KR100459241B1 - Method of constructing scouring-protective means - Google Patents

Abstract

The present invention relates to a method of constructing a scour prevention material that can effectively cope with the bed scour occurring on the bottom of a river by dropping the scour prevention material on a target point accurately even on the surface of a river or a river.

The method for constructing a scour prevention material according to the present invention moves a plurality of scour prevention material units to a specific point of the water phase, and then combines the moved scour prevention material units with each other to form an integrated scour prevention member, and then integrates the above. Settling the scour prevention member in water.

When carrying out the construction method according to the present invention, it is possible to settle the scour prevention member integrated in the correct position as it is, there is an advantage that can proceed regardless of the flow rate or flow rate in the water or water, even one of the scour prevention material to be settled Since no loss is achieved, the advantage is that there is no loss of material being dropped.

Description

Method of constructing scouring-protective means

The present invention relates to a method of constructing a scour prevention material for preventing a scour phenomenon occurring at the bottom of a river or river, more specifically, by dropping the scour prevention material to the target point accurately even on the surface of the river or river The present invention relates to a method of constructing a scour prevention material that can efficiently cope with bed scour occurring at the bottom of a river.

In general, Korea has a lot of mountains and rivers, and many rivers and rivers are well developed nationwide. However, Korea is a country with four distinct seasonal climates. In general, Korea has a high temperature and high humidity in summer and a cold dry climate in winter. In particular, during the hot and humid summer, a lot of rainfall is concentrated in this season, including the rainy season, so there is a large and small disaster every year.

In preparation for such heavy rains, many rivers or rivers can be used to build various dikes and embankments to maintain a constant channel, and to prepare for intensive rainfall while constructing various dams for efficient use. do. It also stores precipitation from heavy rain and uses it for power generation, other industrial or agricultural purposes. On the other hand, many rivers, rivers, etc. also perform a reverse function as an obstacle to the transport itself, so that the construction of artificial bridges to build a bridge across the river or river. Through these various methods, efforts are made to achieve efficient development of the land using nature.

However, in Korea, heavy rain occurs during the summer and especially in the rainy season, and it is accompanied by heavy rain caused by typhoons, so sudden increase in quantity may erode it by a strong flow rate for a certain part such as a river or a river. For, the sedimentary layer may be formed due to the slow flow rate.

The erosion of the base of the stream is the flow rate that flows faster than the surrounding velocity, which is a fundamental problem, which is currently inevitable and there is little way to control it in advance. . Above all, such erosion, which occurs especially at the bottom of rivers, occurs remarkably around the bridges of bridges built there, which can seriously damage the safety of the bridges.

At present, the erosion occurring around the pier is understood to be caused by the Bernoulli principle, which is somewhat unfamiliar to the general public. Because the pier is a kind of obstacle to the flow rate, the flow cannot flow over the center of the bridge, which generally forms a sedimentary layer, whereas the flow flows rapidly around the pier, causing rapid erosion. Because.

This phenomenon is usually negligible and can be ignored, but it can be very serious in times of heavy rain during the rainy season. In addition, this phenomenon is repeated every year, causing a more severe erosion around the piers year after year, commonly referred to as bridge scour phenomenon.

Today, at home and abroad, these bridge scours are already recognized, and various countermeasures have been sought. Commonly used methods today include the method of dropping stones and connecting underwater.

Firstly, the sandstone dropping method is a method of dropping sandstone into the bottom of an underwater bridge where scour is already in progress or expected in the future. This method selects the area where scour is expected to proceed or is expected in the water, and then intensively drops huge sandstone into the area. This is the most common practice today, and it leaves the sandstone as it is, but in some cases it also drops large amounts of rubble in large gabions. A representative example of this is the Republic of Korea Utility Model Registration No. 20-250211 "Dollar gabions".

However, in this method, even if the correct scour site is designated, there is a disadvantage that it is not guaranteed that the sandstones are settled to the first expected point accurately in the process of dropping and sinking underwater. In particular, when the point to be dropped is deep, the flow velocity is high or irregular, the final point of arrival is very likely to be significantly different from the expected point. In addition, since this method is dropping the individual stones in the water as it is, the stones dropped in the water is continuously subjected to the resistance by the flow rate, and again, if the flow rate and flow rate due to heavy rains, etc., the individual stones are lost. have. In view of these points, this method is dropping roughly twice as much stone as the amount normally required.

