KR20190009108A - Plant pot and the manufacturing method thereof - Google Patents

Abstract

The present invention relates to a plant pot to effectively cultivate a plant. The plant pot comprises: a housing having a prescribed internal space; a sensor unit arranged in the internal space of the housing to sense the amount of water contained in soil; a power supply unit arranged in the internal space of the housing to supply power to the sensor unit to sense the water amount; and a sensor tentacle member which is connected to the sensor unit and protrudes out of one end of the housing to come in contact with the soil. Natural materials are used to prevent soil acidification and soil pollution by chemical fertilizers and prevent withering of plants by water evaporation even in severe drought. Excrement soil for early greening of herbaceous flowers and most activities of soil and microorganisms, porous charcoal capable of humidity adjustment, natural glue, and water are mixed to form a pot or a pot form to prevent environmental pollution.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for producing a plant flower pot and a plant flower pot,

The present invention relates to a vegetation flowerpot, and more particularly, to a vegetation flowerpowder which can increase the initial growth and seedling growth rate of a plant without germination rate and irrigation water so that the plant can be planted stably in a planting land.

Conventional planting and planting methods have germinated seeds and have been transplanted into vinyl pots, plastic pots, flower pots, etc., and cultivated for a certain period of time, moved to foodstuffs, and then removed from plastic or plastic pots and pollen pots. It is a situation that farming income is difficult because environmental pollution and disposal costs are incurred by disposing of rastopol and pots.

In addition, since the conventional horticultural pot is composed only of a vinyl pot, when the plant is planted or landscaped, it is often broken when the plastic pot and the plant are separated from each other.

In addition, among the seedlings cultivated with the conventional vinyl port alone and the plants cultivated at present, when the water is supplied in a very humid environment or in the case of irrigation, it is often used in the soil mixed with maras .

This mixed soil has a high percentage of maras, which weakens the cohesion between the roots and the soil mixed with it. Plants with myocardial roots do not form fine roots. Therefore, And there is a problem that the initial stasis rate is lowered in new soil so that the soil is often damaged.

It is an object of the present invention, which has been devised in view of the above points, to provide a method for preventing soil contamination due to acidification and chemical fertilizer of a soil by using natural materials and preventing damage to plants due to moisture evaporation even in extreme drought, Which is the most active soil and microorganisms, and charcoal which can control the humidity with porosity, and natural bond and water to form a pot or flower pot shape, thus providing a vegetation pot that can prevent environmental pollution. .

In order to achieve the object of the present invention as described above, the vegetation flowerpot is formed by crushing and mixing raw materials such as rice straw, rice hull, sawdust, reed, reed and corn net, A cup-shaped side portion in which a planting space is formed; Shaped bottom portion formed of a material obtained by crushing and mixing raw materials such as rice straw, rice husks, sawdust, mustard, reed, and corn net, and closing the lower surface by being provided on an opening formed bottom of the side portion; .

The inner surface of the side portion and the upper surface of the bottom portion may be coated with a mixture of charcoal and powdered soil.

The mixture of the charcoal and the loose soil may be mixed at a ratio of 50% to 50%.

In addition, the mixed material may be applied to the inner surface of the side portion and the upper surface of the bottom portion by a natural bond.

In addition, the side portion may be formed in a shape of a light shielding bulge whose diameter gradually increases gradually from the lower portion to the upper portion.

In order to accomplish the object of the present invention, there is provided a method for producing a vegetation flowerpot comprising the steps of crushing and mixing natural straw, rice husks, sawdust, aquatic plants, reeds and coarse nets; A second step of compressing the mixed rice straw, rice hull, sawdust, sawdust, reed, and corn net to form a plate having a predetermined thickness and area; A third step of cutting the plate material into a truncated conical shape; A fourth step of rounding the side surface of the truncated cone so that both ends of the truncated cone side surface are in contact with each other to form side surfaces; A fifth step of attaching a disk-shaped bottom portion to the lower surface of the side portion; .

Here, after the fifth step, a step of applying a mixed material in which charcoal and powdered soil are mixed on the inner surface of the side portion and the upper surface of the bottom portion may be further performed.

The mixed material may be applied to the inner surface of the side portion and the upper surface of the bottom portion by a natural bond.

As described above, the vegetation flowerpot according to the present invention can prevent contamination of the soil due to acidification of the soil and chemical fertilizer by using natural materials, prevent the damage of plants due to moisture evaporation even in extreme drought, Soil and microorganisms are most active in soil and soil, and charcoal which can control humidity with porosity, natural bond and water are mixed to form pot or flower pot shape, thereby preventing environmental pollution.

