KR200265345Y1 - Door structure of drainage construction using a fiberglass rainforced plastics - Google Patents

Abstract

The present invention relates to a backflow prevention hydrologic structure of a sewage structure using a composite material. More specifically, when the level of river water increases during a flood, the backflow prevention floodgate is automatically closed by the external force of the water. It is configured to prevent backflow, and the above-mentioned sewer backflow prevention gate is made of composite material so that it does not cause rust or corrosion problems, and it plays an exponential role in the part where the sewer backflow prevention gate and the structure are connected. It is related to the backwater prevention structure of sewer system using composite material which is installed special rubber gasket so that it does not catch dirt or soil residue by flood.

The present invention, in the sewer structure that is installed adjacent to the river basin, the sewer structure is formed of a structure in which the foundation concrete is installed on the surface in contact with the river basin and seated on the upper portion and the sewage structure backflow to the sewer structure While the anti-sluice prevention gate is coupled, the sewer backflow prevention gate is provided with a fixing anchor on the upper surface of the sewage structure with a fastening bolt, and the anchor anchor of the composite water gate is coupled to the fixing anchor. The material gate is formed with a coupling coupler formed in the form of a deck on one side, one side of the anchor connecting rod is fixed to the connecting rod coupling unit by a fastening bolt, the composite material gate is formed with a rubber plate on the other side, the anchor connecting rod The other side of the fixed anchor is coupled to the anchor bearing, the sewer structure of the rubber band is joined to the joint surface by a fastening bolt When the fastening bolt is coupled to the rubber band, the gasket rubber ring is tightly coupled to the inner side of the rubber band. When the composite floodgate is automatically closed and the water level in the river basin is lowered, the composite floodgate is opened so that water flows out from the inside of the sewage structure to the river side. Provide a backflow preventive hydrology.

Description

DOOR STRUCTURE OF DRAINAGE CONSTRUCTION USING A FIBERGLASS RAINFORCED PLASTICS}

The present invention relates to a backflow prevention hydrologic structure of a sewage structure using a composite material. More specifically, when the level of river water increases during a flood, the backflow prevention floodgate is automatically closed by the external force of the water. It is configured to prevent backflow, and the above-mentioned sewer backflow prevention gate is made of composite material so that it does not cause rust or corrosion problems, and it plays an exponential role in the part where the sewer backflow prevention gate and the structure are connected. It is related to the backwater prevention structure of sewer system using composite material which is installed special rubber gasket so that it does not catch dirt or soil residue by flood.

In Korea, flooding rivers are flooded through sewage structures and flooded to villages in Korea, causing enormous casualties and property damages. These regurgitations are caused by the Han River, Nakdong River, Geum River, and Imjin River. It often occurs during the rainy season in villages adjacent to the same four major rivers.

In particular, in the lower regions of cities or farming areas adjacent to the four major river basins, rivers that have flowed back through sewage structures often accelerate flooding damage. .

1 is a view showing a sewer structure installed in a typical river basin, the sewer structure 10 is a river flow back to the sewer structure 10 when the average water level is raised to about 14M based on the Han River embankment 20 This describes the problem.

As described above, in the conventional sewage structure, a device such as a sluice gate is often not installed in the sewage structure, so if a heavy rain occurs over a certain height, the river flows back to the sewage box constituting the sewer structure. There is a problem that large casualty and property damage occurs.

The present invention in order to solve the above problems, the present invention, the sewer backflow prevention gate is a region that lives in the river basin because the water gate is automatically closed by the water pressure rising during the reverse flow of the river does not flow into the sewage box It is possible to prevent the inundation to the water as much as possible, and after the water level is lowered, the water gate automatically drains water toward the river by the flow rate in the sewage box. Its purpose is to provide a hydrologic structure.

The present invention, in order to achieve the above object, the present invention, in the sewer structure is installed adjacent to the river basin, the sewer structure is a structure in which the foundation concrete is installed on the surface in contact with the river basin to be seated on the upper The sewer reverse flow prevention gate is coupled to the sewer structure, while the sewer backflow prevention flood gate is provided with a fixing anchor on the upper surface of the sewer structure with a fastening bolt, and the fixed anchor is a composite material. Anchor connecting rod of the sluice is coupled, the composite sluice is formed with a connecting rod coupler formed in the form of a deck on one side, one side of the anchor connecting rod is fixed to the connecting rod coupling sphere with a fastening bolt, the composite material sluice A rubber plate is formed on the other side, and the other side of the anchor connecting rod is coupled to the fixed anchor by an anchor bearing. Rubber bands are joined to the surface of the joint by fastening bolts, and when combined with the fastening bolts, gasket rubber rings are tightly coupled to the rubber bands on the inside, and the composite water gate has a structure that opens to the steel side in its structure. When the water level in the river basin is increased, the composite water gate is automatically closed by the flow rate. When the water level in the river basin is lowered, the composite water gate is opened by the water draining from the inside of the sewage structure to the river side. It provides a backflow prevention hydrologic structure of the sewer structure using the composite material characterized in that.

