KR20170138009A - tunnel bar for transfering water and moisture - Google Patents

Abstract

The present invention relates to a tunnel bar for transferring water. The tunnel bar can consistently provide water stored in a plant cultivator to soil for growth of a certain height. The tunnel bar for relatively equally providing water to soil for growth of a certain height of a plant cultivator which accommodates a predetermined quantity of water comprises: a non-woven tunnel for absorbing water, penetrating the soil for growth, arranged to come in contact with the water, and forming a transferring route by forming a cylindrical space; phyllite powder located at the transferring route, formed in a shape with minimized porosity, and providing water to the soil for growth by drawing up the water with surface tension and adhesive power of capillarity; a collecting non-woven fabric located at a bottom part of the non-woven tunnel, blocking a spill of the phyllite powder, and wetted by the water to be transferred to the phyllite powder; and a distributing non-woven fabric located at a top part of the non-woven tunnel, and distributing and providing the water of the phyllite powder to the soil for growth.

Description

Tunnel bar for transferring water and moisture

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tunnel wick for water transmission, and more particularly, to a water-borne tunnel wick for continuously supplying water stored in a plant management apparatus to a growing soil at a constant height.

Generally, the water-supplying wick enables water to be supplied in a separate water tank space to the planted planted flower pot to allow stable natural growth.

The Applicant filed a registration application (20-0179704) for a utility model registration application on December 12, 1999 as a "utility water supply device for a plant growing machine" A water source 3 storing water to be supplied to the culture medium 1 is arranged at a predetermined distance below the water supply source 3 and a water supply stand 4) are installed; The water supply table 4 includes a corrugated tube 7 having a spiral projection 5 formed on its surface and filled with a high density moisture absorbent 6 therein and a spiral projection 7 formed on the surface of the corrugated tube 7 5, and a spiral tube 9 filled with a high-density water-absorbing material 8 therein.

However, since the water-absorbing material is composed of a material having the same density as the sponge, there is a problem in that water can not be transported even at a high density, and the water can not be transported beyond a predetermined height of about 10 cm.

In addition, water can be transported to a region of a slightly higher position only if the water absorbent material is spirally formed. However, it is impossible to transfer and supply water to a region higher than that, or the height determined according to the planted plant, It is impossible to transfer and supply the water to the growing soil which is applied to the root edible plants such as the boll weevils, the bellflowers, and the burdock, thereby obstructing the growth and causing a serious obstacle to the growth.

Disclosure of the Invention The present invention was conceived in order to solve the above-mentioned problems. It is an object of the present invention to provide a method for continuously and rapidly supplying water contained in a plant cultivation control unit to a growing soil at a constant height, The object of the present invention is to provide a watertight tunnel wick that can supply water and water as much as necessary to Kumo in a smooth and rapid manner.

In addition, the present invention relates to a plant growth control apparatus for growing an edible plant, and more particularly, to a plant having a sufficient height required for root plants such as radish, bellflower and burdock, It is the purpose of this invention to provide a tunnel for the transmission of water to provide an environment where there is a need for water.

In addition, the present invention provides a method for controlling the growth of vegetative food by supplying water in the water tank space to the vegetated space to enable growth of the edible plant when the water in the water tank space is separated from the vegetation space containing the growth- It provides a tunnel tunnel for transport, and has its purpose.

In addition, the present invention provides water in the water tank space to the vegetated space in which the edible plants are planted to minimize the porosity so as to enable the growth of edible plants, thereby improving the surface tension, Or the water is quickly pulled up, so that it is possible to supply the edible plant smoothly.

According to the above object, the present invention provides a tunnel wick for supplying water to a growing soil of a plant growing management apparatus for receiving predetermined water relatively uniformly to a growing soil of a predetermined height; A water-absorbing nonwoven fabric tunnel disposed so as to penetrate the growing soil through the water to form a cylindrical space to form the water transfer path; A phyllotaxis powder having a shape with a minimum porosity and located on the transfer path, for drawing the water in a height direction by surface tension and adhesion force according to a capillary phenomenon and supplying the water to the growth soil; A collecting nonwoven fabric which is located below the nonwoven fabric tunnel and which is wetted with water and transmits the recovered nonwoven fabric powder to the cyanophyllum powder while blocking the flow of the cyanophyllum powder; And a distribution nonwoven fabric for distributing and supplying the moisture of the coconut palm powder to the growing soil on the upper side of the nonwoven fabric tunnel.

