KR20040009052A - An Eco Underwater Spilway Structure using Antiseptically Treated Wood - Google Patents

Abstract

PURPOSE: An eco-friendly log underwater barrage structure is provided to cut down construction expenses by simplifying a construction work. CONSTITUTION: The eco-friendly log underwater barrage structure comprises: an underwater barrage(1) composed of preservative treated logs placed on a riverbed across a river to rise the water level of the upper stream by stopping the flow of a river; a fixed pile(2) composed of synthetic materials and interposed to a riverbed to support the underwater barrage(1), then to fix the location of the underwater barrage; many support stones(3) composed of huge stones and placed on the riverbeds of the upper stream and the lower stream of the underwater barrage(1) to support the underwater barrage(1); and branches of trees(7) interposed among the support stones(3) to form a habitat of underwater creatures.

Description

An Eco Underwater Spilway Structure using Antiseptically Treated Wood}

The present invention relates to an eco-friendly underwater beam structure using an antiseptic log (preserved cylindrical wood), comprising an anti-corrosive cylindrical wood beam and arranging a plurality of supporting stones made of megaliths of considerable size around the same. By arranging tree branches that serve as habitats for aquatic organisms between the supporting stones, the upstream and downstream of the underwater beams are naturally communicated with the full function of the underwater beams so that underwater creatures between the upstream and downstream can communicate. At the same time, it is related to the structure of underwater beams with a nature-friendly composition that can provide a natural habitat for underwater creatures.

Underwater beams are installed on the riverbed to reduce the flow velocity of the river and to artificially increase the water level. By the way, the conventional general underwater beam is made of a concrete structure for the purpose of durability. Therefore, the water communication between the upstream and the downstream of the underwater beam is artificially blocked, and the communication of the aquatic organisms between the upstream and the downstream is artificially blocked, causing serious disturbance to the ecosystem.

Separate measures are taken for the communication of aquatic organisms between the upstream and the downstream, one of which is the establishment of a separate fishery in the underwater report. By the way, in the prior art, the fish is generally installed as a concrete structure, the installation of the fish as a concrete structure, as well as a considerable additional construction cost, there is a problem that takes additional construction period for the installation of the fish.

The present invention overcomes the limitations of the conventional underwater beam structure as described above, while fully exerting the functions of the underwater beams, the natural communication between the upstream and downstream of the underwater beams is made naturally, the underwater creatures between the upstream and downstream can communicate, The purpose is to provide a submerged beam structure with a nature-friendly composition to provide a natural habitat environment.

1 is a schematic side view showing an embodiment of an eco-friendly underwater beam structure according to the present invention,

FIG. 2 is a schematic plan view of the underwater beam structure shown in FIG. 1;

FIG. 3 illustrates a detail A of FIG. 1;

4 is a schematic side view of another embodiment of an eco-friendly underwater beam structure according to the present invention,

FIG. 5 schematically illustrates an island formed in an eco-friendly underwater beam structure according to the present invention.

* Description of the symbols for the main parts of the drawings *

1 underwater beam 2 fixed pile

3 support seats 5 base mat

6 Central support pile 7 Tree branches

In order to achieve the above object, in the present invention, an underwater beam consisting of an antiseptic cylindrical wood placed on the riverbed across the river to block the flow of the river to raise the water level of the upstream; A fixed pile made of a synthetic material for supporting the underwater beams and fixing their positions by being inserted into and fixed to the lower side around the underwater beams; A central support pile inserted into the lower portion in a state connected to the lower portion of the underwater beam to prevent the lower phase of the lower beam from being crushed and supporting the lower portion of the underwater beam and preventing the underwater beam from rising upward; A plurality of support stones which are placed on the upstream side and the downstream side of the underwater beam along the underwater beam and formed of megaliths of a predetermined size to support the underwater beam; It is provided between the supporting stone is an eco-friendly underwater beam structure characterized in that it comprises a tree branch that forms the habitat of aquatic life.

In the present invention, a bottom mat may be provided between the bottom face of the support stone and the top face of the bottom bed to prevent the bottom bed from being crushed by the overflow of the river. In addition, for storing water, a waterproof mat may be installed instead of or in addition to the bottom mat.

On the other hand, in the present invention, by adjusting the height of the protruding cylindrical wood on the lower floor to the upper and lower laminating the anti-corrosive cylindrical wood can be arbitrarily adjusted the height of the underwater beam structure according to the depth of the river. In addition, the width of the underwater beam can also be arbitrarily adjusted by placing a plurality of the above-mentioned anti-corrosive logs side by side on the lower side. Of course, it is also possible to arbitrarily adjust the scale of the underwater beam structure by installing a plurality of the preservation cylindrical wood vertically and horizontally.

