KR101432577B1 - Raising seeding tray - Google Patents

Abstract

The present invention relates to a tray for raising a seedling, wherein unit ports can be easily separated one by one so that damage to the seedling or to bed soil can be prevented during seedling transplantation or seedling implantation, and the unit ports are made of biodegradable plastics in order to be implanted in soil so as to enable a user to simply use and handle the same so that the seedling can be actively and stably raised through mycorrhizo. The tray of the present invention comprises: a plate-shaped body made of a biodegradable plastic material; unit ports which are integrally formed with the body, are made of the same material as the body, are formed in a length direction and a horizontal direction to be dented towards the bottom side from the top surface of the body, and have drainage holes formed on the bottom surfaces thereof; a cutting unit having a dotted line formed by being punched in a lattice shape on the top surface of the body along the top surface of each unit port so that the unit ports can be separated one by one; and a mixed material coating layer which is coated on the inner bottom surfaces of the unit ports on the edge of the drainage hole and contains mycorrhizo.

Description

Seedling tray {RAISING SEEDING TRAY}

More particularly, the present invention relates to a seedling tray, and more particularly, it relates to a seedling tray capable of easily separating unit ports one by one so that the unit pot itself is made of a biodegradable plastic, The present invention relates to a seedling tray which is easy to use and handle and which enables smooth and stable growth of seedlings through mycorrhizae.

Generally, when cultivating crops, seedling trays are used to fill the seedling trays and sowing them. Such a conventional seedling tray has a structure in which a plurality of unit ports are arranged in a row in a row in the vertical and horizontal directions.

The seedling tray is generally made of a synthetic resin material, and has a plurality of unit ports each of which is narrower in width and arranged side by side in the longitudinal direction, and a drain hole is formed in a central portion of the bottom of each unit port.

In addition, since conventional seedling trays are formed using a synthetic resin material, reinforcement means are usually formed on side portions of the body for reinforcing the rigidity of the tray. That is, a wing portion is formed at an end portion of the folding surface of the seedling-growing tray to prevent warpage of the seedling-growing tray formed of a relatively thin synthetic resin material and deformation of the entire shape of the tray.

However, the above-described conventional techniques have the following problems.

In the conventional seedling tray, the seedlings that have been sown by sowing are taken out one by one and planted. However, since such seedlings or formal works are relatively inconvenient and the soil is attached to the root of the seedlings, There was a problem that the soil attached to the root was easily broken.

In addition, the conventional seedling tray is made of synthetic resin and has a problem of causing environmental pollution when it is discarded after use.

Registered Utility Model No. 0254409 "Sowing tray for accepting bottom tube" (2001. 05)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

It is an object of the present invention to provide a biodegradable plastic which can be easily detached from a unit port one by one, The present invention provides a seedling tray which is easy to handle and allows the growth of seedlings smoothly and stably through mycorrhizae.

It is another object of the present invention to provide a seedling tray for preventing separation or damage of a mixed material coating layer during handling through a separation preventing jaw.

In order to achieve the above object, a "seedling tray" according to the present invention includes: a plate-shaped body formed of a biodegradable plastic material; A unit port formed integrally with the body and formed of the same material and formed in a plurality of longitudinal and transverse directions so as to be recessed from an upper surface to a lower side of the body and having drain holes formed therein; A cutout portion having a perforated line formed in a lattice shape on the upper surface of the body along the upper surface of the unit port so that the unit ports can be separated one by one; A mixed material coating layer coated on an inner bottom surface of the unit port around the drain hole and containing mycorrhizal bacteria; .

The body of the " seedling tray "according to the present invention further includes a bending jaw which is formed to be bent downward along the periphery of the outer side surface, and a horizontal support jaw which is formed to be bent horizontally at the lower end of the bending jaw The cutting portion may further include an auxiliary cutting line formed in the bending jaw so as to be connected to the perforated line and a cutting groove formed in the horizontal supporting jaw in a wedge shape so as to be connected to the auxiliary cutting line .

The cutting section of the " seedling tray "according to the present invention further includes a cut-through hole formed to penetrate the upper surface of the body at a position where the perforated line intersects, and rounded corresponding to the upper edge of the unit port .

Further, the unit port of the " seedling tray "according to the present invention is characterized by further comprising a separation preventing protrusion protruded upwardly from the periphery of the drain hole to prevent the separation of the mixed material coating layer.