An insertion tube which is brought into contact with an outer diameter of the water absorbing nonwoven fabric tunnel in a slightly cured state in a cylindrical shape and is forced to be inserted into the growing soil;

And a rod swell portion disposed in a height direction within the cloth powder and swelling to a predetermined volume within the silica powder to induce continuous surface tension and adhesion of the capillary phenomenon to the porcelain powder.

Here, it is preferable that at least one of the clay and the loess is mixed with the fountainhead powder.

According to another aspect of the present invention, there is provided a tunnel core for supplying water to a growing soil of a plant growing management apparatus, the water being relatively uniformly supplied to a growing soil of a predetermined height; An insertion tube disposed so as to reach the water through the growing soil to form a conveying path of the cylindrical space in a somewhat cured state and forcibly guiding the soil into the growing soil; A phyllotaxis powder having a shape with a minimum porosity and located on the transfer path, for drawing the water in a height direction by surface tension and adhesion force according to a capillary phenomenon and supplying the water to the growth soil; A collecting nonwoven fabric which is located below the nonwoven fabric tunnel and which is wetted with water and transmits the recovered nonwoven fabric powder to the cyanophyllum powder while blocking the flow of the cyanophyllum powder; And a distribution nonwoven fabric located on the upper side of the nonwoven fabric tunnel and distributing moisture of the phylloidal powder to the growing soil.

A water absorbing nonwoven fabric tunnel disposed in a cylindrical shape between the insertion tube and the cemented carbide powder and disposed in contact with the water to form a cylindrical space to form the auxiliary transport path for the moisture; And a rod swell portion disposed in a height direction within the cloth powder and swelling to a predetermined volume within the silica powder to induce continuous surface tension and adhesion of the capillary phenomenon to the porcelain powder.

Here, it is preferable that at least one of the clay and the loess is mixed with the fountainhead powder.

The present invention not only supplies the water contained in the plant cultivation control apparatus to the growing soil at a constant height continuously and rapidly but also smoothly and quickly the water and the water necessary for the growing soil required for the planted edible plant or the planting plant Therefore, it is effective to grow all the edible plants such as root, leaf, trifoliate, and dumplings in the plant management system and extend the harvest period to increase the yield.

In addition, the present invention relates to a plant growth control apparatus for growing an edible plant, and more particularly, to a plant having a sufficient height required for root plants such as radish, bellflower and burdock, And thus it is possible to stably promote the growth of the root roots and to maximize the growth of the root roots.

In addition, in the present invention, in the case where the vegetation space containing the growing soil is separated from the water tank space separated by a predetermined distance, water in the water tank space is supplied to the vegetation space to activate the edible plant, It is possible to satisfy the supplyable vegetation environment irrespective of the required cultivation environment, and particularly, it is possible to smoothly supply the water supply to the decorative object or flower bed.

In addition, the present invention provides water in the water tank space to the vegetated space in which the edible plants are planted to minimize the porosity so as to enable the growth of edible plants, thereby improving the surface tension, Or the water is rapidly drawn up, the edible plant and the ornamental plant can be supplied with water in a separate tank in the long term since the edible plant and the ornamental plant are supplied smoothly to the edible plant.

1 is a cross-sectional view showing a plurality of embodiments in front of a tunnel for water transport according to the present invention.
FIG. 2 is a cross-sectional view showing a state where a water distribution tunnel wick according to the present invention is installed in a plant cultivation management apparatus.

Hereinafter, a water transmission tunnel wick according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the water distribution tunnel wick 1 is penetrated and buried in the plant growth management unit 20 having the water tank space and the growth space from the growth space to the water tank space , The water in the water tank space can be fed to the edible plant cultivated in the growing soil 21 in the growing space to be smoothly supplied. Here, the pearlite 22 is filled in the water tank space, and water is kept moisturized constantly.

