KR101308556B1 - Filtering apparatus for hydroponics cultivation - Google Patents

Abstract

The present invention is provided with a cylindrical filter body (20a), the funnel-shaped outlet (20b) integrally formed in the lower portion of the filter body (20a) and the diameter of the mesh in the boundary between the filter body (20a) and the outlet (20b) A mesh 24 having a diameter of 0.6 mm or less is installed, and a filter 24 having a nano silver coated glass bead 26 having nano silver coating formed thereon on a glass bead surface is formed on the upper surface of the mesh 32. Is formed by evenly mixing the nano-silver coated glass beads 26 of different sizes in the range of 0.6 ~ 3.5mm diameter, to protect the crops from pests by antibacterial and sterilizing the culture medium reused in the hydroponic cultivation apparatus, Environmental pollution can be prevented and production efficiency can be increased.

Description

Hydroponic strainer {FILTERING APPARATUS FOR HYDROPONICS CULTIVATION}

The present invention relates to a filter, and more particularly, to a hydroponic cultivation filter using nano silver coated glass beads having a bactericidal and antibacterial function.

In general, hydroponic cultivation is a method of cultivating plants using a culture solution in which various necessary nutrients are dissolved in water instead of receiving water and various nutrients necessary for plant growth. It is a kind of plant cultivation method that has been in the spotlight recently because of its advantage that it can promote pollution-free cultivation and freshness.

This hydroponic cultivation is grown in the form of seedlings grow to a suitable size and transplanted into a cultivation plate, and then cultivation in the form of supplying a culture solution by installing the cultivation plate in a hydroponic cultivation apparatus.

Generally, the hydroponic cultivation apparatus is mounted in a multi-stage supporting frame over a tray, and installed in a tray for seating a redistribution plate. In addition, a water supply tank for supplying the culture solution to each tray and a collecting tank for collecting the culture solution drained from each tray are installed at one end of the support frame and the other end of the support frame, and the supply tank and the collection tank are each tray and a water supply line or a drain line. Is connected. Then, the water supply tank and the collecting tank are connected to the circulation line, and the circulation line is provided with a circulation pump for pumping the culture liquid collected into the collecting tank back to the water supply tank.

However, the hydroponic cultivation device as described above relies on passive physical methods such that the defense against various pests in advance prevents the invasion of pests due to the characteristics of hydroponic cultivation. Since the active methods such as this cannot be used, the infested pests contaminate the culture solution that is repeatedly used, so that hydroponic crops have a high risk of disease, and the culture solution discharged after a certain period of time may cause environmental pollution.

Korean Unexamined Patent Publication No. 10-2010-0121042, Ginseng hydroponic cultivation method and cultivation device

Accordingly, an object of the present invention is to provide a hydroponic cultivation filter that can protect the crops from pests by antibacterial and sterilizing the culture medium reused in the hydroponic cultivation apparatus, increase the production efficiency of the crops, and reduce the cost and environmental pollution. Is in.

The hydroponic cultivation filter of the present invention for achieving the above object is provided with a cylindrical filter main body 20a, and the funnel-shaped outlet 20b is integrally formed under the filter main body 20a and the filter main body 20a is integrated. On the boundary between the outlet and the outlet 20b, a mesh 32 having a diameter of 0.6 mm or less is installed, and a filter on which the nano silver-coated glass beads 26 are formed on the upper surface of the mesh 32 in which nano silver is coated. Wherein 24 is formed, the filter 24 is characterized in that formed by evenly mixing the nano-silver coated glass beads 26 of different sizes having a diameter in the range of 0.6 ~ 3.5mm.

The present invention protects the crops from pests by antibacterial and sterilizing the culture medium recycled from the collection tank to the water supply tank, so that the culture medium used for hydroponic cultivation can be repeatedly used for a long time to reduce the cultivation cost and discharge the contaminated culture solution Environmental pollution due to can be prevented, there is an effect that can increase the production efficiency of crops.

1 is a block diagram of a hydroponic cultivation filter according to an embodiment of the present invention,
2 is a state diagram used in the hydroponic strainer according to an embodiment of the present invention.

