KR100530458B1 - Ecological embankment protective facilities structure - Google Patents

Abstract

The present invention relates to an environment-friendly river embankment installation structure that can protect the underwater ecosystem by providing a rich fish habitat and prevention of loss of river embankment, the foundation block 30 by the foundation pile (20) It is fixed at the lower end of the inclined surface (22a) of, the laminated block 40 is laminated on the base block 30 along the inclined surface (22a) of the bank 22 in order to combine each connecting portion with the fastening pins (35) (43) And, the upper finishing block 50 is installed on the uppermost laminated block 40, the semi-circular waste tire fixing part 32 in which the waste tire 60 is located in front of the foundation block 30 and the laminated block 40 Perforated a plurality of ecological entrances (62) leading to the fish habitat space (66) in the waste tire (60), and the zeolite in the waste tire (60). The circular stainless steel net 64 is closed to fill the particles 65 and to prevent the zeolite particles 65 from being lost. It is installed in the center of the ear 60, the cylindrical portion (67, 68) is formed in the outer center of the tire cover (61, 63), the waste tire (60) inside the outer peripheral surface of the cylindrical portion (67, 68) Grilles 67a and 68a leading to the fish habitat space 66 are formed, and eccentric holes 67b and 68b are formed in cross sections of the cylindrical portions 67 and 68.

Description

Ecological Embankment Protective Facilities Structure

The present invention relates to an environment-friendly river dike installation structure used to prevent erosion of the dike caused by the flow of the river, more specifically, to protect the aquatic ecosystem by using waste tires to prevent the loss of the dike and to provide abundant fish habitat It is about an eco-friendly river bank installation structure.

The conventional bank levee facilities installed along the streams are provided with an inverted T-shaped retaining wall 12 consisting of a vertical wall and a base plate on both sides of the levee 10 of the river 14 as shown in FIG. 1. To prevent the loss of the embankment.

However, such a conventional river levee facility has a problem that the vertical wall of the retaining wall 12 has a flat surface, so that the flow rate is faster toward the downstream side, causing damage due to the flow rate, the habitat space that can rest or spawn underwater life It was encroaching on the water, destroying the aquatic ecosystem, and causing a serious problem of polluting the water quality by reducing the self-cleaning function of the river water due to the imbalance of the food chain due to the destruction of the ecosystem.

The present invention has been made to solve the above problems, the purpose of which is to prevent the increase in the flow rate in the river bank facilities, to preserve the underwater ecosystem by providing a habitat for the underwater life, the midnight of the river water It is to provide an eco-friendly river bank installation structure that can improve the function.

In order to achieve the object of the present invention, the foundation blocks are fixed to the lowermost slope of the river banks by the foundation piles that are embedded in the river bed, and the laminated blocks are sequentially stacked along the slopes of the banks on the foundation blocks, and each connection part is connected to the fastening pins. The upper finishing block is installed on the uppermost laminated block, and the semi-circular waste tire fixing part is formed on the front of the foundation block and the laminated block, respectively, and a plurality of fish passages are connected to the fish habitat space inside the waste tire. The ecological entrance is drilled on the outer circumferential surface of the waste tire, the inner bottom of the waste tire is filled with zeolite particles, and a circular stainless steel network is installed at the center of the waste tire to prevent loss of the zeolite particles. A cylindrical portion is formed in the outer center of the disc-shaped tire cover, and is closed on the outer circumferential surface of the cylindrical tire cover. Subsequently, the grill is connected to the internal fish habitat space, and an eco-friendly river embankment installation structure is provided by forming an eccentric hole for river water inflow in the cross section of the cylindrical portion.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the foundation block 30 is fixed to the lowermost end of the slope 22a of the bank 24 by the foundation pile 20 that is embedded in the river bottom 26, The stacking blocks 40 are sequentially stacked on the base block 30 along the slope 22a of the bank 22, and the coupling blocks are coupled to each other by fastening pins 35 and 43, and the stacking blocks 40 are stacked on the uppermost stacking block 40. The upper closing block 50 is installed, and semi-circular waste tire fixing parts 32 and 42 are formed on the front of the foundation block 30 and the stacked block 40, and the waste tires 60 are disposed, respectively. A plurality of ecological entrances (62) leading to the fish habitat space (66) inside the tire (60) are drilled on the outer circumferential surface of the waste tire (60), and the inside bottom of the waste tire (60) is filled with zeolite particles (65). The circular stainless steel net 64 is installed at the center of the waste tire 60 to prevent the loss of the zeolite particles 65, and is installed on the waste tire 60 at both sides. Cylindrical portions 67 and 68 are formed at the outer center of the disc-shaped tire covers 61 and 63, and the fish habitat space 66 inside the waste tire 60 is formed on the outer circumferential surfaces of the cylindrical portions 67 and 68. Grilles 67a and 68a leading to the circumference, and eccentric holes 67b and 68b are formed in the cross sections of the cylindrical portions 67 and 68 for inflow of the river water.

