KR101101851B1 - A mat for fostering submarine forest - Google Patents

Abstract

PURPOSE: A mat for forming sea jungle is provided to promote the growth of macroalgae and to improve macroalgae settling efficiency. CONSTITUTION: A mat for forming sea jungle comprises is as follows. In the mat, horizontal yarn(110) and vertical yarn(120) made of vegetable fabric material are formed. A fixing unit(130) fixing a junction is formed in the junction of the horizontal yarn and vertical yarn. A coating layer is formed in the horizontal yarn and vertical yarn. In the coating layer, resin binder 50-100 weight% and plant oil 20-40 weight% are mixed against slag powder 100 weight%.

Description

Mat for Fostering Submarine Forest

The present invention relates to a structure for artificially forming a sea forest in the seabed, and when described in more detail, the horizontal yarn, vertical yarn, etc. constituting the mat made of coconut fiber fibers are excellent durability and eco-friendly material itself, It is advantageous for seaweed deposition, and in addition, the present invention relates to a mat for deforestation composition capable of promoting robustness and growth of seaweed deposition by physical and chemical treatment.

Algae are the primary producers of ecosystems and their function is very important. In recent years, seaweeds, seaweed, kelp and rhubarb inhabiting the coast have disappeared due to the strongness of Kuroshio turbulence, El Niño, and other environmental pollution. 'Whitening Event' is happening that mass reproduces and covers rock. The phenomena of the bleaching have not yet been identified, but the cause of the expansion of the Kuroshio turbulent forces and the change of environment, the increase of water temperature, the over-feeding of breakfast animals, and the saturation of calcium carbonate by the cement component from the land. I count it. In addition, perennial seaweed colonies such as Ecklonia japonica and Mabanban, which were also grown in the coastal fishing grounds of Jeju Island, are destroyed in the ecosystem due to high water temperature, low salinity, marine pollution, and over-feeding of breakfast animals. It is gradually spreading. In the area where bleaching has occurred, the destruction of food chains caused by the destruction of food chains due to the disappearance of food and breakfast habitats of fish-bearing organisms has led to the devastation of coastal fisheries.

To this end, various artificial reefs have been developed in order to prevent and recover from coastal desolation and artificially create a growth environment for fish and algae. However, conventional artificial reefs are generally formed by concrete products containing cement, so that spores of seaweeds B. Even if artificial seedlings were attached to artificial reefs, the surface was smooth and the habitat area was small, making it difficult for spores and artificial seedlings of seaweeds to implant (deposit). As a result, the formation of marine forests did not proceed properly, and there was a limit in restoring the devastated coastal fishery. In particular, since the conventional artificial reefs use concrete containing cement as the material as mentioned above, the artificial reefs for the composition of the marine forests are rather saturated with the calcium carbonate on the sea floor as time passes, and eventually whitening based on these calcium carbonates. There was a problem of promoting the progress of the phenomenon.

The present invention has been made to solve the above problems, the material itself is environmentally friendly, solid (deposition) of the seaweed is to provide a mat for the composition of the sea forests that can promote algae growth.

The mat for maritime forest composition of the present invention for achieving the above object is composed of a horizontal yarn and a vertical yarn composed of a vegetable fiber material, characterized in that the fixing means for fixing the joint to the joint of the vertical yarn and the horizontal yarn. In particular, in the present invention, the horizontal yarn, vertical yarn, the upper yarn, the lower yarn to be described below are all characterized in using coconut fibers as the vegetable fiber material. Such coconut fiber has excellent durability such as tensile strength by itself, it is naturally decomposed into vegetable fiber material and does not emit calcium carbonate to prevent bleaching, and it is easy to form spores of seaweed based on natural materials. Robust attachment is possible.

In addition, in the present invention, the horizontal yarn and the vertical yarn (including the upper yarn and the bottom yarn) are composed of a plurality of filaments composed of coconut fibers, and a plurality of loops are formed on the outer circumference thereof by air entanglement. Evaporation of spores is easy and can be made firm.

In addition, the horizontal yarn and the vertical yarn (including the upper and lower yarns) by the slag so that the coating layer is further composed of 50 to 100 parts by weight of the resin binder and 20 to 40 parts by weight of vegetable oil with respect to 100 parts by weight of the slag powder. It is to help the growth of algae, and by forming a natural binder by a resin binder and vegetable oil to form an environmentally friendly coating layer.

