solution can be supplied evenly.

And the lower wrapping paper (9) can use a fine mesh structure of the fabric, which also provides a good supply of nutrient solution and air communication, while improving the drainage and give fluidity as the plant grows In addition, the root portion of the plant can be obtained to facilitate the discharge of organic matter produced during the growth, development, and extinction process.

On the other hand, the outer packaging paper 5 is preferably used as a material having a predetermined strength that can maintain the internal medium (1) in a predetermined shape as a whole, for example, the outer surface is white and the inner surface is black double vinyl, etc. The same material can be used.

Since the double vinyl blocks heat, it helps to maintain the humidity of the medium and the temperature of the basement, and blocks the weeds and moss, and maintains the proper environmental conditions for plant roots to grow. Therefore, it is suitable to be employed for long-term cultivation of plants from seedlings to saplings.

The outer packaging paper 5 made of the material as described above is preferable to allow the nutrient solution to enter and exit freely through the hole 11 through a plurality of water passage holes 11 at the bottom of the outer surface.

Then, the seedling guide 13 is formed in advance on the upper end of the outer packaging paper 5, and when the seedlings or seeds are planted in the medium 1, the inner guide 1 is opened by unfolding the cut guide 13. Plants can be planted in this medium after exposure.

As described above, the medium cell (S) according to the present invention can be shaped into an appropriate shape as needed in an amorphous medium, while the shape of the medium cell (S) is not easily disturbed, while the medium cell (S) Seedlings planted in) grow completely into saplings, so even when you want to move the place to carry this badge cell (S) as it is, there is an advantage to facilitate the movement of saplings.

On the other hand, Figure 3 shows a ventilated flower pot 21 according to the present invention, the basic structure of the ventilated flower pot 21 is a structure in which a plurality of vent holes 23 are drilled on the surface of the flower pot, The vent hole 23 may be a form in which a plurality of vent holes 23 communicating with the inside are drilled on the side wall while the flower pot 21 is in its basic form.

More specifically, the vent hole 23 may vary in the formation position and number depending on the size of the pot, that is, in a small pot, the vent hole 23 is drilled through the entire sidewall of the pot. It can be used, and for large flower pots, a large number should be formed from the lower part of the total internal volume of the pollen to the bottom of the flower pot from a point higher than about 1/3 volume.

Thus, for example, a plastic basket such as a plurality of holes formed on the sidewall may be used as a substitute for the pot.

Here, the formation criteria of the ventilation hole 23 depends on the size of the pot and the size of the plant, but generally the capillary phenomenon can occur in the medium cell of the present invention placed inside the pot of the pot It is preferable to use the one in which the ventilation hole was formed in the whole side wall, or to use the one in which the ventilation hole was formed below the boundary line which partitions one third of the internal volume as mentioned above.

The ventilated pollen 21 of the present invention plays a very important role in the present invention, and as shown in FIG. 5 in the ventilated pollen 21, in a state in which a medium cell S shaped according to the present invention is placed. As shown in FIG. 6, when the entire ventilated portion 21 is placed in a separate nutrient container 25 containing the nutrient solution containing the nutrients necessary for plant growth, the nutrient solution contained in the nutrient container 25 is It is supplied to the root of the plant which is planted in the medium cell S in the ventilation pot 21 through the ventilation hole 23.

When putting the ventilated flower pot 21 into the nutrient solution container 25, as shown in FIG. 6, only a part or less of the lower part of the entire inner volume of the ventilated flower container 21 is contained in the nutrient solution in the nutrient solution container 25. The vent hole 23 formed in the upper end of the vent pollen 21 is exposed to the atmosphere without being immersed in the nutrient solution.

Therefore, the nutrient solution freely enters and exits through the lower portion of the vent hole 23, and the air can freely communicate through the upper part which is not immersed in the nutrient solution.

On the other hand, the medium cell (S) contained in the ventilated pot 21, as already described sufficiently, since the outer wrapper, the inner wrapper and the medium (1) has air permeability and water absorption, the aeration of the ventilated pot 21 The nutrient solution introduced through the hole 23 is sufficiently supplied to the discharge cell (S).

Therefore, the nutrient solution and the air flowing through the vent hole 23 of the ventilated pot 21 are sufficiently supplied by the capillary phenomenon to the root of the plant planted in the medium cell S of the ventilated pot 21. In addition, since the nutrient solution is supplied through the vent hole 23 and the air can be supplied at the same time, the nutrient solution is always supplied to the root portion of the plant and the air can also be communicated with each other. The plant can be grown in the state that always put (21) in the nutrient container containing the nutrient solution.

