KR20050087963A - Stainless around coating method for building foundation and pier of bridge - Google Patents

Abstract

The present invention relates to a stainless around coating method for manufacturing a formwork from a stainless steel sheet and using the same to install the bridge piers and piers, and to install the bridge piers and piers of the bridge to be integrated with the structure without removing it after use. By using the temporary barrier 300 to prevent the water flowing where the pier foundation is to be installed and the foundation of the leveling concrete 500 by placing or curing the foundation or directly after the construction of the pile 400, After that, the foundations (600,610) suitable for the piers to be installed thereon and the formwork suitable for the piers (600,610) are installed in order after the structure of the previous stage is completed, reinforcement work such as reinforcement in the interior, concrete is poured and cured to the piers In the method of installing the foundation and piers, the formwork (600,610) is made of stainless steel sheet and a plurality of transmission connections therein The ash 620 was installed to be integral with the structure to prevent the foundation and permanent damage of the bridge foundation and pier caused by the resistance to water.

Description

Stainless around coating method for building foundation and pier of bridge}

The present invention relates to a construction method for installing bridge piers and bridge piers, in particular, to form a formwork made of stainless steel plate formed with a large number of transfer connecting material therein, using the piers foundations and piers installed thereafter without removing the formwork It relates to a stainless steel around coating method for pier foundation and pier installation of the bridge to be formed integrally with the structure.

In general, a brief look at the bridge piers and how to install a bridge is as follows. First of all, if the ground surface is exposed, it is possible to carry out the foundation dig to install the pier foundation without any additional process.However, it is difficult to construct the place where the water flows. It is necessary to allow the foundation to be constructed by exposing the bottom surface by blocking and draining the water inside. When the bottom surface is exposed, the foundation is dug properly to install the bridge foundation. After that, the leveling concrete is poured and cured to clean up the floor and make it even. If the ground condition is good, the leveling concrete can be directly placed and cured in one place, but if it is not, the pile is first put in the ground for reinforcement of the ground and the leveling concrete is then poured and cured. After that, form the formwork suitable for the foundation of the pier on the leveling concrete, reinforce the reinforcing bars in the interior, and then pour and cure concrete to complete the foundation of the pier. Once the bridge foundation is completed, the formwork used is removed. The pier is completed by installing the formwork suitable for the pier on the completed pier foundation, reinforcing the reinforcing bars in the same way as the pier foundation, and then placing and curing concrete. At this time as well, the used formwork is removed.

Generally, pier is limited to the production by using one formwork, so it is divided into several times to complete the whole pier. In addition, when the piers of the bridge foundation and the water-contacting part are completed, the temporary barriers used to block the water are removed. In the same way, the rest of the bridges are completed and a top plate is placed between the bridges to complete the bridge.

Since the bridge foundation and the pier foundation where the water flows and the reinforced concrete blocks the flow of water, the resistance of the water is increased and the vortex is generated, which causes the underwater ground around the structure to erode, resulting in the structure falling or being damaged. Clavicle occurs. To prevent this, there is a method of installing a small or broken stone basket at the bottom near the underwater structure, placing a large amount of concrete, or deepening the embedding depth of the structure. However, such a method alone does not completely prevent the above phenomenon, so a reinforcement work is required to reinforce the damaged part. However, even after such reinforcement work, such damages are continuously made, so there is no permanent prevention effect, and the reinforcement work is required continuously, resulting in a large maintenance cost.

The present invention was created to overcome the above-mentioned disadvantages, and an object of the present invention is to form a formwork with a stainless steel sheet and use it to install the foundation and piers of the bridge, but to be formed integrally with the structure without removing the used formwork It is to provide a stainless steel around coating method for the bridge foundation and piers to prevent the damage caused by the resistance to water to the stainless steel plate inherently and permanently.

In order to achieve the above object, the present invention prevents water flowing where the pier foundation is to be installed by using a temporary barrier, etc., and pours and cures the leveling concrete directly or after pile construction by digging a foundation on the bottom thereof, and then After the structure of the previous stage is completed in order, the foundation to be installed and the formwork suitable for the piers are installed, and reinforcement work such as reinforcement is installed in the inside, and the foundation and piers are installed by placing and curing concrete. In the formwork is made of stainless steel plate and a plurality of transmission connecting material is installed therein to be integrated with the structure.

In addition, the cross section of the pier to form a streamline in the flow direction and at least one or more trumpet-shaped water flow hole is formed in the center of the pier that the cross section is increased in the flow direction in the pier in contact with the water through the Some flowed to minimize the resistance to water.

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

1A to 1J are diagrams sequentially showing one embodiment of a method for installing a piers foundation and a piers according to the present invention. First, as shown in FIG. 1A, the water flowing in the place where the bridge foundation and the pier are installed is blocked using water as shown in FIG. 1B. When the water is blocked after draining the water inside the bottom surface 200 is exposed, the bottom surface 200, as shown in Fig. 1c to clean up and clean the foundation. If the ground condition of the place where the bridge foundation is to be installed is good, the leveling concrete 500 is directly placed and cured at the place where the foundation trench is disposed to even the bottom surface 200, otherwise the floor is as shown in FIGS. 1D and 1E. After the pile 400 is installed on the surface 200, the leveling concrete 500 is poured and cured to select the bottom surface 200. During this process, the formwork 600 to be used for the installation of the pier foundation will be manufactured directly in another workshop or site.

