KR20120068244A - Ecopot and the manufacturing method therof - Google Patents

Abstract

PURPOSE: A biodegradable vegetation pot having excellent durability, and a producing method thereof are provided to enable users to grow plants without using a plastic pot. CONSTITUTION: A producing method of a biodegradable vegetation pot comprises the following steps: coating an adhesive on a biodegradable sheet; drying the biodegradable sheet; mounting the dried biodegradable sheet on the upper center of an inner mold in a shape of an upside-down pot; closely attaching the peripheral portion of the biodegradable sheet to the wall surface of the inner mold by overlapping at least three parts to form supporting units; covering an outer mold(30) over the biodegradable sheet attached to the inner mold(20); pressurizing the inner and outer molds; and cutting or folding the upper side of the obtained biodegradable vegetation pot(15).

Description

Vegetation pot and its manufacturing method {Ecopot and the manufacturing method therof}

The present invention relates to a simple method for producing a vegetation pot made of natural fibers and a vegetation pot prepared by the method.

Seedling pots are planted or seedlings to grow in them and then planted, usually made of vinyl material. The vinyl port has one or several openings for venting and watering at the bottom of the body. Plants grown in plastic pots are removed from the pots and transplanted. However, since the roots of the plants in the plastic pot cannot extend to the outside of the pot, they grow along the inner wall, thereby suppressing the growth of the roots. In addition, the vinyl material pot is time-consuming and labor-intensive because plants must be planted after removal.

Some paper material pots are also used, but paper material pots are not suitable for plants that need to be grown and transplanted for six to sixteen months because they cannot grow sageweed or perennial plants because of their short life span. This is because the disintegration period of the coated paper pot is only about 3-4 months. In addition, surface coated paper pots, like vinyl pots, must be removed during implantation. Although it does not remove, it degrades slowly, but the coating component slows down the decomposition and causes problems with the initial activity of the plant.

The jute material pot is disadvantageous because it is grown by inserting a pot made of jute fiber inside the vinyl pot, and the hassle of growing plants in the vinyl pot + jute pot and the life of the jute are not long.

Pots using non-woven fabrics are a good material to complement the above disadvantages listed above, but because they do not use natural materials, it is inconvenient to remove them sometime after planting or even after planting whole.

Patent publication No. 1996-4332 relates to a plant seedling pot and a manufacturing method thereof, and discloses a pot made of fibers obtained from palm fruit or coconut fruit.

In addition, Patent No. 819511 relates to a mesh port, in which natural fibers such as coir fibers or jute fibers are mixed with mycorrhizal fungi to form a mesh, which is manufactured as a pot, and then a mixed clay including ocher or charcoal is contained therein. Disclosed is a mesh port for filling and putting it back into a vinyl pot to grow a plant.

Korean Patent Laid-Open Publication No. 10-2010-78420 has a side wall; A bottom surface connected to the side wall; And a support surface formed on the sidewall, wherein the support surface is formed to protrude outward of the sidewall, the support surface is detachable to the sidewall, and the sidewall, the bottom surface, and the support surface are natural fibers. Disclosed is a vegetation pot comprising a. In addition, the published patent is a side wall; It includes a bottom surface connected to the side wall, the side wall, the bottom surface is made by compressing the coir is a natural fiber, and also disclosed in the vegetation pot characterized in that the mycorrhizal fungus is mixed.

However, the present invention has to be attached to form a separate support surface detachable from the side wall, so the structure is complicated, and therefore, manufacturing is not easy.

Korean public office No. 20-2010-217 is a plant made of natural fiber, characterized in that the thickness of the braided string made of natural fiber is 0.3-0.8mm in diameter and consists of alternating width and length. Start the cultivation port. However, this port has a problem in that it is difficult to straighten only by the port itself, and lacks support.

Patent Registration No. 819511 "Mesh port" prevents the cracking of flour due to the mesh pot when separating gardening pots and flour during landscaping. Increasing the probability of failure provides a useful effect of lowering the maintenance rate.

However, the mesh port of the present invention by using the jute to make yarn, twist the strands of several strands to make a rope, by using a mesh made by arranging the ropes at regular intervals by the worker to manually manufacture the mesh port by There is a problem that mass production by the mechanization operation is not possible, and also, because the finishing process of the overlapping portion around the upper end of the mesh port and the side with a stitch is completed between the stitched part and the vinyl port when the mesh port is inserted into the vinyl port. As the voids occur, there is a problem that the bobbin force is lowered.

