KR20190097881A - Roof support structure and rope supporting structure construction method for seaweed - Google Patents

Abstract

The present invention relates to a rope supporting structure for seaweed and a method for constructing the same. For the purpose, the method of the present invention comprises: a rope winding step of placing a rope supporting structure for seaweed having crossed unit support posts on the top of a supporting panel, and winding the rope up around the crossed unit support post having a connection ring; an underwater photographing and investigation step of performing underwater photographing and investigation in order to differentiate underwater base rock area from underwater sandy soil area in a farm where the supporting structure will be constructed; a supporting structure dropping step of transporting the rope-wound supporting structure to the farm by using a barge having pumping equipment, and repeatedly dropping the supporting structure to underwater floor by using the pumping equipment; and a rope connecting step of sending a diver underwater to untie the rope wound around the supporting structure dropped on the underwater floor and insert and fix the rope into the connection ring. Accordingly, a manufacturing process is simplified to enhance productivity and save costs, and an increase in a cross section of the rope increases productivity of seaweed, thereby contributing to income increase. In addition, underwater ecosystem can be recovered.

Description

ROOF SUPPORT STRUCTURE AND ROPE SUPPORTING STRUCTURE CONSTRUCTION METHOD FOR SEAWEED}

The present invention relates to a method for constructing an engaged rope support structure and an engaged rope support structure for seaweed, and in particular, by dropping a support structure provided with cross unit support wood to the upper part of the support panel on the underwater floor and connecting them to the engaged ropes, ) Can be restored to facilitate coastal aquatic ecosystems while contributing to income growth.

In general, seaweeds are largely divided into brown algae such as kelp, seaweed, sesame, and silk, and red algae such as laver and seaweed, and green algae such as seaweed.

Seaweed cultures such as seaweed, seaweed, and kelp are formed by attaching them to ropes.The rope-attached seaweeds are formed by inserting or wrapping delicate strings into ropes and installing them at a certain depth below the water surface. Way.

The algae farming method using a rope attaches moxibustion to the rope at intervals of 5 to 6 m, connects the moxibustion with the moxibustion line, and adjusts the depth of the rope to about 1 m below the water level by the length of the moxibustion line. I'm trying to.

On the other hand, seaweed forest grass using artificial seaweeds of Korean Utility Model Publication No. 20-399819 (October 21, 2005) has been proposed, and the proposed seaweed forest grass is provided to be filled with concrete blocks and sandstone inside the structure where the space of the cuboid is formed. In addition, support ropes with connecting members are provided in the structure, so that the engaged ropes are connected to other neighboring structures, so that the algae can be obtained while recovering the coastal waters devastated by the bleaching phenomenon, but the structure is made of steel. As a result of the many processes to manufacture through cutting and assembly (welding) from the purchase of the product, there is a problem that the cost is increased while productivity is lowered.

In addition, as the corrosion progresses gradually in the installed state, there is a problem of further polluting coastal waters.

Utility Model Registration No. 20-399819 (2005.10.21.)

This invention is to provide a support structure having a cross-unit support wood using lumber or columnar in concrete to increase the productivity while reducing the cost, and to contaminate the coastal underwater ecosystem due to the corrosion of the existing steel In order to prevent damage to the water, and improve the workability so that the working rope can be easily connected between the supporting structures in the water, and seaweed kelp is smoothly restored to contribute to the income increase.

In the present invention, in the engaged rope support structure (A) for seaweed provided with a cross unit support (20) on the upper part of the support panel (10), the support panel (10) has a flow path (110) vertically on both sides of the lower part. It is formed to be arranged in the direction, the upper surface of the support 120 is provided with a ring 120 protrudes upward, the cross unit support neck 20 is one support neck 210 and the other support neck ( The lower portion is embedded in the horizontal direction so that the inner side of the upper end of the 210 'crosses, and the cross unit support neck 20 is vertically maintained by the spacer 30, the bolts B, and the nuts N at regular intervals. It is repeatedly arranged in the direction, but the cross-butting portion of the support neck 20 is intersected but the through hole (H) is formed to be connected to the bolt (B) is inserted through, through the bolt (B) The spacer 30 and the other cross unit support 20 is repeated Is coupled to a nut (B), the spacer 30 is formed of a porous block, the engaging rope fixing ring 220, 220 is located at the upper end of the cross unit support wood 20 located in the longitudinal edge ') Is provided.