As described above, since the unit ports can be easily separated one by one, damage to the seedlings and damage to the soil are prevented, and the unit port itself can be made of biodegradable plastic, And has an effect that the growth of seedlings is smooth and stable through mycorrhizae.

Further, the present invention has the effect that the separation or damage of the mixed material coating layer is prevented during handling through the separation preventing jaw, and thus the function of the coating layer can be more stably exerted.

1 is a partially exploded perspective view of a seedling tray according to the present invention,
2 is a plan view of a seedling tray according to the present invention,
3 is a side view of a seedling tray according to the present invention,
Fig. 4 is an enlarged vertical sectional view of the main part of the seedling-growing tray according to the present invention,
5 is an enlarged vertical cross-sectional view of a main part of a seedling tray according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 1 is a partially exploded perspective view of a seedling tray according to the present invention, FIG. 2 is a plan view of a seedling tray according to the present invention, FIG. 3 is a side view of a seedling tray according to the present invention, Fig.

The seedling tray according to the present invention includes a plate-shaped body 10, a unit port 20 formed in the body 10, and a body 10 formed around the unit port 20, And a mixed material coating layer 40 coated on the inside of the unit port 20.

The body 10 is formed of a biodegradable plastic material and provides a space for forming a plurality of unit ports 20 integrally formed. The body 10 is made of a biodegradable plastic together with the unit port 20. The biodegradable plastic is a plastic that is finally decomposed into water and carbon dioxide by microorganisms in the soil or water, Plastic, starch, or cellulose, and chemical synthetic plastics that are given decomposability again.

The body 10 and the unit ports 20 are formed of biodegradable plastic so that the unit ports 20 are separated one by one through the cutouts 30, The unit port 20 is directly implanted in the soil together with the seedling and the soil that are planted in the port 20 and accordingly the seedling and the soil are not separated from the unit port 20 and the seedling can be easily handled .

The body 10 further includes a bending jaw 11 formed to be bent downward along the outer circumference of the body 10 and a horizontal support jaw 12 formed to be bent horizontally at a lower end of the bending jaw 11 . The bending step 11 and the horizontal support step 12 are formed along the outer circumference of the body 10. The bending step 11 and the horizontal support step 12 are formed integrally with the plate- .

The unit port 20 is integrally formed with the body 10 and formed of the same material. The unit port 20 is formed in a plurality of longitudinal and transverse directions so as to be recessed from the upper surface of the body 10 to the lower side. And serves to provide a site where the soil is filled and the seeds are sown and seeded. The drain hole 21 allows the water supplied to the upper part of the unit port 20 to be moved downward to be drained.

The cut portion 30 has a perforated line 31 formed in the form of a lattice on the upper surface of the body 10 along the upper surface of the unit port 20. The user cuts the perforated line 31 through the perforated line 31, The body 10 is broken by an external force so that the unit ports 20 can be separated one by one.

The cutting unit 30 includes an auxiliary tear line 32 formed in the bending tear 11 so as to be connected to the tear line 31 and a wedge 32 extending from the auxiliary tear line 32, And an incision groove (33) formed in an incised shape. The auxiliary perforation lines 32 and the cutout grooves 33 allow the bending jaws 11 and the horizontal support jaws 12 to be easily broken together with the body 10.

The cutting portion 30 is formed to penetrate the upper surface of the body 10 at a portion where the perforated line 31 intersects and is formed with a cut through hole 34 formed to be rounded corresponding to the top edge of the unit port 20 . The unit port 20 has a rounded top edge portion of the unit port 20 so that the unit port 20 can be more easily broken than the body port 10.

The mixed material coating layer 40 is coated on the inner bottom surface of the unit port 20 around the drain hole 21 and contains mycorrhizal bacteria. In the unit port 20, And to induce a homogeneous state between the soil and the seedlings.

Here, mycorrhiza refers to roots in which the roots and fungi of the higher plant are intimately joined together and have a symbiotic relationship. It is known that when plants lack moisture and nutrients in the soil, symbiosis with mycorrhiza is good for plant growth.

