KR100949868B1 - The enlargement construction method for base of bridge with guides and molds in the shape of pipes - Google Patents

Abstract

The present invention relates to a method for expanding the basic cross-section of a bridge using a pipe-shaped guide and formwork. The support part for fixing and installing the support part 10 woven in a form surrounding the pillar 102 of the bridge 100 is fixed to the pillar 102. Installation process (S1); A guide installation step (S2) of installing and fixing the pipe-shaped guide 20 in a vertical direction along the outer edge of the support part 10; A formwork installation process (S3) for driving the formwork 30 along the inside of each of the installed guides 20 and fixing it to the floor; Forming top cleaning process (S4) to have a predetermined height of the upper end of the installed formwork (30); A guide dismantling step (S5) of removing the installed guide 20; A form fastening step (S6) of tying and unifying the formwork 30 remaining around the pillar 102; A support part 10 dismantling step (S7) of removing the installed support part (10); Reinforcing bar reinforcement step (S8) for reinforcing the reinforcing bar 40 into the formwork 30; Concrete placing and curing step (S9) to pour by curing the concrete 50 into the formwork 30; Completed by the demolding process (S10) for removing the formwork 30 around the pillar 102, the method for expanding the cross section of the foundation.

Bridges, Piers, Columns, Section Enlargement, Reinforcement, Repair, Durability, Foundations, Wells

Description

{The enlargement construction method for base of bridge with guides and molds in the shape of pipes}

The present invention relates to a method for expanding the basic cross-section of a bridge using a pipe-shaped guide and formwork. The support part for fixing and installing the support part 10 woven in a form surrounding the pillar 102 of the bridge 100 is fixed to the pillar 102. Installation process (S1); A guide installation step (S2) of installing and fixing the pipe-shaped guide 20 in a vertical direction along the outer edge of the support part 10; A formwork installation process (S3) for driving the formwork 30 along the inside of each of the installed guides 20 and fixing it to the floor; Forming top cleaning process (S4) to have a predetermined height of the upper end of the installed formwork (30); A guide dismantling step (S5) of removing the installed guide 20; A form fastening step (S6) of tying and unifying the formwork 30 remaining around the pillar 102; A support part 10 dismantling step (S7) of removing the installed support part (10); Reinforcing bar reinforcement step (S8) for reinforcing the reinforcing bar 40 into the formwork 30; Concrete placing and curing step (S9) to pour by curing the concrete 50 into the formwork 30; Completed by the demolding process (S10) for removing the formwork 30 around the pillar 102, and a method for expanding the cross section of the foundation.

In general, bridges are high-rise structures made to cross rivers, lakes, straits, bays, canals, lowlands, or other traffic routes or structures, and there are various types of bridges. It consists of an upper structure consisting of a mold (girder, girder) for supporting the slab, and a lower structure for supporting the upper structure (for reference, the seating device is located at the contact point of the upper structure and the lower structure of the bridge, the chairman The load is transmitted from the superstructure to the undercarriage), the undercarriage is made up of alternations which are the supports of both ends of the superstructure (the starting point) and the piers which are intermediate supports other than the alternations, The coping part located in the lower part, the foundation (or foundation slab, lower base) located in the ground, and the pillar between the coping part and the base, and the bridge When the substructure is located underwater, the foundation is usually constructed as a well.

In addition, since the pier foundations are mostly made of concrete, they are aging due to deterioration, damaged and corroded by external shocks, weather, temperature changes, flow rates, etc., and repair and reinforcement are required for such pier damages.

In the prior art, in the 'reinforcement method of the foundation of the bridge well barrel and its reinforcing structure' of the domestic patent registration No. 0370714, in the repair method of reinforcing the bridge well bucket crushed portion with concrete, the outer wall circumference of the well A hole drilling step for drilling holes in a predetermined size in the ground below the lower bed at a predetermined interval until a solid ground appears; Connect and assemble vertical reinforcing bars extending to the upper part of the well wall part on the upper part of the pile foundation reinforcing bars, anchor the vertical bars to the outer wall, and then surround the vertical bars around the outer wall of the well. Reinforcing wall part reinforcing assembly for reinforcing wall reinforcing bar assemblies by assembling horizontal reinforcing bars; A formwork installation step of installing formwork around the reinforcing bar assembly for the wall; A filling concrete placing step of filling the filling concrete into the spaces between the pile holes and the outside wall of the well and the pile foundation in which the pile foundation reinforcing bar assemblies are installed; A form dismantling step of dismantling formwork after the poured concrete is cured; It is disclosed that the reinforcement method of the bridge well foundation foundation, characterized in that through the construction.