As the nutrient solution and air are continuously supplied to the root part of the plant at the same time 24 hours a day, 365 days a year, the plant can be ingested as needed when necessary, so the root of the plant is not always stressed by dry and humid. It is possible to maintain a healthy environment, induce the growth of plants to the maximum, and to grow plants at high speed.

As a result of the actual test, using the method according to the present invention, it can be grown to a size that can not be grown using conventional methods, as well as prove that the growth rate is at least twice as fast.

Meanwhile, specific examples of the ventilated pollen 21 are shown in FIGS. 3 and 4, respectively, and the ventilated pollen 21 of the embodiment illustrated in FIG. 3 corresponds to 1/3 volume of the lower part of the inner volume. As shown in FIG. 3, a plurality of vent holes 23 are bent from a height higher than the height h as a boundary line to a bottom surface of the flower pot 21. As described above, the vent hole 23 may have a structure in which a plurality of vent holes 23 are drilled down from the height h in the vertical direction, and as shown in FIG. 6, the height of the boundary line ( It can also be formed zigzag downward from h).

In addition, as shown in FIG. 4, the vent hole 23 may be formed in the shape of a long hole from the bottom of the pot 21 to a position higher than the height h of the boundary line.

In the structure of the ventilated flower pot shown in FIG. 4, it is preferable that the plurality of vent holes 23 are arranged at a predetermined interval along the circumference of the flower pot.

In addition, although not shown in the figure, in the case of a small flower pot, the ventilation hole 23 may have a structure formed evenly on the entire side wall surface of the pot.

FIG. 7 is a view showing a configuration in which a cooling / heating mechanism is installed inside the discharge cell S contained in the flower pot 21 according to the present invention. The cooling / heating mechanism selectively transfers cooling or heating air, It consists of a cooling / heating air pipe 31 for supplying air into the discharge cell S, a cooling water / heating water supply device (not shown) and an air supply device (not shown) connected to the pipe 31. do.

On the other hand, the pipe 31 is preferably arranged to one or several strands depending on the size of the pot 21 and the exhaust cell (S), it is preferable to be able to supply cooling / heating and air to the entire medium cell (S). .

Therefore, the plant cultivation apparatus equipped with a cooling / heating mechanism according to the present invention supplies cooling or heating air through the pipe 31 when the temperature is excessively high or low, such as in summer or winter, whereby the root of the plant breathes. It can provide the maximum amount of oxygen needed to do this.

And, in the case of installing the pipe 31 as described above, while installing the gravel 33 and the like to help the communication between the air between the discharge cell (S) and the pot (21), as shown in Figure 7 In the case of this large size, the medium 1 can be further replenished in addition to the medium cell S.

In addition, it is possible to install and use an air induction pot 35 to induce the flow of air supplied from the air supply pipe 33 inside the pot 21.

8 is a water supply pot 21 filled with the discharge cell (S) according to the present invention is installed in multiple stages, the nutrient solution storage tank 41 is disposed at the bottom, the nutrient solution storage tank 41 and the respective water passages The nutrient solution supply pipe 43 for supplying nutrient solution between the pots 21 is provided, while the nutrient solution supply motor 45 is installed at the lower end of the nutrient solution supply pipe 43.

The apparatus of the present invention having such a structure is capable of supplying the nutrient solution pumped from the nutrient solution storage tank 41 to each pot 21 installed in multiple stages while the motor 45 operates.

And, the motor 45 is automatically operated in accordance with the signal applied from the water level sensor (not shown) installed in the pot 21 to supply the nutrient solution of the nutrient solution storage tank 41 at a constant water level at all times. It is.

Therefore, in the present invention provided with such a nutrient supply device, even in a configuration in which the pot 21 is installed at a place high or far from a nutrient storage tank 41, that is, a water source for supplying plants, Even without supplying water, the plant can always absorb the water needed to grow optimally.

Therefore, even in the case of flowers planted in urban areas or flower beds, the flowers or plants do not dry out or die due to lack of moisture.

9 is a cross-sectional view showing an example of a modification of the nutrient solution supply device shown in Figure 8, this modified embodiment is a nutrient solution storage tank for storing the nutrient solution in the lower portion of the pot 21 containing the medium cell (S) ( 41 is arranged at predetermined intervals, and the nutrient solution supply stand 51 is provided between the nutrient solution storage tank 41 and the pot 21.

Here, the nutrient solution supply table 51 is formed along the spiral tube formed on the surface of the corrugated pipe 55 and the spiral projection formed on the surface of the spiral tube is filled with a high density moisture absorbing material 53 therein. While wound, it is also composed of a spiral tube 59 filled with a high density moisture absorbent 57 therein.

On the other hand, the water absorbing material (53, 57) filled in the corrugated pipe (55) and the spiral pipe (59) constituting the nutrient solution supply table 51 is made of a material such as a high-density sponge, so that the water once absorbed therein Use something that does not easily escape to nature.

