KR20020005876A - A Construction Method for Foundation of the Bridge and A Structure thereof - Google Patents

Abstract

PURPOSE: Method and structure for constructing a lower structure of a bridge are provided to improve work efficiency by simplifying the working procedure, to prevent corrosion of concrete using an anti-corrosive structure, and to perfectly protect the concrete structure. CONSTITUTION: An anti-corrosive well(11) is produced. A foundation(10) of a bridge is obtained by installing the well on the underground rock base and grouting non-hardened concrete in the well. A pier(22) is formed by installing a form(23) for a pier on the foundation and grouting concrete in the form. The forms of the well and the pier are removed. Thereafter, inner and outer steel pipe forms(12,13) are installed in the well. Inside lower portion of the outer steel pipe form, a reinforcing steel plate(14) is attached and placed on the inner face of the outer steel pipe form. An anti-corrosive panel(15) is stuck to the inner face of the outer steel pipe form. Between the inner and outer steel pipe forms, concrete is grouted. Therefore, a lower structure of a bridge is obtained.

Description

A construction method for foundation of the bridge and a structure

The present invention is to prevent the concrete of the bridge substructure to corrode, and more particularly to a construction method and structure of the bridge substructure that can increase the workability while preventing perfect corrosion.

As used herein, the term 'corrosion' is used to encompass both scour, erosion and failure.

Underwater concrete structures, such as bridge undercarriage, are hardened by mixing cement, sand, and water at an appropriate ratio, and they can maintain their original strength even after a long time in the ground and ground, but in salty seawater or flowing water, cement and sand It is easy to cause corrosion due to poor adhesion to the wah. Therefore, when constructing underwater concrete structures, corrosion inhibitors may be mixed to prevent corrosion, but they are insufficient for perfect corrosion protection.

Recently, in order to prevent corrosion of underwater concrete structures, there is a method of attaching FRP panels on the outer surface. That is, in Korean Patent Laid-Open Publication No. 2000-12646, in which the inner and outer iron sheet formwork is installed at arbitrary intervals, and in the well construction method for constructing a piers by pouring stuffed concrete between the mold gaps, the outer iron sheet Irregularly installing a plurality of fixing nails on the outer wall of the formwork, removing rust on the surface of the outer sheet metal formwork and applying a primer coating, and focusing on the fixing nails installed on the outer sheet metal formwork. Covering the outer wall with the FRP structure, bending the fixing nail to the FRP structure covered on the outer steel sheet formwork outer wall to install the primary FRP structure on the outer steel sheet formwork outer wall, new FRP on the outer wall of the primary FRP structure including the nail Covering the structure consists of treating the outer wall to the FRP structure.

As such, the conventional bridge substructure construction method covers the outer wall formwork of the foundation well with the FRP structure to prevent the deterioration of the bridge stability due to the oxidation of the outer formwork and acceleration of corrosion of the underwater concrete, and the oxidation of the formwork. It is true that not only can it prevent water pollution, but also have the advantage of constructing a visually good pier structure by preventing color change or corrosion of the pier.

However, in the conventional construction method of the bridge substructure, first, a plurality of fixing nails are installed on the outer wall of the outer steel sheet formwork, and the outer wall of the outer steel sheet formwork is covered with the FRP structure around the fixing nails to bend the fixing nail to form the primary FRP structure. By installing and finishing the second FRP structure again on the outer wall of the primary FRP structure, there is a problem that the formwork manufacturing process is very complicated and poor workability.

In addition, the conventional is that the inner and outer steel sheet formwork is formed inside and the FRP structure attached to the outer surface, such a basic well should be inserted into the rock, in this case, the FRP structure attached to the outer surface in the process of insertion It is broken and falls off. Therefore, it is not possible to protect the outer iron sheet formwork, and eventually corrosion occurs. That is, the conventional one has a problem that it is difficult to completely prevent corrosion when the FRP structure breaks and falls off when inserted into the ground during construction.

Accordingly, an object of the present invention is to provide a construction method and a structure of a bridge undercarriage structure to prevent concrete corrosion as a material that can prevent corrosion and scour, but to increase the workability by preventing concrete corrosion. .