Here, the base block 30 is installed where the dike 22 of the river 24 and the river bottom 26 meet, and the semi-circular locking groove that is caught on the foundation pile 20 embedded in the river bottom 26 on the lower front surface thereof. (33) is formed vertically, the waste tire fixing portion 32 formed on the front side is provided with a plurality of anchor bolts 34 are formed at equal intervals in the horizontal direction, the upper surface of the pin hole is inserted into the fastening pin (35) At least two 38 are formed.

In addition, at least two pin holes 41 and 46 are formed on the upper and lower surfaces of the laminated block 40, and the fastening pins 35 are inserted therein. A plurality of anchor bolts 44 are formed on the rear surface, and anchor fixing rails 72 are installed on the rear side of the anchor bolts 72 to be coupled to the J-type anchor 70 that is lodged on the slope 22a of the embankment 22 and laminated. Prevents loss and fall of block 40.

In addition, at least two pin holes 52 are formed on the bottom of the upper closing block 50 so that the fastening pins 43 can be inserted.

And, the rear surface of the waste tire 60 is formed anchor fastening hole 64, the waste tire 60 is formed on the foundation block 30 and the laminated block 40, the waste tire fixing part 32 ( At the time of installation on the tire 42, the anchor bolts 34 and 44 installed on the waste tire fixing parts 32 and 42 pass through the anchor fastening holes 64, and then arc-shaped washers inside the waste tire 60. The nuts 36 and 46 are screwed to the anchor bolts 34 and 44 with the 36a and 46a interposed therebetween to fix the waste tire 60 to the waste tire fixing parts 32 and 42.

On the other hand, the fastening holes 60a are formed at both sides of the waste tire 60 at equal angles, so that the one-touch fasteners 61a and 63a formed at equal angles on the tire covers 61 and 63 are fastened to the fastening holes 60a. By pushing in, the tire covers 61 and 63 are coupled to both sides of the waste tire 60.

In addition, the flange 61p, 63p is formed on the inner surface of the tire cover 61, 63 so that both ends of the circular stainless steel net 64 are fitted to the outside of the flange 61p, 63p. (60) to be located in the center.

The zeolite 65 (Zeolite, 沸石) is excellent in chemical cation substitution action, absorbs or adsorbs foreign matter and ammonia gas, etc. present in the fish habitat space 66 other than water to the river water in the narrow fish habitat space 66 It will act to purify.

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 2 and 3, the assembly of the waste tire 60, the tire cover 61, 63, and the circular stainless steel net 64 is performed on the inner bottom of the waste tire 60. ) And then attaching the tire covers 61 and 63 from both sides in the state where the circular stainless steel 64 is inserted into the center of the waste tire 60, both ends of the circular stainless steel 64 are covered by the tire cover ( It is caught in the flange 61p, 63p formed in the inner surface of 61, 63, and is located in the center of the waste tire 60.

That is, when the tire covers 61 and 63 are fitted to the waste tires 60, the one-touch fasteners 61a and 63a formed on the tire covers 61 and 63 are fastened to the waste tires 60. When it is inserted in the state matched to the ball (60a), the fastening hole (60a) is expanded by the elastic deformation to enter the one-touch fasteners (61a) (63a), the entry of the one-touch fasteners (61a) (63a) is completed. When the inner side of the waste tire 60 is caught, the fastening hole 60a is restored to its original shape by the elastic restoring force.

At this time, when the tire covers 61 and 63 are fitted to the waste tires 60, the eccentric holes 67b and 68b formed in the tire covers 61 and 63 are positioned at different positions, respectively. By assembling at different angles, the eccentric holes 67b and 68b formed in the tire covers 61 and 63 do not coincide with each other, thereby providing resistance to the flow of the river, thereby allowing the inside of the waste tire 60 to be internalized. The fish habitat space 66 is to be protected in a stable state.

Thereafter, the fastening pins 35 are inserted into the pin holes 38 on the base block 30 located at the bottom of the slope 22a of the river 24 and the fastening pins 35 are laminated blocks ( The stacking block 40 is stacked on the base block 30 so as to be inserted into the pin hole 41 formed at the bottom of the bottom, and stacked from the lower side to the upper side, and the anchor fixing rail installed at the rear side of the stacking block 40 ( When the J-type anchor 70 is coupled to the 72, the conduction of the stacked block 40 is prevented and the slope 22a of the bank 22 is covered with the stacked block 40.