Mycorrhizae also grow by using the photosynthetic products of the host plants after invading the roots of the host plants, and the water and nutrients of the soil and the range that the roots of the host plants can not reach are transferred to the roots of the plants through mycelium It has parasitic specificity. As such, mycorrhiza is infected by mycorrhizae and maintains a symbiotic relationship with the host plant, and the nutrient and water absorption efficiency of the mycorrhiza plant is more than ten times higher than that of the uninfected root.

These mycorrhizas can be divided into endogenous mycorrhizal fungi that mycelium penetrates the cell wall of roots and forms branching hyphae in plant cells, and exogenous mycorrhiza that do not invade but proliferate in the cell wall of the cell layer. Endogenous mycorrhizas are distributed in nearly 100 species ranging from tropical tropics to polar regions around the world and can be found in all crops such as corn, cotton, wheat, potatoes, beans, alfalfa and sugarcane, . Arbuscular Mycorrhizal Fungi (AM Fungi) among these endogenous mycorrhizas is a typical endogenous mycorrhizae, and is a kind of mold which forms mycorrhiza together with host plants.

AM fungi inoculated to plants facilitates the absorption of water and nutrients in host plants by widening the contact area with soil through mycorrhiza and mycelium, especially in soybean plants. It also absorbs phosphorus, copper, and zinc, which have low fluidity in the soil, and supplies them to host plants. In particular, mycorrhiza is insoluble in the soil, so that it can absorb chemical fertilizer efficiently by absorbing and transferring the phosphoric acid which required artificially fertilization by mycelium.

In addition, AM fungi produce plant growth-promoting hormones such as Auxin, Cytokinin, and Gibberellin, promoting host plant growth, increasing crop yields, and at the same time improving soil quality , That is, the role of promoting the incorporation of soil.

Mycorrhiza, which is a soil microorganism, is inhabited in various kinds of plant roots and absorbs the amount and moisture of the areas where the roots are insufficient through the mycelium generated from the infested plant roots and transfers them to the plants. From the host plants, the carbon source needed for living places and metabolism is supplied to the soil, thereby improving the natural carbon cycle and soil physical, chemical and biological environment.

The mixed material coating layer 40 having such a role is formed by mixing the mycorrhizal spores with an adhesive or a thickener to form a gel state and then coating or adhering the inside of the unit port 20, followed by drying and fixing.

5 is an enlarged longitudinal sectional view of a main part of a seedling tray according to another embodiment of the present invention.

As shown in the figure, the unit port 20 of the seedling tray according to another embodiment of the present invention further includes a separation preventing jaw 22 protruding upwardly from the periphery of the drain hole 21.

The separation barrier 22 is formed on the mixed material coating layer 40 through the drain hole 21 in the unit port 20 during handling of the body 10 or during formation of the mixed material coating layer 40. [ To prevent separation or disconnection of the battery.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Body
11: Bending chin 12: Horizontal support chin
20: Unit port
21: drainage hole 22:
30: Cutting section
31: perforation line 32: auxiliary perforation line
33: incision groove 34: cutting through hole
40: mixed material coating layer

Claims (4)

A plate-like body 10 formed of a biodegradable plastic material;
The body 10 is formed of the same material as the body 10 and is formed in a plurality of longitudinal and transverse directions so as to be depressed from the upper surface to the lower side of the body 10, (20);
A cutout portion 30 having a perforated line 31 formed in a lattice shape on the upper surface of the body 10 along the upper surface of the unit port 20 so that the unit ports 20 can be separated one by one;
A mixed material coating layer (40) formed in a gel state by mixing mycorrhizal spores with an adhesive or a thickener and coated on the inner bottom surface of the unit port (20) around the drain hole (21); Including,
The body (10)
A bending jaw 11 formed to be bent downward along the outer circumferential surface,
And a horizontal support step (12) formed to be bent horizontally at a lower end of the bending step (11)
The cutting portion (30)
An auxiliary perforation line 32 formed in the bending step 11 so as to be connected to the perforated line 31,
Further comprising an incision groove (33) formed in a wedge shape in the horizontal support step (12) so as to be connected to the auxiliary perforation line (32)
The unit port (20)
(22) protruding upwardly from the periphery of the drain hole (21) to prevent separation of the mixed material coating layer (40).
delete The method according to claim 1,
The cutting portion (30)
A cut through hole 34 formed to penetrate the upper surface of the body 10 at a portion where the perforated line 31 intersects and rounded corresponding to the top edge of the unit port 20,
Further comprising a seedling tray.
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