Another object of the present invention is to provide a method for constructing a bridge substructure that can completely protect a concrete structure by preventing damage to the corrosion structure even when the foundation well is inserted into the ground and its structure.

1a to 1d is an exemplary view showing a construction method of the bridge substructure according to the present invention,

2a and 2b is a side cross-sectional view and a planar cross-sectional view showing a well for a foundation according to the present invention,

3a to 3c are exemplary views showing another embodiment according to the present invention.

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

10: Bridge foundation 11: well

12: inner steel pipe formwork 13: outer steel pipe formwork

14: reinforcement sheet 15: corrosion protection panel

16: Foundation charging concrete 17: Corrosion prevention panel for foundation cover

18: Fastening flange 19: Well-filled concrete

20: Kamen 21: Foundation corrosion protection panel

22: piers 23: dies for piers

24: Corrosion prevention panel for piers

Hereinafter, the technical configuration of the present invention in detail.

The construction method of the bridge undercarriage of the present invention is a) as shown in Figure 1a, the step of producing a base anti-corrosion well bucket 11 for producing a base anti-corrosion well,

b) As shown in Figures 1b and 1c, after installing the foundation anti-corrosion well (11) in the underwater rock foundation bridge construction (10) to build a bridge foundation (10) by placing the non-hardened concrete (16) inside Steps,

c) a pier forming step of forming a pier 22 by installing a bridge formwork 23 on top of the bridge foundation 10 and pouring unhardened concrete, as shown in FIG.

d) In the formwork demoulding step of demolding each formwork 13 and 23 of the foundation well 11 and the pier 22 is not much different from the conventional technical concept.

e) However, in the present invention, as shown in Figures 2a and 2b, the anti-corrosion wells 11 are provided with an inner and outer steel pipe formwork 12, 13 to maintain a distance from each other, the external steel pipe formwork 13 The reinforcing steel plate 14 is attached to the lower side of the inner side, and the inner side of the outer steel pipe formwork 13, that is, the corrosion prevention panel for the foundation having a thickness similar to the reinforcing steel plate 14 on the reinforcing steel plate 14 ( 15) is placed in close contact, the reinforcing bar between the inner and outer steel tube formwork 12, 13 is completed through the step of pouring the uncured concrete (19).

That is, according to the present invention, the corrosion preventing panel 15 for the foundation is closely disposed on the inner surface of the well tube 11 and the outer steel pipe formwork 13, which is distinguished from the FRP structure attached to the outer surface of the conventional outer steel formwork. In addition, the present invention is to arrange only one layer of the panel so as to be supported on the inner surface of the outer steel pipe formwork without a specific attachment means, and through the complex process of attaching the FRP structure by dividing the fixing nail and divided into 1 and 2 It is a distinct technology.

Therefore, when the well (11) is inserted into the ground, the conventional one has the disadvantage that the FRP structure directly touches the ground and is easily damaged by friction with the ground, but the present invention is the base corrosion prevention panel 15 is the outer steel pipe Since it is disposed on the inner side of the formwork 13 has the advantage of being securely protected.

And after inserting the well 11 of the present invention into the ground, the concrete is poured in the well and the outer steel pipe formwork 13 is demolded. At this time, the inner steel pipe formwork 12 may be demoulded or landfilled before pouring concrete.

On the other hand, as shown in Fig. 1D, at the same time as the installation of the bridge formwork 23 and 24, the upper surface of the bridge foundation 10 is covered with water tightly by the corrosion preventing panel 17 for the foundation cover, thereby protecting the upper surface of the foundation from corrosion. To be able.

In addition, as shown in Figure 1d, the lower portion of the pier formwork 23 attaches the pier corrosion prevention panel 24. Since the lower part of the pier is submerged in water, it is possible to protect the pier 22 from corrosion by attaching an anti-corrosion panel to the outer surface of the pier. The height of the pier corrosion prevention panel 24 is preferably attached to a position slightly higher than the full water level, which is the maximum height of the water level.