In addition, the water absorbing material 53 filled in the corrugated pipe 55 of the nutrient solution supply table 51 is disposed in a straight line as a whole, so that the water gradient is in a vertical state, that is, the gradient is 90 °, but the corrugated pipe 55 Since the spiral tube 59 wound around is densely wound at a gentle angle along the spiral projection of the corrugated tube 55, the draft angle becomes very small.

Therefore, although the water absorbents 53 and 57 have their own properties as described above, the water absorbed once does not easily escape. However, due to the structural characteristics as described above, the water absorbents 57 of the spiral tube 59 may be used. Since the absorbed water does not fall out more easily, the water of the nutrient storage tank 41 can be continuously delivered to the plant by receiving the absorption power of water generated from the root of the plant planted in the medium cell (S). will be.

The upper end of the spiral tube 59 is directly inserted into the medium 1 embedded in the medium cell S.

Plant cultivator moisture supply device of the present invention having such a structure, in addition to pouring a sufficient amount of water in the nutrient solution storage tank 41 in the initial set state, a sufficient amount of water in the medium (1) in the pot (21) Pour it.

Then, the water absorbing material (53, 57) filled in the corrugated pipe (55) and the spiral pipe (59) of the water supply device absorbs the water of the nutrient solution storage container 41 from the bottom, and is poured into the pot (21) Water is permeated from above the moisture absorbents 53 and 57.

When left in this state, water permeated into the water absorbents 53 and 57 is sucked upward by the water absorbing power generated from the roots of the plants planted in the medium cell S.

At this time, the water absorbed through the corrugated pipe 55 immediately flows into the lower end of the discharge cell (S), and the water absorbed through the spiral pipe (59) is supported on the top of the spiral pipe (59) ( Through 61) is introduced into the lower end of the medium cell (S).

Accordingly, the water absorbed by the water absorbents 53 and 57 is not immediately drained down, but is gradually absorbed into the roots of plants planted in the medium cell S, and the water absorbed state is absorbed by the capillary phenomenon. The nutrient solution stored in the nutrient solution storage container 41 is delivered to the bottom of the 53, 57 is sucked into the moisture absorbent (53, 57).

Therefore, due to the absorbing power generated from the roots of the plant as a whole and the capillary phenomenon of the water absorbents 53 and 57, the water in the nutrient solution container 41 is contained in the pot 21 without being powered, and the plant is planted with a medium cell (S). ) Will be supplied continuously.

And, since the supply state of the water is determined by the absorption power according to the growth state of the plant planted in the medium cell (S), it is possible to maintain the optimum state at all times without excessive supply of water.

In addition, the water supplied to the medium cell (S) through the nutrient solution supply table 51 is supplied only to the lower side of the medium cell (S), the water supplied to the bottom of the medium cell (S) is the medium cell (S) ) The roots of the plants arranged on the upper side of the medium cell (S) that is not directly in contact with the nutrient supply table 51 are transferred to the roots of the plants planted upward by their own infiltration pressure. The roots of the plant can be exposed to a sufficient amount of water and at the same time can breathe a sufficient amount of air. It can be maintained to grow in this optimum state.

In addition, in order for the nutrient solution supply table 51 to be fixedly installed between the flower pot 21 and the nutrient solution storage container 41, the nutrient solution supply table 51 is formed in the shape of a pedestal, and the upper accompaniment (2) The nutrient solution supply table 51 may be supported by another supporting means 61 as shown in FIG.

As described above, the plant cultivation method and the apparatus using the bottom irrigation method according to the present invention can obtain various effects as follows.

1. Since the medium cell according to the present invention is packaged as an artificial medium, the seedlings are planted in the medium cell, or the seeded plant is grown, and then it can be easily moved with the root of the plant to which the root is planted. Therefore, because it is easy to grow, if the flower must be continuously discharged like a flower plantation or a specific plant must be discharged every day continuously, the seedlings or seeds are grown in a separate place, and then the produced flowers or plants are discharged. Only the trees that are ready for production can be cut in the discharge greenhouse, so that part of the discharge greenhouse can be kept in a ready state, and the entire discharge greenhouse can be kept ready for production. will be.

2. In addition, the ventilated pollen according to the present invention can always absorb the moisture and nutrients necessary for the growth of the plant, so that the air required from the root can be supplied at the same time, so that the root of the plant does not have to worry about water management, etc. It is possible to maintain an optimal environment free from stress caused by drying and humidity, and to grow plants at high speed.

3. In addition, in the present invention, since the cooling / heating air pipe is installed inside the lower end of the medium cell, it is possible to forcibly supply the air (oxygen) necessary for the root of the plant to breathe in a cold or a cold season, thereby providing an optimal plant. You can always grow fast and fresh in a healthy state.