Korean Patent No. 987000 discloses a natural coir collected from a plant, which is a raw material for manufacturing a coir pot, in which conical sidewalls protrude upward along the bottom circumference of the inner mold. It is attached to the formed inner forming surface, and the outer side of the coir is formed of jute, which is a raw material for manufacturing a jute port integrally formed with jute ports protruding upwardly along the circumference of the bottom surface, dozens of strands After selecting any one of jute yarn and jute dust to be placed in duplicate, the binder is applied so that the binder is evenly penetrated to the coir, and the upper part of the inner mold is sealed and fixed with an outer mold having an outer molding surface, A high temperature heat is applied to the inner mold and the outer mold, and the coir port is overlapped between the inner and outer molding surfaces. While compressing the Do port compression molding characterized in that after producing an integrated nose of the double-layer mesh normalized the port by compression molding coir discloses a method for manufacturing a mesh port.

However, the present invention requires a certain thickness of coir to form a layer with coir in a natural state, and thus, a process of manufacturing is complicated because a layer of jute mesh, jute yarn, or jute dust must be added as a double layer. It is uneconomical.

Therefore, an object of the present invention is to solve the problem of the vegetation pot. More specifically, an object of the present invention is to provide a vegetation pot capable of plant raising alone, without being used with a vinyl pot.

In addition, an object of the present invention is to provide a vegetation pot which can be manufactured by a simple process.

In addition, an object of the present invention is to provide a biodegradable vegetation port that is economical and durable by reducing the use of raw materials.

In order to achieve the above object, the present inventors have gone through a long research to manufacture a biodegradable vegetation pot with excellent durability by a simple method using natural materials.

More specifically, in the present invention, a nonwoven fabric sheet having a predetermined thickness is first formed by mixing or applying an adhesive such as latex and gutta-perca to natural fiber yarns such as coir fiber yarn and jute fiber yarn.

The formed sheet is cut into squares or circles according to the size of the vegetation pot, and the center of the cut sheet is centered on the upper center of the inner mold, and then the periphery of the cut sheet is brought into close contact with the wall surface of the inner mold. The abnormalities are folded so as to overlap with each other, and they are brought into close contact with the wall surface of the inner mold while forming the supporting portion. In this case, when forming a support, three or more points of the sheet may be incised with a knife or scissors and then folded to overlap, or may be folded to overlap without forming an incision line.

Next, the outer mold is hermetically fixed onto the sheet, pressure is applied to the inner mold and the outer mold, and the vegetation pot prepared from the mold is removed. At this time, the heat may be applied together, or only pressure may be applied without applying heat.

If necessary, fold the top of the vegetation pot evenly or without cutting the top.

In addition to the non-woven fabric sheet, the present invention may also prepare a vegetation pot using a mesh sheet woven with vegetable natural fiber yarn rope. Apply the adhesive to the mesh sheet, or immerse the mesh sheet in the adhesive and take it out, and after the adhesive has dried to some extent, let the center of the sheet be centered on the upper part of the inner mold, and then close the sheet periphery against the wall of the inner mold, Fold three or more places to overlap each other to form a support, close the wall of the inner mold, seal the outer mold on the sheet, and apply heat or pressure to the inner mold and the outer mold, and then take out the vegetation pot manufactured from the mold. In this case, when forming a support, three or more points of the sheet may be incised with a knife or scissors and then folded to overlap, or may be folded to overlap without forming an incision line. If necessary, cut or fold up the top of the vegetation pot.

In addition, in the present invention, it is also possible to manufacture a vegetation pot using a coated pulp sheet in addition to a nonwoven fabric sheet made of vegetable natural fiber yarn or a mesh sheet woven with vegetable natural fiber yarn rope.

The present invention

Applying or dipping the adhesive on the biodegradable sheet;

Drying the biodegradable sheet to which the adhesive is applied or dipped;

Placing the dried biodegradable sheet in the center of the upper portion of the inner mold in an inverted form;

Forming a support by folding the biodegradable sheet periphery so as to overlap at least three places while closely contacting a wall surface of an internal mold;

Covering the outer mold over a biodegradable sheet in close contact with the inner mold;

It provides a vegetation pot manufacturing method comprising a; step of applying pressure to the inner mold and the outer mold.

In addition, the present invention is a step of applying pressure to the inner mold and the outer mold; After cutting or folding the top of the vegetation pot; characterized in that the addition.

In addition, the present invention is characterized in that the biodegradable sheet is made of a nonwoven or woven form.

In addition, the present invention is characterized in that the biodegradable sheet is made of one or more of coir fiber, jute fiber, cotton fiber, straw, myelin leaf or stem, natural fiber including chaff, pulp, starch, biodegradable plastics. .