In addition, the support panel 10 is characterized in that the through-flow passage 130 connected to the flow path 110 formed in the lower portion is formed in the center, the porous pallet 40 is placed on the through-flow passage 130.

In addition, a block 60 or a natural stone 70 is inserted into the structure space 50 formed inside the support panel 10 and the cross unit support 20.

In addition, the cross unit support neck 20 made of the support neck 210 (210 ') provided on the upper portion of the support panel 10 is further arranged in the longitudinal direction is formed to have a two-row form, one cross unit It is characterized in that the bolt (B) is inserted through the joint (210) of the support neck (210) of the support neck 20 and the support neck 210 of the other cross unit support (20) to be penetrated by a nut (N) do.

In addition, the support panel 10 is formed to be cured by the concrete is poured, the support wood 210, 210 'is formed of a lumber or columnar, the clad unit support wood 20 cross One side of the engagement rope 80 is wound and tied to the portion to be provided, characterized in that the connecting ring 810 is provided on the other side of the engagement rope 80.

On the other hand, the present invention is a method for constructing the engaged rope support structure for seaweed provided with a cross unit support wood 20 on the upper portion of the support panel 10, the engaged rope support structure is one side on the upper portion of the support panel 10 The lower part is embedded in the horizontal direction so that the upper inner side of the support neck 210 and the other support neck 210 'cross each other, and a cross unit support neck 20 is provided, and the cross unit support neck 20 is a spacer 30. And a supporting structure manufacturing step (S100) of obtaining a supporting structure which is arranged to be repeatedly arranged in the longitudinal direction to be maintained at a predetermined interval by the bolt (B) and the nut (N); Winding rope winding step (S200) is wound around the engaging rope (80) having a connecting ring (810) to the support structure; An underwater photographing survey step (S300) of performing underwater photographing to identify the underwater rocky area and the underwater sandy area of the farm where the support structure is to be constructed; A support structure dropping step (S400) of repeating the dropping of the support structure onto the water bottom by using the pumping equipment after moving the support structure on which the engaged rope 80 is wound to a farm using a barge having pumping equipment; And engaging rope connection step (S500) by fixing the hook to the hook 810 by releasing the engaged rope wound on the support structure dropped to the bottom of the submerged in the water.

In addition, the step of winding the engaging rope (S200) has a length of the engaged rope 80 to have a rock area, 10 to 20M, in the case of a sandy area, to have a 20 to 50M, engaged rope 80 cross To be tied to the engaged rope fixing ring (220, 220 ') formed in the upper end of the unit support neck 20, the dropping step (S400) of the support structure is to drop in the land side in the gorge or in the canyon To take a seat on the back of the structure, the engaging rope connection step (S500) is characterized in that when the engaging rope hit the swelling in the center is maintained up.

In this invention, since the support structure is formed so that the lower portion of the cross unit support made of wood is embedded in the upper portion of the support panel made of concrete, the manufacturing process may be simplified to increase the productivity.

In addition, through this it is possible to obtain the effect that the cost required for the manufacture of the support structure can be reduced.

In addition, it is possible to obtain an effect that can be used to prevent the pollution of the surrounding environment in the construction state in water by using a natural friendly material of the support structure through this.

In addition, since the engaged ropes are arranged to be connected to each other in a state in which the supporting structure is dropped in water, the cross-sectional area of the engaged ropes may be increased, thereby increasing the productivity of algae, in particular, kelp, thereby obtaining an effect of increasing extinction.

In addition, it is possible to obtain further effects to restore the underwater ecosystem.

