KR20050104522A - Installation method of preventing net for dirt using hybrid anchors - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of installing an antifouling film for preventing the spread of muddy water generated during construction in a river, a seashore, or the seabed. Particularly, the antifouling film is used by using an anchor with one or more anchor arms. It is easy to work on the initial installation of the anti-fouling film, and it is a hybrid that prevents the anti-fouling film from moving out of the installation position or destroying the installation even in case of heavy flow of fresh water or seawater during a flood or typhoon after installation. It relates to a method of installing an antifouling film using an anchor.

The installation method of the antifouling film using the hybrid anchor according to the present invention is the installation position of the antifouling film by a plurality of anchors connected by the upper and lower sides and the connection rope of the antifouling film buoyant by a float connected to the upper portion To prevent the departure, but is made by arranging the outer anchor branched anchor and the multi-anchored branched anchor regularly or irregularly along the longitudinal direction of the fouling prevention film.

Description

INSTALLATION METHOD OF PREVENTING NET FOR DIRT USING HYBRID ANCHORS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of installing an antifouling film for preventing the spread of muddy water generated during construction in a river, a seashore, or the seabed. Particularly, the antifouling film is used by using an anchor with one or more anchor arms. It is easy to work on the initial installation of the anti-fouling film, and it is a hybrid that prevents the anti-fouling film from moving out of the installation position or destroying the installation even in case of heavy flow of fresh water or seawater during a flood or typhoon after installation. It relates to a method of installing an antifouling film using an anchor.

The anti-fouling film is designed to prevent the deterioration of water resources such as soil water or sewage caused by sediment or floating materials spreading out of the construction site and causing damage to nearby fisheries during dredging, construction, and reclamation work on rivers, shores and seabeds.

Known technologies related to the installation of a conventional antifouling film include Republic of Korea Patent Publication No. 2003-0063939 (2003.07.31) "A stain prevention device and its construction method". The patent relates to the installation of a lamp on a float so that it is easy to install and dismantle and, in particular, can be identified at night.

However, since the published patent uses a concrete block having a small specific gravity for fixing the stain protection film, the bulk of the block is large and heavy for fixing the soil protection film, which requires a large production place and takes a lot of cost to move to the installation site. The installation of the barrier film requires a large barge and a crane, excessive installation costs, and when the sea conditions, such as at low tide or high digging, the installation work is difficult. In addition, it is difficult to collect large blocks after construction is completed, so once the block is used, it is difficult to recycle.

There is a patent registration No. 0188519 (1999.01.12) to solve the problems of the Patent Publication No. 2003-0063939, "an anchor for installing a stain prevention film and a method of installing a stain prevention film using the same". The patent relates to an anchor anchor having one anchor arm and an installation method of an antifouling film using the anchor.

Although the patent uses a metal anchor having a higher specific gravity than concrete, it is considered to install a stain prevention film using only an anchor type anchor having one anchor branch or only a multi anchor branch anchor having a plurality of anchor branches. Doing.

Therefore, when installing the antifouling membrane using only the external anchor branch type anchor, the antifouling membrane under pressure due to running water cannot be properly supported when the anchor arm is not stuck to the ground and the anchor is turned upside down. The problem arises that the twist does not prevent the spread of tainted water. This problem still remains when the anchor stock is coupled to the external anchor branched anchor.

In addition, in the case of installing an anti-fouling film using only the multi-anchor-type anchor, there is a problem in that the construction cost is increased because the cost of manufacturing the anchor is higher than that of the external-anchored type anchor.

The present invention is a problem due to the fact that the operation of the block is not smooth in the installation operation due to the increase in the volume and weight of the block due to the small specific gravity of the concrete block for fixing the antifouling film in the installation of the conventional antifouling film, anchors made of metal In this case, it is proposed to solve the problem that the outer anchor branch is not accurately embedded in the ground or the installation cost increase due to the high unit cost of the anchor anchor.

Accordingly, an object of the present invention is to provide a method of installing an antifouling film by mixing an outer anchor branched anchor and a multi anchor branched anchor.

It is another object of the present invention to provide an installation method associated with a specific arrangement position of a multi-anchored anchor for more secure fixing of an antifouling film.

In addition, the present invention is a specific connection form of the connection line connecting the anchor and the anti-corrosion membrane for a more secure fixing of the anti-corrosion membrane, and in the case of the external anchor branch type anchor, the anchor is inverted to prevent the situation that the anchor branch is not lodged in the ground linking connection line The purpose is to provide a specific position fixed to the anchor.