The shape of the formwork 600 to be the bridge foundation is shown in Figure 2, in the present embodiment is shown by taking a pier foundation in the form of a square pyramid for example. The reason why the pier foundation is a square pyramid in this embodiment is that, for example, when the side such as a cylindrical shape is perpendicular to the bottom surface, the resistance of water is increased by making the surface contacting the water diagonally. To reduce to a minimum. However, the form of the pier foundation of the present invention is not limited to the square pyramid of the present embodiment and may be any form as long as it is sufficient for the role of the pier foundation.

The bridge formwork 600 for the present invention is made of a stainless steel plate as described above, its size and thickness should be suitable for the bridge foundation to be installed, a plurality of transmission connecting member 620 as shown therein Is formed. The plurality of transfer connecting member 620 is installed in the stainless steel formwork 600 by welding or the like, and when the concrete 630 is poured and cured in the formwork 600 is permanently attached to the concrete pier foundation To help. In this embodiment, as shown in Figure 2 by alternately installing two transmission connecting member 620 of different sizes to further improve the attachment degree. The form and arrangement of the transfer connecting member 620 of the present invention and the formwork 600 is not limited to the present embodiment, and any form or arrangement may be used as long as the stainless steel sheet is well attached in concrete.

After the stainless steel formwork 600 manufactured as described above is installed on the leveling concrete 500 as shown in FIG. 1F and reinforced by reinforcing steel bars therein, the structure is reinforced within the form 600 as shown in FIG. Placing and curing the 630) is completed the bridge foundation attached to the stainless steel plate.

While the foundation of the bridge is completed, the formwork pier 610 for the piers using the stainless steel sheet in the same manner as the foundation for the pier to be installed on the foundation of the bridge to manufacture on the site or other manufacturing sites. In the present embodiment, although the formwork 610 for the substantially cylindrical piers are used, the form or shape is not limited to the present embodiment, and any form or shape may be used as long as it can fully serve as the piers.

In addition, like the bridge formwork for the bridge 600, two transfer connecting members 620 of different sizes are alternately arranged to improve the adhesion to concrete. Likewise, the shape and arrangement of the transfer connecting member 620 is not limited to the present embodiment and may be anything as long as it fulfills its role.

If the pier formwork 610 manufactured as described above is installed on the completed pier foundation as shown in Figure 1h and after reinforcing work such as reinforcement in the interior of the concrete 630 is placed and cured pier as shown in Figure 1i Part of will be completed. In the same way, parts of the piers are continuously installed to complete the entire piers.

For example, when the formwork of the present invention cannot be used for the entire pier due to problems such as cost and construction, such as in the case of a long and large bridge, the formwork of the present invention is used only for the part which contacts the water, and the rest of the existing formwork. You can also use

The cross section of the piers installed as described above may be made to reduce the resistance to water somewhat by making it streamlined in the direction of water flow. In addition, as illustrated in FIGS. 4 and 5, at least one or more trumpet-shaped water flow holes 900 having a cross-sectional area in the flow direction in the direction of the pier where water is in contact with each other are formed in the center of the pier. Part of the flow through this hole 900 can further reduce the resistance to water.

When all the bridge foundations and bridge piers are completed in the same way as above, the top plate is installed between the tops of the piers as in the conventional method to complete the entire bridge.

As described above, according to the present invention, by forming the formwork from the stainless steel sheet to install the foundation and the piers after the formwork is formed integrally with the structure to damage the foundation and piers caused by the resistance to water, but also permanently It has the effect of preventing and there is no need for continuous repair work, so it has the effect of reducing the cost and has the beautiful effect in appearance.

1a to 1j is a view showing the procedure for installing the bridge piers foundation and piers according to the present invention,

Figure 2 is a perspective view showing a part of one embodiment of the foundation for the piers made of stainless steel sheet according to the present invention,

3 is a perspective view showing a part of one embodiment of a formwork for piers made of stainless steel sheet according to the present invention,

4 is a perspective view of another embodiment of a pier made in accordance with the present invention;

5 is a cross-sectional view taken along line A-A of FIG. 4 showing a hole for water flow according to the present invention.

<Description of the symbols for the main parts of the drawings>

100 ---- water, 200 ---- bottom side,

300 ---- clogs, 400 ---- stakes,

500 ---- leveling concrete, 600 ---- formwork for piers,

610 ---- Formwork for piers, 620 ---- transmission connectors,

630 ---- concrete, 700 ---- pier foundation,

800 ---- piers, 900 ---- holes for water flow.

Claims (2)

Block the water flowing where the pier foundation is to be installed using the temporary barrier 300, etc., and then dig and cure the leveling concrete 500 directly or after the construction of the pile 400 by digging the foundation on the bottom surface 200 thereof. Pier foundations (600,610) suitable for piers (600,610) to be installed above are installed after the structure of the previous stage is completed in order, and reinforcement work such as reinforcement in the interior, and the concrete is laid and cured to bridge foundations and piers In the construction method to install The formwork (600, 610) is made of stainless steel and a plurality of transmission connecting member 620 is installed therein stainless around the coating method, characterized in that the integral with the structure. According to claim 1, wherein the cross section of the pier to make a streamline in the flow direction direction and at least one at the center of the pier is a trumpet-shaped water flow hole 900, the cross section is increased in the flow direction in the pier of the contact portion with the water Stainless steel around coating method characterized in that the above-mentioned is formed so that a portion of the water flows through it to minimize the resistance to water.