However, in general, the method of expanding the foundation cross section of the piers is to install the formwork before placing the concrete, and the formwork must support the overall load of the concrete during the casting and curing process of the concrete so that the formwork is properly supported. However, when the foundation of the piers are affected by running water in the water, there was a problem that the installation of the formwork is not easy.

In addition, in the above-mentioned domestic patent registration No. 0370714, since the fixing of the formwork is generally made, it is necessary to install a temporary screen that prevents the inflow of water before installing the formwork, so that the construction is not easy when the depth is deep. There was a problem.

Thus, the present invention, in order to solve the above problems, fixing and installing the support portion woven in the form of wrapping the pillar of the piers, and installing and fixing the pipe-shaped guide in the vertical direction along the outer edge of the support, Drive the formwork along the inside of each guide and fix it to the floor, make the upper end of the installed formwork to have a certain height, remove the installed guide, tie the formwork remaining around the pillars to each other and then integrate the By removing the supporting part installed, reinforcing the reinforcing bar into the formwork, pouring concrete into the formwork to cure, and removing the formwork around the pillar, by expanding the basic cross section of the piers, When installing the formwork on the floor firmly in the desired position through the guide when the foundation is expanded Accordingly, the concrete to be poured and cured is firmly supported to facilitate the expansion of the foundation cross section.

And the support is composed of a bracket for fixing the support and the support of the truss structure surrounding the column to the column, to facilitate the installation of the guide by the support.

In addition, in installing the formwork, while installing the guide additionally install and fix the secondary guide to install a double, and the formwork and the secondary formwork respectively installed in the installed guide and the secondary guide, the installation After arranging the upper ends of one formwork and the second formwork, each formwork and the second formwork are fastened respectively, so that each neighboring formwork and the second formwork are integrated, and then the guide and the secondary guide are dismantled and removed. Between the formwork and the secondary formwork, the order wall is installed, and after dredging the formwork, the process of pouring and curing concrete into the formwork is carried out, and the depth of the bridge applied by the added formwork and the orderly wall Even if deep, the construction should be easy.

As described above, the present invention is to fix and install the support portion woven in the form of surrounding the pillar of the piers, to install and fix the pipe-shaped guide in the vertical direction along the outer edge of the support portion, After fixing the fixed to the floor, the upper end of the installed formwork to have a constant height, remove the installed guide, and tie the formwork remaining around the pillar to each other, and then remove the installed support Guide the expansion of the foundation by the step of expanding the foundation cross section through the step of reinforcing the reinforcement into the formwork, pouring and curing concrete into the formwork, and removing the formwork around the column. Concrete is placed and cured as the formwork is firmly installed on the floor at the desired location. A rigidly to the support, the effect of the base section close-up construction easier.

The support part includes a truss structure supporting the pillar and a bracket for fixing the support member to the pillar, thereby easily installing the guide by the support portion.

In addition, in installing the formwork, while installing the guide additionally install and fix the secondary guide to install a double, and the formwork and the secondary formwork respectively installed in the installed guide and the secondary guide, the installation After arranging the upper ends of one formwork and the second formwork, each formwork and the second formwork are fastened respectively, so that each neighboring formwork and the second formwork are integrated, and then the guide and the secondary guide are dismantled and removed. Between the formwork and the secondary formwork, the order wall is installed, and after dredging the formwork, the process of pouring and curing concrete into the formwork is carried out. Even if the depth is deep, there is an easy effect.