After that, the fastening pin 43 is inserted into the pin hole 46 formed on the upper side of the stacked block 40 located at the uppermost end, and then the pin hole formed on the bottom surface of the upper closing block 50 in the fastening pin 43. When the upper closing block 50 is placed on the uppermost stacked block 40 while being inserted in accordance with the 52, the upper closing block 50 is located at the top of the embankment 22.

Meanwhile, since the fish habitat space 66 is formed inside the waste tire 60 after construction, the aquatic life inhabiting the stream 24 freely enters and exits the fish habitat space 66 through the ecological entrance 62. You will rest or spawn away from the water.

At this time, the circular stainless steel net 64 located at the center of the waste tire 60 prevents loss of the zeolite particles 65 laid on the bottom of the waste tire 60, but the fish inside the waste tire 60 The habitat space 66 is divided into a space where a large fish lives and a space where a small fish inhabits, so that the small fish can inhabit the center through the circular stainless steel network 64, thereby providing a refuge for small fish.

Since the zeolite particles 65 are excellent in chemical cation substitution, they absorb or adsorb foreign substances and ammonia gas present in the fish habitat space 66 other than water to purify the river water in the narrow fish habitat space 66.

In addition, the foundation block 30, the laminated block 40, the upper finishing block 50 covering the slope 22a of the bank 22 prevents the soil of the bank 22 from being lost by the river water. Since the waste tires 60 extending along the levee 22 form an unevenly corrugated surface as a whole, they generate vortices when the river water flows on the surface of the waste tires 60, thereby reducing the damage on the downstream side due to the flow rate. Given.

As described above, the present invention has the effect of protecting the embankment by the base block and the laminated block stacked up and down along the slope of the embankment. As a result, by resisting the flow of river water and reducing the flow rate, it is effective to prevent damage caused by the increase of the flow rate, and to preserve the aquatic ecosystem because it provides a fish habitat for underwater life inside the waste tire. It is effective to prevent water pollution caused by the destruction of the ecosystem, and it is possible to purify the water quality of the fish habitat space by the zeolite filled in the bottom of the waste tire, and to the eccentric hole formed in the tire cover. It is effective in protecting fish habitat by giving resistance to the flow of river water. .

Furthermore, the present invention is to use the discarded waste tire as an eco-friendly revetment facility, it can be expected an environmentally friendly effect to preserve the environment by recycling the resources, the conductivity of the laminated block by the J-type anchor There is an effect that is prevented.

1 is a cross-sectional view showing a conventional river embankment installation structure

Figure 2 is a cross-sectional view showing an environment-friendly river bank installation structure according to the present invention

Figure 3 is an exploded perspective view showing an eco-friendly river bank installation structure according to the present invention

Figure 4 is a cross-sectional view showing the structure of the waste tire according to the present invention

Explanation of symbols on the main parts of the drawings

20: foundation pile 22: embankment

22a: slope side 24: river

26: river bed 30: foundation block

32,42: Waste tire fixing part 35,43: Fastening pin

40: laminated block 50: upper finish block

60: waste tire 61,63: tire cover

62: ecological entrance 64: circular stainless steel network

65: zeolite particles 66: fish habitat space

67,68: Cylindrical section 67a, 68a: Grill

67b, 68b: eccentric hole

Claims (1)

The foundation block 30 is fixed to the lowermost end of the slope 22a of the bank 24 by the foundation pile 20 that is embedded in the river bottom 26, and the laminated block 40 is fixed on the foundation block 30. Laying in turn along the slope 22a of the bank 22, each connecting portion is coupled with fastening pins 35 and 43, and an upper finishing block 50 is installed on the uppermost stacked block 40, and the foundation block (30) and semi-circular waste tire fixing parts (32) (42) in which the waste tire (60) is located on the front of the stacked block (40), respectively, and the fish habitat space (66) inside the waste tire (60). A plurality of ecological entrances (62) leading to the perforations on the outer circumferential surface of the waste tire (60), the inner bottom of the waste tire 60 is filled with zeolite particles (65) to prevent the loss of the zeolite particles (65) The circular stainless steel net 64 is installed in the center of the waste tire 60, and the outer side of the disc-shaped tire covers 61 and 63 installed on both sides of the waste tire 60. Cylindrical sections 67 and 68 are formed on the outer circumferential surfaces of the cylindrical sections 67 and 68, and grills 67a and 68a which communicate with the fish habitat space 66 inside the waste tire 60 are formed. , Eco-friendly river embankment installation structure, characterized in that formed by forming the eccentric holes (67b) (68b) for the inflow of river water in the cross section of the cylindrical portion (67) (68).