1 is a perspective view illustrating a structure of a vegetation flower pot according to an embodiment of the present invention,
FIG. 2 is a perspective view showing a structure in which a truncated cone side surface is sketched in a plate material for manufacturing a vegetation flowerpot according to an embodiment of the present invention,
FIG. 3 is a perspective view showing a structure in which vegetation grows in a vegetation flowerpot according to an embodiment of the present invention,
FIG. 4 is a cross-sectional view illustrating a planting plant planted in a planting pot according to an embodiment of the present invention,
5 is a flowchart sequentially illustrating a process of manufacturing a vegetation flower according to an embodiment of the present invention.

Hereinafter, a vegetation flower according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing the structure of a vegetation flower pot according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a structure in which a side of a truncated cone is sketched on a plate for producing a vegetation flowerpot according to an embodiment of the present invention. FIG. 3 is a perspective view illustrating a structure in which a plant grows in a vegetation flowerpot according to an embodiment of the present invention. FIG. 4 is a view illustrating a state in which a planting material grown in a vegetation flowerpot according to an embodiment of the present invention is planted And FIG. 5 is a flowchart sequentially illustrating a process of manufacturing a vegetation flower pot according to an embodiment of the present invention.

As shown in these drawings, the vegetation flower pot according to an embodiment of the present invention is formed of a material obtained by crushing and mixing natural straw, rice hull, sawdust, A cup-shaped side portion 100 having an opening formed therein and having a planting space 300 formed at its center; Shaped bottom portion 200 formed of a material obtained by crushing and mixing natural materials such as rice straw, rice hull, sawdust, mustard, reed and corn net, .

The side portion 100 is a member for forming a side surface of the vegetation flowerpot and is formed of a material obtained by crushing and mixing raw straw, rice hull, sawdust, sawdust, reed, and corn net.

In order to form the side part 100, natural materials such as rice straw, rice hull, sawdust, sawdust, reeds, and coarse nets are crushed and mixed, followed by injection molding by compression. When they are pressed and injected, It is preferable that the side member 100 is formed by forming a plate member and cutting the plate member into a predetermined shape.

In order to form the side portion 100, the side plate 100 is formed by cutting the plate into a side shape of a truncated cone when the plate is cut, and rounding the plate cut into a side of the truncated cone.

The side surface 100 formed by the above-described process has an upper surface and a lower surface, and the upper surface and the lower surface are gradually enlarged in diameter from the lower side to the upper side.

The bottom part 200 is attached to the open bottom surface of the side part 100 so that the plant can be planted in the planting space 300 formed at the center of the side part 100. The bottom part 200 is also a side surface 100, it is preferable to form natural materials such as rice straw, rice hull, sawdust, mustard, reed, and corn net by crushing and mixing natural materials.

 The bottom part 200 is attached to the lower end of the rounded side part 100 formed in a disc shape so that the soil accommodated in the planting space 300 is prevented from flowing down, .

On the inner surface of the side portion 100 and the upper surface of the bottom portion 200, a mixture of charcoal and powdery soil is applied. It is preferable that the mixing ratio of char and ground is 50% to 50%.

The mixed material is applied to the inner surface of the side portion 100 and the upper surface of the bottom portion 200 by the natural bond so as to be harmless to the soil or the human body and the mixed material is applied to the inner surface of the side portion 100 and the upper surface of the bottom portion 200 A method of mixing the mixed material and the natural bond in water and then applying the solution containing the mixed material to the inner surface of the side part 100 and the upper surface of the bottom part 200 and then drying the solution is used.

The charcoal constituting the mixed material contains a lot of minerals. It has a strong anion dissociation function as an anion clusters. It is capable of supplying electrons from charcoal and reducing the electrons so that oxidation phenomenon takes place. It has excellent resilience and activates and maintains all objects around.

It neutralizes acidic soil and has excellent electromagnetic wave absorption and shielding ability to block electromagnetic waves. It absorbs water cleanly to reduce ambient humidity, and when it is dried too much, moisture can be released and humidity can be controlled naturally.

In addition, charcoal is a porous material having an internal surface area of about 300 square meters per gram, and holes formed in charcoal can be a residential space of microorganisms, so that harmful bacteria can be adsorbed, and minerals are abundant.

When these minerals are burned with charcoal, they are concentrated in the amount of about 4 to 5 times, and are present in charcoal, which acts as an antioxidant to plants.

On the other hand, the amount of organic matter in composted soil is 4.8% higher than that of general compost and the nitrogen content is about 0.7% higher. These organic matter and nitrogen are converted into soluble materials that can be directly used for the growth of plants, .

Since the fecal soil is weakly alkaline, it can mainly improve the acidity of the acid soil, and it contains the substitute calcium, magnesium, potassium, phosphoric acid and trace elements, and contains more microorganisms than the general compost. It has the effect of growing the star and fertilizing the soil.

Therefore, when the mixed material composed of the charcoal and the fecal soil is applied to the inner surface of the flowerpot, the function of purifying water and air is enhanced, the function of controlling moisture is improved, and the microorganisms, minerals and moisture required for the plants are stably supplied By lowering the mortality rate, seedlings can be grown in a healthy manner.

