KR101927799B1 - Apparatus of germination and seedling plate for surfgrass seeds - Google Patents

Abstract

The present invention relates to a seedling plate of Phyllospadix seeds. The seedling plate of Phyllospadix seeds includes: a rock base fixing plate (10) including a metal disc plate (11) with a predetermined thickness, a first penetrating part (13) formed on the center of the metal disc plate (11), and second penetrating parts (14) formed on the metal disc plate (11) at predetermined intervals while having individually determined sizes while having the lower surface adhered and fixed to the rock base (R); a growing frame (20) which has the disc shape with the predetermined thickness to have the lower surface adhered and fixed to the upper surface of the rock base fixing plate (10) while being made of a biodegradable material; a cover net (30) including a net (31) surrounding the upper surface of the growing frame (20) to prevent the loss of multiple Phyllospadix seeds (S) planted on the upper surface of the growing frame (20) and an elastic means (32) adhered to the lower surface corners of the rock base fixing plate (10) while being arranged along the corners of the net (31); and anchor bolts (40) having body units (41) with the upper part individually passing through the first through unit (13) of the metal disc plate (11), center of the growing frame (20), and center of the cover net (30) while having the lower part penetrating and being coupled to the rock base (R) to be exposed to the outside of the cover net (30) and nut units (42) pressing the metal disc plate (11) with a predetermined force after being forced to the other part of the body unit (41).

Description

[0001] Apparatus of germination and seedling plates for surfgrass seeds [

The present invention relates to a seedling of a horsehair seed, and more particularly to a seedling of a horsehair seed which is capable of inducing germination and growth in a highly stable environment without being affected by seagrass, It is about the plate.

Unlike common seaweeds, which are well-bloomed in the oceanic flowering plant, they are high plants with true roots, stems, and leaves that blossom and fertilize to form fruit. Most wells are found in soft grounds of undersea sand or mud, but malaria blooms such as crabs and shrimp live in harmony with coastal rocks that are open to the waves.

These rhizomes are strongly attached to the rocks, and the parts of the undergrowth extend over the rocks. The rhizomes grow and grow into larger communities. The rhizomes and roots of the rhizomes stabilize the sediments, and the heavy metals in the sediments In addition to having a natural purification function to absorb and remove pollutants, Horseshoe habitats are used as spawning grounds and nurseries for marine life with excellent photosynthesis and have information on biodiversity and coastal environment. It occupies an important position that is indispensable.

However, not only the wastewater inflow is increasing rapidly due to untreated living wastewater and unrestrained discharge from factories, but also the photosynthesis is slowed due to deepening of coastal pollution and the population of horsehair is rapidly decreasing. In order to prevent such a decrease in the number of populations, various methods of transplantation of horsehair or bark are proposed, one of which is Korean Patent Publication No. 2017-0090931.

4, a lattice structure 103 is formed by laminating a seating layer 100 and a solid layer 200, and a horizontal line 101 and a vertical line 102 are connected in a net shape to the seating layer 100, And the lattice structure 103 is connected to the binding structure 110 provided with the lint portion 112 so that the seedlings grown in the lattice structure 103 fall into the binding structure 110 There is a feature in the box.

However, this technique has proposed a structure that can stably receive the seeds of the bark, which fall from the bark, using the bark grown above a predetermined size above all. Therefore, in order to use this technique, the solid layer 200 ), It is troublesome to transplant a bark larger than a certain size.

In addition, the binding structure 110 provides only the structure of the lint portion 112 as a means for supporting the seeds. In contrast to the alfalfa, in the case of the lint, There is a problem that seed sweeping due to waves can not be prevented.

Korea Patent No. 1199306 Korean Patent No. 1568749 Korean Patent Publication No. 2017-0090931

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and it is an object of the present invention to provide a nursery plate in which horsehair seeds can be stably germinated and grown without being affected by a rough seabed environment.

