KR200300145Y1 - The vessel of farming products for equipment culture - Google Patents

Abstract

The present invention relates to a plant cultivation container for plant cultivation.

The present invention is intended for use in plant cultivation containers for plant cultivation using waste synthetic resins such as waste vinyl or plastics alone or waste wastes such as steel slag, steel dust (iron salt), or fly ash, which are a kind of waste synthetic resins and industrial wastes. It is about.

The plant cultivation container for plant cultivation according to the present invention is made by adding 1 to 5% of waste synthetic resin and antioxidant to the weight of waste synthetic resin as raw material or 40 to 80% by weight of waste synthetic resin, 20 to 60% by weight of inorganic waste, and antioxidant. Addition of 1 to 5% to the weight of the waste synthetic resin and the inorganic waste mixture can be used as a raw material.

Description

The vessel of farming products for equipment culture

The present invention relates to a plant cultivation container for plant cultivation.

The present invention is intended for use in plant cultivation containers for plant cultivation using waste synthetic resins such as waste vinyl or plastics alone or waste wastes such as steel slag, steel dust (iron salt), or fly ash, which are a kind of waste synthetic resins and industrial wastes. It is about.

As the industry develops rapidly, the urban population ratio is approaching 90%. As a result, the agricultural phenomenon has sharply decreased, resulting in a significant decrease in rural labor force, and the average age of agricultural workers is increasing. On the other hand, due to the pressure to open foreign agricultural products, the traditional rice farmers have been hit hard, so it is inevitable to change crops crops. Facility cultivation is a labor-intensive, labor-intensive one that relies on human labor rather than mechanical work. Due to such a poor working environment, people who have been working in facility cultivation for a long time suffer from various diseases, and a typical case suffers from back pain caused by prone work.

Therefore, in the present design, to reduce the labor intensity, we develop a container for growing crops suitable for plant cultivation and install it at a certain height from the ground to suit the working conditions, thereby significantly reducing the intensity of labor during work.

Microorganisms play a very important role in cultivating crops. Microorganisms not only decompose animal and carcasses in the ground to provide nutrients for crops, but also modify nitrogen in the air to supply nutrients to all living things. In order to improve the habitat conditions of these microorganisms and to help the activities of the microorganisms, a plurality of vents can be provided in a constant arrangement on the side of the plant cultivation container for plant cultivation of the present invention, which can contribute to the increase of the yield of crops by enabling the ventilation of gas components beneficial to the microorganisms. have.

Due to the characteristics of facility cultivation, soil pollution is severe due to excessive use of pesticides, chemical fertilizers and hormonal agents, and this phenomenon not only exacerbates the working environment extremely, but also acts as a significant limiting factor in the growth and activity of beneficial soil microorganisms. do. Accordingly, in the present design, it is possible to reduce soil pollution and improve working environment by designing overspread pesticides, chemical fertilizers, hormonal agents, etc. to be discharged to the outside of the cultivation vessel through the outlet of the cultivation vessel and collected in a certain container. In addition, pesticides and fertilizers can be recovered and recycled.

The advantage of the plant cultivation container for plant cultivation of the present invention is that in addition to the above-mentioned, in the manufacture of the cultivation container, the waste synthetic resin and inorganic waste are recycled as materials of the container. Waste synthetic resin, one of the most frequently generated items of environmental waste, has been increasing by more than 20% every year since 1990, but the recycling rate in 2001 was about 30% as shown in Table 1 below. Significantly lower levels.

Table 1. Recycling Status by Major Wastes (as of 2001)

division abolition Waste iron can Waste glass Waste synthetic resin Waste tire Waste Lubricant Waste Appliances Recycling rate 60% 45% 60% 30% 96% 90% 20%

Among the waste synthetic resins, agricultural waste vinyl generates about 100,000 tons per year, but the amount recycled through Korea Resources Reclamation Corporation is about 40,000 tons. Currently, about 1 million tons are accumulated nationwide, and environmental pollution including soil pollution Of course, serious complaints have arisen that have left him unable to neglect.

Meanwhile, steelmaking slag, which is a kind of inorganic waste used as a raw material of the plant cultivation container for plant cultivation of the present invention, includes the main components as shown in Table 2 below, and the steel is manufactured using pig iron, iron scrap, and quicklime in steel mills. Waste from the process. According to the present report, the total amount of backlog is about 3 million tons, but some of them are used as additives in cement manufacturing process, and most of them are used as landfill aggregates. Steelmaking slag has good wearability and excellent compressive strength. For this reason, the possibility of using it at various angles, such as road slippers, is being examined.