A method for producing a vegetation flower pot having such a constitution will be described below.

The first step of crushing and mixing the natural materials such as rice straw, rice husks, sawdust, wheat bran, reed and coarnet, and the step of compressing the mixed rice straw, rice hull, sawdust, A third step of cutting the plate into a side surface of a truncated cone; a step of rounding the side of the truncated cone so that both ends of the side of the truncated cone are in contact with each other, A fourth step and a fifth step of attaching a disk-shaped bottom part 200 to the lower surface of the side part, in that order.

 It is preferable that both ends of the truncated cone side are rolled so as to be in contact with each other and then both ends are attached by using a natural bond when the opposite ends of the contacted ends are mutually attached.

When the natural bond is applied to both ends of the side of the truncated cone contacted with each other and when the natural bond is adhered to each other, the side part 100 is wrapped roundly around the side part 100 using a separate strap until the natural bond is completely cured So that the string is removed when the natural bond is fully cured.

Further, it is preferable to use a natural bond even when the bottom portion 200 is attached to the opened bottom surface of the side portion 100.

After the fifth step, the step of applying the mixed material in which charcoal and powdered soil are mixed is applied to the inner surface of the side part 100 and the upper surface of the bottom part 200.

As described above, the mixed material is composed of charcoal and fugitive soil. By this mixed material, it is possible to enhance purification ability to clear water and air, improve the function of controlling moisture, to stably supply microorganisms, minerals and moisture required for plants, Can be used to grow the seedlings healthily.

It is effective that such a mixed material is applied to the inner surface of the side portion 100 and the upper surface of the bottom portion 200 by a natural bond.

The process of cultivating a planting material using the planted flowerpot that has been manufactured by the above-described process and activating the planting material in the vegetation paper will be described with reference to FIGS. 4 and 5. FIG.

First, when the production of the vegetation flowerpot is completed, the soil is filled in the planting space 300 of the planting pot, and the germinated planting material is transferred to the planting space 300 and is managed for a certain period of time.

4, the vegetation pot itself is transferred to the plantation land and planted. As the planting continues to grow, the roots penetrate the side portion 100 and the bottom portion 200 of the vegetation flower pot The roots are planted in the plantation, and the plantation grows.

When a long period of time elapses, the vegetation pots made of natural materials such as rice straw, rice hull, sawdust, mulberry, reed, and coironnet are naturally decomposed by soil, air, moisture and temperature conditions, .

Although the vegetation flower of the present invention has been described with reference to the preferred embodiments, it should be understood that the technical scope of the present invention is not limited thereto.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. There is no saying.

100: side part 200: bottom part
300: planting space

Claims (8)

A cup-shaped side portion 100 formed by crushing and mixing raw materials such as rice straw, rice hull, sawdust, mustard, reed and corn net and having an upper surface and a lower surface opened to form a planting space 300 at the center; ;
Shaped bottom portion 200 formed of a material obtained by crushing and mixing raw materials such as rice straw, rice hull, sawdust, mustard, reed, and corn net, and closing the bottom by being provided on the open bottom surface of the side portion;
Wherein the planting pots are arranged in the same direction. The method according to claim 1,
Wherein a mixture of charcoal and powdered soil is applied to the inner surface of the side part (100) and the upper surface of the bottom part (200). 3. The method of claim 2,
Wherein the charcoal and the loose soil of the mixture are mixed at a ratio of 50% to 50%, respectively. 3. The method of claim 2,
Wherein the mixed material is applied to an inner surface of the side portion (100) and an upper surface of the bottom portion (200) by a natural bond. The method according to claim 1,
Wherein the side portion (100) is formed in a shape of an upper light contraction gradually increasing in diameter from the lower portion to the upper portion. A method for producing a vegetation flowerpot according to any one of claims 1 to 6,
A first step of crushing and mixing natural materials such as rice straw, rice hull, sawdust, mulberry, reed, and corn net;
A second step of compressing the mixed rice straw, rice hull, sawdust, sawdust, reed, and corn net to form a plate having a predetermined thickness and area;
A third step of cutting the plate material into a truncated conical shape;
A fourth step of rounding the side surface of the truncated cone so that both ends of the truncated cone side surface are in contact with each other to form a side surface portion 100;
A fifth step of attaching a disc-shaped bottom part 200 to the lower surface of the side part;
Wherein the method comprises the steps of: The method according to claim 6,
The method of claim 1, further comprising the step of applying a mixture of charcoal and powdered soil mixed on the inner surface of the side part (100) and the top surface of the bottom part (200). 8. The method of claim 7,
Wherein the mixed material is applied to an inner surface of the side part (100) and an upper surface of the bottom part (200) by a natural bond.

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