In order to achieve the above object, the present invention provides a metal plate part 11 having a predetermined thickness, a first penetrating part 13 formed at the central part of the metal plate part 11, A rock penetration plate 10 having a second penetration portion 14 formed at the metal disc portion 11 and spaced apart from the first penetration portion 14 and closely contacting the lower surface of the rock portion R; A growth frame 20 made of a biodegradable material having a bottom plate having a predetermined thickness and closely contacting the top surface of the rock plate 10; A net 31 for preventing the loss of a plurality of horsehair seeds S placed on the upper surface of the growth frame 20 by covering the upper surface of the growth frame 20, (30) consisting of an elastic means (32) which is brought into close contact with the lower edge of the lower surface (10); The lower portion is penetratingly connected to the rock R and the upper portion is penetrated through the first penetration portion 13 of the metal disc portion 11, the central portion of the growth frame 20 and the central portion of the cover net 30 An anchor bolt 40 formed of a nut portion 42 coupled to the other side portion of the body portion 41 and pressing the metal disk portion 11 with a constant force, Wherein the metallic disc portion 11 is curved upwardly convexly and the corner end portion of the metallic disc portion 11 is bent to the bottom and the elastic means 32 of the cover net 30 Is fixed to the bent end 12 formed at a corner end portion of the metal disk portion 11. [

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In the present invention, a biodegradable biodegradable seed material is grafted on the top surface of a metal plate adhered to a rock, and then an anchor bolt is used to cover the top surface of the biodegradable material. It is possible to expect a very high germination rate of the horse's sparse seeds without polluting the natural environment at all, and it is possible to naturally form the adult horse roots through the stable growth process.

In addition, according to the present invention, it is proposed to form a metal disk which is in close contact with a rock, curvature upward, and in addition to this, a folded end is formed at a corner of the metal disk to connect the cover net, The metal plate can be more closely adhered to the rock, and a very stable growth state can be secured for a long time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a schematic configuration of a horse harvesting seedling according to the present invention; FIG.
FIG. 2 is a schematic bottom view of a sea horse radish seedling board according to the present invention. FIG.
3 is a schematic cross-sectional structural view of line AA 'in FIG. 2;
4 is a schematic structural view of a conventional bivalve culture apparatus;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the technical features of the present invention, A detailed description thereof will be omitted.

FIG. 1 is a schematic perspective view of a horse harvesting seedling according to the present invention. As shown in FIG. 1, the present invention includes a rocking plate 10, a growth frame 20, a cover net 30, anchor bolts 40 ). ≪ / RTI > Hereinafter, each of these configurations will be described in detail.

The bottom surface of the rock plate 10 is brought into close contact with the rock plate R to support the present invention. The rock plate 10 is provided with a metal disc portion 11, a first penetrating portion 13, 14 are provided.

The metal plate portion 11 having a predetermined thickness is the body of the rock plate 10. The first penetrating portion 13 is formed at the central portion of the metal disc portion 11 and the second penetrating portion 14 is formed of a plurality of spaced apart mutually spaced apart portions each having a predetermined size, .

The first penetrating portion 13 is a portion for inserting the anchor bolt 40 and the second penetrating portion 14 is a portion for growing the seedling S so that the ending portion S The roots extend to the rock (R). Although the case where the plurality of second through-holes 14 are radially formed is shown in the drawing, it may be formed in various configurations as desired.

The growth frame (20) is a part where the horsehair seed (S) is placed or implanted, and has a disc-like shape with a certain thickness, and the lower surface portion thereof is brought into close contact with the upper surface portion of the rock plate (10). The growth frame 20 may be made of biodegradable material such as coconut fiber after a certain period of time.

The cover net 30 is a means for preventing the loss of a plurality of horsehair seeds S planted on the upper surface of the growth frame 20 and includes a net 31 surrounding the upper surface of the growth frame 20, 31 and is elastically deformed by the elastic means 32 to be brought into close contact with the lower edge of the rock plate 10.