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

The present invention installs a filter formed by mixing evenly mixed nano silver-coated glass beads by size in a hydroponic cultivation device to protect the crops from pests by antibacterial and sterilizing the culture medium that is circulated from the collection tank to the water supply tank and reused. It is possible to reduce costs and to prevent environmental pollution caused by the discharge of contaminated culture.

1 is a block diagram of a filter according to an embodiment of the present invention, Figure 2 is a state diagram used in the hydroponic cultivation apparatus according to an embodiment of the present invention.

The filter 20 according to the embodiment of the present invention is formed by integrally forming the outlet 20b in the filter body 20a, and the filter 24 formed of the nano-silver coated glass beads 26 in the filter body 20a. Is installed and configured.

In the embodiment of the present invention, the filter main body 20a may be formed in a cylindrical shape, and the discharge main body 20b formed in the form of a funnel may be integrally formed in the filter main body 20a. The mesh 32 is provided at the boundary with the outlet 20b in the filter main body 20a, and the nano silver-coated glass beads 26 are stacked on the upper end of the mesh 32 to form a filter 24.

The nano silver coated glass beads 26 used as the filter 24 of the filter 20 may use the nano silver coated glass beads of Patent Nos. 1009461 and 7501941 registered by the present applicant.

Nano silver coated glass beads 26 are formed by heating the nano silver colloidal solution on the glass beads. In the nano state, silver has a very strong sterilizing effect. When nano silver is coated on glass beads, the merits of glass beads and nano silver are harmonized and sterilization without the use of chemicals is very effective as a filtration filter.

In particular, when the filter 20 equipped with the filter 24 formed of the nano silver-coated glass beads 26 is used in the hydroponic cultivation apparatus 2, the culture medium (W) to be reused is antibacterial and sterilized from pests. The crops can be protected, and the culture medium (W) can be repeatedly used for a long time, thereby reducing costs, and increasing the production efficiency of the crops.

The filter 24 of the filter 20 used in the hydroponic apparatus 2 as described above is used by mixing evenly mixed nano silver coated glass beads 26 having diameters of different sizes within a range of 0.6 to 3.5 mm. Most preferably. In addition, the mesh body 32 installed in the filter main body 20a forms a mesh of less than the minimum diameter of the nano silver coated glass beads 26 so that the nano silver coated glass beads 26 do not escape to the outlet 20b. In the embodiment of the present invention, the diameter of the mesh is preferably formed to be 0.6 mm or less, more preferably less than 0.6 mm.

If the diameter of the nano silver-coated glass bead 26 does not reach the lower limit, the filter 24 may be too slow to filter the culture solution W so that the nano silver-coated glass bead 26 escapes into the mesh 32. If the diameter of the nano-silver coated glass beads 26 exceeds the upper limit, the culture medium W may be filtered quickly, but the antibacterial and bactericidal effects may be reduced.

Accordingly, the filter 24 has nano silver coated glass beads 26 having different diameters in the range of 0.6 to 3.5 mm in order to optimize the rate at which the culture liquid W is filtered and the antimicrobial and bactericidal effect while minimizing voids. ) Can be mixed evenly.

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As shown in FIG. 2, the filter 20 having the above configuration may be installed at an inlet of the water supply tank 8 of the hydroponic cultivation apparatus 2. In one example of the present invention, the filter 20 is installed at the inlet of the water supply tank 8, but as a modification, the filter 20 may be installed at the inlet and outlet or the circulation line 8 of the collection tank 10. It will be apparent to those skilled in the art.

As shown in FIG. 2, the hydroponic cultivation apparatus 2 according to the exemplary embodiment of the present invention has a tray 6 on which a redistribution plate is mounted on the support frame 4, and flows into the upper end of one side of the support frame 4. A water supply tank 8 equipped with a filter 20 is installed at a portion thereof, and a collecting tank 10 for collecting the culture liquid W flowing out of each tray 6 is installed at the lowermost end of the support frame 4. In addition, the water supply tank 8 and the water collecting tank 10 are connected to the circulation line 16, and a circulation pump for pumping the culture liquid W collected in the water collecting tank 10 back to the water supply tank 8 therebetween. 18) is installed.