In order to achieve the above object, the method of installing the antifouling film using the hybrid anchor according to the present invention includes a plurality of anchors connected by upper and lower sides of the antifouling film that are buoyant by a float connected to the upper part and the connecting rope. By preventing the deviation of the installation position of the anti-fouling film, it is made by arranging the outer anchor branch-type anchor and the multi-anchor branch anchors regularly or irregularly along the longitudinal direction of the anti-fouling layer.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote members having the same function.

First, in FIG. 1A, a float 20 that provides buoyancy to the mesh-shaped antifouling film 10 is continuously connected to the upper portion of the barrier 10 in the longitudinal direction.

The ropes 13a, 13b, 15a, and 15b connected to the fixing rings 11a and 11b provided at the upper portion of the anti-fouling film 10 and the fixing rings 11c provided at the bottom thereof are connected to the anchor. In particular, it is preferable that the vertical connecting ropes 13a and 15a and 13b and 15b positioned in the same horizontal plane in parallel with the gravity direction are connected to one anchor, respectively. In this way, it is possible to arrange the anchors on both sides of the barrier film side by side along the longitudinal direction of the stain barrier 10 as shown in FIG. The antifouling film can be prevented from tangling and twisting together.

The method of installing the anti-fouling film which forms the core of the present invention is to connect the external anchor-type anchor 20 and the multi-anchor-type anchor as shown in FIG. 2 to connect the anti-fouling film 10. The multi anchor branched anchor may be an anchor having a double anchor branch type anchor 40 shown in FIG. 3, a three anchor branch type anchor 50 shown in FIG. 4, or a four anchor branch type or more. have. However, in consideration of the manufacturing cost, it is preferable that the anchor anchor is less than four anchors.

The reason for installing the antifouling film using the hybrid anchor as described above is as described above.

In other words, when only the anchor anchor type anchor is used, it is not precise work by the diver when installing the stain barrier, and it is difficult to accurately hit the anchor branch 33 of the anchor 30 to be thrown accurately to the ground and to fix the soil barrier firmly. Considering the difficulty. In addition, in the hybrid installation method, when the pressure of the flowing water after installation of the antifouling film, in particular, in a weather condition such as during a typhoon or a flood, the anchor 30 is turned upside down by the hydraulic pressure, and the anchor branch 33 is pulled to face the water. The problem is that the problem of spreading of filthy water can occur by deviating and even tangling and twisting. When installing the anti-fouling film using only such an anchor type anchor, the problem of preventing film holding force is still remaining even when the anchor (stock) is coupled to the anchor 30 as shown in FIG.

In addition, in the case of using the multi-anchored anchor 40 and 50 as shown in Figs. 3 and 4, the unit cost of the anchor is increased by that, which causes an increase in facility cost.

Therefore, in the case of properly combining the outer anchor branched anchor and the multi-anchored anchor as in the present invention, it is possible to ensure the bearing capacity of the anti-fouling film and to lower the cost.

The hybrid arrangement of exo anchors and multi-anchor anchors can be regular or irregular. However, it is preferable that a multi-anchor-type anchor is installed at the site where a lot of water pressure acts in order to firmly fix the water pressure and the fouling prevention film. The site where a large amount of water pressure acts on the antifouling film may be determined according to the structure of a river or a coast where the antifouling film is installed. In general, the hydraulic pressure will act a lot on both ends or protrusions of the antifouling membrane installed, if the antifouling membrane is installed in a streamlined flow will act a lot in the central portion.

Figure 1b illustrates a regular arrangement of the hybrid arrangement of the anchor, the three anchor branch anchor 50 and the two anchor branch anchor 40 at both ends and the central portion of the anti-fouling film 10 concentrated in the remaining portion The outer anchor branched anchor 30 was disposed.

In addition, it is shown in Figure 1a that the end of the anti-fouling film 10 is provided with a double anchor branched anchor 40.

Next, with reference to Figures 2 to 4 to describe the anchor that can be used in the antifouling film installation method of the present invention.

The outer anchor branch type anchor 30 shown in FIG. 2 has one anchor arm 33 connected to the shank 31. The anchor blade 31 is provided with a reinforcing material (31a) along the longitudinal direction. The anchor blade 31 and the anchor branch 33 reliably reinforces the anchor branch 33 to which a lot of pressure is applied by the reinforcing piece 33b and the reinforcing strip length 33d. An anchor tongue 33a is attached to the anchor branch 33, and an anchor crest 33c in which a pipe constituting the anchor blade 31 is bent is formed on the rear surface of the anchor tongue 33a.

In addition, the anchor anchor (30) is coupled to the anchor (stock) (35) to help the tip of the anchor tongue (33a) of the anchor branch 33 in contact with the ground. The anchor length 35 is coupled to the fixed portion formed by the ring (35a) formed by the reinforcement (31a) of the middle of the anchor blade 31 and the pipe (35b) welded to the ring.