In addition, as each support structure is connected by the engagement rope, it is possible to obtain an effect of increasing the supporting force or fixing force to prevent deformation by conduction, scour, and wave force, thereby extending the service life.

And when such a support structure is constructed by merging with the existing dropping formula, it is possible to pull the seed rope into the coordination state with the dismantled link at the end of the seed rope, so that the collecting operation can be made easier. There is.

1 is a perspective view showing the engaged rope support structure for seaweed according to the present invention.
Figure 2 is a bottom perspective view showing the engaged rope support structure for seaweed according to the present invention.
Figure 3 is an exploded perspective view showing the engaged rope support structure for seaweed according to the present invention.
Figure 4 is a longitudinal sectional view showing the engaged rope support structure for seaweed according to the present invention.
Figure 5 is a flow chart showing the construction process of the engaged rope support structure for seaweed according to the present invention.
Figure 6 is a perspective view showing a state constructed through the construction process of the engaged rope support structure for seaweed according to the present invention.
Figure 7 is a perspective view showing another state constructed through the construction process of the engaged rope support structure for seaweed according to the present invention.
Figure 8 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention.
9 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention.
Figure 10 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention.

An embodiment of the present invention will be described below with reference to the accompanying drawings.

1 is a perspective view showing the engaged rope support structure for seaweed according to the invention, Figure 2 is a bottom perspective view of the engaged rope support structure for seaweed according to the invention, Figure 3 is a seaweed according to the invention Figure 4 is an exploded perspective view showing the engaged rope supporting structure, Figure 4 is a longitudinal sectional view showing the engaged rope supporting structure for seaweed according to the present invention.

Engagement rope support structure (A) for seaweed according to the present invention can be reduced cost while simplifying the manufacturing process to increase productivity, and each support structure is connected by the engagement rope to increase the cross-sectional area and As it is shown in Figures 1 to 4 as to ensure the supporting force to prevent deformation by conduction, scour and wave forces to increase the productivity of the seaweed to contribute to the increase in extinction, as shown in Figures 1 to 4, the support panel 10 Is formed to be provided with a cross unit support wood 20 at the top.

Here, the support panel 10 is provided so that concrete can be poured and cured in a rectangular shape having a predetermined thickness by using a mold not shown. The support panel 10 is preferably such that the width × length × height is 2,000 × 2,000 × 300mm respectively. This is to have a weight of about 3,600kg to be seated on the floor stably.

The lower side of the support panel 10 is formed so that the flow path 110 through which seawater flows is arranged in the vertical direction, and this flow path 110 is formed by using a separate box in the process of pouring and curing concrete It is desirable to. In other words, the flow path 110 is formed by removing concrete, after curing by pouring concrete.

The flow path 110 allows the seawater to flow from the bottom of the support panel 10, that is, from the longitudinal front of the bottom to the longitudinal rear, but in addition to the shape, the seawater flows to the top and bottom of the support panel 10. It is preferable that the through-flow passage 130 connected to the flow passage 110 formed at the bottom so as to be formed in the middle of the support panel 10. At this time, the through-flow passage 130 is provided so that the porous pallet 40 is placed so that the shellfish or mollusks can be inhabited, such a porous pallet 40 is to be made of a synthetic resin material to increase the corrosion resistance to increase the service life It is desirable to be able to extend.

A ring 120 protruding upward is formed on the upper surface of the corner of the support panel 10 so that the engagement rope 80 to be described later may be bundled or stably seated on the floor by an anchor Ac. It is provided.

형태를 갖도록 형성되어 있다. 상기 지지목(210)(210')은 각목으로 형성되도록 하는 것이 바람직하다.The cross unit support timber 20 is formed between the lower portion and the upper portion of the support panel 10, the structure space 50 is formed to provide a space where fish can live, the engagement rope 80 can be stably bundled. The lower support is embedded in the upper portion of the support panel 10 to a predetermined depth in the transverse direction so that the inner side of the upper end of the one support neck 210 and the other support neck 210 '. That is, the cross unit support 20 is

It is formed to have a shape. Preferably, the support necks 210 and 210 'are formed to be square.

