KR20160029400A - River foundation with eco-corridor - Google Patents

Abstract

The present invention relates to a reverse river foundation having an ecological corridor. The reverse river foundation having an ecological corridor comprises: an excavated part (10) which is formed by excavating either an inclined surface (1) or a bottom surface (2) of a river; a living stone installation part (20) of which the bottom is inserted into the excavated part (10) and the top protrudes upward from the excavated part (10) and which is composed of living stones (21); an earth filling part (30) which is filled in the excavated part (10) up to the top surface of the excavated part (10) and has an ecological corridor (31) between the top surface thereof and a contact part (22) of the living stone installation part (20); an aggregate filling part (40) which is filled with multiple aggregates and have pores between the aggregates; and a concrete foundation (50) which is installed on the top of the aggregate filling part (40) and allows reinforcing bars to be inserted thereinto. Thus, the present invention prevents sediments from flowing into the ecological corridor by forming the ecological corridor in the bottom of the concrete foundation.

Description

{RIVER FOUNDATION WITH ECO-CORRIDOR}

The present invention relates to a river basin installed on the surface of a river, and more particularly, to a river basin having a reverse structure formed on the top of a natural stone, To a reverse river basin provided with an ecological passage.

Generally, the river surface is provided with reinforced loads on the sides of the river, as well as preventing the sides from being washed together by the river water. In order to improve the aesthetics of the river surface, a large number of concrete materials or stone- It was installed in a coarse state so that the surface of the river was constructed in a solid state.

However, since the conventional revetment block, which is installed in many of the river surface as described above, is in the form of a flat plate having protrusions formed on the surface thereof so as to have a specific pattern, when the residential surface of the river is formed using these revetment blocks, As a result, it can not be possible to form a water channel that can help form any kind of shellfish in the revetment block that is installed in a certain part of the river water so that it can not provide an environment in which seafood and aquatic plants can live on the edge of the river bottom. And the sudden increase in the amount of river water due to floods and the like, the flow rate of the river water is increased, and the inflow of the soil is increased, so that the ecological environment of the seafood is inevitably destroyed.

For example, in Japanese Patent Application Laid-Open No. 10-0459611 (Patent Document 1), there is provided a horizontally connected lower end of a river, Wherein a plurality of passages are formed in the front plate so as to be communicated with the inside of the joint, wherein the front plate, the rear plate, and the bottom plate are integrally formed with each other, A plurality of through holes are formed in each of the rear plate and the bottom plate and connection pins are formed on the outer side of the rear plate so as to connect the block body horizontally by a connecting piece. And the general shore protection block is installed at the step formed on the stem.

In Patent Document 1, a protruding portion is formed at the lower portion of the block, and this portion is inserted into the bottom of the river or the bottom of the river near the bottom of the river, and a plurality of block loads installed on the flat surface prevent the escape.

However, since the blocks are generally arranged obliquely on the flat surface, the load applied by the skeleton blocks is not a vertical load but a force acts in an inclined direction toward the center of the river, so that the ingot block is pushed toward the center of the river, If the scour is generated by the water flow, the inert block is pushed to the center side, resulting in a problem that not only the inert block but also the block of the curved surface are detached.

In order to solve such a problem, the inventor of the present application filed an application for "environmentally friendly waterproof structure of ecological river" (Korean Patent Laid-Open Publication No. 10-2012-0000137, Patent Document 2).

In Patent Document 2, main bases are provided discontinuously in the lower part of the shore, auxiliary spaces and fish habitats are formed in the space between the main bases, and the blocks are installed in an integrated manner on the upper side of the main foundation.

However, in Patent Document 2, irregularly arranged main bases support the loads of the skeleton blocks, and when the river scour is caused by the water current, the main bases are separated toward the center of the river, and the curved blocks are collapsed.

Particularly, the ecological spaces generated in Patent Documents 1 and 2 have a problem that when the sediments are piled up as a space for the associates through the gaps of the blocks, the space for the associates is lost.