Next, the underwater connection method is designed to improve the shortcomings of the above-mentioned underwater drop method, to manufacture a release concrete block formed with a connection ring instead of the sandstone, and then settle the release concrete block in water, divers, etc. It is a method of connecting the release concrete blocks to each other in the sedimented portion of the water. Since this method arbitrarily manufactures the release concrete blocks and couples them together in water, there is an advantage that individual release concrete blocks do not have to be lost unless such coupling means are released.

However, this method requires a large amount of concrete blocks to be manufactured arbitrarily, so that it is more expensive than the sand-spill method using general rubble and the like, and it is impossible to accurately predict the final destination point in the same way as in the water drop method. There are disadvantages.

In addition, this method requires the diversification of underwater work by combining divers to separate individual concrete blocks at the final point of arrival, so that the work efficiency is low and the cost of hiring divers is disadvantageous. It is.

Therefore, an object of the present invention is to improve the disadvantages of the conventional method, by dropping the scour prevention material accurately to the point where the scour phenomenon occurs, a method of constructing a scour prevention material that can significantly improve the scour prevention effect To provide.

In addition, an object of the present invention is to provide a method for constructing a scour prevention material at a low cost by firmly combining each of the scour prevention material efficiently and efficiently without employing a high-cost diver, etc. have.

1 is a state diagram showing the movement of the Gabion unit that is the scour prevention material unit around the piers,

2 is a conceptual diagram illustrating the combination of the Gabion unit with other Gabion unit adjacent to the pier around the pier,

3 is a plan view showing a state in which the Gabion units are combined with each other to form a giant Gabion mat as one integrated scour prevention member,

FIG. 4 is a conceptual view sequentially illustrating a state in which the integrated Gabion mat is settled in water, and is a front view viewed from the water surface based on the Gabion mat.

Figure 5 is another embodiment of the construction method according to the present invention, schematically showing the case where the osteophylactic material unit is a release concrete block.

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

100, 102: Gabion unit, 110: barge

130: binding gabion, 150: integrated gabion mat

160: rope, 200: pier

The present invention relates to a method of constructing a scour prevention material for preventing a scour phenomenon occurring at the bottom of a river or river, more specifically, by dropping the scour prevention material to the target point accurately even on the surface of the river or river The present invention relates to a method of constructing a scour prevention material that can efficiently cope with bed scour occurring at the bottom of a river.

The method for constructing a scour prevention material according to the present invention moves a plurality of scour prevention material units to a specific point of the water phase, and then combines the moved scour prevention material units with each other to form an integrated scour prevention member, and then integrates the above. Settling the scour prevention member in water.

The construction method of the scour prevention material according to the present invention is further divided into a). A water movement step of the scrubbing block unit to move the plurality of scrubbing block units to the point to be constructed; b). Forming a scour prevention member for coupling the scour prevention member unit in the water phase to form an empty space in a central portion thereof and to combine the scour prevention member unit in an integrated form; And c). And a submerged sedimentation step of gradually sedimenting the integrated scour prevention member into the water from either side.

The construction method of the scour prevention material according to the present invention will be described in more detail in each step as follows.

a). Water movement step of the scour prevention material unit;

The construction method of the scour prevention material according to the present invention includes the step of moving a plurality of scour prevention material unit to the water phase. In the present invention, the scour prevention material unit is an individual unit used for scouring the bottom of the bed, and a Gabion unit filled with various rubble or rocks, or various release concretes formed in a specific structure. It refers to a unit such as a block. Such a scrubbing unit may be manufactured in a conventional manner, and there is no need to specifically limit it. If necessary, the scour prevention material unit may be subjected to a surface treatment such as an asphalt layer on the surface thereof in order to reduce the resistance due to the flow rate.