Table 2. Main Components of Steelmaking Slag

main ingredient Fe CaO SiO ₂ Al ₂ O ₃ MgO MnO P ₂ O ₅ S TiO ₂ Etc content(%) 16.4 46.1 14.8 1.5 6.3 5.4 1.7 0.08 1.5 6.22

The present invention provides a crop cultivation container that can be used for plant cultivation in order to solve the above-mentioned problems, and the work is performed at a certain height from the ground, thereby lowering labor intensity and improving the working environment as well as increasing the yield of crops, To reduce soil pollution. Meanwhile, the crop cultivation container of the present invention can contribute to the preservation of the natural environment by recycling the environmental wastes such as waste synthetic resins and inorganic wastes.

1 is a perspective view of a plant cultivation container for plant cultivation of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a state of use of the plant cultivation container for plant cultivation of the present invention.

<Description of the symbols for the main parts of the drawings>

1: growing container 2: vent

3: coupling hole 5: outlet

6: frame 7: discharge pipe

8: support 9: coupling means

Referring to the accompanying drawings, the plant cultivation container for plant cultivation of the present invention is as follows.

1 is a perspective view of a plant cultivation container for plant cultivation of the present invention. The cultivation container 1 of the present invention shown in Fig. 1 is a box-shaped open top, and a plurality of vents 2 are formed on one side of the wider area and an opposite side of the one side. The vent can be manufactured by adjusting the number and size of the vent according to the characteristics of the crops grown in the growing vessel. The vent form in the crop cultivation container of the present invention is inclined to form a vent so that soil or water does not go out of the cultivation container. In other words, by increasing the inlet vent outside the cultivation container and forming a low inlet vent inside the cultivation container to prevent the soil or water in the cultivation container outflow to the outside of the cultivation container.

The bottom portion of the inside of the cultivation vessel is provided with a discharge port 5 for discharging water and other contaminants to the outside of the cultivation vessel in the longitudinal direction. The upper surface of the cultivation vessel is formed with a frame 6 having a coupling hole 3 through which the support can communicate so that the cultivation vessel can be installed at a constant height from the ground. The support communicated with the coupling hole 3 is coupled to the frame 6 and the support of the cultivation container 1 by the coupling means 9 so that the cultivation container is fixed to the support. Coupling means used in the present invention can be used as long as it can be fixed to the cultivation container by combining the support and the frame, it is possible to use a bolt and nut or clamp (clamp) as an example of such a coupling means.

FIG. 2 is a cross-sectional view taken along line AA of FIG. 1 and a gas or microorganism necessary for growing a crop such as lettuce, ginseng, tomato or cucumber through a vent 2 formed on one side and a side corresponding to one side of the cultivation vessel. Allow inflow.

After supplying the crops with ingredients necessary for cultivating the crop, such as moisture or fertilizer, the over-supplied moisture or fertilizer is discharged to the outside of the cultivation container through the discharge pipe (7) connected to the outlet and the outlet formed at the bottom of the cultivation container. Crops can be grown by the necessary ingredients. Moisture and fertilizer discharged to the outside of the cultivation container through the discharge pipe (7) can be collected and stored in a certain container (not shown in the drawing), and can be used later to supply water or fertilizer of the crop, thus reducing the cost of cultivating the crop. You can.

3 is a state diagram showing an example of a state of use of the facility cultivation container for plant cultivation of the present invention, showing a state in which the facility cultivation container for plant cultivation of the present invention is stacked and used. The support 8 communicated with the plurality of coupling holes 3 provided in the frame 6 of the crop cultivation container of the present invention secures each crop cultivation container by the coupling means 9. In Fig. 3, the support 8, which communicates with the coupling hole 3 in a small circle, shows a state in which the cultivation container is fixed by the coupling means 9.

As such, the plant cultivation container for plant cultivation of the present invention can be stacked in two or more desired numbers, so that more crops can be harvested even in a narrow space, and according to the cultivation of the crop to be cultivated, the size of the cultivation container, the number and diameter of the vents, the outlet Can be used by appropriately changing the diameter and the like.