However, even with the help of the anchorage 35, the anchor branch 33 of the anchor 30 cannot completely prevent the situation toward the water surface. In the present invention, the anchor ring 33 of the outer anchor branch type anchor 30, which is possible during and after the installation of the anti-fouling film, has been improved in the connection ring to which the connecting rope is connected to the anchor 30. That is, as shown in FIG. 2, two connecting rings 31b and 31c are formed at both ends of the anchor blade 31.

The first connection ring 31c provided at the connection portion of the anchor branch 33 and the anchor blade 31 is connected to the ropes 13a and 13b connected to the upper portion of the antifouling film 10 in FIG. 1A, and the first connection ring ( 31c) The second connection ring 31b positioned at the end of the anchor blade 31 on the opposite side is connected to the ropes 15a and 15b connected to the lower portion of the antifouling film 10 in FIG. 1A. Therefore, when the anchor 30 is thrown during the installation of the antifouling film, the anchor is dropped and the drop form of the anchor 30 is limited by the upper ropes 13a and 13b connected to the first connection ring 31c, thereby anchoring the branch 33. The falling state can be dropped toward the ground, and the fall state can be more reliably maintained by the second connecting rings 31b and the lower ropes 15a and 15b.

By adding the first connection ring 31c to the anchor 30 as described above, only the second connection ring 31b is provided on the anchor 30 and the second connection ring and the upper and lower ropes are connected to each other. Even if the anchor branch 33 of 30) is thrown toward the ground, the anchor 30 is turned upside down by running water during the fall, and thus, a defect may be solved in the installed antifouling film bearing force.

In addition, when the barrier is shaken by running water even after the antifouling barrier is installed, the anchor branch of the anchor 30 is formed by the two connecting rings 31c and 31b of the anchor 30 and the ropes 13a, 13b, 15a and 15b. 33) is advantageous because it can be securely fixed to the ground.

Next, the double anchor branch type anchor 40 shown in FIG. 3 has a double anchor branch 43 coupled to one end of the anchor blade 41. A reinforcing material 41a surrounds the anchor blade 41 in the longitudinal direction to correspond to the direction in which the anchor branch 43 is formed. The reinforcing material (41a) forms a connection ring (41b) for the rope connected to the anti-fouling film at the other end of the anchor blade (41). In addition to the connection ring 41a, the anchor blade 41 is provided with a separate connection ring by being biased to a portion where the anchor branch 43 is coupled as shown in FIG. 2 so that the anchor branch 43 is dropped toward the ground when the anchor 40 is thrown. can do.

The reinforcing piece 43b is provided in the connection part of the anchor blade 41 and the anchor branch 43. Anchor tongue 43a is formed on the anchor branch 43, and an anchor crest 43c is formed on the rear surface of the anchor tongue 43a. In addition, the anchor 40 is coupled to the anchor (stock) (45) to help the tip of the anchor (43a) of the anchor branch 43 in contact with the ground. The anchor 45 is coupled to a fixed portion formed by a hole 45a formed in the middle of the anchor branch 43 and a pipe 45b welded to the hole.

Subsequently, the three anchor branches shown in FIG. 4 have three anchor branches 53 formed at intervals of 120 degrees at one end of the anchor blade 51 having a triangular cross-sectional shape, and the other end of the anchor blade 51. In the contaminated antifouling film and the connecting rope (51a) is formed. The reinforcing piece 53b is provided at the connection portion of the anchor blade 51 and the anchor branch 53, and the anchor branch 53 is formed with an anchor tongue 53a, and an anchor crese 53c is formed on the rear surface of the anchor tongue 53a. ) Is formed.

In installing an antifouling film by combining anchors having more than one outer branch branch, double anchor branch, three anchor branch, or four anchor branch, each anchor should be dug 2m, wind speed 20m / sec, tidal flow rate 0.74 It should have durability that can withstand the pressure exceeding m / sec and water pressure equivalent to 7m in depth, and the number and arrangement of anchors installed per m of antifouling film should be selected according to the installation environment.

In addition, the weight of each anchor is about 120 to 200 kg is easy to handle during transportation and installation, it is possible to ensure the holding capacity of the antifouling film. For the proper holding force of the antifouling film, the length of the anchor bar of the outer anchor branched anchor is 3 to 4 m, and the length of the anchor tongue of the outer anchor branched anchor is 1 to 1.5 m and the width is 0.3 to 0.5 m. In addition, in the case of an anchor having two to four anchor branches, the length of the anchor blade is about 2m, the length of the anchor tongue is preferably 1.2 to 1.5 and the width is 0.1 to 0.2m.