That is, in the case of a small river having a low water level on the upstream side after installing the underwater beam structure, only one antiseptic cylindrical wood may be used. In this case, the diameter of the antiseptic cylindrical wood is preferably about 40 to 80 cm. However, if the stream requires a greater or deeper upstream water level, as described above, a structure of the required size by stacking a plurality of preservative logs up and down, laying a plurality of horizontally side by side, or a proper combination thereof Can be made with

Next, a detailed configuration of the present invention will be described with reference to the drawings schematically showing an embodiment of the present invention.

1 is a side view schematically showing an embodiment of an eco-friendly underwater beam structure according to the present invention, FIG. 2 is a schematic plan view of the underwater beam structure shown in FIG. 1, and FIG. Detailed view.

In the natural-type underwater beam structure according to the present invention, an underwater beam (1) consisting of an embalmed log, that is, an anti-corrosive cylindrical tree, is placed on the riverbed across the river to block the flow of the river to increase the water level in the upstream. In the embodiment shown in Figure 1, the underwater beam (1) consisting of a preserving cylindrical wood is composed of two cylindrical wood corresponding to the upper wall 11 and the bottom of the index tree 12 is arranged vertically vertically It is shown as being. However, in the underwater beam structure according to the present invention, the underwater beam (1) is not limited to the above arrangement, for example, in the case of a small river with a low water level upstream after installation of the underwater beam structure, using only one cylindrical tree It is possible to configure the underwater beam (1). In this case, the diameter of the cylindrical wood is preferably about 60 to 80cm. On the other hand, depending on the size of the underwater beam structure, a plurality of cylindrical wood may be arranged in a single layer or a double layer may constitute the underwater beam (1).

On the other hand, as shown in Figure 1, when the underwater beam (1) is composed of a multi-layer structure of the moon tree 11 and the exponent tree 12, the upper end of the index tree 12 based on the upper elevation (基準 河床 高), It is preferable to

In order to fix the position by preventing the underwater beam (1) to move, a plurality of fixing piles (2) are inserted into the lower side of the circumferential side of the underwater beam (1) to support the side of the underwater beam (1). In the present invention, the fixed pile 2 is preferably made of a synthetic resin member that is durable against water, such as PE polymer material in order to prevent corrosion by water.

In order to more firmly support the underwater beam 1, the fixing stake 2 may be fixed by inserting a mounting means such as a stainless anchor bolt into the fixing stake 2 and the underwater beam 1. In the embodiment shown in FIG. 3, the anchor bolt 13 is inserted and installed in the upstream lumber 11 and the fixed pile 2 on both sides of the underwater beam (1).

On the other hand, the center support pile 6 is inserted in the lower bed at the lower end of the water tree 12 of the underwater beam (1). The lower surface of the central support pile 6 and the underwater beam 1, that is, the lower surface of the index tree 12 in the embodiment of Figure 1 is connected to each other, for example, the lower surface of the index tree 12 and the central support Rings may be mounted on the upper surfaces of the piles 6 to be connected to each other. As such, the central support pile 6 connected to the lower portion of the underwater beam 1 has a function of supporting the underwater beam 1 at the bottom, and the bottom of the underwater beam 1 is crushed by the flow of water. It is prevented to some extent, and the function of preventing the rise of the cylindrical wood constituting the underwater beam (1) by buoyancy.

In the underwater beam structure according to the present invention, the upstream side and the downstream side of the underwater beam (1) along the underwater beam (1) in the lower side of the predetermined size to more firmly support the underwater beam (1) and to prevent the crushing of the lower phase Supporting stones 3 composed of a plurality of megaliths are placed. A gap filling rubble 21 exists between the lower portions of the supporting stones 3.

It is preferable to lay a bottom mat 5 such as a coir felt on the bottom of the support stone 3 before placing the support stone 3 on the lower bed. The bottom mat 5 functions to prevent the bed phase from being crushed by the overflow of the stream. On the other hand, when the storage of rivers is required, a waterproof sheet may be used in addition to the bottom mat 5 or in place of the bottom mat 5.

In the present invention, the tree branch 7 is sandwiched between the supporting stones 3 made of the megaliths. The tree branches 7 create an environment in which aquatic organisms naturally inhabit. As suitable as the tree branch (7) it can be exemplified by inserting the willows. However, the tree branch (7) is not necessarily limited to the above willow cuttings, any kind of tree branch that can provide a natural habitat for other aquatic life.