That is, the water transmission tunnel wick (1) for supplying water to the growing soil relatively uniformly at a constant height in a plant cultivation management apparatus for receiving predetermined water, comprises a water absorbing nonwoven fabric tunnel (3) (5), a collecting nonwoven fabric (7), and a distribution nonwoven fabric (9).

The water-absorbing nonwoven fabric tunnel 3 has a moisturizing function to humidify water. The water-absorbing nonwoven fabric tunnel 3 penetrates through the growing soil 21 to penetrate water in the watertank space and is arranged to form a cylindrical space, As shown in Fig. In addition, it has a moisturizing microfiber structure and function so as to have the cylindrical space, and a span function is formed in one direction to fill the cylindrical space and form a restoring force by expansion and contraction.

The phyllite powder 5 is configured to crush phyllite rock with a powder to maximize the surface tension of the liquid, and the porosity is minimized at the transfer path to form a strong surface tension. The surface tension of the capillary phenomenon The water is raised in the height direction by an adhesive force so as to be supplied to the growing soil.

Since the cemented carbide powder 5 maximizes the surface tension of the liquid by itself, the degree of water supply may vary depending on the growing edible plants. Therefore, in order to adjust the surface tension to a desired level, any one of the clay powder and the loess powder Or a mixed powder of clay powder and loess powder can be additionally mixed.

Here, the cemented carbide powder 5 filled in the conveying path of the nonwoven fabric tunnel 3 has a relatively high porosity at the time of initial acceptance, but the porosity is minimized by using vibration and various external forces (including hydraulic power) Porosity shall be established.

The collecting nonwoven fabric 7 is located under the nonwoven fabric tunnel 3 and acts as a ridge and is prevented from flowing out of the fleece rock powder 5 and is wetted with water and transferred to the flecking rock powder 5. The material is formed to be the same or similar to that of the nonwoven fabric tunnel (3).

The distribution nonwoven fabric 9 is located in the upper side of the nonwoven fabric tunnel 3 to distribute and supply the moisture of the cemented carbide powder 5 to the growing soil 21 uniformly. This ensures that the phyllite powder 5 does not flow out to the outside by the external force in the conveying path, and it is possible to supply water and moisture to the middle region of the growing soil 21, Or may be formed in the intermediate region.

The watertight tunnel wick 1 according to the present invention as described above maximizes the surface tension and adhesion force due to the capillary phenomenon by the insertion tube 11 and the rod swelling portion 13, Thereby preventing complete and safe water and water supply to the edible plants planted in the growing soil.

The insertion tube 11 is brought into contact with the outer diameter of the water absorbing nonwoven fabric tunnel 3 in a cylindrical shape in a predetermined cured state and is guided to be forcefully insertable into the growth ground 21 and the pearlite 22 . This is because, when the rod swelling portion 13 is embedded in the cemented carbide powder 5 of the transfer path in the height direction, the water-absorbing nonwoven fabric tunnel 3 expands when the rod swelling portion 13 is swelled by water or moisture by itself Thereby preventing further expansion by the insertion tube 11 and maintaining the porosity of the fir-bearing powder 5 at an optimal level.

The rod swelling portion 13 is formed of bentonite which swells in volume when absorbed moisture, and is arranged in a height direction within the flowing powder 5, and is swollen to a predetermined volume within the swirl arm powder, Leading to continuous surface tension and adhesion of the capillary phenomenon to porosity.

1, according to another embodiment of the watertight tunnel wick 1 according to the present invention as described above, unlike the above-described embodiment, the watertight tunnel wick 1 according to the present invention includes the insertion tube 11, the phyllite powder 5, A nonwoven fabric 7, and a distribution nonwoven fabric 9. Here, the insertion tube 11 is the same except for the insertion tube 11, and the insertion tube 11 is disposed so as to reach the water through the growing soil, and forms a conveying path of the cylindrical space in a predetermined curing state, To be able to be inserted forcibly.

