KR100932660B1 - Eco-friendly moving passage of ecology formed in slope of river - Google Patents

Abstract

PURPOSE: An eco-friendly ecological corridor formed in river slope is provided to secure the time in which animals or insects escape toward a safe place even if a river level increases. CONSTITUTION: An eco-friendly ecological corridor formed on river slope comprises a corridor plate(10) composed of a flat plate, a vegetation mat(30) fixed by a plurality of anchors on the upper part of the corridor plate, a lift guide block(50), a lifting plate(60), and a float(40). The upper end part of the corridor plate is hinged to the slope. The lift guide block shaped like a box with its top open is buried on the slope. The lifting plate is inserted into the lift guide block so that it can be ascended and descended. The float fixed on the lifting plate is filled so that fluid can be supplemented inside, and is lifted depending on the water level to rotate the corridor plate.

Description

ECO-FRIENDLY MOVING PASSAGE OF ECOLOGY FORMED IN SLOPE OF RIVER}

The present invention relates to an eco-friendly ecological passageway formed on river slopes, and more particularly, to evacuate animals or insects that live on slopes higher than river water and to evacuate animals or insects to a safe place. It relates to an ecological ecological pathway that is formed on the slopes of rivers.

Generally, retaining wall structures are installed on the banks of rivers to protect the banks. According to the conventional river banks for this purpose, in order to prevent the collapse of the river banks, the retaining walls are stacked on both sides of the river above a certain height, and the construction is performed by stacking gabions or bank blocks on the slopes between the retaining walls and the river banks. .

However, according to the conventional retaining wall structure installed in the river banks, the use of concrete banks made of concrete blocks as the elements constituting the structure has caused difficulties in the habitat and movement of animals or insects inhabiting the river banks. In addition, plants and grasses could not be grown by the dike block, and even though the plant material grows through the gap between the dike blocks, there are not many individuals, so the slope and the slope of the river dike are destroyed. As a result, ecological protection has arisen.

On the other hand, in order to solve this problem, a technique for constructing the slopes and eco-friendly by inducing the habitat of animals or insects by installing vegetation blocks on the river slope.

However, eco-friendly technology to construct river slopes is not equipped with a path to safely evacuate the land animals or insects that inhabit the slopes when the river level increases, so evacuation of land animals and insects on the slopes is safe. There is a problem that can not be immersed in river water or swept away by river water.

The present invention is to solve the above problems, land animals or insects inhabiting the river slopes do not be immersed or swept in the river water even if the water level is increased, the land animals or insects to evacuate to a safe place The purpose is to provide an eco-friendly ecological transport passage formed on the slope of the river that can afford time.

Eco-friendly ecological movement passage formed on the river slope according to the present invention for achieving the above object, the passage plate is made of a flat plate while the upper end is pivotally connected to the slope through the hinge; A vegetation mat fixed to a plurality of anchors on an upper surface of the passage plate; An elevating guide block having an upper portion of a box shape and embedded in a slope; An elevating plate inserted into the elevating guide block so as to elevate; It is characterized in that it is configured to include a mouth that is filled so that the fluid is refillable and fixed to the upper portion of the elevating plate to move in accordance with the level of the river to rotate the passage plate.

According to the eco-friendly ecological movement passage formed on the river slope according to the present invention, when the river level is increased, the passage plate is rotated by buoyancy and floated on the surface of the river water so that the land animals or insects inhabiting the passage plate fall or swept into the river water. This protects the ecosystems of land animals and insects that live on slopes.

In addition, even if the amount of river water increases, the animals and insects can be evacuated to a safer place during the time when the passage plate floats in the river water, thereby protecting the ecosystem of land animals and insects.

As shown in Figures 1 to 4, the eco-friendly ecological passageway formed on the river slope according to the present invention, do not evacuate to a safe place (for example embankment) on the slope 2 when the water level of the river (1) is high In order to give the passage and the evacuation time to evacuate the animals, the passage plate 10 is provided.

The passage plate 10 is usually in close contact with the slope 2, and when the river water increases to rotate by buoyancy due to the river water to form a horizontal passage.

The passage plate 10 has a flat plate shape and one end (upper end based on the installation state) is rotatably connected to the fixing bracket 20 through the hinge 21.

The passage plate 10 is provided in multiple stages from the lower side of the slope 2, that is, from the retaining wall 3.

The fixing bracket 20 is arranged at regular intervals along the width direction on the slope 2 to be fixed through an anchor (not shown).

The passage plate 10 may be made of various materials such as synthetic resin or natural resin, and the vegetation mat 30 is fixed to a plurality of anchors (not shown). Therefore, since the passage plate 10 is obscured by the vegetation mat 30, it is not exposed to the outside, thereby producing an environment-friendly slope.

Hereinafter, a configuration for the operation of the passage plate 10 will be described.

Since the passage plate 10 operates in accordance with the water level of the river water, the float 40 is provided.

The float 40 is filled so that a fluid (gas or water) can be replenished inside.

When the water level of the river water is lower than the position of the buoy 40, the buoy 40 so that the passage plate 10 is in close contact with the slope 2 by the weight of the buoy 40 and the load of the passage plate 10, etc. When the water level of the river water is increased, the passage plate 10 is rotated by buoyancy.

The passage plate 10 and the float 40 are connected via the rotation guide boss 11 and the sliding pin 12.

Rotating guide boss 11 is formed on the bottom surface of the passage plate 10 at regular intervals along the width direction and is provided with a guide long hole 11a. The guide hole 11a is provided to match the lifting path of the float 40 and the rotation path of the passage plate 10.

The sliding pin 12 is fastened to the boss 41 formed in the float 40 and the guide long 11a, and guides the rotation of the passage plate 10 while sliding along the guide long 11a when the float 40 is elevated. do.