As described above, since the mat for seaweed forest composition according to the present invention is formed by coconut fiber, it has excellent advantages in durability, prevention of environmental pollution, ease of evaporation of seaweed, and robustness.

In addition, the mat for seaweed forest composition according to the present invention is to make the algae deposition more robust by physical and chemical treatment to the horizontal and vertical yarns constituting it, there is an advantage to promote the growth of algae.

In addition, the mat for the composition of the sea forests according to the present invention can be configured three-dimensional sea forests by selectively configuring the top yarn and the bottom yarn, and also in the case of the fixing means or weight weight configured therein by using a porous material including ocher Deposition of algae is possible, as well as environmentally friendly advantages.

1 is a perspective view showing a basic example of the mat for deforestation composition of the present invention,
Figure 2 is a schematic diagram showing the entanglement using the air entanglement device,
3a and 3b is a perspective view showing an embodiment of the present invention,
Figure 4 is a state diagram used in the invention shown in Figure 3a.

Hereinafter, with reference to the accompanying drawings will be described a mat for the sea forests composition according to an embodiment of the present invention.

1 is a perspective view showing a basic example of the mat for the composition of the marine deforestation of the present invention, Figure 2 is a schematic diagram showing the entanglement using the air interlocking device, Figures 3a and 3b is a perspective view showing an embodiment of the present invention, Figure 4 is It is a state diagram of use of the invention shown in Figure 3a.

The mating forest composition 100 of the present invention is formed by the horizontal yarn 110 and the vertical yarn 120, as shown in Figure 1, the horizontal yarn 110 and the vertical yarn 120 is fixed to the junction portion The 130 is configured to fix the joints of the horizontal yarn 110 and the vertical yarn 120. The fixing means 130 shown in FIG. 1 is an example of fixing the joints of the horizontal yarn 110 and the vertical yarn 120 by knots. The constituting the fixing means 130 formed by the knot is to maintain the shape of the mat formed by the horizontal yarn 110 and the vertical yarn 120, in particular the horizontal yarn 110 and vertical yarn by the current The slipping occurs at the junction between the 120 to prevent the deposited algae from escaping. In other words, the fixing means 130 shown in Figure 1 is that the horizontal yarn 110 and the vertical yarn 120 is formed by weaving, where the weave of the horizontal yarn 110 and the segasa 120 cross each other horizontal and vertical It is arranged as and interwoven with each other. Thus, the present invention is formed in the plate by the horizontal yarn 110 and the vertical yarn 120 is to provide a growth plate of seaweed on the seabed. In addition, although not shown in the drawings, the algae composition mat 100 of the present invention has a horizontal portion (horizontal end) and a vertical portion (vertical direction) when the horizontal yarn 110 and the vertical yarn 120 are formed by weaving. The end of the bar can be configured to be exposed in the form of a connecting ring by each of the cross thread 110 and the longitudinal thread 120 in the form of a knot wrapped around the end, such a hook type exposure is the seaweed of the present invention When the mat 100 for the composition is installed on the seabed, when the mat of the present invention is fixed to the seabed rock (artificial rock) by the fixing member (a) shown in FIG. It can be configured to be connected by a simple bundle.

Meanwhile, the horizontal yarn 110 and the vertical yarn 120 are composed of a plurality of filaments S as shown in FIG. 2, and each of the filaments S is made of coconut fiber fibers as mentioned above. In addition, as shown in FIG. 2, the horizontal yarns 110 and the vertical yarns 120 formed by the plurality of filaments S form a plurality of loops R on their surfaces by air-interaction. This loop (R) is to enlarge the deposition area of the algae in the horizontal yarn 110 and the vertical yarn 120, so that various organic matters necessary for the growth of the algae are accumulated in the plurality of loops (R). In the end, it is to be easy and robust to deposit and grow algae.

Here, "air entanglement" refers to entanglement between the filaments (S) by supplying a matrix composed of a plurality of filaments (S) in the air entanglement apparatus as shown in Figure 2 by injecting a high-pressure air.