On the other hand, the surface tension and the adhesion force due to the capillary phenomenon are maximized by the water absorbing nonwoven fabric tunnel 3 and the rod swelling portion 13, thereby preventing the moisture transfer from being cut off, thereby maintaining the optimum capillary phenomenon. The water absorbing nonwoven fabric tunnel 3 is positioned between the insertion tube 11 and the phyllite powder 5 in the form of a cylinder so that the water absorbing non- And a cylindrical space is formed to form the auxiliary transfer path of the moisture.

The tunnel wick 1 according to the present invention as described above can be formed by twisting at least a plurality of spirals so that a larger amount of water and water can be supplied to the edible plants cultivated in the growing soil And can supply more smooth water supply, farther, higher supply. 2, when the edible plant grows in the longitudinal direction such as burdock, bellflower, radish, etc., the height extension portion 25 for extending the height direction is inserted into the inner surface of the plant cultivation control device So as to be buried. The twisted tunnel wick is more effective when the height extension portion 25 is installed.

One ; Tunnel wick 3; Nonwoven fabric tunnel
5; Phyllite powder 7; Collection nonwoven fabric
9; Distribution nonwoven fabric 11; Insertion tube
13; Rod swelling part

Claims (4)

1. A tunnel wick for supplying moisture to a growing soil at a predetermined height relatively uniformly in a plant growing management apparatus for receiving a predetermined water;
A water-absorbing nonwoven fabric tunnel disposed so as to penetrate the growing soil through the water to form a cylindrical space to form the water transfer path;
A phyllotaxis powder having a shape with a minimum porosity and located on the transfer path, for drawing the water in a height direction by surface tension and adhesion force according to a capillary phenomenon and supplying the water to the growth soil;
A collecting nonwoven fabric which is located below the nonwoven fabric tunnel and which is wetted with water and transmits the recovered nonwoven fabric powder to the cyanophyllum powder while blocking the flow of the cyanophyllum powder;
And a distribution nonwoven fabric for distributing and supplying moisture of the above-mentioned coconut palm powder to the growing soil on the upper side of the nonwoven fabric tunnel.
The method of claim 1, further comprising:
An insertion tube which is brought into contact with an outer diameter of the water absorbing nonwoven fabric tunnel in a somewhat cured state in a cylindrical shape and is forced to be inserted into the growing soil;
Further comprising a rod swell portion disposed in the height direction within the cloth powder to swell to a predetermined volume within the rock powder to induce continuous surface tension and adhesion of the capillary phenomenon to the porosity;
Wherein the phyllite powder is mixed with at least one of clay and loess.
Claims [1] A tunnel core for supplying moisture to a growing soil of a plant growing management system for receiving predetermined water relatively uniformly to growing soil of a certain height;
An insertion tube disposed so as to reach the water through the growing soil to form a conveying path of the cylindrical space in a somewhat cured state and forcibly guiding the soil into the growing soil;
A phyllotaxis powder having a shape with a minimum porosity and located on the transfer path, for drawing the water in a height direction by surface tension and adhesion force according to a capillary phenomenon and supplying the water to the growth soil;
A collecting nonwoven fabric which is located below the nonwoven fabric tunnel and which is wetted with water and transmits the recovered nonwoven fabric powder to the cyanophyllum powder while blocking the flow of the cyanophyllum powder;
And a distribution nonwoven fabric located on the upper side of the nonwoven fabric tunnel and distributing moisture of the phylloidal rock powder to the growing soil.
4. The method of claim 3, further comprising:
A water absorbing nonwoven fabric tunnel disposed in a cylindrical shape between the insertion tube and the cemented carbide powder and disposed in contact with the water to form a cylindrical space to form the auxiliary transport path for the moisture;
Further comprising a rod swell portion disposed in the height direction within the cloth powder to swell to a predetermined volume within the rock powder to induce continuous surface tension and adhesion of the capillary phenomenon to the porosity;
Wherein the phyllite powder is mixed with at least one of clay and loess.

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