KR200262731Y1 - Sluice gates under a bridge construction for the protection of an ecosystem - Google Patents

Abstract

The present invention relates to an underwater beam structure for protecting the ecosystem, the present invention, in the underwater beam structure installed in the river or river, the underwater beam foundation concrete is used as a foundation installed on the water floor; While being stacked on top of the underwater beam foundation concrete, the foundation end is seated and coupled to the upper portion of the underwater beam foundation concrete, and the vertical portion and vertically integrated with the foundation end and the upper side through which the river or river flows and in the form of a grid An underwater beam structure in which the formed polyethylene net loading part is integrally formed; A amber stone foundation formed to fill the front part of the vertical portion and be used as a fish passage; A composite member pile installed on the vertical portion and the amber stone foundation to firmly support the high density polyethylene network; And an underwater beam structure for protecting the ecosystem, characterized in that the polyethylene network loading part and the amber stone foundation are seated on the upper part, and are supported by a composite member pile and formed with an amber stone inserted therein. to provide.

Description

Underwater structures for ecosystem protection {SLUICE GATES UNDER A BRIDGE CONSTRUCTION FOR THE PROTECTION OF AN ECOSYSTEM}

The present invention relates to an underwater beam structure for protecting the ecosystem, and more specifically, to install a amber stone foundation stone and underwater beam foundation concrete in the location where the underwater beam structure will be installed, and the top beam of the underwater structure is corrosion-free and no rust generation It is to support by using the pile and the composite member pile, and particularly relates to the underwater beam structure for ecosystem protection designed to fill the amber stone inside the high-density polyethylene network to act as a moving passage of fish or ecosystem.

In general, submerged beam structures for fresh water are manufactured and installed in concrete in Korean rivers.

The underwater beam structure is made of concrete structures in the downstream and the middle of the river is installed throughout the country.

In foreign countries, all efforts have been made to completely dismantle all existing submerged structures in rivers or streams and restore them to eco-friendly rivers or streams, while minimizing the impact on nature when submerged structures are installed in rivers or streams. After the environmental impact assessment was devised, the submerged beam structure was installed.

However, due to the characteristics of the above-mentioned underwater beam structure for the purpose of fresh water so that it can be used in farmland, it can be said that the implementation is required in accordance with the correct implementation regulations.

1 is a view showing a state in which a conventional submerged beam structure is installed, the submerged beam foundation concrete 10 is installed at the lowermost part in the downstream and the middle, such as rivers and rivers, the submersible beam foundation concrete 10 above the Underwater beam structure 20 is installed.

The underwater beam structure 20 is a structure in which the base end portion 30 is formed in a similar shape to the underwater beam foundation concrete 10 at the bottom thereof, and the vertical portion 40 is vertically formed thereon.

In the conventional underwater beam structure as described above, the fish flow passage is blocked because the height of the vertical portion of the underwater structure and the step difference between the bottom surface is severe, which causes damage to the ecosystem.

The present invention has been devised to solve the above problems, the present invention, the amber stone base stone and submerged concrete foundation in the position where the underwater beam structure will be installed, and the top beam of the underwater beam structure has no corrosion and rust does not occur at all It is to be supported by using polyethylene network and composite member piles, and to provide a submerged beam structure for environmentally friendly ecosystem protection by devising amber stones inside the dense polyethylene network to act as a moving passage for fish or ecosystem. It is done.

The present invention, in order to achieve the above object, the present invention, in the underwater beam structure is installed in the river or river, the underwater beam foundation concrete is used as a foundation installed on the water floor; While being stacked on top of the underwater beam foundation concrete, the foundation end is seated and coupled to the upper portion of the underwater beam foundation concrete, and the vertical portion and vertically integrated with the foundation end and the upper side through which the river or river flows and in the form of a grid An underwater beam structure in which the formed polyethylene network loading part is integrally formed; A amber stone foundation formed to fill the front part of the vertical portion and be used as a fish passage; A composite member pile installed on the vertical portion and the amber stone foundation to firmly support the high density polyethylene network; And an underwater beam structure for protecting the ecosystem, wherein the polyethylene network loading part and the amber stone foundation are seated on the upper part, and the high density polyethylene network is supported by the composite member pile and is formed by inserting the amber stone inside. to provide.