In the present invention, the scour prevention material unit is moved to the target point of the water phase in which the bed scour phenomenon is expected or the bed scour phenomenon is actually progressing. For this movement can proceed in a conventional manner. For example, when the dropping point of the water surface is very close to the land, it may be by a crane or the like, and when these points are a longer distance, it may be by various ships which are aquatic vehicles or various helicopters which are aerial vehicles. The most preferred means of transport is by barge.

b). Forming an integrated scour prevention member;

The method of constructing a scour prevention material according to the present invention includes a step of forming an integrated scour prevention member by combining the scour prevention material units moved to a target point of the water phase with each other. In the present invention, the scour prevention material unit is coupled to the scrubbing prevention unit adjacent to each other near the target point of the water phase. The method of combining the individual scrubber units can be carried out in a conventional manner. For example, the Gabion unit may be combined with other Gabion units on a barge. This may be the same as the conventional one, or may be separately prepared, then sandwiched and bound between the Gabion unit and Gabion unit. In this case, the bonding unit is combined with other Gabion unit in the state that does not put the filling material, it is preferable to put the filling material, such as rock or rubble, and finally finish the treatment in the completed state.

In the present invention, the step of forming the integrated scour prevention member is important to form a hollow space portion so that the central axis of the central portion of the completed scour prevention member. This is because the central axis existing inside the empty space portion functions to settle the integrated scour preventing member according to the present invention from its position to the same position in water as it is. Therefore, in the case of the bridge scour, the empty space portion may be formed by combining the Gabion unit or the release concrete block around the bridge using the bridge piers as the central axis. On the other hand, if there is no separate pier in the stream, such as the bottom scour of the river, the integrated scour prevention member needs to form a separate artificial central axis that can be settled to the scour site of the river as it is. The central axis of the case is sufficient if it is produced considering the surrounding situation, and it is not necessarily necessary to have a form like a pier.

c). Underwater sedimentation step of integrated scour prevention member

The method of constructing a scour prevention material according to the present invention includes the step of settling the integrated scour prevention member in water. Once the individual scour preventing material units are combined with each other to form a scour prevention member having an empty space, the scour prevention member is settled in water. The sedimentation part of the scour prevention member may be arbitrarily selected by the operator, but it is preferable to settle from the vicinity of the central axis where the empty space is located in consideration of the efficiency and safety of the work. To this end, the various means holding the scour prevention member located in the vicinity of the central axis in the water phase may be removed. For example, in the case of work by a crane or a crane, it may be released from the work line near the central axis, and in the case of barge work, the barge may be pulled out from the barge near the center axis in order to the outer edge thereof.

In the settling step of the present invention, the scour prevention member integrated as a whole is gradually settled to the periphery thereof starting from one part. This is because, when adopting the construction method according to the present invention, since the scour prevention member before sedimentation is integrated as if it is a single mat, the first settled part takes the form of slowly dragging the adjacent part into the water. to be. In addition, when adopting the method according to the present invention, because the scour prevention member is settled at the same time each part is subjected to buoyancy by the water, so that the overlapping or twisting phenomenon does not occur as a whole, even in the reached underwater surface Will be maintained. It will be appreciated that this is significantly different from the case where each unit is settled individually.

Hereinafter, with reference to the accompanying drawings the construction method according to the present invention, it will be described in more detail in each step. At this time, the accompanying drawings illustrate a case using the Gabion unit and the barge, showing the most preferred embodiment of the present invention. Accordingly, the accompanying drawings and descriptions thereof are provided only to more easily understand the technical spirit of the present invention, and the protection scope of the present invention is limited to the accompanying drawings and descriptions thereof. Or not.

FIG. 1 illustrates that the Gabion unit 100 is selected as the scour prevention unit and the Gabion unit 100 is moved around the pier 200 in order to implement the construction method according to the present invention. At this time, each of the Gabion unit 100 is already filled with a rock, such as a rock in the Gabion wire mesh, is a state that is shipped on each barge 110, as shown by the enlarged view "A". In addition, the symbol W.L on an accompanying drawing shows the surface of a river, a river, or the sea.