2A and 2B show the structure of the bridge foundation well 11 according to the present invention. Bridge base well structure of the present invention is the inner and outer steel pipe formwork 12, 13 is installed in a cylindrical shape while maintaining the gap between the inside, the outside and the reinforcement is attached to the lower inner surface of the outer steel pipe formwork (13) Steel plate 14 and the inner circumferential surface of the outer steel tube formwork 13 are arranged to be in close contact with each other by fastening the divided panels, but for the foundation to be tightly tightened by bolting the fastening flange 18 of the panels inwardly It consists of a corrosion-preventing panel (15) and filling concrete (19) for a well bucket filled between the inner and outer steel pipe formwork (12) (13).

Here, the outer steel pipe formwork 13 serves to protect the foundation corrosion prevention panel 15 disposed on the inner circumferential surface of the well when the well is inserted into the ground. At this time, in order to prevent damage to the outer steel pipe formwork 13, it is necessary to pad the reinforcing steel plate 14 to the lower inner peripheral surface. Corrosion-prevention panel 15 for the base is preferably attached to the external steel pipe formwork 13 only to be able to support easily detachable without attaching to a separate attachment means.

In addition, since the inner and outer steel pipe formwork 12, 13 is large in size, the foundation corrosion preventing panel 15 is attached to each other by fastening small unit panels, as the unit panels are formed by fastening small unit panels. will be. In this case, as shown in FIG. 2B, the fastening flange 18 of each panel is bent inward to be fastened with a bolt nut. In order to increase the watertightness, a packing may be inserted between the fastening flanges 18.

The foundation wells constructed in this way may be manufactured on the ground and transported to the work site and installed in the water, or may be manufactured directly at the work site. In the case of direct installation at the work site, as a kind of dry method, the installation work is started after installing the temporary barrier around the work site and discharging water in the middle.

3A and 3C show another embodiment of the present invention, which is applied to a bridge substructure having a relatively small scale as a dry method, and a method of placing concrete by installing a corrosion preventing panel without a foundation well. In more detail, a) a temporary curtain installation step of installing a temporary curtain 20 to block the inflow of water around the position where the bridge substructure is to be constructed (see Fig. 3a),

b) the installation step of the foundation corrosion prevention panel for installing the foundation corrosion prevention panel 21 after the trench in the position to lay the foundation (see Fig. 3b),

c) the step of constructing the bridge foundation for constructing the bridge foundation 10a by pouring unhardened concrete into the foundation anti-corrosion panel 21 (see FIG. 3b);

d) a bridge forming step of forming a bridge by placing uncured concrete therein after installing the bridge formwork 23 on the bridge foundation 10a;

e) characterized in that the completion of the installation step of the foundation cover corrosion prevention panel for installing the foundation cover corrosion prevention panel 17 on the upper surface of the bridge foundation (10a).

Here, the lower portion of the pier formwork 23 may be installed as a substitute for the formwork corrosion prevention panel 24 for the pier, as described in the first embodiment of the present invention. The installation height is preferably attached to a position slightly higher than the full water level, which is the maximum height of the water level.

In the above method, the construction of the bridge foundation by installing the corrosion prevention panel 21 used as a substitute for formwork directly on the ground (rock layer) without going through the process of manufacturing the well can be omitted, and the step of demolding the formwork later can be omitted. This has the advantage of being convenient.

Bridge construction according to another embodiment of the present invention constructed as described above is as follows. As shown in Figure 3b, the base anti-corrosion panel 21 disposed on the outer rim and generally cylindrical, the base filling concrete 16 cast in the interior of the anti-corrosion panel 21, and the base filling For piers 22 formed perpendicular to the upper portion of the concrete 16, the corrosion preventing panel 24 for piers attached to the outer peripheral surface of the lower piers, and for the base cover to cover the upper surface of the base filling concrete 16 The corrosion prevention panel 17 is comprised.

Here, if the base corrosion prevention panel 21 is large in size to form a cylindrical by fastening several assembly panels. The fastening structure between the assembly panels is to be tightly bolted to each other by bending the fastening flanges 18 of the panel inward, as shown in Figure 3c.

Meanwhile, the 'corrosion prevention panel' used in the present invention may use an unsaturated polyester including FRP. Unsaturated polyesters are a kind of plastic and therefore have low affinity with concrete. Therefore, when unsaturated polyester is used as a corrosion preventing panel, it is desirable to form roughness on the inner surface thereof to increase adhesion with concrete. As a method of forming the roughness on the inner surface of the panel, the uncured fine aggregate may be sprayed and attached by spraying or the like.