KR 10-0459611 (November 23, 2004) KR 10-2012-0000137 (Jan 1, 2012)

The reverse river bases provided with the ecological passages of the present invention are intended to overcome the problems caused by the conventional art as described above. The ecological passage is formed at the lower part of the concrete foundation, To prevent them from entering the ecological aisle.

In addition, not only the above-mentioned ecological passage but also concrete bases are installed on top of the natural stones forming the ecological passage, so that the load of the water flow and the curved blocks in the state of being installed on the bottom surface of the river by the load of concrete foundation and natural stones So as to prevent the flow of the base caused by the water.

Especially, the aggregate is installed between the natural stones, and the concrete foundation is integrated with the aggregate and the natural stone through the wet construction to form an integrated structure to prevent the escape of the natural stones, which is the basic structure for forming the ecological passage, As shown in Fig.

Further, the upper and lower portions of the natural stones formed by tapering upper and lower portions are respectively disposed so as to protrude upward and downward so as to be inserted into the ground at the lower side, and the contact area between the concrete So that the adhesive strength between natural stone and concrete can be maximized.

Through this, it is aimed to have structural stability and to keep the ecological passage even when blocks are installed on the concrete.

In order to solve the above problems, an inverted river foundation having an ecological passage according to the present invention comprises a drilling section 10 formed by excavating any one of a river surface 1 or a bottom surface 2; The upper part and the lower part are tapered and the lower part is inserted into the digging part 10 and the upper part is composed of a plurality of natural stones 21 protruding from the upper part of the digging part 10, The natural stone 21 is formed with a contact portion 22 in which the points spaced upward from the excavating portion 10 abut against each other and the lower portion of the contact portion 22 is formed with a lower spacing portion 23 spaced from each other And an upper portion of the contact portion 22 is formed with an upper spacing portion 24 spaced apart from each other; A soil filler 30 which is formed by filling the lower spaced portion 23 with gravel and which is filled up to the upper surface of the excavation portion 10 to form an ecological passage 31 between the contact portions 22 from the upper surface; An aggregate filling part 40 formed by filling a plurality of aggregate materials in the upper spacing part 24, having an upper surface flat and having a gap formed between the aggregate materials; And a concrete foundation (50) installed on the upper part of the aggregate filling part (40) and having reinforcing bars inserted therein.

At this time, the concrete foundation 50 is wet-applied on the upper part of the aggregate filling part 40, and permeates through the gap between the aggregate materials when touched to form a part of the aggregate part of the aggregate filling part 40.

In addition, a flow blocking membrane 70 having a biodegradable material is provided between the top of the natural stone 21 and the stem filling unit 40.

In addition, an exposed portion (60) in which any one of a gabion, a block, and a natural stone is installed on the concrete foundation is further formed.

The concrete foundation 50 is formed with a plurality of vertical through holes 51 penetrating vertically and a drawable pipe 52 inserted into the vertical through holes 51.

According to the present invention, the ecological passage is formed at the lower portion of the concrete foundation, thereby preventing the sediment from flowing into the ecological passage through the clearance between the blocks provided on the concrete foundation.

In addition, not only the above-mentioned ecological passage but also concrete bases are installed on top of the natural stones forming the ecological passage, so that the load of the water flow and the curved blocks in the state of being installed on the bottom surface of the river by the load of concrete foundation and natural stones It is possible to prevent the base flow as much as possible.

Especially, the aggregate is installed between the natural stones, and the concrete foundation is integrated with the aggregate and the natural stone through the wet construction to form an integrated structure to prevent the escape of the natural stones, which is the basic structure for forming the ecological passage, . ≪ / RTI >

Further, the upper and lower portions of the natural stones formed by tapering upper and lower portions are respectively disposed so as to protrude upward and downward so as to be inserted into the ground at the lower side, and the contact area between the concrete The adhesive strength between the natural stone and the concrete can be maximized.