1 is a view showing a sewer structure installed in a common river basin.

Figure 2 is a detailed view of the backflow prevention hydrologic structure of the sewer structure using the composite material of the present invention.

Figure 3 is an operating state of the backflow prevention hydrologic structure of the sewer structure using the composite material of the present invention.

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

50: sewer structure 52: foundation concrete

54: sewer backflow prevention 56: fixed anchor

58,68,74: fastening bolt 60: anchor bearing

62: composite material gate 64: anchor connecting rod

66: connecting rod coupler 70: rubber plate

72: rubber band 76: water gasket rubber ring

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

Figure 2 is a detailed view of the backflow prevention hydrologic structure of the sewer structure using the composite material of the present invention, the sewer structure 50 is a structure in which the foundation concrete 52 is installed on the surface in contact with the river basin and seated on the top Is formed as the sewage structure 50 to the side connected to the river to the backflow prevention waterway 54 is coupled to the sewer.

The sewer backflow prevention water gate 54 is fixed to the upper surface of the sewer structure 50, the fixing anchor 56 is fastened with a fastening bolt 58, the anchor anchor 56 to the anchor connection 64 Is coupled, the anchor connector 64 is composed of a type in which the composite material gate 62 is fixed to the lower surface.

That is, the composite material sluice 62 is formed with a coupler coupling port 66 forming grooves on both sides of one side, and one side of the anchor connector 64 is fastened to the groove in the coupling coupler 66. While the bolt 68 is fixed, the composite material sluice 62 has a rubber plate 70 formed on the other side thereof, so that when the sewer channel structure 50 and the composite sluice 62 are in close contact with each other, the shock is absorbed as much as possible. In addition, the other side of the anchor connecting portion 64 is coupled to the anchor anchor 60 coupled to the fixed anchor 56 coupled to the upper portion of the sewer structure 50 to enable hinge operation. Is installed.

On the other hand, in the sewer structure 50, the rubber band 72 is coupled to the inner surface and the outer surface by a fastening bolt 74 to the joint surface in close contact with the composite material gate 62, the sewer structure ( 50, the rubber band 72 is in close contact with the rubber band 72 to the rubber band 72 when the rubber band 72 is coupled to the joint surface in close contact with the composite material gate 62 is in close contact with the rubber band (72) The composite material sluice 62 is formed in a deck shape on one side to improve the contact area in contact with water.

3 is an operational state diagram of the backflow prevention hydrologic structure of the sewer structure using the composite material of the present invention, the composite hydrological gate 62 is formed in a structure that the water gate is opened to the river side of the structure so that the flow rate of the river basin increases When the composite water gate 62 is automatically closed by (CLOSING) operation, when the water level in the river basin is lowered, the composite water gate 62 is opened while water is drained from the inside of the sewage structure 50 to the river side. (OPENING) It will work.

The above-mentioned sewer backflow prevention gate 54 is flooded in the vicinity of the river because the composite gate 62 made of composite material (FRP) has a structure that can be opened and closed by the flow of water. It is possible to prevent as much as possible, thereby preventing the problems of human injury and property loss.

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

The backflow prevention hydrologic structure of the sewage structure using the composite material of the present invention is open and closed by the flow of water due to the sewage backflow prevention floodgate made of a composite material, and thus it is generated in the vicinity of the river. The flooding accident can be prevented as much as possible, and the problems of life loss and property loss can be prevented as much as possible.

Claims (1)

In the sewer structure installed adjacent to the river basin, The sewer structure 50 is formed of a structure in which the foundation concrete 52 is installed on the surface in contact with the river basin to be seated thereon, and the sewer structure 50 has a sewerage backflow prevention gate 54 coupled thereto. On the other hand, the sewer backflow prevention gate 54 is a fixing anchor 56 is installed on the upper surface of the sewer structure 50 by the fastening bolt 58, the fixed anchor 56 is a composite material gate Anchor connecting member 64 of the 62 is coupled, the composite material door 62 is formed with a connecting member coupling member 66 formed in a deck shape on one side, the anchor connecting member (66) in the connecting member coupling 66 One side of the 64 is fixed with a fastening bolt 68, the composite material gate 62 is formed with a rubber plate 70 on the other side, the other side of the anchor connecting rod 64 is anchored to the fixing anchor 56 The bearing 60 is coupled to the sewer structure 50, the rubber band 72 on the joint surface with a fastening bolt 68 When combined with the fastening bolts 74, the rubber band 72 has a gasket rubber ring 76 is in close contact with the inside of the rubber band 72, and the composite material gate 62 is opened to the steel side in its structure. When the water level in the river basin is formed, the composite water gate 62 is automatically closed by the flow rate, and when the water level in the river basin is lowered, water is discharged from the inside of the sewage structure 50 to the river side. Backflow prevention hydrologic structure of a sewer structure using a composite material, characterized in that the composite gate is opened to operate.