The cross unit support wood 20 is formed to be repeatedly arranged in the vertical direction from the top of the support panel 10 to be maintained at a constant interval by the spacer 30, the bolt (B) and the nut (N) to a constant volume inside. The structure space portion 50 may be formed.

To this end, the through-hole (H) is formed so as to be connected to the portion where the cross unit support wood 20 to cross, so that the bolt (B) is inserted through, the spacer (30) to the through bolt (B) ) And the other cross unit support (20) is arranged to be repeatedly coupled to the nut (B).

The bolt (B) is preferably using a bolt, or the male thread is formed on both ends having a reinforcing bar shape to be fastened with a nut (N). At this time, one side of the bolt (B) in a way to reduce the amount of use of the nut (N) can have a simple bent form, washer toward the front of the nut (N) as a way to increase the coupling force of the nut (N). More preferably, (W) is inserted.

The upper end of the cross unit support wood 20 located at the edge of the longitudinal direction is provided with engaging rope fixing rings 220 and 220 'so that one side of the engaging rope 80 can be penetrated and maintained. It is.

The spacer 30 allows the fish to move while allowing the seawater to flow smoothly into and out of the structure space 50 by allowing the cross unit support wood 20 and the other cross unit support wood 20 to be opened. It is desirable to be formed of a porous block so that it can be. At this time, the porous block can be used as zodiacal brick.

On the other hand, one side of the engaging rope 80 is provided to be tied to the cross section of the cross unit support neck 20 is provided, and the connecting ring 810 is provided on the other side of the engaging rope 80 to support the structure in the sea water After inputting (A) the connection work of the engagement rope 80 can be easily made.

Figure 5 is a flow chart showing the construction process of the engaged rope support structure for seaweed according to the present invention.

Construction of such engaged rope support structure (A) first, the upper inner side of one support neck 210 and the other support neck 210 'to the cross-cut not shown in the support structure manufacturing step (S100) in the middle The lower portion is arranged in the horizontal direction so that one cross unit supporting member 20 is provided, and after passing the bolt B through the one cross unit supporting member 20, the exposed bolt B is penetrated again. After passing through the spacer 30 and arranged to maintain a constant interval in the vertical direction through the repetition of this process, and then tighten the washer (W) and the nut (N).

Thereafter, the concrete is poured into the formwork and then cured to remove the hardwood not shown on the floor, thereby obtaining a support structure including the support panel 10 having a flow path 110.

Next, in the step S200 of winding the engaging rope 80 having a connecting ring 810 to the support structure (A) to be wound. At this time, when the support structure (A) is constructed in the rock area, the length of the engagement rope 80 is preferably to have 10 ~ 20M, when installed in the sand region, it is more preferable to have a 20 ~ 50M. . This is to allow the rock area to maintain a constant spacing between the support structure (A), while the sand region is to adjust the length of the engagement rope 80 as the distance between the support structure (A) is variable.

The engaging rope 80 is to be tied to one side of the engaging rope fixing ring 220, 220 'formed on the upper end of the cross unit support neck 20, the other side is wound to the outside of the cross unit support neck 20 It is desirable to be stored in an empty state. This is to make it easy to release the engagement rope 80 wound on the outside of the cross-unit support wood 20 during the underwater operation after being put into the sea water.

Next, a barge having a pumping device for the support structure on which the engaged rope 80 is wound after surveying by underwater shooting to distinguish the underwater rocky area and the underwater sandy area of the farm where the support structure is to be constructed by the underwater photographic irradiation step (S300). Move to the farm using, and then it is repeated to drop the support structure to the water floor with the pumping equipment (support structure dropping step (S400)). At this time, the support structure dropping step (S400) is preferably to be located in the rear side of the canyon or the structure while the drop is made in the land side in the drop-off side.