Thus, even when a block or the like is installed on the upper part of the concrete, the structure can be stabilized and the ecological passage can be maintained smoothly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cut-away perspective view showing an embodiment of a reverse river basin provided with an ecological passage of the present invention. FIG.
FIG. 2 is a cutaway perspective view showing a state in which an eco-path is formed by installing a soil filler in the process of constructing an eco-path in FIG. 1;
FIG. 3 is a cut-away perspective view showing a state in which an aggregate and a concrete foundation are installed as shown in FIG. 2;
FIG. 4 is a perspective view showing an example in which an ecological passage is formed on a slope by constructing a reverse river basin provided with an ecological passage of the present invention along a sloping slope; FIG.
FIG. 5 is a cross-sectional view illustrating a state where a fluid barrier film is further provided in the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

The backward river bases provided with the ecological passage of the present invention mainly include the excavation part 10, the natural stone installation part 20, the earth / sand filling part 30, the aggregate filling part 40 and the concrete foundation 50 have.

The reverse river bases provided with the ecological passage of the present invention may be provided with a concrete foundation 50 along the longitudinal direction of the river or a concrete foundation 50 along the river.

In other words, when installed along the river length direction, ecological passage is formed at both ends of the river or on the side of the river, and when installed along the direction of the river, an ecological passage is formed on the river bottom.

The excavating portion 10, which is a component of the present invention, is formed by excavating any one of the river surface 1 or the bottom surface 2.

1 shows an example of forming a digging section 10 by excavating the river surface 1 in a state of being flattened in parallel with a river bottom to form a digging section 10 by excavating the river bottom surface 2.

4 shows an example in which the sloping river surface 1 is excavated in parallel to the slope to form the excavation part 10.

As shown in FIG. 2, the natural stone installation part 20 of the present invention is composed of a plurality of natural stones 21, a contact part 22, a lower spacing part 23 and an upper spacing part 24 have.

FIG. 2 shows a state in which the excavation unit 10 is formed through silver surface excavation and the natural stone installation unit 20 is formed using a plurality of natural stones 21.

As shown in the figure, the natural stone 21 is composed of a plurality of natural stones, and the upper and lower portions are tapered, i.e., sharpened, as shown in cross section.

For example, when a rectangular cross section is taken, it is installed in such a structure that the corner is located at the upper and lower ends.

These natural stones 21 are inserted into the excavation part 10 as shown in the figure and the upper part of the natural stone 21 is protruded from the upper part of the excavation part 10.

In addition, adjoining natural stones 21 are formed with contact portions 22 in which upwardly spaced points from the excavating portion 10 abut against each other and contact with each other as shown in the figure.

The lower portion of the abutting portion 22 is spaced apart from the lower spacing portion 23 and the upper portion of the abutting portion 22 is spaced apart from the upper spacing portion 24 Take it.

In this case, the contact portion 22 of the natural stone 21 may be formed in a regular hexagonal shape in a plan view. However, since the contact portion 22 is hard to process, the contact portion 22 is partially formed rather than formed on the entire natural stone 21.

As a result, adjacent natural stones 21 may not be in contact with each other and may be separated from each other. The aggregate filled in the upper spacing portion 24 by the lower spacing portion 23 is filled with a large aggregate or an auxiliary stone. Do not fall.

The tarsal filler 30 is filled in the lower spacing part 23 to fill up the upper surface of the excavation part 10 so that the soil is filled between the contact parts 22 from the upper surface. So as to form the passage 31.

In this case, it is preferable to use a material having high viscosity such as mud rather than sand, which is likely to be swept by the current, and furthermore, to mix the soil with fibers such as straw to prevent it from being swept away by the current.

The aggregate filling part 40, which is a constituent element of the present invention, is formed by filling the upper spacing part 24 with a plurality of aggregates, and the top surface is flat.

