KR100642074B1 - A strengthening structure of tube for rubber dam - Google Patents

Abstract

The present invention relates to a reinforcing structure of a rubber dam tube, and more particularly, to form a steel wire reinforcing layer inside the upper and lower sheets of a rubber dam tube used as a submerged beam, and to form a fiber fabric reinforcing layer at a beetle where the upper and lower sheets are joined. It relates to a reinforcing structure of a rubber dam tube, characterized in that.

Underwater beam, rubber dam, reinforcement structure

Description

 A strengthening structure of tube for rubber dam}

1 is a view showing a cross-sectional structure of the rubber dam tube according to the first embodiment of the present invention at the time of doping;

2 is a view showing a cross-sectional structure of the gushing portion during the standing of the rubber dam tube according to the first embodiment of the present invention,

3 is a view showing a cross-sectional structure of the rubber dam tube according to the second embodiment of the present invention at the time of coating;

Figure 4 is a view showing the cross-sectional structure of the gushing portion during standing of the rubber dam tube according to the second embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1, 100; Rubber dam tubes 10, 110; Top sheet

20, 120; Bottom sheets 30, 130; Gumbu

40, 140: fiber fabric reinforcing layer 50, 150; Steel wire reinforcement layer

60, 160; Circular space

The present invention relates to a reinforcing structure of a rubber dam tube, and more particularly, to form a steel wire reinforcing layer inside the upper and lower sheets of a rubber dam tube used as a submerged beam, and to form a fiber fabric reinforcing layer at a beetle where the upper and lower sheets are joined. It relates to a reinforcing structure of a rubber dam tube, characterized in that.

Generally, underwater beams are a kind of water barrier fence installed in the water for the purpose of agriculture, industrial water intake, water intake, water freshening for seawater or seawater dam in the estuary, and recently, high-strength rubber tubes are installed in the water. Rubber dams that operate by supplying a gas such as air into the tube have been developed and widely used. In other words, when the gas is supplied to the tube inside the rubber dam, the tube stands and blocks the waterway, and when the gas is discharged, the tube coats the river bed and opens the waterway.

Such a rubber dam is a type of undulating movable beam, which is usually installed across a river. When a certain level is reached, the rubber dam automatically discharges gas inside the rubber dam so that the rubber tube is covered with the river bottom. The advantage is that it does not affect. In addition, its use is increasing because it is easy to assemble and install in mountainous areas or where terrain conditions are not good, and the height of the rubber dam can be easily adjusted according to the desired water level.

However, the rubber dam has a problem that the tube is easily torn by the external impact. In particular, since the rubber tube has to repeat the standing and standing, the folding portion of the tube is structurally very weak. Therefore, the so-called book-end type rubber dam is an improvement of the structure of the tube fold when the rubber dam is covered. The bookend type is a form of a gushing portion that protrudes out at a portion where the upper sheet and the lower sheet of the rubber tube meet, like a book binding portion. This bookend type rubber dam can greatly reduce the breakage rate of the rubber dam because the folded portion of the tube is protected by the reinforcement part during the coating.

On the other hand, the rubber tube used to install the rubber dam is made of a rubber material having elasticity at this time, in order to increase the strength inside the rubber tube, for example, by embedding and laminating a fabric reinforcement layer made of high strength synthetic fibers to form a tube. However, the fiber fabric reinforcement layer is excellent in flexibility, but the strength is weak, and the dams are often damaged by driftwood or stalactites, especially when the tube is standing.

In order to supplement the problems of the conventional fiber-reinforced rubber dams, efforts have been made to reinforce the strength by forming a reinforcing layer made of steel wire, that is, steel wire net, in the rubber tube. As a result of the repeated standing and doping, the wire mesh was disconnected at the portion where the rubber tube was folded, and there was a problem in that the portion was easily torn due to rust or damage to the tube. Moreover, it has been known until now that it is structurally impossible to manufacture rubber tubes reinforced with steel wires in bookend type rubber dams.

The present invention is to solve the above problems, in the bookend rubber dam tube, the object is to provide a reinforcing structure of the rubber tube substantially formed of a steel wire reinforcement layer.

Hereinafter, the present invention will be described in detail.

The present invention relates to a reinforcing structure of a rubber dam tube comprising an upper sheet and a lower sheet of a rubber material, and an additional portion formed by joining ends of these two sheets; A fiber fabric reinforcement layer and a wire mesh reinforcement layer are formed in the upper sheet and the lower sheet, respectively, wherein the fiber fabric reinforcement layer is connected to the upper sheet reinforcement layer and the lower sheet reinforcement layer through a reinforcement portion, and the wire reinforcement layer is in The reinforcing structure of the rubber dam tube, characterized in that the upper sheet reinforcing layer and the lower sheet reinforcing layer is to be disconnected.

In addition, the present invention is the wire mesh reinforcing layer is formed only in the interior of the upper sheet and the lower sheet, the textile fabric reinforcement layer is formed only in the interior of the grate, forming a circular space in the tangential portion of the tube where the upper sheet and the lower sheet meets It is characterized by.