Meanwhile, the plant cultivation container for plant cultivation according to the present invention uses 1 to 5% of the waste synthetic resin and antioxidant based on the weight of the waste synthetic resin as a raw material, or the waste synthetic resin 40 wt% to 80 wt%, and inorganic waste 20 wt% to 60 weight% and 1 to 5% of antioxidant based on the weight of waste synthetic resin and inorganic waste mixture can be used as a raw material.

In the plant cultivation container for plant cultivation of the present invention, when the waste synthetic resin is used in less than 40% by weight and the inorganic waste is used in an amount of 60% by weight or more, problems such as compounding or extrusion may occur. Rather, the reinforcing effect is reduced. The raw material of the crop cultivation container of the present invention can be made of 100% by weight of waste synthetic resin without adding inorganic waste, but it is preferable to add inorganic waste from 20 to 60% by weight for reinforcement of the cultivation container or to reduce product cost. .

The waste synthetic resin may be waste vinyl and waste plastic, respectively, or a mixture of them in a ratio of 1: 9 to 9: 1, and more preferably in a ratio of 1: 1. It is melted to a size of 100 ~ 500mm at the time of manufacture. In the case of using a mixture of waste vinyl and waste plastic, it is not preferable in view of the strength of the cultivation container unless they are mixed in a ratio of 1: 9 to 9: 1. In addition, when the size of the waste synthetic resin during melting is less than 100mm, incomplete melting of the waste synthetic resin may occur, and when it exceeds 500mm, a long time is required in the melting time of the waste synthetic resin, and workability is deteriorated, which is not preferable.

Inorganic wastes added during the production of agricultural cultivation containers for facility cultivation may be steel slag, steel dust, and fly ash, each having a size of 10 to 100 mesh, or a mixture of two or more in the same mixing ratio. If the size of the inorganic waste is less than 10 mesh, the reinforcement of the cultivation container may be reduced as a reinforcing material. If the size of the inorganic waste is more than 100 mesh, there is no obvious reinforcement improvement. Since the reinforcement may be weakened at the site, it is preferable to use the inorganic waste as 10 to 100 mesh.

The crop cultivation container of the present invention may use an antioxidant to improve the aging resistance by ozone or photooxidation, and the antioxidant may be added in an amount of 1 to 5% based on the weight of the waste synthetic resin and the inorganic waste mixture. If the antioxidant is used less than 1% by weight of the waste synthetic resin and inorganic waste mixture, the role of the antioxidant is negligible, and when it is used more than 5%, the production cost increases without increasing the effect as an antioxidant. At the time of preparation, the antioxidant is preferably added in an amount of 1 to 5% based on the weight of the waste synthetic resin and the inorganic waste mixture. In the present invention, any antioxidant can be used as long as it can improve the aging resistance by ozone or photooxidation. In the present invention, 2,2,4-trimethyl-1,2-dihydro is an example of such an antioxidant. Quinoline (2,2,4-trimethyl-1,2-dihydroquinolin, RD) or N-isopropyl-N'PH-P-phenylenediamine (N-isopropyl-N'PH-P-phenyllenedia mine: 3C) Can be used.

The present invention will be described by the following examples. However, these are only examples of the present invention and they do not limit the technical scope of the present invention.

<Example 1>

80% by weight of waste vinyl cut to a size of 100-500mm is injected into a Banbury Mixer maintained at a temperature of 180 ± 5 ° C, melted, and 20% by weight of steel slag of about 50 to 60 mesh is added. After mixing for about 3 minutes, the extruder was passed. The compound passed through the extruder was put in a mold prepared in advance and molded at a pressure of 240N / m ² for 2 minutes, and then the molded product was detached from the mold and dried to prepare a plant cultivation container for plant cultivation. Table 3 shows the composition components of the crop cultivation container of Example 1.

The plant cultivation container for plant cultivation prepared above is 600mm in height, 1000mm in length and 640mm in width, and it is installed in 15mm diameter at 100mm intervals with two lines of air vents on the side of the container. Made to size.

<Example 2>

A crop cultivation container for plant cultivation was manufactured in the same manner as in Example 1, except that 60 wt% of waste vinyl and 40 wt% of steelmaking slag were added. Table 3 shows the composition components of the crop cultivation container of Example 2.

<Example 3>

60% by weight of waste vinyl cut to a size of 100-500mm is injected into a Banbury Mixer maintained at a temperature of 180 ± 5 ° C, melted, and 40% by weight of steelmaking slag of about 50 to 60 mesh is added. The mixture was mixed for about 3 minutes.