Fig. 3 shows a state in which the aggregate filling part 40 and the concrete foundation 50 are continuously installed in the state of Fig.

At this time, voids are formed between the aggregates.

When the concrete is poured into the upper part of the natural stone installation part 20 without the aggregate filling part 40 to form a foundation, that is, when the concrete is poured into the natural stone 21 as it is, The concrete is broken and the upper load is not supported uniformly and the reinforcing bars are difficult to be laid at the irregular part of the upper surface. Therefore, it is difficult to improve the strength of the concrete foundation by inserting the reinforcing bars.

Also, when the concrete is poured, the concrete seeps into the lower spacing portion 23 through the points other than the contact portion 22 where the natural stones 21 contact, and the formation of the ecological passage 31 may not be performed smoothly.

The concrete foundation 50, which is a constituent element of the present invention, is installed on the upper part of the aggregate filling part 40, and reinforcing bars are inserted therein.

It is preferable that the concrete foundation 50 is installed continuously along the longitudinal direction when the foundations of the present invention are installed along the longitudinal direction at both ends of the river, as shown in Fig.

At this time, they may be installed in multiple rows spaced apart in parallel to each other depending on the width of a block on the upper surface.

1, when the bases of the present invention are installed on a bottom or a flat surface of a river in a direction orthogonal to the longitudinal direction of the river, they may be spaced apart from each other along the longitudinal direction of the river surface or the bottom surface.

The foundation of the present invention having such a structure is that an exposed portion 60 formed on the concrete foundation 50 with one selected from a gabion, a block, and a natural stone installed on the concrete foundation as shown in FIG. 1 Can be installed.

The exposed portion 60 may be a block or a natural stone for forming a sloped surface in accordance with the position and direction in which the foundation of the present invention is installed or may be a gab bridge across the river or a gab bridge .

Inserting the reinforcing bars into the concrete foundation 50 causes the concrete foundation 50 to break when the components installed under the concrete foundation 50 are lost due to environmental variables and load is applied to the lost points, 50), so that the blocks that are assembled and stacked on the upper part are not balanced and collapsed.

The concrete foundation 50 can be formed by providing a mold having right and left side walls and a bottom surface on the upper part of the aggregate filling part 40, placing the concrete after reinforcing the reinforcing bars, or dry the concrete foundation in the factory, Can be installed.

In this case, the concrete foundation 50 and the lower aggregate filling part 40 are separated from each other, and the natural stone 21 is pressed against the load of the concrete foundation 50 at a portion where cracks are generated due to loss of aggregate or the like Can occur.

In this case, if the natural stone 21 escapes or gets out by the water flow, the number of points to support the concrete foundation 50 is reduced. As a result, the concrete foundation 50 is cracked by the load placed on the concrete foundation 50 Or breakage may occur.

In order to prevent this, the formwork is installed on the upper part of the aggregate filling part 40, the formwork is installed in a form that the lower part is opened, and the mortar is poured after the reinforcement is placed on the formwork in this state, It is preferable that the mortar penetrate and integrate with the aggregate part of the aggregate filling part 40.

In this case, the molten mortar impregnates voids between the aggregates. Since the natural stone 21 has a sharp tip, the mortar is cured while being in contact with the upper part of the natural stone 21 as well as the aggregate, 21).

This allows the natural stone 21 to be integrated with the concrete foundation 50 even when there is a small amount of aggregate loss, so that the ecological passage 31 can be maintained and the support of the load can be maintained smoothly.

In order to prevent the mortar from flowing into the lower spacing part 23 and preventing the formation of the ecological passage 31 in the casting process, the upper part of the natural stone 21 is connected to the stem filling part 40 as shown in FIG. A flow shielding film 70 such as a vinyl or cloth may be provided.