In addition, the present invention is to place the biodegradable sheet in which the adhesive is coated or immersed in the inner mold of the inverted form, and folded to form at least three places overlapping the biodegradable sheet close to the wall of the inner mold, It is manufactured by applying heat or pressure to the inner mold and the outer mold by covering the outer mold on a biodegradable sheet in close contact with the inner mold, and having a cylindrical shape having an upper portion open by a sidewall and a bottom surface connected to the sidewall. The sheet is overlapped to provide a vegetation port characterized in that the folded support is formed.

In addition, the present invention is characterized in that the biodegradable sheet is made of a nonwoven or woven form.

In addition, the present invention is characterized in that the biodegradable sheet is made of one or more of coir fiber, jute fiber, cotton fiber, straw, myelin leaf or stem, natural fiber including chaff, pulp, starch, biodegradable plastics. .

In addition, the present invention is characterized in that the biodegradable sheet thickness is 0.5 ~ 3mm. If the thickness is too thin, the durability and the supporting force is weak, and if the thickness is too thick, it is not easy to form the support portion, it takes a lot of raw materials and is uneconomical.

Since the vegetation pot manufactured by the present invention is manufactured from a natural fiber yarn sheet coated with an adhesive or mixed with an adhesive, even if a large amount of raw material is not wrapped in an inner mold, the vegetation pot can be manufactured with only a thin sheet, and thus the core is a raw material. Since it takes less natural plant fiber, it is very economical compared to the vegetation pot manufactured by the conventional method.

In addition, according to the present invention, even if the reinforcing layer or the support surface is not formed separately in addition to the layer made of coir, three or more sheets are overlapped to show sufficient durability due to folding, and the plant vegetation port can be built on the ground only.

1 is a picture of the Koer vegetation pot prepared by the prior art.
Figure 2 is a vegetation port photograph prepared by one embodiment of the present invention.
Figure 3 is another vegetation port photograph prepared by another embodiment of the present invention.
4 is a view showing a vegetation pot manufacturing method according to another embodiment of the present invention.

The manufacturing process of the vegetation pot according to the present invention is as follows.

First, we make yarn using natural fibers. Natural fiber yarns are stacked one by one in the form of mats. It is also possible to apply a certain pressure during lamination and lamination to form a thin nonwoven sheet. There is no particular limitation on the type of natural fiber, and weaving from various natural fibers and biodegradable plastics such as coir fiber, jute fiber, cotton fiber, straw, aquatic leaf or stem, chaff and other natural fiber, pulp, etc. Or manufactured sheets can be used.

In order to maintain the shape of the laminated natural fiber yarns, an adhesive is applied by spraying or the like, or immersed in an adhesive solution in a stacked state, and taken out to form a bond between each fiber yarn. Pressure is applied before the adhesive is completely dry to make the fiber yarn bond more strongly.

The type of the adhesive is not particularly limited, but it is more preferable to use a natural adhesive such as rosin, fresh fish, latex, gutta-percha, natural rubber in consideration of environmentally friendly aspects. The adhesive may be used by adding earthen powder, clay, stone powder or zeolite. The inorganic additive (stone, etc.) may be added within 25% by weight, preferably within 10% by weight of the total weight of the adhesive composition. In one embodiment the processing latex 10%. Spray by mixing 80% rosin and 10% soil powder. It is preferable to spray in the ratio of 5-20 g of said adhesive compositions to 100 g of vegetable fiber yarns.

After the adhesive is applied, pressure is applied and dried to form a natural fiber nonwoven sheet. Apply hot air at 60 ~ 80 ℃ with a dryer and dry the front and back with warm wind.

The natural fiber nonwoven sheet formed as described above is cut into squares or circles according to the size of the vegetation pot, and then the center of the cut sheet is at the upper center of the inner mold. The peripheral portion of the cut nonwoven sheet is brought into close contact with the wall of the inner mold, and at least three places of the nonwoven sheet are folded so as to overlap each other, thereby forming a support part, and is brought into close contact with the wall of the inner mold. In this case, when forming a support, three or more points of the sheet may be incised with a knife or scissors and then folded to overlap, or may be folded to overlap without forming an incision line.

Next, the outer mold is hermetically fixed on the sheet, heat and pressure are applied to the inner mold and the outer mold, and the vegetation pot prepared from the mold is removed.

If necessary, cut or fold up the top of the vegetation pot.

The vegetation pot manufacturing process according to another embodiment of the present invention is as follows.

Twist several strands of vegetable natural fiber yarn to form a natural fiber rope. The natural fiber rope is woven with warp and weft to make a natural fiber mesh sheet. A mesh port is manufactured using the mesh sheet.

In order to maintain the shape of the mesh sheet, the adhesive is applied by spraying or the like, or immersed in an adhesive solution, and then taken out so that the mesh sheet maintains its shape and firmly forms a bond between the natural fiber ropes. Pressure is applied before the adhesive is completely dry to make the natural fiber ropes bond more strongly.