In addition to forming a loop R in the horizontal yarn 110 and the vertical yarn 120 as the above-described physical treatment, the present invention provides the horizontal yarn 110 and the vertical yarn 120 as shown in FIG. 1. As described above, the coating layer (C) may be formed. The coating layer (C) may be blended with 50 to 100 parts by weight of the resin binder and 20 to 40 parts by weight of vegetable oil based on 100 parts by weight of the slag powder, and the cross thread 110 and It is to be applied to the vertical yarn (120). The slag powder is to facilitate the growth of algae, and the slag powder by the resin binder and the vegetable oil to the slag powder to be adhered to the surface of the horizontal thread 110 and vertical yarn 120 By further blending a natural binder to form an environmentally friendly coating layer (C). In this way, the vegetable oil is used as the natural binder in the resin binder, and the vegetable oil is produced in the process of ripening, natural glycerin is produced, and contains fatty acids in itself, the surface of the horizontal yarn 110 and the vertical yarn 120 A thin film is formed to prevent oxidation of the horizontal yarn 110 and the vertical yarn 120, and the slag powder is adhered to the surfaces of the horizontal yarn 110 and the vertical yarn 120. The vegetable oil may be an oil extracted from a plant or a plant seed, and for example, one selected from the group consisting of coconut oil, castor oil, grape seed oil, and mixed oils thereof. The vegetable oil is preferably blended 20 to 40 parts by weight with respect to 100 parts by weight of the slag powder, if less than 20 parts by weight is ineffective, and if more than 40 parts by weight, the adhesion of the resin binder is lowered to serve as a binder This problem is limited because it does not occur.

In addition, the resin binder is made of one or two or more of polyacrylate, polyester (Polyester), thermoplastic polyurethane elastomer (TPU), polyamide (Polyamide), vinyl chloride resin, vinyl chloride resin, vinyl acetate resin Consisting of one type selected from the group, limiting to 50 to 100 parts by weight of the resin binder with respect to 100 parts by weight of the slag powder is to ensure that the appropriate adhesion of the slag powder is too small adhesion is weak, too much if more than necessary adhesion It is rather limited because it does not supply the slag powder component to the deposited algae. In addition, the reason for limiting the range is that the coating layer (C) is to promote the growth of seaweeds deposited on the horizontal yarns 110 and the vertical yarns 120 by slag powder, so that only the time required for promoting growth of the algae coating layer ( C) is formed and may be decomposed thereafter, thus limiting the content of the resin binder.

Meanwhile, in the mat for deforestation composition 100 of the present invention, an example of configuring the lower yarn 140 and the upper yarn 170 for three-dimensional deforestation composition is illustrated in FIGS. 3A and 3B. This example is to selectively configure the lower yarn 140, when the installation of the mating forest composition mat 100 of the present invention is installed at a somewhat higher position from the seabed to drop the lower yarn 140 to form a three-dimensional deforestation Will be, if installed in a somewhat lower position to form a seam forest by dropping the upper yarn (170).

First, in the embodiment illustrated in FIG. 3A, the fixing means 130a at the junction of the horizontal yarn 110 and the vertical yarn 120 serves as a buoyancy sphere using a material floating in water. The material used for the fixing means 130a serves to support the plane frame formed by the horizontal yarn 110 and the vertical yarn 120 using the material floating in water at the bottom of the sea. Fastening of the horizontal yarn 110, the vertical yarn 120 and the lower yarn 140 to the fixing means 130a may be variously configured, but in FIG. 3A, the fastening means 130a intersects with the fixing means 130a. The through-hole 131a is configured to pass through the horizontal yarn 110 and the vertical yarn 120 through each of the through-holes 131a to form a joint, and a fastening ring 132a is formed at the bottom of the bottom yarn 140. Is to be fastened by a bundle. The weight bar 150 is configured at the end of the lower thread 140, the weight 150 is configured in the plane frame formed by the horizontal thread 110 and the vertical thread 120 by the current flow In the case of interlocking, the algae deposited on each of the horizontal yarns 110 and the vertical yarns 120 may be separated by such interlocking, thereby controlling the interlocking by the currents by configuring the weight 150 in the lower yarns 140. It is to enable a stable deposition of algae.

