KR100378081B1 - Temporary levee protector for repairing underwater structure and installation method for the levee - Google Patents

Abstract

The present invention relates to an underwater structure repair temporary shield and construction method capable of filling water or air in a tube body to easily repair the underwater structure.

In order to solve problems such as difficulty in installing the temporary barrier when repairing the underwater structure and excessive repair costs, the inlet 21 is formed to fill the water or air through the water supply pipe (35a), A plurality of tubes are stacked, each having an independent space, the adsorption means 30 is formed on the lower side of the tube body 20, the vacuum adsorption on the surface of the underwater structure 10, and the tube body 20 A plurality of support rods 23 and 24 coupled to the inside and the outside of the support plate ring 22 in a vertical direction, and a connection member 25 and a spacing support connecting the support rods 23 and 24 Provided are a temporary shield for repairing an underwater structure, including a 26) and a construction method for constructing the same.

Therefore, by filling the water or air using a relatively lightweight tube, the construction is easy, simple and quick, as well as reusable and maintenance costs are significantly reduced.

Description

Temporary levee protector for repairing underwater structure and installation method for the levee}

The present invention relates to a cloak and construction method for repairing underwater structures, and more particularly, to a clogging and construction method for repairing underwater structures that can be made easily and quickly in case of damage to the underwater structure.

In general, underwater structures such as underwater beams are all or partly installed on the bottom of the river, and the reinforcement is made inside the reinforcement. The lifetime of the underwater structure will be shortened and seriously affect the safety.

That is, as shown in FIG. 1, when the damaged part 11 is generated on the surface of the underwater structure 10, water is blocked and repaired, which requires a lot of equipment and manpower, so that most of the repair cost is applied to the water barrier. Not only did it increase the cost of repair, but the construction was very difficult, such as a number of problems were inherent.

Accordingly, the present invention has been invented to solve the above-mentioned problems of the prior art, an object of the present invention is to provide a submersible barrier for repairing the underwater structure and construction method that can be easily and simple construction and significantly reduce the cost of repair To provide.

1 is a view showing a general underwater structure.

Figure 2 is a perspective view showing a cloak for repairing underwater structures according to the present invention.

3 is a partially enlarged cross-sectional view showing a coupling structure of the spacer support of the present invention.

4 is a partially enlarged cross-sectional view showing the adsorption means of the present invention.

5 is a schematic view showing a use state of the present invention.

Explanation of symbols on the main parts of the drawings

10: underwater structure 11: breakage

20: tube body 21: injection hole

22: support plate ring 22a: insertion hole

23, 24: support rod 25: connecting member

26: interval support 30: adsorption means

31: base plate 31a: discharge passage

32, 33: adsorption plate 34: vacuum pump

35: discharge pipe 35a: water supply pipe

In order to achieve the above object, the temporary water barrier for repairing an underwater structure according to the present invention is formed with an injection hole for filling water or air through a water supply pipe, and a plurality of tubes are stacked to have independent spaces, and the tube Adsorption means formed on the lower side of the sieve and vacuum-adsorbed to the surface of the underwater structure, a plurality of support rods coupled in the vertical direction on the inside, the outside to support the tube body, a connecting member for connecting the support rods and the interval support The construction method includes the steps of: adsorbing the suction means by the vacuum force on the surface of the underwater structure, installing a support rod, a connecting member, and a gap support on the adsorbed tube body, and injecting water or air into the tube body. And expanding the internal water of the expanded tube body.

Therefore, according to the present invention, by filling the water or air by using a relatively light weight tube, the construction is easy, simple and quick, as well as reusable and maintenance costs are significantly reduced.

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

In the figure, the code | symbol 20 has shown the tube body in which several pieces are laminated | stacked in the longitudinal direction.

The tube body 20 is formed of a rubber material, each configured to have an independent space, each of the inlet 21 for injecting or discharging air or water is formed on the inner surface of the independent tube body 20 have.

The injection hole 21 is formed on the inner side of the tube body 20, but is not limited thereto.

A support plate ring 22 having insertion holes 22a is attached to inner and outer surfaces of the tube body 20 so as to face each other.

The support plate ring 22 may be attached to a plurality, but is more preferably formed in three places to form a triangle in plan view.

Support rods 23 and 24 penetrate through the insertion holes 22a of the support plate ring 22 in the vertical direction, respectively, and the support rods 23 and 24 have a tube body 20 in the transverse direction. To prevent deformation.

The connecting member 25 is inserted into an upper side of the support rods 23 and 24 installed inside and outside the tube body 20, and the support rod 23 on the inner side thereof is connected by the interval support 26 to form a tube body ( 20) to maintain the circle.

The spacing support 26 is coupled to a support 27 having a through hole 27a through which the support bars 23 and 24 pass, as shown in FIG. 3.