4. And, in the present invention, even if the pot is far away from the nutrient solution storage tank or installed in a high place, so that the plants planted in these pots can grow to the optimal state, the moisture required for the growth of the plant automatically Make sure it's always a constant supply.

Claims (7)

The medium for planting the plant is made of artificial medium consisting of a mixture of cocopite, pearlite, or huntan, and the bulk artificial medium is wrapped by the wrapping paper to maintain a constant shape, and the plurality of water passages in the wrapping paper are maintained. On the other hand, the plant cultivation apparatus using the bottom irrigation method, characterized in that consisting of a medium cell formed with an incision guide for planting seedlings or seeds. The method of claim 1, wherein the wrapping paper is made of an inner packaging and an outer packaging, the inner packaging is a secondary packaging by the outer packaging in a state in which the artificial medium is primary packaging, the inner packaging is the communication of moisture and air The outer packaging paper is made of a material such as double vinyl having a predetermined strength capable of maintaining an internal medium in a predetermined shape, while the water passage hole and the incision guide part penetrate the inner and outer wrapping paper. Plant cultivation apparatus using a bottom irrigation method, characterized in that formed. According to claim 1, wherein the medium cell is installed in the ventilated air permeable to a plurality of vent holes from the lower than the boundary of the point corresponding to 1/3 of the inner volume of the pot to the bottom of the pot Plant cultivation apparatus using a bottom irrigation method, characterized in that. The plant cultivation apparatus using a bottom surface irrigation method according to claim 2, wherein a cooling / heating air pipe is installed in a lower portion of the medium cell contained in the ventilating portion. 3. The nutrient solution supply stand according to claim 2, wherein the nutrient solution supply stand is provided between the ventilated solution and the nutrient solution storage tank while the ventilated flower pot is installed at a high level from the nutrient solution storage tank, and is arranged in multiple stages. The plant cultivation apparatus using the bottom irrigation method characterized in that it is provided with a corrugated pipe filled with the water and a water supply mechanism formed by winding a spiral tube filled with a high density moisture absorbent on the surface of the corrugated pipe. In the plant cultivation method using the bottom irrigation method to grow the plant by supplying the moisture or nutrients necessary for the growth of the plant from the root under which the plant is planted, A medium cell preparation step of shaping an artificial medium made of a mixture of cocopite, pearlite or hultan and wrapping it in a wrapping paper with excellent breathability and moisture absorption to maintain a constant shape; Plant planting step of planting the plants to be grown in the culture medium cell, A medium cell setting step of inserting a plant-cultured medium cell into a nutrient solution storage tank having a larger size than the medium cell, and The nutrient solution is poured into the nutrient solution storage container is set, the nutrient solution is prepared so that the nutrient solution is not occupied higher than the height of the third point from the bottom of the discharge cell, and stored in the nutrient storage container The nutrient solution is always supplied to the roots of the plant planted in the medium cell, and the air is always supplied to the root of the plant planted in the medium through the capillary of the medium cell exposed to the atmosphere. Normal nutrient feeding plant growing method using the bottom irrigation method which grows the plant with the roots not exposed to the nutrient solution and air at all times. In the plant cultivation method using the bottom irrigation method to grow the plant by supplying the moisture or nutrients necessary for the growth of the plant from the root under which the plant is planted, A medium preparation step of embedding in an artificial medium or a side wall made of a mixture of cocoite or pearlite or huntan into a ventilated portion having a plurality of vent holes; A plurality of vent holes are formed in the side wall, which are drilled a lot from the lower part of the inner pot of the pot to at least one third of the bottom of the pot, from the bottom of the pot to the bottom of the pot. Placing the medium in the ventilated fraction, Plant planting step of planting the plants to be grown in the medium, A water pollutant setting step of inserting a plant-planted aeration pot into a nutrient storage tank having a diameter larger than that of the ventilated pot, and The nutrient solution is poured into the nutrient solution reservoir in which the hydration pot is set. The nutrient solution exposes a part of the vent holes formed in the ventilated potion to the air, and the nutrient solution becomes 1/3 of its internal volume from the bottom of the ventilated pot. It is configured to include a nutrient solution preparation step so that it does not occupy higher than the height of, so that the nutrient solution stored in the nutrient solution reservoir is always supplied to the root of the plant planted in the medium through a vent hole formed in the ventilation pot, By providing air to the roots of the plants planted in the medium through the vent holes exposed to the atmosphere, the bottom irrigation method is used to grow the plants with the roots always exposed to the nutrient solution and the air so that the roots of the plants are not damaged. Normal nutrient solution plant cultivation method