KR20090087230A - Water edge vegetation stairway implement of waterway improvement - Google Patents

Abstract

A water edge vegetation stairway implement for waterway improvement is provided to prevent water pollution through natural purification due to vegetated root and microorganism by circulating the water of the waterway to a vegetation space. A water edge vegetation stairway implement(A) for waterway improvement comprises a base block(100), a main support part(200) and a water wall(300). The base block is installed at the both edges of bottom of a waterway. The main support part is installed at the constant intervals on the top of the base block. On the both sides of the main support part, guide grooves(210,210') are formed. A plurality of rods(310) are successively inserted into the guide groove and the water wall is formed. The main support part is composed of H-steels. The main support part is laid under the base block. The lower part of the H-steel is fixed by using an anchor inside the base block. The rod is formed in the square or the cylinder shape. In the rod, a plurality of notch grooves(311) are formed.

Description

WATER EDGE VEGETATION STAIRWAY IMPLEMENT OF WATERWAY IMPROVEMENT}

The present invention relates to a waterway improvement channel for waterway improvement, and more particularly, a waterside wall is formed by a plurality of rods inserted into a main part and a main part to an upper portion of a base block installed at both edges of a waterway. The vegetation space is formed by the wall and the waterside wall so that many landscaping plants can grow in the vegetation space part and harmonize with the surrounding environment, and the water in the channel is circulated to the vegetation space part so that the vegetation root and Due to the interaction by the microorganisms near the roots, the natural purification can be achieved, and by simply installing a water change mechanism at the edge of the waterway, the waterway edge is prevented from being washed away by the water.

In general, a structure is constructed to prevent a portion of the waterway from being lost due to the flow rate of water flowing through the waterway through the edge adjacent to the waterway.

Such a structure is constructed by directly pouring concrete, laying stones by building stones, or laying concrete blocks while laying blocks for riverbed retaining walls.

However, the structure constructed by the concrete retaining wall, etc., has a problem in that the natural natural function of the river is degraded due to the concrete, and the aesthetics are depressed, so that it is incompatible with the surrounding environment. In addition, there is another problem of accelerating water pollution as the contaminated water in the waterway is not sufficiently purified.

In addition, due to water pollution, the habitat density of river vegetation and fish and algae in the stream as a component of the ecosystem is lowered, and the diversity of habitats and animals is reduced, resulting in the loss of its function as an ecosystem habitat. There was a problem.

Accordingly, an object of the present invention for solving the above-mentioned problems is that the waterside wall is formed by the main part and the plurality of rods inserted into the main part on the base block installed at the edge of the waterway. The vegetation space is formed by the main part and the waterside wall so that many landscaping plants can grow to be in harmony with the surrounding environment, and the water in the channel is circulated to the vegetation space. Due to the interaction between the roots and the microorganisms near the roots, natural purification can be achieved, and the water channel can be swept away by simply installing a water change mechanism at the edge of the waterway. It is to provide water channel improvement system to prevent water loss.

In order to achieve the above object, the channel for improving waterway improvement A according to the present invention, in the channel for improving waterway A, which is installed at the edge of the channel,

The water change gauge (A) is a base block 100 is installed on both bottom edges of the waterway, and the main part 200 is installed at a predetermined interval on the upper part of the base block 100, the main part 200 Guide grooves 210 and 210 'are formed at both sides of the side, and the plurality of rods 310 are sequentially inserted into the guide grooves 210 and 210' of the main part 200 to form the waterside wall 300. It is characterized by being.

In addition, the main portion 200 is made of H-beam is embedded in the base block 100, the lower portion of the H-beam is fixed to the anchor 400 in the interior of the base block 100 It features.

In addition, the rod 310 is characterized in that formed in a square cylinder or a cylinder, the rod 310 is characterized in that a plurality of notched grooves 320 are formed.

As can be clearly seen from the above description, the present invention is a waterside wall is formed by a plurality of rods fitted to the main portion and the main portion above the base block installed at the edge of the waterway, the vegetation by the main portion and the waterside wall By allowing the space to be formed, it is possible to easily grow a lot of landscaping plants on the side of the water channel, so that the effect of harmonizing with the surrounding environment can be obtained.

In addition, by allowing the water in the channel to be circulated to the vegetation space, it is possible to prevent the contamination of the water through natural purification due to the interaction between the roots and the microorganisms near the roots.

In addition, through this, the water change mechanism is installed at the edge of the channel, thereby further obtaining an effect of preventing the edge of the channel from being lost by the flowing water.

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

1 is a perspective view of a waterway improvement waterway according to the invention, Figure 2 is an exploded perspective view of the waterway improvement waterway according to the present invention, Figure 3 is a waterway improvement waterway according to the present invention This is a longitudinal sectional view of the installed channel. And, Figure 4 is a perspective view of another embodiment of the channel for improving waterway improvement according to the present invention, Figure 5 is an exploded perspective view of another embodiment of the channel for improving waterway according to the present invention, Figure 6 is in accordance with the present invention The longitudinal cross-sectional view of the water channel in which the other embodiment of the waterway improvement system for waterway improvement was provided.

As shown in FIGS. 1 to 6, the water channel improvement instrument A according to the present invention is constructed at both edges of the water channel 500, and a base block (b) is formed at the bottom of the edge of the water channel 500, respectively. 100 is installed, the main portion 200 and the waterside wall 300 is installed on the base block 100.