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

1 is a cross-sectional view showing a state in which the rubber dam tube according to the first embodiment of the present invention doped on the bottom surface, Figure 2 is a side cross-sectional view to enlarge the dent portion of the rubber dam tube of the first embodiment of the present invention standing up state. .

In the present invention, when all of the gas is discharged from the inside of the rubber dam and the rubber dam tube 1 covers the river bottom, the upper portion of the tube is called the upper sheet 10 for convenience, and the lower portion is called the lower sheet 20. And end portions of the upper sheet 10 and the lower sheet 20 meet each other and protrude outwards, such as book binding portion is called the gyeotbu 30.

The reinforcing structure of the rubber dam tube (1) according to the present invention forms a fiber fabric reinforcement layer 40 and a wire mesh reinforcement layer 50, respectively, in the upper sheet 10 and the lower sheet 20, the fiber fabric The reinforcement layer 40 allows the reinforcement layer 40 of the upper sheet 10 and the reinforcement layer 40 of the lower sheet 20 to be connected to one through the reinforcement portion 30, and the wire mesh reinforcement layer 50 is the reinforcement portion ( 30, the reinforcement layer 50 of the upper sheet 10 and the reinforcement layer 50 of the lower sheet 20 are disconnected. At this time, the wire mesh reinforcement layer 50 extends the end side by side to the gushing portion 30 as shown in FIG.

In the present invention, the body of the rubber dam tube (1) can be made of EPDM (Ethylene Propylene Diene Monomer) resistant to climate, ozone, heat, etc., for example, the fiber fabric reinforcement layer 40 is, for example, high-strength synthetic fibers such as nylon and polyester Fabric can be used, the wire mesh reinforcing layer 50 may be used by tightly weaving the vertical steel wire in the form of a net.

The reinforcing structure of the rubber dam tube 1 of the present invention is very high because the fiber fabric reinforcing layer 40 and the wire mesh reinforcing layer 50 sufficiently reinforce the upper sheet 10 and the lower sheet 20 to each other. The wire mesh reinforcement layer 50 is disconnected from the grate portion 30 in which the upper sheet 10 and the lower sheet 20 are folded while maintaining the strength, even though the rubber dam repeatedly repeats the standing and standing. 50) there is no fear of cutting.

In particular, as shown in Figure 2, when the rubber dam is standing, the textile fabric reinforcement layer 40 is roundly connected at the inner portion of the grate portion 30, the wire mesh reinforcement layer 50 is one end is extended to the grate portion 30 The tube 1 reinforces the body as a whole, and the upper sheet 10 and the lower sheet 20 are naturally folded when the rubber dam is folded. And since the thickening portion 30 is very thick, there is no fear that this portion will be broken even without the wire mesh reinforcement layer 50 in this portion.

3 is a view showing a cross-sectional structure of the upper and lower sheets 110 and 120 when the rubber dam is inclined as a second embodiment of the present invention, and FIG. 4 is a tube extension portion 130 when the rubber dam of the second embodiment of the present invention stands up. Is a diagram showing a cross-sectional structure. In the second embodiment of the present invention, the wire mesh reinforcement layer 150 is formed only inside the upper sheet 110 and the lower sheet 120, and the textile fabric reinforcement layer 140 is formed only inside the reinforcement portion 130. .

On the other hand, the tangential contact of the upper sheet (10 110) and the lower sheet (20, 120) in the interior of the rubber dam tube (1,100) is a site that is susceptible to damage as the standing and doping process is repeated. Thus, in the present invention, small circular spaces 60 and 160 are formed at the tangent portion. In this way, the impact from the repeated standing and doping process is distributed around the circular spaces 60 and 160, thereby reducing the risk of tearing this portion.

As described above, according to the reinforcing structure of the rubber dam tube of the present invention, the steel wire reinforcing layer and the fiber fabric reinforcing layer are properly disposed in the upper sheet, the lower sheet and the beetle portion of the tube, thereby effectively increasing the durability of the rubber dam. There is.

Claims (3)

In the reinforcing structure of the rubber dam tube consisting of a rubber sheet upper sheet and the lower sheet, and the end portion of the two sheets are joined; A fiber fabric reinforcement layer and a wire mesh reinforcement layer are formed in the upper sheet and the lower sheet, respectively, wherein the fiber fabric reinforcement layer is connected to the upper sheet reinforcement layer and the lower sheet reinforcement layer through a reinforcement portion, and the wire mesh reinforcement layer is provided at the reinforcement portion. Reinforcing structure of the rubber dam tube, characterized in that the upper sheet reinforcing layer and the lower sheet reinforcing layer to be disconnected. The reinforcing structure of a rubber dam tube according to claim 1, wherein the wire mesh reinforcing layer is formed only in the upper sheet and the lower sheet, and the fiber fabric reinforcing layer is formed only in the reinforcing portion. The reinforcing structure of a rubber dam tube according to claim 1 or 2, wherein a circular space portion is formed at a tangential portion of the tube where the upper sheet and the lower sheet meet.

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