In this invention, the main part which functions as an underwater beam consists of the underwater beam 1 which consists of an anticorrosive cylindrical tree, and such an underwater beam 1 has a structure which is naturally laid on the riverbed. Therefore, as time elapses, a gap may occur between the lower surface of the underwater beam 1 and the riverbed so that underwater creatures can enter and exit, and the underwater creatures between the upstream and downstream can naturally communicate. This can minimize the disturbance of the ecosystem caused by the installation of underwater beam structures.

On the other hand, there is a gap between the supporting stones (3) placed around the underwater beams (1) due to the natural shape of the megaliths, which provides the natural benefits and nesting place for the aquatic organisms to help preserve the ecosystem Becomes In addition, a tree branch 7 is inserted between the support stones 3 to provide an excellent natural habitat for aquatic life.

Figure 4 is a schematic side view of the underwater beam structure according to another embodiment of the present invention.

In the embodiment shown in FIG. 4, the bottom mat of the supporting stone 3 is made of rubble to support the supporting stone 3, and the bottom mat 5 is disposed at the lower portion of the supporting stone 3. ) Has the same configuration as the embodiment shown in FIGS. 1 to 3 except for the fact that it is installed. Therefore, in the embodiment of Fig. 4, repeated description of other configurations will be omitted.

In the eco-friendly underwater beam structure according to the present invention, it is possible to very easily form a fishery that allows the underwater creatures up and down to communicate with each other. FIG. 5 is a schematic view illustrating the state in which the fish island 30 is formed in the eco-friendly underwater beam structure of the present invention in the flow direction of the stream. As illustrated in FIG. 5, in the underwater beam structure according to the present invention, at a predetermined position of the underwater beam structure installed in the cross section of the river, the eruption tree 11 of the underwater beam 1 is cut by a predetermined width to open the seaway 30 simply. It can be formed. Therefore, in the underwater beam structure of the present invention, compared to the conventional concrete underwater beam structure, the cost and effort required to form the fish is greatly reduced.

Although the preferred embodiments of the present invention have been described above, those skilled in the art will appreciate that the present invention can be modified or modified in various ways. Therefore, changes of the embodiments of the present invention will not be able to escape the technical scope of the present invention.

As described above, according to the present invention, since the submerged beams for raising the upstream water level are composed of preserved cylindrical wood laid naturally on the lower surface, the water between the lower surface of the cylindrical tree and the lower bed as time passes. There is a gap in which the creatures can enter and exit, which not only creates a living environment in which aquatic organisms can naturally live, but also enables the aquatic organisms to communicate naturally with the upstream and downstream regions. The disturbance of the ecosystem due to installation can be minimized.

In the natural natural underwater beam structure of the present invention, megaliths are placed around the preservative cylinders constituting the underwater beams, and there are gaps between the megaliths and the megaliths due to the natural shape of the megaliths, which are natural benefits to underwater creatures. And providing nests to help preserve the ecosystem.

In addition, by inserting a tree branch between the supporting stones in the underwater beam structure of the present invention, the tree branch provides a natural habitat environment for aquatic life.

In particular, in the present invention, since the installation of the underwater beam structure can be completed simply by placing the pre-preserved cylindrical wood in the required lower position and fixing the periphery thereof, the construction method is simple and the construction cost is reduced accordingly.

In addition, it is possible to install a fishery for the communication of the upstream and downstream aquatic organisms in a simple way, thereby reducing the construction cost and construction period.

Claims (2)

An underwater beam (1) consisting of an antiseptic cylindrical wood placed on the riverbed across the river to block the flow of the river and raise the water level in the upstream; A fixed pile (2) made of a synthetic material for supporting and fixing the submerged beams (1) by being inserted into and fixed on the lower side around the submersible beams (1), Is inserted into the lower state in connection with the lower portion of the underwater beam (1) to prevent the bottom of the underwater beam (1) to be crushed and support the lower portion of the underwater beam (1) and at the same time the submersible beam (1) rises up Central support pile 6 to prevent it; A plurality of support seats (3) formed of megaliths of a predetermined size placed on an upstream side and a downstream side of the submerged beams (1) along the submerged beams (1) to support the submerged beams (1); An eco-friendly underwater beam structure, comprising a tree branch (7) inserted between the support stones (3) to form a habitat for aquatic life. The method according to claim 1, An eco-friendly underwater beam structure, characterized in that a bottom mat (5) is provided between the bottom surface of the support stone (3) and the upper surface of the lower bed to prevent crushing of the lower bed.