As described above, in the present invention, by placing the base anticorrosion panel 15 on the inner surface of the external steel pipe formwork 13 of the well, the base anticorrosion panel 15 is not damaged when the well is inserted into the ground. It can be safely protected without having the effect of preventing corrosion of concrete structures perfectly,

In addition, since only one layer of the panel is arranged to be supported on the inner side of the outer steel pipe formwork 13 without a specific attachment means, the process is simple and has an effect of increasing workability.

Claims (7)

a) a step of manufacturing a foundation corrosion preventing wells for manufacturing the foundation corrosion preventing wells (11), b) a bridge foundation construction step of installing bridge foundation (10) by installing the foundation for corrosion prevention wells (11) in the rock under water and then placing uncured concrete therein; c) a bridge forming step of installing the bridge formwork 23 on the upper portion of the bridge foundation 10 and placing uncured concrete to form the bridge 22; d) is completed in the formwork demolding step of demolding each formwork of the foundation well 11 and the pier 22, e) Corrosion-resistant well (11) is installed in the inner, outer steel pipe formwork 12, 13 to maintain a distance from each other, the reinforcing steel plate 14 is attached to the lower inner side of the outer steel pipe formwork (13) The inner surface of the outer steel pipe formwork 13 is disposed, but the base corrosion preventing panel 15 having a roughness formed on the inner surface thereof is brought into close contact with the inner and outer steel pipe formworks 12 and 13. Construction method of the bridge substructure, characterized in that completed through the step of pouring concrete. The method of construction of a bridge undercarriage according to claim 1, wherein at the same time as the bridge formwork (23) is installed, the upper surface of the bridge foundation (10) is tightly covered with a corrosion preventing panel (17) for the base cover. The method of claim 1, wherein the lower portion of the pier formwork (23) in the bridge forming step is made of a piercing corrosion prevention panel (24). The inner and outer steel tube formwork 12, 13, which is installed in a cylindrical shape while maintaining the distance between the inner and outer sides, and a plurality of separate panels on the inner circumferential surface of the outer steel tube formwork 13 are fastened to each other and placed in close contact with each other. Basic anti-corrosion panel 15 for bending the fastening flange 18 of the panels inwardly and tightly tightened by bolting, and a reinforcing steel plate 14 attached to the inner bottom surface of the lower steel pipe formwork 13, and the inside , Well foundation structure for bridge foundations, characterized in that consisting of the filling concrete (19) for the wells filled between the outer steel pipe formwork (12) (13). a) installation of the temporary curtain to install the temporary curtain 20 to block the inflow of water around the position where the bridge substructure is to be constructed; b) the installation step of the foundation corrosion prevention panel which installs the foundation corrosion prevention panel 21 in which the roughness is formed in the inner side after digging in the position which wants to lay a foundation, c) a step of constructing a bridge foundation for constructing bridge foundation (10a) by pouring uncured concrete into the foundation anti-corrosion panel (21); d) a bridge forming step of forming a bridge by placing uncured concrete therein after installing the bridge formwork 23 on the bridge foundation 10a; e) The construction method of the bridge substructure, characterized in that completed by the installation step of the foundation cover corrosion prevention panel for installing the foundation cover corrosion prevention panel (17) on the upper surface of the bridge foundation (10a). The method of claim 5, wherein the lower portion of the pier formwork (23) is installed in place of the formwork for the corrosion prevention panel (24) for the bridge. Several separate panels are fastened to each other to form an overall cylindrical shape, the base of the anti-corrosion panel 21 for bending tightly by bolting the fastening flange 18 of the panels inwardly, and the anti-corrosion panel for the foundation ( The base filling concrete 16 cast inside the 21, the pier 22 formed perpendicular to the upper portion of the base filling concrete 16, and the corrosion preventing panel 24 for the pier attached to the outer peripheral surface of the lower portion of the pier. ), And the base structure of the bridge, characterized in that consisting of a corrosion protection panel for the base cover to cover the upper surface of the filling concrete (16).