As described above, the installation method of the antifouling film using the hybrid anchor according to the present invention is a concrete block in the installation of the conventional antifouling film by installing an antifouling film by mixing an external anchor branch type anchor and a multi anchor branch type anchor. Use or only metal anchors or multi-anchor anchors, transport and maneuverability (in the case of concrete blocks), difficulty in installing the antifouling film and weakening of bearing capacity after installation (outer anchors only) ) And cost escalation problems (only when using multiple anchors).

In addition, the present invention can more reliably fix the anti-fouling film by arranging a multi-anchor-type anchor at an anti-fouling film portion (for example, both ends or protrusions of the anti-film) that is subjected to greater hydraulic pressure.

In addition, the present invention, even in the case of the anchor anchor type anchor rope is connected through the two connecting rings formed on both ends of the anchor bond to the top and bottom of the anti-corrosion membrane anchor anchor by the flow in the anchored state and the tip is anchored in the ground when anchored Can be turned upside down and anchored so that the anchor does not face the water.

In the above description of the present invention with reference to the accompanying drawings, the specific arrangement of the anchor, and each type of anchor having a specific shape and structure, but described mainly for the present invention various modifications and changes are possible by those skilled in the art, such Modifications and variations are to be construed as falling within the protection scope of the present invention.

1a and 1b is a schematic side view and plan view showing a stain protection film installed according to the stain protection film installation method according to the present invention,

Figure 2 is a perspective view of the anchor anchor type anchor used in the antifouling film installation method of the present invention,

Figure 3 is a perspective view showing a pair anchor anchor used in the antifouling film installation method of the present invention,

Figure 4 is a perspective view showing a three (three) anchor branch type anchor used in the antifouling film installation method of the present invention.

<Description of the symbols for the main parts of the drawings>

10: antifouling film 11a, 11b, 11c: fixed ring

20: float 13a, 13b: upper connecting rope

15a, 15b: Lower connecting rope 30, 40, 50: anchor

31, 41, 51: shank 31a, 41a: reinforcement

31b, 31c, 41b, 51a: connecting ring 33, 43, 53: anchor arm

33a, 43a, 53a: anchor branch 33a, 43a, 53a: anchor

33b, 43b, 53b: reinforcing piece 33c, 43c, 53c: anchor crown

33d: Reinforcement belt 35,45: anchor stock

35a, 35b, 45a, 45b: anchor anchor

Claims (10)

To prevent deviation of the installation position of the stain protection film by a plurality of anchors connected by upper and lower sides and a connection rope of the stain protection film buoyant by a float connected to the upper portion, A method of installing an antifouling membrane using a hybrid anchor formed by regularly or irregularly arranging an outer anchor branched anchor and a plurality of anchor branched anchors along a length direction of the fouling barrier. The method of claim 1, The multi-anchor-type anchor is installed on the anti-fouling membrane using a hybrid anchor, characterized in that the bias is placed on the portion of the anti-fouling membrane receiving a lot of hydraulic pressure. The method of claim 2, The multi-anchor-type anchor is installed in the anti-fouling membrane using a hybrid anchor, characterized in that disposed on both ends of the installed anti-fouling membrane. The method of claim 2, The multi-anchor-type anchor is installed in the anti-fouling film using a hybrid anchor, characterized in that disposed in the protrusion portion of the anti-fouling film installed. The method according to any one of claims 1 to 4, The multi-anchor-type anchor is a method of installing a contamination prevention film using a hybrid anchor, characterized in that the bi-anchored branched anchor. The method of claim 5, A method of installing an anti-fouling film using a hybrid anchor, characterized in that the anchor (stock) is coupled in the form perpendicular to the direction in which the anchor branch extends in the center of two anchor branches (arm) of the double anchor branch type anchor. The method according to any one of claims 1 to 4, The outer anchor branch-type anchor is an anti-fouling film using a hybrid anchor, characterized in that the anchor (stock) is coupled in the form orthogonal to the direction in which the anchor branch extends to the connecting portion or anchor of the anchor and the anchor (shank) How to install. The method of claim 7, wherein The outer anchor branch type anchor has a first connection ring provided at a connection portion between the anchor arm and the shank, and a second connection ring positioned at an end of the anchor blade opposite the first connection ring. The connecting rope is a contaminant using a hybrid anchor, characterized in that consisting of a rope connecting the upper portion of the antifouling film and the first connection ring, and a rope connecting the lower portion of the antifouling film and the second connection ring. How to install the protection film. The method according to any one of claims 1 to 4, The multi-anchor-type anchor is a three (three) anchor anchor type, characterized in that the installation method of the anti-fouling film using a hybrid anchor. The method according to any one of claims 1 to 4, The connecting rope of the anti-fouling film using a hybrid anchor, characterized in that the two ropes connected to the upper and lower portions of the anti-fouling film located in the same horizontal plane parallel to the direction of gravity is connected to one anchor. How to install.