Then, 3% of 2,2,4-trimethyl-1,2-dihydroquinoline, an antioxidant, was added to the weight of the mixture of waste vinyl and steelmaking slag, followed by further mixing for about 2 minutes, and passed through an extruder. The compound passed through the extruder was put in a mold prepared in advance and molded at a pressure of 240 N / m ² for 2 minutes, and then the molded product was detached from the mold and dried to prepare a plant cultivation container for plant cultivation as in Example 1. Table 3 shows the composition components of the crop cultivation container of Example 3.

<Example 4>

A plant cultivation container for plant cultivation was manufactured in the same manner as in Example 3, except that 30% by weight of waste vinyl and 30% by weight of polypropylene (PP), which is waste plastic, were added instead of 60% by weight of waste vinyl. Table 3 shows the composition components of the crop cultivation container of Example 4.

Table 3. Composition of cultivation container composition of the Example

Example 1 Example 2 Example 3 Example 4 Waste Vinyl (% by weight) 80 60 60 30 Polypropylene (PP, weight percent) - - - 30 Steel slag (% by weight) 20 40 40 40 Antioxidant (%) - - 3 3

<Test Example>

The characteristics of the compressive strength, specific gravity, ultraviolet rays, ozone cracks, and toxic substance dissolution, etc. were investigated for the plant cultivation container for plant cultivation prepared by the method of Examples 1 to 4, and the results are shown in Table 4 below.

The compressive strength and specific gravity in the above was measured using the method of KSM 3006. UV and ozone cracks are installed in two 50cm long 254nm UV lamps in an ozone chamber to maintain the ozone concentration at 50ppm. ) Was measured by investigating the occurrence of In addition, the discharge of harmful substances was measured using a known waste process test method.

Table 4. Example Crop Container Properties

characteristic Example 1 Example 2 Example 3 Example 4 Compressive strength (kg / cm ² ) 180 223 218 202 importance 1.23 1.48 1.46 1.44 Ultraviolet rays, ozone crack Small cracks Small cracks No crack No crack Hazardous Substance Elution radish radish radish radish

As shown in Table 4, the compressive strength characteristics were excellent when the content of steelmaking slag in the waste vinyl was 40% by weight than when the weight of the steelmaking slag was 20% by weight. Fine cracks were generated after the lapse of time, but in the case of Example 3 and Example 4 to which the anti-aging agent was added, no cracks occurred even after 30 days had elapsed.

In addition, as a result of dissolution test for harmful metals such as iron, magnesium, manganese, and pesticides contained in waste vinyl or steelmaking slag, no harmful ingredients were eluted.

By using the plant cultivation container for plant cultivation according to the present invention for plant cultivation, improvement of labor environment, prevention of soil pollution, increase of production, efficiency of arable land, reduction of facility cost and recycling of wastes and recycling of resources to save the profits of farmers You can maximize creation.

Claims (7)

A box shape with an open top, and a plurality of vents are formed on one side occupying a larger area and on opposite sides of the one side, and the bottom of the cultivation vessel is provided with a discharge port in the longitudinal direction. The upper surface of the plant cultivation container for plant cultivation, characterized in that it comprises a frame formed with a coupling hole through which the support can pass. [Claim 2] The plant cultivation container for plant cultivation according to claim 1, wherein the air inlet outside the cultivation container is raised and the air inlet inside the cultivation container is lowered to form an inclined air vent. 2. The crop cultivation container for plant cultivation according to claim 1, wherein the raw material for the crop cultivation container comprises 1 to 5% of the waste synthetic resin and the antioxidant based on the weight of the waste synthetic resin. According to claim 1, wherein the crop material container raw material is 40% to 80% by weight of waste synthetic resin, 20% to 60% by weight of inorganic waste, containing 1 to 5% of the antioxidant relative to the weight of the waste synthetic resin and inorganic waste mixture A plant cultivation container for facility cultivation, characterized in that. [Claim 5] The plant cultivation container for plant cultivation according to claim 3 or 4, wherein the waste synthetic resin is waste vinyl or waste plastic, or a mixture thereof. 5. The plant cultivation container for plant cultivation according to claim 4, wherein the inorganic waste is steel slag, steel dust, fly ash, or a mixture of two or more thereof. 5. The agricultural crop according to claim 3 or 4, wherein the antioxidant is 2,2,4-trimethyl-1,2-dihydroquinoline or N-isopropyl-N'PH-P-phenylenediamine. Cultivation container.