Next, the engaged rope connection step (S500) by putting the diver into the water to loosen the engaged rope wound on the support structure dropped to the bottom of the underwater, using the linkage 810 to engage the opposing support structure to engage the seaweed Rope support structures are constructed. At this time, it is more preferable to keep the state up by putting a swelling in the center when the engaged rope is struck.

Figure 6 is a perspective view showing a state constructed through the construction process of the seaweed engaged rope support structure according to the present invention, Figure 7 is another construction constructed through the construction process of the engaged rope support structure for seaweed according to the present invention It is a perspective view which shows the state.

When the engaged rope support structure for algae constructed through this process is arranged in a -shape, the support structure positioned at the edge is formed using a separate anchor Ac and a support rope Ss, as shown in FIG. 6. By being fixed to the floor it can be prevented from being deformed by conduction, scour and wave forces.

In addition, as shown in Figure 7, when the engaged rope support structure for seaweed is constructed in the form of ×, engaged engaged to each support structure (A) without using a separate anchor (Ac) and the support rope (Ss) As the state in which one is connected by the rope 80 is maintained, it is possible to prevent further deformation by conduction, scour, and wave force.

8 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention.

In the present invention, the cross unit support wood 20 provided at the upper portion of the support panel 10 has the shape of a square wood, but in addition to the shape, as shown in FIG. 8, it is preferable to have the shape of the column wood. . In this case, the cross-unit support wood 20 can be used as the main wood obtained in nature without additional surface processing. In other words, by cutting only the both sides of the columnar obtained in a solid body can be used as it is, it is possible to further reduce the process by that much.

9 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention, Figure 10 is a perspective view showing another embodiment of the engaged rope support structure for seaweed according to the present invention.

형태를 갖도록 하는 것이 바람직하고, 이때, 일측 크로스 단위 지지목(20)의 지지목(210')과 타측 크로스 단위 지지목(20)의 지지목(210)이 교차되는 부분에 볼트(B)가 관통되게 끼우져 너트(N)로 결합되도록 함으로서 더 한층 강도가 보강될 수 있게 된다.In the present invention, the cross unit supporting members 20 provided at the upper part of the supporting panel 10 are arranged in a row in the vertical direction. However, as shown in FIG. 9, the upper part of the supporting panel 10 as shown in FIG. The support unit 20 formed of the support neck 210, 210 'provided in the may be further arranged in the longitudinal direction to have a two-row form. That is, the cross unit support (20)

It is preferable to have a shape, in this case, the bolt (B) is a portion where the support neck 210 'of one cross unit support wood 20 and the support neck 210 of the other cross unit support wood 20 intersect. By being inserted through and coupled with the nut N, the strength can be further enhanced.

When the cross unit support trees 20 are arranged in two rows, it is preferable that the support panel 10 has a width x length x height of 3,000 x 2,000 x 300 mm, respectively. This is to ensure a stable seat on the floor by having a weight of about 5,600kg.

Meanwhile, in the present invention, the porous pallet 40 is provided on the upper surface of the support panel 10, which is the lower part of the structure space 50 provided between the upper part of the support panel 10 and the cross unit support neck 20. 9, the porous block 60 is inserted into the structure space 50 formed as the lower portion of the cross unit support tree 20, as shown in FIG. 9, or as shown in FIG. 9. It is more preferable to allow the fish and shellfish or molluscs to inhabit the gap between the porous block 60 and the natural stone 70 so that the 70 is inserted.

10: support panel 20: cross unit support wood
30: Spacer 110: Euro
120: A ring 210: One support tree
210 ': other side support 220,220': vertical rope fixing ring
A: Vertical rope support structure B: Bolt
H: Through hole N: Nut
S100: support structure manufacturing step S200: vertical rope winding step
S300: underwater shooting investigation step S400: supporting structure dropping step
S500: vertical rope connection step

Claims (7)