However, it is difficult to utilize the aggregate of the aggregate filling part 40 as an ecological space connected to the ecological passage 31, although it is possible to prevent the inflow of mortar when a barrier membrane is installed as a material for preventing air and moisture from flowing .

It also interferes with the movement of small microorganisms.

In order to prevent such a problem, it is preferable that the barrier membrane 70 is made of a biodegradable material such as degradable corn starch or the like which is decomposed with a lapse of a certain time.

In addition, if the aggregate is lost due to a gap or the like between the natural stones 21 in the above-described structure, a cavity is formed in the lower portion of the concrete foundation 50, so that cracks are generated in the foundation 50 due to the upper load It can be broken.

As shown in the figure, the concrete foundation 50 has a plurality of vertical through holes 51 penetrating vertically, and a vertical pipe 51 is formed with a drawable pipe 52 Can be inserted.

If the ordinary sediment having a weak supporting force of the foundation 50 clogs the hole when only the hole is formed, the hollow aggregate is inserted into the lower portion of the concrete foundation 50 The pipe 52 is pulled out to remove the foreign substance adhered to the pipe 52, and then the pipe 52 is inserted again, and then the aggregate is filled Or additionally inject mortar to fill the cavity beneath the concrete foundation 50.

In addition, normally, the pipe 52 connects upper and lower ecology, which are cut off through the concrete foundation 50, so that it can serve as an upper and lower passage for microscopic small animals such as microorganisms.

As described above, the reverse river bases provided with the ecological passages according to the present invention are installed along the longitudinal direction on the surface of the river, on both sides of the river, on the bottom of the river, or in a direction transverse to the longitudinal direction, And provide ecological aisles.

1: surface 2: bottom surface
10: excavation part 20: natural stone installation part
21: natural stone 22:
23: lower spacing portion 24: upper spacing portion
30: Tosa filling part 31: Ecological passage
40: aggregate filling part 50: foundation
51: vertical through hole 52: pipe
60: Exposure section 70:

Claims (5)

In river basins,
(10) formed by excavating any one of the river surface (1) or the bottom surface (2);
The upper part and the lower part are tapered and the lower part is inserted into the digging part 10 and the upper part is composed of a plurality of natural stones 21 protruding from the upper part of the digging part 10, The natural stone 21 is formed with a contact portion 22 in which the points spaced upward from the excavating portion 10 abut against each other and the lower portion of the contact portion 22 is formed with a lower spacing portion 23 spaced from each other And an upper portion of the contact portion 22 is formed with an upper spacing portion 24 spaced apart from each other;
A soil filler 30 which is formed by filling the lower spaced portion 23 with gravel and which is filled up to the upper surface of the excavation portion 10 to form an ecological passage 31 between the contact portions 22 from the upper surface;
An aggregate filling part 40 formed by filling a plurality of aggregate materials in the upper spacing part 24, having an upper surface flat and having a gap formed between the aggregate materials;
And a concrete foundation (50) installed on the upper part of the aggregate filling part (40) and having reinforcing bars inserted therein.
Reverse river basin with ecological aisle.
The method according to claim 1,
Wherein the concrete foundation (50) is wet-applied on the upper part of the aggregate filling part (40) and permeates through the gap between the aggregate materials when touched to form a part of the aggregate part of the aggregate filling part (40)
Reverse river basin with ecological aisle.
3. The method of claim 2,
Characterized in that a flow blocking membrane (70) having a biodegradable material is provided at an upper portion of the natural stone (21) with the stem filling section (40)
Reverse river basin with ecological aisle.
3. The method of claim 2,
And an exposed portion (60) formed on the concrete foundation so that any one of a gabion, a block, and a natural stone is installed on the concrete foundation.
Reverse river basin with ecological aisle.
3. The method of claim 2,
Wherein a plurality of vertical through holes (51) penetrating up and down are formed in the concrete foundation (50), and a drawable pipe (52) is inserted into the vertical through hole (51)
Reverse river basin with ecological aisle.

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