The lifting guide block 50 and the lifting plate 60 are provided so that the lifting and lowering of the float 40 and the passage plate 10 are made stable.

Lifting guide block 50 is a box-shaped upper portion is open is buried in a lower position than the fixed bracket (20).

The elevating plate 60 is flat and is inserted into the elevating guide block 50 while being connected to the buckle 40.

The elevating plate 60 moves up and down along the elevating guide block 50 to induce the elevating of the float 40 so that the float 40 is elevated in a straight line.

The lifting plate 60 and the buoy 40 may be connected through a fastener.

In addition, the elevating plate 60 is provided with a plurality of water holes 61 so that the river water flows into the passage plate 10 to help the rotation of the passage plate 10.

In addition, the lifting plate 60 may be filled with a fluid to help rise of the buoy 40 may generate buoyancy.

The connecting bracket 70 is provided to prevent the loss by connecting the fixing bracket 20 and the elevating guide block 50 on which the passage plate 10 is supported to each other to enable mutual support.

Connecting rod 70 may be in the form of a rod, disposed between the fixed bracket 20 and the elevating guide block 50 and both sides as fasteners (not shown) to the fixed bracket 20 and the elevating guide block 50. Can be connected.

The action of the eco-friendly ecological passageway formed on the river slope according to the present invention is as follows.

Various animals and insects inhabit the slope 2 (vegetation mat 30) of the river 1 side.

When the river level does not rise to the slope 2 as shown in FIG. 3, the passage plate 10 maintains the same slope as the slope 2 due to the weight of the buoy 40 and the load of the passage plate 10. .

However, when the river water level increases to reach the buoy 40, as shown in Figure 4, the buoy 40 is gradually raised by buoyancy. When fluid is filled in the elevating plate 60, the buoy 40 and the elevating plate 60 are smoothly lifted by the buoyancy of the buoy 40 and the elevating plate 60.

As the buoy 40 and the elevating plate 60 are raised, the lower side of the passage plate 10 is pushed upward, and the passage plate 10 is rotated by the guide of the hinge 21 to incline the slope 2. Will escape. For example, it can be said that the passage plate 10 is disposed in parallel with the river water. Since the sliding pin 12 slides along the guide slot 11a when the passage plate 10 rotates, the passage plate 10 may naturally rotate.

Therefore, because the passage plate 10 is disposed above the water level of the river water, animals or insects inhabiting the vegetation mat 30 of the passage plate 10 do not fall into the river or are swept away by the river water. In addition, animals or insects can be safely evacuated upwards through the slope (2) through the passage plate (10).

When the buoy 40 and the elevating plate 60 is raised, the river water flows into the lower portion of the passage plate 10 through the water hole 61 of the elevating plate 60, and thus, the passage plate 10 is connected to the buoy 40. ) And the buoyancy of the elevating plate 60 and the water introduced into the lower portion can be rotated at a high speed.

Accordingly, the passage plate 10 is to evacuate the animals and insects inhabiting the slope 2 to the higher place than the river water when the river water is increased, and also to allow time for the animals or insects to evacuate to a safer place. It is earned.

On the other hand, because the passage plate 10 is floated only by buoyancy, when the water level of the river water is lowered, the buoy 40 and the elevating plate 60 are lowered, and thus the passage plate 10 is half of the reference plate of FIG. 4. By rotating clockwise to approach the slope 2 as shown in FIG. 3, the slope 2 is produced in an environmentally friendly manner.

If the passage plate 10 is installed in multiple stages will be rotated sequentially from the passage plate 10 installed at the bottom, so that the animals and insects in the passage passage 10 (floating in the river water) in the lower passage It is possible to evacuate to the plate 10 (not rotated by the river water and not submerged in the river water), and when all the passage plates 10 are rotated, they are arranged in the form of stairs.

1 is an installation state diagram of an eco-friendly ecological movement passage formed on the river slope according to the present invention.

Figure 2 is an exploded perspective view of the eco-friendly ecological passageway formed on the river slope according to the present invention.

3 and 4 is an operational state road of the eco-friendly ecological passageway formed on the river slope according to the present invention,

3 is usual,

4 is an increase in river level.

<Description of Signs for Main Parts of Drawings>

1: river, 2: slope

10: passage plate, 20: fixing bracket

30: vegetation mat, 40: float

50: lifting guide block, 60: lifting plate

70: connecting rod,

Claims (3)

A plurality of fixing brackets 20 arranged at regular intervals along the width direction on the river slope 2 and fixed through anchors; A passage plate 10 having a flat plate shape and having an upper end rotatably connected to the fixing bracket through a hinge 21; Vegetation mat 30 is fixed to the upper surface of the passage plate by a plurality of anchors; A rotation guide boss 11 formed on the bottom surface of the passage plate at a predetermined interval along the width direction and provided with a guide hole 11a; An elevating guide block 50 having an upper portion of the box shape and being buried below the fixed bracket; A connecting table 70 disposed between the fixed bracket and the lifting guide block and connected to both sides of the fixing bracket and the lifting guide block by fasteners; An elevating plate 60 inserted into the elevating guide block so as to elevate the elevating guide block; A buckle 40 which is filled to be refillable with fluid and fixed to an upper portion of the elevating plate to move up and down according to the level of the river; Eco-friendly ecological movement passage formed on the slopes of the river, characterized in that it comprises a sliding pin 12 is fastened to the boss formed in the upper portion of the upper portion and the guide guide hole of the rotation guide boss connecting the float and the passage plate. The eco-friendly ecological passage of claim 1, wherein a plurality of water passages 61 are formed to penetrate the lifting plate so that the river water flows in and out. The eco-friendly ecological passage of claim 1 or 2, wherein the lifting plate is filled with a fluid to help lift the buoy by buoyancy.

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