The anchor bolt 40 is a means for integrating each of the metal disc portion 11, the growth frame 20 and the cover net 30 and fixing them to the rock R. The anchor bolt 40 includes a body portion 41, Part. 2 and 3, the lower portion of the body portion 41 is connected to the rock R and the upper portion thereof is connected to the first penetration portion 13 of the metal disc portion 11 and the growth frame 20 and the cover net 30, and is exposed to the outside of the cover net 30. As shown in FIG. The nut portion 42 is coupled to the other side portion of the body portion 41.

On the other hand, the present invention does not exclude the case where the metal disc portion 11 itself is curved upwardly as shown in Fig. In addition, it is proposed that the edge portion of the metal disc portion 11 is bent to the bottom surface to form the bent end 12.

In the case of the rock mass (R), the shape naturally existing on the bottom of the sea, or artificially laid and moved to the sea floor, is generally curved. This is because the entire outer surface of the rock mass (R) It is for this reason. When the metal disc portion 11 convexly curved upward is placed on the rock R having a predetermined curvature, the corner portion of the metal disc portion 11 is brought into close contact with the rock R and the center portion thereof is in contact with the rock R) surface.

3, the lower portion of the body portion 41 of the anchor bolt 40 is fixed to the rock R, and the nut portion 42 of the anchor bolt 40 is engaged with the body portion 41, (Or another direction), the nut portion 42 presses the central portion of the metal disc portion 11 downward and is fastened to the body portion 41 as shown in the figure.

In this case, the corner portions of the metal disc portion 11 are closely contacted by pressing force of the rocking block R with a constant force by the tightening force between the nut portion 42 and the body portion 41, The metal disc portion 11 is maintained in a highly stable state even if a very strong algae acts.

On the other hand, when the lid 30 is wrapped around the edge of the metal disk 11 and then the metal disk 11 is fixed to the rock R, and when the strong algae works for a long time in this state, 30 can be separated from the metal disk 11 and the portion of the cover net 30 contacting with the edge of the metal disk 11 can be torn by the frictional force.

In this case, as shown in Fig. 3, when the folded end 12 is formed at the edge of the metal disk 11 and the elastic means 32 of the lid 30 is fastened to the bent end 12, The net 30 is prevented from being damaged due to the frictional force between the cover net 30 and the edge portion of the metal plate portion 11 as well as being coupled with the metal plate portion 11 in a very stable manner. It is possible to do.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent that the present invention can be practiced with added features.

10: Rock platform 20: Growth framework
30: cover net 40: anchor bolt

Claims (3)

A first penetration portion 13 formed at a central portion of the metal disc portion 11 and a second penetration portion 13 formed at a central portion of the metal disc portion 11 and having a predetermined size and spaced apart from each other by a predetermined distance, A rock penetrating plate (10) having a second penetrating portion (14) formed on the lower surface thereof and having a lower surface portion adhered to the rock R;
A growth frame 20 made of a biodegradable material having a bottom plate having a predetermined thickness and closely contacting the top surface of the rock plate 10;
A net 31 for preventing the loss of a plurality of horsehair seeds S placed on the upper surface of the growth frame 20 by covering the upper surface of the growth frame 20, (30) comprising an elastic means (32) which is brought into close contact with the bottom edge portion of the bottom wall (10);
The lower portion is penetratingly connected to the rock R and the upper portion is penetrated through the first penetration portion 13 of the metal disc portion 11, the central portion of the growth frame 20 and the central portion of the cover net 30 An anchor bolt 40 formed of a nut portion 42 coupled to the other side portion of the body portion 41 and pressing the metal disk portion 11 with a constant force, ; ≪ / RTI >
The metal disc portion 11 is curved upwardly and convexly and the corner end portion of the metal disc portion 11 is bent to the bottom surface. The elastic means 32 of the cover net 30 is bent (12) formed at a corner end portion of the end plate (11).
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