On the other hand, the lower side of the tube body 20 is provided with the adsorption means 30 is adsorbed on the surface of the underwater structure (10).

As shown in FIG. 4, the adsorption means 30 includes a base plate 31 attached to the lower side of the tube body 20, and adsorption plates 32 and 33 attached to both edges of the bottom surface of the base plate 31. And a discharge passage 31a for discharging internal air and water inside the base plate 31, and connected to a vacuum pump 34 at the tip of the discharge passage 31a. The discharge pipe 35 is connected.

In addition, a water supply pipe 35a is connected to the injection port 21 of the tube body 20 so that air or water can be injected or discharged.

The discharge pipe 35 and the water supply pipe 35a is more preferably installed to be located inside the tube body 20.

The lower ends of the supporting rods 23 and 24 inserted in the vertical direction in the insertion holes 22a of the supporting plate ring 22 are coupled in a state where a portion is inserted into the upper portion of the base plate 31.

In addition, the tube body 20 may be configured to be fixed by an external fixing means 36 such as a wire fixed to the support rods 23 and 24 in the underwater structure with the flow of fluid.

The provisional barrier for repairing the underwater structure according to the present invention configured as described above is installed around the damaged part 11 of the underwater structure 10. First, the damaged part 11 of the underwater structure 10 as shown in FIG. 5. ) And the tube body 20 and the base plate 31 so as to be located in the center and then operate the vacuum pump 34 and the water in the inner space between the adsorption plates 32 and 33 through the discharge pipe 35. When the air is discharged, the suction plates 32 and 33 are strongly adsorbed on the surface of the underwater structure 10 by the vacuum force.

At this time, the support rods 23 and 24 are respectively penetrated in the vertical direction in the insertion holes 22a of the support plate ring 22 attached to the inside and the outside of the tube body 20, respectively. Insert the lower end of the base plate 31 into the upper portion.

In addition, the upper and upper sides of the supporting rods 23 and 24 couple inner and outer supporting rods 23 and 24 to the connecting member 25, and the inner supporting rods 23 are coupled to the spacing supports 26. Then, when water is supplied to each of the water supply pipes 35a connected to the inlet 21 of each of the tube bodies 20 through a water pump (not shown), each of the tube bodies 20 is expanded to maintain a predetermined height.

The height of the tube body 20 can be appropriately adjusted according to the level of the steel to be constructed, and water must be supplied to each tube body 20 so that the height of the tube body 20 is positioned higher than the level of the steel.

When a certain height is maintained by injecting water into the tube body 20, the tube body 20 is not deformed by external pressure, such as water flow, by the connecting member 25 and the space support 26. It will maintain the circular shape.

Subsequently, when the temporary barrier is installed by the tube body 20, the construction of the temporary barrier is completed by discharging water inside the tube body 20 using an underwater pump, thereby repairing the damaged part 11. It becomes possible.

Water may be injected into the tube body 20 as well as air may be injected through a compressor.

In addition, in the case of dismantling the temporary barrier after the repair of the damaged part 11 is completed, the gap support 26 after discharging water or air in the tube body 20 through the water supply pipe 35a as opposed to the time of installation. Separating the connecting member 25 and the support rods 23 and 24 and releasing the vacuum pressure acting on the adsorption means 30, that is, both adsorption plates 32 and 33, disengages the clogs from the underwater structure 10. It becomes possible.

According to the present invention as described above, by using a relatively lightweight tube to fill the water or air there is a variety of effects, such as easy to install, simple and fast, reusable and significantly reduced maintenance costs .

Although the present invention has been described in detail only with respect to specific embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the scope of the technical idea of the present invention, and such modifications or changes belong to the claims of the present invention. something to do.

Claims (3)

An injection hole 21 is formed to fill water or air through the water supply pipe 35a, and a plurality of tube bodies 20 are stacked to have independent spaces; Adsorption means (30) formed at a lower side of the tube body (20) for vacuum adsorption on the surface of the underwater structure (10); A plurality of support rods 23 and 24 coupled in a vertical direction to the inside and the outside of the support plate ring 22 to support the tube body 20; Underwater structure repair temporary film including a connecting member 25 and the interval support 26 for connecting the support rods (23) (24). The base plate (31) according to claim 1, wherein the adsorption means (30) is attached to the lower side of the tube body (20) and has a discharge passage (31a) for discharging water and air therein, and the base plate (31). A discharge pipe 35 connected to the suction plates 32 and 33 attached to both edges of the bottom of the bottom surface and the discharge passage 31a of the base plate 31 to discharge water and air through the vacuum pump 34. Underwater structure repair temporary film containing. Adsorbing the adsorption means on the surface of the underwater structure with a vacuum force; Installing a support rod, a connection member and a spacing support on the adsorbed tube body; Inflation by injecting water or air into the tube body; A method of constructing a cloak for repairing an underwater structure comprising the step of discharging the internal water of the expanded tube body.