In an embodiment of the present invention, the support frame 4 of the hydroponic cultivation apparatus 2 may be formed in multiple stages up and down to mount the plurality of trays 6.

The tray 6 is composed of a square cylinder whose upper side is opened and is formed of a plastic material. Inside the tray 6, a redistribution plate in which crops are planted is seated. The bottom of the tray 6 is formed with a plurality of drain holes through which the culture fluid W is drained.

Each tray 6 mounted on the branch frame 4 has a water supply line 12 connected to the water supply tank 8 at one side thereof, and a drain line 14 connected to the water collecting tank 10 at the other side thereof. do.

The water supply tank 8 at the top of one side of the hydroponic cultivation apparatus 2 has the top support frame 4 so that the culture medium W may be naturally supplied to the tray 6 of the support frame 4 using a natural drop. It is installed at a higher position.

A filter 20 having a filter 24 is installed at an inlet part of the circulation line 16 connected to the collection tank 10 to the water supply tank 8.

Culture medium (W) flowing into the water supply tank (8) through the circulation line 16 must be sterilized and antibacterial through the filter 20 equipped with a filter 24 formed of nano silver coated glass beads 26 Reflow into feed water tank (8).

On the other hand, one side of the water supply tank (8) is connected to the raw water line 28 for supplying the raw water and the culture medium supplementation line 30 for additionally supplying the culture solution (W). Raw water line 28 is connected to the water pipe, the culture medium supplementation line 30 is connected to the culture medium supplementation tank.

The culture medium (W) of the water supply tank (8) is supplied to the crops of the cultivation plate seated on each tray (6) of the support frame (4) and then exits to the drain hole of the tray (6) through the drain line (14) It will flow to the collecting tank (10).

The collecting tank 10 of the hydroponic cultivation apparatus 2 is installed at a lower position than the lowermost end of the support frame 4 so that the supplied culture liquid W can naturally escape into the drain hole of each tray 6.

The collecting tank 10 is connected to the water supply tank 8 through the circulation line 16, and the circulation line 18 is equipped with a circulation pump 18 so that the culture solution W collected in the collection tank 10 is supplied again. It is configured to be pumped into the tank (8).

A normal filtration filter 22 for protecting the circulation pump 18 is provided between the collecting tank 10 and the circulation pump 18. Then, the culture solution (W) collected in the collecting tank (10) circulates through the circulation line (16), and flows back into the water supply tank (8) through the filter (20) having a filter (24) to support the frame (4). The process of supplying the crops of the redistribution of each tray (6) mounted on it is repeated.

In the above description of the present invention, the application of the filter according to the embodiment of the present invention has been described using the hydroponic cultivation apparatus as an example, but the filter according to the embodiment of the present invention sterilizes and antibacterial the culture solution used for crops in addition to the hydroponic cultivation apparatus. It can also be used for the purpose of, and various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited by the described embodiments but should be determined by the equivalents of the claims and the claims.

4: support frame 6: tray
8: water supply tank 10: water collecting tank
12: water supply line 14: drainage line
16: circulation line 18: circulation pump
20: filter 24: filter
26: Nano Silver Coated Glass Bead

Claims (2)

A cylindrical filter main body 20a is provided, and a funnel-shaped outlet 20b is integrally formed in the lower part of the filter main body 20a, and the diameter of the mesh eye is 0.6 mm or less at the boundary between the filter main body 20a and the outlet 20b. The mesh 32 is installed, and the upper surface of the mesh 32 forms a filter 24 on which the nano silver-coated glass beads 26 formed with nano silver coating on the glass bead surface are formed, and the filter 24 has a diameter. Hydroponic cultivation filter, characterized in that formed by evenly mixing the nano-silver coated glass beads (26) of different sizes in the range of 0.6 ~ 3.5mm.
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