The weight 150 is characterized in that formed by firing by mixing with 30 to 40 parts by weight of ocher, 10 to 20 parts by weight of stone, 20 to 25 parts by weight of water, and 1 to 3 parts by weight of soil hardener compared to 100 parts by weight of slag. . The weight 150 thus manufactured is to enable the strength to be expressed by the solidity of the weight weight 150 is enhanced by the binding of the ocher by the slag while the useful components of the loess are expressed, the weight is secured by ensuring the porosity The weight (150) itself is to allow the algae to grow.

In the above-described configuration, ocher is generally distributed evenly in the form of silicon oxide (SiO 2), alumina oxide (Al 2 O 2), potassium oxide (K 2 O), magnesium oxide (MgO), sodium oxide (Na 2 O), and the like. When the oxygen affinity is high and with water, the oxygen adsorption power is increased to increase the amount of dissolved oxygen in the water. That is, it is possible to help the growth of the algae deposited by the oxygen adsorption power. However, when the ocher is used as it is, the bonding force may be lowered by the seawater, so that it is combined with the slag to improve the bonding force so that it is not loosened by the seawater so that the mold is maintained. In addition, the slag component itself can help the growth of algae, so the weight 150 by this composition is environmentally friendly by not using cement, and can help the growth of algae in itself.

In addition, the weight 140 has the characteristics of maintaining the natural color, high strength maintenance of aseptic treatment and yellow soil through high temperature baking process.

As described above, in the present embodiment, the mating medium 100 for decomposing the seawater forest is fixed by the interlocking mechanism of the sea current at the bottom of the sea by the weight 150 which is interlocked upwardly by the fixing means 130a which acts as a buoyancy sphere and works upward. As a result, the deposition of seaweed in the horizontal yarn 110, the vertical yarn 120, the bottom yarn 130, and the weight 150 will be robust, and the algae will be evenly grown as a whole.

In addition, the lower yarn 140 is configured to be exposed to the lower portion of the weight 150, and the exposed lower yarn 140 includes a control jaw 160 configured to extend in the shape of a lower tube. The control jaw 160 is for preventing the sea urchins from eating seaweeds deposited on the bottom yarn 140 by riding the bottom yarn 140 by being grounded to the bottom, stone, etc., the lower yarn 140 draped to the bottom. will be. 3A is a configuration in which the lower yarn 140 is exposed to the lower portion of the weight 150 constitutes a through hole (not shown) that communicates up and down with the weight 150 in FIG. The thread 140 passes through the through hole, but is fixed by making a knot on the upper and lower surfaces of the weight 150. The exposed lower thread 140 has a fitting portion 161 is configured to penetrate the lower thread 140 through the inside, and the expansion portion 162 extending in diameter downward integrally with the fitting portion 161. By installing the control jaw 160 is configured to prevent the breakfast creatures such as sea urchins to eat while moving on the lower yarn 140.

Meanwhile, another embodiment of the present invention is illustrated in FIG. 3B. In this embodiment, the fixing means 130b is made of the same material as the weight 150 and is formed of a horizontal thread 110 and a vertical thread 120. The frame is to be interlocked in the downward direction, so that the buoyancy sphere 180 is installed at the end of the upper yarn 170 to be in parallel with the action force of the fixing means (130b). In the present embodiment also by the parallel to the force acting on the fixing means 130b and the buoyancy sphere 180 is to ensure that the algae composition mat 100 is fixed to the seabed without severe interlocking by the current.

Since the material of the fixing means 130b is the same as that of the weight 150, the description thereof will be omitted. The horizontal yarn 110, the vertical yarn 120 and the upper yarn 170 are bonded to the fixing means 130b. In FIG. 3b, the through hole 131b and the vertical hole perpendicular to the fixing means 130b and up and down. A through hole 132b penetrates the through hole 131b orthogonally in the lateral direction so as to penetrate the horizontal yarn 110 and the vertical yarn 120 to form a joint, and a through hole penetrating up and down ( 132b is to penetrate the upper yarn 170, but to fix the upper yarn 170 to the fixing means 130b by knotting the upper yarn 170 on the lower surface of the fixing means (130b).