In the engaged rope support structure (A) for seaweed provided with a cross unit support (20) on the top of the support panel (10),
The support panel 10 is formed such that the flow paths 110 are arranged in the vertical direction on both lower sides thereof, and the ring 120 is protruded upward from the corner upper surface of the support panel 10, and supports the cross unit. Neck 20 is provided with a lower portion is embedded in the horizontal direction so that the inner side of the upper end of one support neck 210 and the other support neck 210 ', the cross unit support neck 20 is provided with a spacer 30 The bolt B and the nut N are repeatedly arranged in the vertical direction to be maintained at a predetermined interval, and the through-hole H is formed to be connected to the cross unit buttling portion of the cross unit support wood 20 so that the bolt is connected. (B) is inserted through, and the spacer 30 and the other cross unit supporting member 20 is repeatedly arranged to be coupled with the nut (B) through the bolt (B), the spacer 30 is porous Is formed of a block, the cross unit of support wood 20 Engagement rope support structure for seaweed, characterized in that the engaging rope fixing ring 220, 220 'is provided at the upper end located in the longitudinal edge.
The method of claim 1,
The support panel 10 has a through flow path 130 connected to the flow path 110 formed at the bottom is formed in the middle, and is engaged for seaweed, characterized in that the porous pallet 40 is placed on the through flow path 130 Rope support structure.
The method of claim 1,
Engagement rope support structure for seaweed, characterized in that the block 60 or the natural stone 70 is inserted into the structure space portion 50 formed inside the support panel 10 and the cross unit support (20).
The method of claim 1,
Cross unit support (20) made of a support neck (210, 210 ') provided on the upper portion of the support panel 10 is further arranged in the longitudinal direction is formed to have a two-row form, one side cross unit support neck Seaweed, characterized in that the bolt (B) is inserted through the nut (N) is inserted into the cross section of the support neck 210 'of the 20 and the support neck 210 of the other cross unit support (20) Engaged in rope support structures.
The method of claim 1,
The support panel 10 is formed to be cured by the concrete is poured, the support wood 210, 210 'is formed of a lumber or columnar wood, the cross section of the support unit 20 Engagement rope support structure for the seaweed, characterized in that one side of the engaged rope (80) is provided to be tied, bound, the other end of the engaged rope (80) is provided with a connecting ring (810).
In the construction method of the engaged rope support structure for seaweed provided with a cross unit support wood 20 on the upper portion of the support panel 10,
The engaged rope support structure has a cross unit support neck 20 having a lower portion embedded in a horizontal direction so that the upper inner side of one support neck 210 and the other support neck 210 'intersect the upper portion of the support panel 10. The support structure manufacturing step of obtaining a support structure is provided, the cross unit support neck 20 is repeatedly arranged in the longitudinal direction to be maintained at regular intervals by the spacer 30, the bolt (B) and the nut (N) (S100) )Wow;
Winding rope winding step (S200) is wound around the engaging rope (80) having a connecting ring (810) to the support structure;
An underwater photographing survey step (S300) of performing underwater photographing to identify the underwater rocky area and the underwater sandy area of the farm where the support structure is to be constructed;
A support structure dropping step (S400) of repeating the dropping of the support structure onto the water bottom by using the pumping equipment after moving the support structure on which the engaged rope 80 is wound to a farm using a barge having pumping equipment; And
Construction of the engaged rope support structure for seaweed, characterized in that consisting of the engaging rope connection step (S500) to loosen the engaged rope wound on the support structure dropped to the bottom of the water by inserting the diver into the water and fixed to the hook 810 Way.
The method of claim 6,
Winding step (S200) of the engaged rope (80) when the length of the engaged rope 80 to have a rock area, 10 to 20M, in the case of the sandy area, to have a 20 to 50M, engaged rope 80 supports the cross unit Neck 20 is to be tied to the engaging rope fixing ring (220, 220 ') formed on the upper end, and the support structure dropping step (S400) is to drop in the land side in the direction of the drop off the canyon or the structure To be seated on the back side, the engaging rope connection step (S500) is a working rope support structure construction method for the algae, characterized in that the state is kept up by attaching a boogie in the center when the engaging rope hits.

Images