1 is a view showing a state in which a conventional underwater beam structure is installed.

2 is a view showing a state in which the underwater beam structure of the present invention is installed.

Figure 3 is a view showing a cross-sectional state of the side of the underwater beam structure of the present invention.

<Brief description of symbols for the main parts of the drawings>

50: underwater beam structure 52: underwater beam foundation concrete

54 foundation end 56 vertical portion

58: polyethylene net loading portion 60: amber stone foundation stone

62,64 Composite pile pile 66,68 High density polyethylene net

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

2 is a view showing a state in which the underwater beam structure of the present invention is installed, Figure 3 is a view showing a cross-sectional state of the side of the underwater beam structure of the present invention.

As can be seen in Figures 2 and 3, the submerged beam structure 50 is installed on the upper portion of the submarine beam foundation concrete 52, the submarine beam foundation concrete 52 is installed on the bottom of the river or river bottom of the river do.

The underwater beam structure 50 is composed of the foundation end 54, the vertical portion 56 and the polyethylene network loading portion 58 integrally.

The base end 54 of the underwater beam structure 50 is connected in a state loaded on top of the underwater beam foundation concrete 52, the front of the vertical beam () of the underwater structure 50 (in front of the position in the drawing) Side) is filled with amber stone foundation sandstone 60, the composite member pile 62 is installed on the amber stone foundation stone sand 60 is loaded with a high-density polyethylene network (68).

The polyethylene network loading portion 58 of the underwater beam structure 50 is installed to the upper side through which rivers or rivers flow, while the polyethylene network loading portion 58 is a high-density polyethylene network 66, the underwater beams The composite member pile 64 is installed at the top end of the vertical portion 56 of the structure 50 to support the high density polyethylene network 66 from the front.

The high-density polyethylene network 66, 68 is formed in a rectangular structure and is inserted into the amber stone inserted inside, the shape and size of the high-density polyethylene network 66, 68 is suitable for on-site assessment without limitation. It can be made and used.

As can be seen in the above-described configuration, the underwater beam structure 50 is a migrating base of the amber stone from the front in order to overcome the step 60 and the high-density polyethylene mesh 66, 68 is installed in the movement of the fish By using the amber gap as a passage, it can be moved upstream to prevent damage to the ecosystem as much as possible.

The effect of the configuration and operation of the present invention described above will be described.

In the underwater beam structure for protecting the ecosystem of the present invention, the amber foundation stone and the underwater beam foundation concrete are placed in the position where the underwater beam structure is to be installed, and the underwater beam structure is installed on the top of the underwater beam foundation concrete. It is supported by using high density polyethylene network and composite member pile which are free of rust and no rust. Especially, it is made of amber stone inside the high density polyethylene network to act as a moving passage for fish or ecosystem. The effect provided can be obtained.

In addition, the above-mentioned underwater beam structure, by planting the plants growing in the river between the vertical portion and the polyethylene network loading portion can be obtained as an effect that can be utilized as a spawning place of fish.

Claims (1)

In the underwater beam structure installed in the river or river, Underwater beam foundation concrete 52 is installed on the underwater floor and used as a foundation; The base end 54 which is loaded on the upper part of the underwater beam foundation concrete 52 and is seated and coupled to the upper part of the underwater beam foundation concrete 52, and a vertical portion vertically integrated with the foundation end 54 ( 56) and the underwater beam structure 50, which is integrally formed with a polyethylene network loading portion 58 formed in a lattice form and installed toward the upper side through which rivers or rivers flow; Filled with a front portion of the vertical portion 56 and the amber stone foundation (60) formed to be used as a passage of the fish; A composite member pile (62) (64) installed at the vertical portion (56) and the amber stone foundation (60) to firmly support the high density polyethylene network; And the high density polyethylene net 66 which is supported by the composite member piles 62 and 64 and is formed by inserting an amber stone inside the seat while the polyethylene net loading part 58 and the amber stone foundation 60 are installed. Underwater structure for ecosystem protection, characterized in that consisting of (68).