FIG. 2 is a conceptual diagram illustrating a process in which the Gabion unit 100 is coupled with another Gabion unit 102 adjacent to the pier 200 in the vicinity thereof. In this case, the Gabion unit 100 and the other Gabion unit 102 adjacent to each other may be directly bonded, but combining in the state filled with sandstone, since the work efficiency is deteriorated, the Gabion unit 130 for the coupling is used. . At this time, the binding gabion unit 130 is preferably of a wire mesh structure and the inside of the dead stone is not yet filled. This is because the inside of the coupling gabion unit 130 is empty, the operator can easily perform the coupling operation with the gabion unit (100, 102). Once the joining work is completed, the final joining work is completed by filling and finishing the commonly used sandstone.

FIG. 3 is a plan view showing a state in which the Gabion unit 100 and 102 are coupled to each other to form a giant Gabion mat 150 as one integrated scour prevention member. In this case, FIG. 3a shows an empty space portion using the pier 200 as a central axis, while FIG. 3b forms an empty space portion with the well cylinder 210 located at the bottom of the pier as a central axis. It is shown.

4 is a conceptual view sequentially illustrating a state in which the integrated Gabion mat 150 is settled in the water, and is a front view viewed from the surface of the Gabion mat 150. Figure 4a is laid horizontally with the Gabion mat 150 is completed on the barge 110. 4B shows a state in which the Gabion mat 150 gradually sinks into water as the barge 110 gradually moves away from the piers 200 which are the central axes in all directions. In this case, in order to perform the work more safely and efficiently, the drop adjustment rope 160 may be used in each of the last settling portion, Figure 4c shows this state. 4d conceptually illustrates a state where the gabion mat 150 has reached a final target point. In this case, the settled gabion mat 150 has the same properties as one integrated mat as a whole and is in a state unfolded on its bottom.

Figure 5 is another embodiment of the construction method according to the present invention, schematically showing the case where the bone osteophyte prevention unit is a release concrete block. At this time, Figure 5a is a plan view looking down from the top of the state in which the deformed concrete block to form a hollow space around the pier, the case where the deformed concrete block is formed in double. Thus, when the scour prevention member is formed in double or triple, it is very effective when a very severe scour phenomenon occurs around the piers.

In addition, FIG. 5b is a view in which the above-mentioned concrete block is settled so as to overlap with the double piers, and viewed from the horizontal plane based on the above-mentioned concrete block.

The construction method according to the present invention can always be washed at any time even in the state locked in water, so there is no need to wait for the dry season as in the prior art.

In addition, when the construction method according to the present invention is executed, the scour prevention member integrated at the correct position can be settled as it is, and there is an advantage that it can proceed regardless of the flow rate or flow rate in the water phase or in water.

In addition, according to the construction method according to the present invention, since the sedimentation preventive material is not lost or distant from the target point does not occur, it is possible to achieve the advantage of no loss of material to be dropped. On the one hand, this can be achieved by preventing unnecessary waste of materials, on the one hand, economic benefits, and on the other hand, by reducing the act of destroying nature for the production of sandstone, etc., to achieve the benefits of indirect nature protection. It is.

In addition, the scour prevention material constructed by the present invention will maintain the unified shape even in the scour field in the water, and thus the entire scour prevention member mat against the resistance due to the flow rate or flow rate in the water, so the scour is no longer Not only does the phenomenon occur, but there is also an advantage that individual scour prevention materials are not lost.

Claims (5)

After moving the plurality of scour prevention member unit to a specific point of the water phase, and then combined the scour prevention member unit with each other to form an integrated scour prevention member, and then to settle the integrated scour prevention member in water. Construction method of scour prevention material comprising a. a). A water movement step of the scrubbing block unit to move the plurality of scrubbing block units to the point to be constructed; b). Forming a scour prevention member for coupling the scour prevention member unit in the water phase to form an empty space in a central portion thereof and to combine the scour prevention member unit in an integrated form; And, c). And a submerged sedimentation step of gradually sedimenting the integrated scour preventing member from the water from either side. The method according to claim 2, wherein the scour prevention unit is selected from a Gabion unit and a release concrete block. The method according to claim 2, wherein the scour prevention material unit is moved to the water phase using a barge, and the scour prevention material unit is joined to each other in the water phase. The method of constructing a scour prevention material according to claim 2, wherein any one of the above is a central portion of an integrated scour prevention member having a pier as a central axis, and the scour site is reached by gradually settling in the water from the center portion. .