The natural fiber mesh sheet formed as described above is cut into squares or circles according to the size of the vegetation pot, and then the center of the cut sheet is in the upper center of the inner mold. The periphery of the cut mesh sheet is brought into close contact with the wall of the inner mold, but at least three places of the mesh sheet are folded so as to overlap each other, thereby forming a support part to be in close contact with the wall of the inner mold. In this case, when forming a support, three or more points of the sheet may be incised with a knife or scissors and then folded to overlap, or may be folded to overlap without forming an incision line.

Next, the outer mold is hermetically fixed on the sheet, heat and pressure are applied to the inner mold and the outer mold, and the vegetation pot prepared from the mold is removed.

If necessary, cut or fold up the top of the vegetation pot.

The vegetation pot manufacturing method is in the form of a biodegradable sheet in addition to the non-woven sheet, the mesh sheet is not particularly limited as long as it can stand when manufacturing the vegetation port, for example, using the coated pulp sheet to manufacture the vegetation port according to the above method can do. In addition, the vegetation pot of the present invention can also be produced using a biodegradable sheet, a biodegradable plastic sheet, or the like produced using starch such as corn starch as a raw material.

In addition, when manufacturing the side wall portion in the vegetation pot manufacturing method, it is also possible to manufacture the vegetation pot by cutting the peripheral force group of the sheet with a knife or scissors and then overlapping to cover the external mold.

The vegetation port manufactured by the above method has a sidewall and a bottom surface connected to the sidewall to form an open cylindrical shape, and has an inner space formed by the sidewall and the bottom surface.

In general, when the vegetation pot is manufactured using a thin nonwoven fabric sheet, a mesh sheet, or the like, the strength is low by itself, and it is difficult to maintain the shape, making it difficult to erect the pot on a plane. However, since the vegetation pot of the present invention has three or more portions folded on the side wall even when manufactured using a thin sheet, the folding portion serves as a support portion of the vegetation port even without a separate support to maintain sufficient strength even with the vegetation port alone. And the vegetation pot can be erected on a flat surface.

Therefore, the vegetation pots prepared by the method of the present invention have durability and strength without being thick, and can maintain the shape even without a separate support or support part, so when the seedlings are grown in the vegetation pots of the present invention, the seedlings are grown separately. There is no need to use double vinyl pots. In addition, the vegetation pot of the present invention, when the seedlings are grown in the place where the vegetation is necessary, the whole planted roots are extended through the through-holes formed in the side wall and the bottom without the need to remove the vegetation port, the vegetation port over time It is environmentally friendly because it will disappear naturally.

10: biodegradable sheet
11: incision
12: support
15: Vegetation Pot
20: inner mold
30: outside mold

Claims (8)

Applying or dipping the adhesive on the biodegradable sheet;
Drying the biodegradable sheet to which the adhesive is applied or dipped;
Placing the dried biodegradable sheet in the center of the upper portion of the inner mold in an inverted form;
Forming a support by folding the biodegradable sheet periphery so as to overlap at least three places while closely contacting a wall surface of an internal mold;
Covering the outer mold over a biodegradable sheet in close contact with the inner mold;
And applying pressure to the inner mold and the outer mold.
The method according to claim 1,
Applying pressure to the inner mold and the outer mold; after
Cutting or folding the upper surface of the vegetation pot;
The method according to claim 1,
The biodegradable sheet is characterized in that the non-woven or woven form.
The method according to claim 1,
The biodegradable sheet is characterized in that consisting of at least one of coir fiber, jute fiber, cotton fiber, straw, aquatic leaf or stem, chaff, natural fiber, pulp, starch, biodegradable plastic.
Place the biodegradable sheet with the adhesive applied or immersed in the inner mold of the inverted port, fold it so as to overlap the biodegradable sheet with the wall of the inner mold by overlapping at least three places to form the support, and adhere the inner mold. It is manufactured by applying pressure to the inner mold and the outer mold by covering the outer mold over a biodegradable sheet, and having a cylindrical shape having an upper portion formed by forming a side wall and a bottom surface connected to the side wall, and having a folded support part by overlapping the biodegradable sheet on the side wall. Vegetation pot, characterized in that formed.
The method according to claim 5,
The biodegradable sheet is a vegetation pot, characterized in that consisting of a nonwoven or woven form.
The method according to claim 5,
The biodegradable sheet is a vegetation pot, characterized in that made of one or more of coir fiber, jute fiber, cotton fiber, straw, aquatic leaf or stem, chaff, natural fiber, pulp, starch, biodegradable plastic.
The method according to claim 5,
The biodegradable sheet is a vegetation pot, characterized in that the thickness of 0.5 ~ 3㎜.

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