In the case of the lower yarn 140 and the upper yarn 170 mentioned above, the loops R may be formed by entanglement by physical treatment in the same way as the horizontal yarn 110 and the vertical yarn 120, Since the coating layer (C) can be formed, such physical treatment and chemical treatment are the same as mentioned above, and thus description thereof is omitted.

Hereinafter, an operating state of the present invention will be described with reference to FIG. 4.

The seaweed composition mat 100 shown in Figure 4 is fixed to the seabed rock (not shown in the figure) and the like by the fixing member (a). Thus, the mat for seaweed composition fixed by the fixing member (a) 100 acts as a buoyancy sphere as the fixing means (130a) is made of a floating material in the plane consisting of a horizontal yarn 110 and a vertical yarn 120 The frame receives a force interlocking upward from the seabed, and the force is parallel to the lower thread 140 configured at the lower portion of the fixing means 130a based on the weight 150 configured at the end thereof. Finally, the mat for seaweed composition in the seabed may be fixed at the seabed while minimizing the influence of the sea current so that the horizontal thread 110, the vertical yarn 120, and the lower yarn 140 are applied to the seabed. The deposited seaweeds are stably deposited, and the horizontal yarns 110, the vertical yarns 120, and the lower yarns 140, respectively, facilitate the deposition of algae by the material itself based on the coconut fiber fibers. Yarn (110), Longitudinal Yarn (120) And based on the loop (R) and the coating layer (C) due to the air-treatment treated in the lower yarn 140, while strengthening the algae deposition at the same time to promote the growth of algae to enable the composition of the three-dimensional sea forests.

Since the above embodiments are merely illustrative of the preferred embodiments of the present invention, the scope of application of the present invention is not limited to the above, and appropriate modifications are possible within the scope of the same idea. Therefore, since the shape and structure of each component shown in the embodiment of the present invention can be carried out by modifying, it is natural that such a phenomenon and a modification belong to the appended claims of the present invention.

110: horizontal yarn 120: vertical yarn
130: fixing means 140: lower thread
150: weight 160: control jaw
170: upper yarn

Claims (10)

It consists of horizontal and vertical yarns formed of vegetable fiber material,
Wherein the junction between the horizontal yarn and vertical yarn is characterized in that the fixing means for fixing the junction,
The horizontal yarn and the longitudinal yarn is a mat for the composition of the sea forests, characterized in that the coating layer is further composed of 50 to 100 parts by weight and 20 to 40 parts by weight of vegetable oil with respect to 100 parts by weight of the slag powder.
delete delete delete The method of claim 1,
The resin binder is selected from the group consisting of polyacrylates, polyesters, thermoplastic polyurethane elastomers (TPUs), polyamides, polyvinyl chloride resins, vinyl chloride resins, and mixtures of one or two or more of vinyl acetate resins. Consisting of one selected, vegetable oil is selected from the group consisting of one or two or more of the mixture of coconut oil, grape seed oil, castor oil, marine mattress composition mat.
delete The method of claim 1,
The fixing means serves as a buoyancy sphere using a material floating in water, characterized in that through holes are formed so that the horizontal yarn and the vertical yarn penetrates,
The lower part of the fixing means is composed of a lower yarn composed of a vegetable fiber material, the lower end of the lower yarn is formed with weights, the weight is 30 to 40 parts by weight of ocher compared to 100 parts by weight of slag, 10 to 20 parts by weight of stone powder, water 20 To 25 parts by weight, 1 to 3 parts by weight of the soil hardener is mixed for firing mattress composition characterized in that the firing.
The method of claim 7, wherein
The lower portion of the weight is configured so that the lower yarn is exposed, the exposed lower yarn is formed mat seam forest composition, characterized in that the control jaw is configured in the expansion tube shape to the bottom.
The method of claim 1,
The fixing means is prepared by firing by mixing 30 to 40 parts by weight of ocher, 10 to 20 parts by weight of stone powder, 20 to 25 parts by weight of water, 1 to 3 parts by weight of soil hardener, and the horizontal yarn and the length of the slag. Mat for forming a marine forest, characterized in that the through-hole is formed so that the yarn penetrates.
The method of claim 9,
The upper portion of the fixing means is composed of an upper yarn composed of vegetable fiber material, the end of the upper yarn is a mat for seaweed forest composition, characterized in that the buoyancy sphere is configured.

Images