The base block 100 is installed under the edge of the waterway 500 and has a function of preventing the water from being washed away by the water flowing through the waterway, and the main part 200 is provided on the upper surface of the base block 100. It is installed at regular intervals to have a plurality of rods 310 to be described later to support the guide grooves 210, 210 having the same width as the width of the rod 310 on both sides of the main portion 200 ') Is formed in the vertical direction, the rod 310 is sequentially inserted into the guide grooves 210 and 210' between the main parts 200 installed on the upper surface of the base block to have a predetermined height. The waterside wall 300 is configured to be formed.

The base block 100 and the main part 200 have a separate shape in the process of constructing the water change mechanism A consisting of the base block 100, the main part 200, and the waterside wall 300. It can also be supported by an anchor, etc. can be attached in a prefabricated manner, and after installing the formwork as shown in Figure 3 by placing concrete mortar in the state that the reinforcement is to be placed inside the base block 100 and the main part 200 ) May be integrally formed.

In addition, the main body 200 may be made of H-shaped steel as shown in Figures 4 to 6 may be embedded in the base block 100, the lower portion of the H-shaped steel as shown in the base block ( The base block 100 is fixed to the interior of the anchor bar 400 to support the force received from the soil filled in the vegetation space formed on the back of the main portion 200 and the waterside wall 300 inside the base block 100 The anchor 400 is installed on the upper side of the H-beam embedded in the waterway direction, and the anchor 400 is installed on the lower side of the H-beam in the opposite direction of the waterway.

The rod 310 has a long cylindrical shape or a long cylindrical shape as shown in FIGS. 7 and 8, and is sequentially formed in the guide grooves 210 and 210 ′ of the main part 200. It is fitted to form a waterside wall (300).

A plurality of notch grooves 311 are formed in the rod 310 so that the water in the channel penetrates into the vegetation space through the notch grooves 311 or the water from the vegetation space can be repeated into the channel 500. It is formed to be.

On the other hand, the rod 310 may be used as any one of materials such as concrete, permeable concrete, wood, ceramics, etc., when the permeable concrete is made of the water, even if the notch groove 311 is not formed, at the same time of the waste water There is an advantage that the filtration can be made properly, and made of wood is less durable than other materials, but in combination with the natural environment has the effect of improving the aesthetics.

9 and 10 are diagrams showing the state of use of the waterway improvement apparatus for waterway improvement according to the present invention.

Next, the main part 200 is installed at regular intervals on the base block 100, and the guide groove 210 formed in one main part 200 and the guide groove formed in the neighboring main part 200. The rods 310 are sequentially inserted between the 210 '. In this case, if the notch groove 311 is formed in the rod 310, the notch groove 311 is preferably directed to the lower side, the top portion of the rod 310 by using cement mortar on the main portion ( It is fixed to the guide grooves 210 and 210 'formed in the 200.

Then, the small gravel and coarse sand laid on the bottom of the water channel in the vegetation space provided in the outward direction of the water channel by the main portion 200 and the waterside wall 300 through the same process to collect and mix, It is laid on the bottom of the vegetation space to have a thickness of about 10 cm, and covered with sandy soil mixed with soil on the side of the existing waterway, and then planted hydrophilic shrub landscape water and flowers.

As described above, the present invention has been described with reference to the above embodiments, but the present invention is not limited thereto, and various modifications can be made without departing from the scope and spirit of the present invention.

1 is a perspective view of a water channel for improving waterway according to the present invention

Figure 2 is an exploded perspective view of the water channel for improving waterway according to the present invention.

Figure 3 is a longitudinal cross-sectional view of the water channel is installed water channel improvement apparatus according to the present invention.

Figure 4 is a perspective view of another embodiment of the water channel improvement device for waterway improvement according to the present invention.

Figure 5 is an exploded perspective view of another embodiment of the waterway improvement water change mechanism according to the present invention.

Figure 6 is a longitudinal cross-sectional view of the water channel in which another embodiment of the waterway improvement system for waterway improvement according to the present invention is installed.

7 and 8 are a perspective view of another embodiment of the water channel improvement apparatus for waterway improvement according to the present invention.

Figure 9 and Figure 10 is a state diagram used in the waterway improvement apparatus for waterway improvement according to the present invention.

<Description of Major Symbols in Drawing>

A: Water change system 100: Base block

200: main office 210,210 ': guide groove

300: waterside wall 310: rod

311: notch groove 400: anchor

500: waterway

Claims (4)

In the waterway improvement waterway (A) installed at the edge of the waterway, The water change gauge (A) is a base block 100 is installed on both bottom edges of the waterway, and the main part 200 is installed at a predetermined interval on the upper part of the base block 100, the main part 200 Guide grooves 210 and 210 'are formed at both sides of the side, and the plurality of rods 310 are sequentially inserted into the guide grooves 210 and 210' of the main part 200 to form the waterside wall 300. A water channel for improving waterway, characterized in that the. The method of claim 1, The main portion 200 is made of H-shaped steel is embedded in the base block 100, the lower portion of the H-shaped steel is characterized in that the anchor 400 is fixed to the inside of the base block 100 Water change system for waterway improvement. The method according to claim 1 or 2, The rod 310 is a water channel improvement for improving waterway, characterized in that formed in a rectangular cylinder or cylinder. The method of claim 3, wherein The rod 310 is a water channel improvement for improving the channel, characterized in that a plurality of notched grooves 311 is formed.

Images