The present invention relates to a method for expanding the basic cross-section of a bridge using a pipe-shaped guide and formwork. The support part for fixing and installing the support part 10 woven in a form surrounding the pillar 102 of the bridge 100 is fixed to the pillar 102. Installation process (S1); A guide installation step (S2) of installing and fixing the pipe-shaped guide 20 in a vertical direction along the outer edge of the support part 10; A formwork installation process (S3) for driving the formwork 30 along the inside of each of the installed guides 20 and fixing it to the floor; Forming top cleaning process (S4) to have a predetermined height of the upper end of the installed formwork (30); A guide dismantling step (S5) of removing the installed guide 20; A form fastening step (S6) of tying and unifying the formwork 30 remaining around the pillar 102; A support part 10 dismantling step (S7) of removing the installed support part (10); Reinforcing bar reinforcement step (S8) for reinforcing the reinforcing bar 40 into the formwork 30; Concrete placing and curing step (S9) to pour by curing the concrete 50 into the formwork 30; It is completed with a demoulding process (S10) to remove the formwork 30 around the pillar 102, and relates to a method for expanding the cross section of the foundation to install the formwork so as not to be affected by the water depth and flow rate to increase the precision of the construction .

The basic cross-section expansion method of the bridge using a pipe-shaped guide and formwork according to the present invention will be described sequentially in accordance with the process diagram of Figure 1 attached, first, the support portion installation step (S1) is shown in Figs. As described above, in the process of installing the support 10 on the column 102 of the piers 100, the support 10 is composed of a bracket 11 and a support 12, the bracket 11, Figure 2 As shown in Figure 4, it is configured in a form surrounding the pillar 102, one side is formed with a plurality of penetrating fixing holes (11a), the bracket 11 is provided with additional reinforcement plate to increase the strength It may also be reinforced.

In addition, as shown in Figures 5 to 7, the support 12 is a structure woven to wrap the pillars 102, the column 102 to a predetermined width and height, formed in a truss structure, the support 12 The overall size of) is preferably to be similar to the cross-sectional size of the base 101 to expand, and the bracket 11 and the support 12 are separated into at least two to facilitate the assembly on the side of the column (102) It is preferable to construct.

Therefore, the bracket 11 is first fixed to the pillar 102, the bracket 102 is assembled to the pillar 102, and the fixing hole 11a of the bracket 11, such as an anchor bolt, a fixing member ( 13) the bracket 11 is installed, and the support 12 is installed on the installed bracket 11, and the support 12 is completed.

On the other hand, the support 12 is installed in a position lifted at a proper distance from the base 101, when the base 101 is located in the water, it is installed to be located on the water surface, the support 12 itself is horizontal It is desirable to maintain.

Hereinafter, the reinforcing bar reinforcement step S8 in the guide installation step S2 has two embodiments, and in the two embodiments, a few steps are added in the process of the first embodiment to constitute the second embodiment. .

First, the guide installation step (S2), as shown in Figures 5 and 7, to install the guide 20 along the edge of the installed support 12, the guide 20 is a pipe ( Steel pipe is suitable), along the edge of the support 12, such as welding, banding or the like to be installed along the edge of the support 12 without gap, the support 12 is perpendicular to the ground It is preferable to install as possible, and the support 12 is to be installed in duplicate depending on where to install.

In other words, according to the first embodiment, the guide 20 is provided in one layer along the outer edge of the support 12, and as the second embodiment of the present invention, shown in FIG. As described above, the guide 20 is installed in a double manner by installing the secondary guide 20 'in the installed guide 20', and the secondary guide 20 'is a guide 20 installed in the support 10. It consists of a pipe (steel pipe is suitable) such as, the secondary guide 20 'is fixed to the guide 20 installed by welding, banding or the like method.

The following formwork installation step (S3), as shown in Figures 6 and 7, is a step of installing the formwork 30 into the installed guide 20, the formwork 30 is guided into the guide (20) Drive vertically, so as to be firmly fixed to the lower ground, and when installing the formwork 30, even when driving the formwork 30, the formwork 30 is vertically by a guide 20 installed vertically Is installed.

In addition, in the case of the second embodiment according to the present invention, as shown in Figure 8, by vertically driving into the inside of the secondary guide (20 '), so as to be firmly fixed to the lower ground, the formwork 30 Both the secondary formwork 30 'and the pipe or concrete pile, such as steel pipes, it is preferable to use.

In addition, the next formwork top cleaning step (S4) is a process of arranging all the top of the installed formwork 30 to have a certain height, formwork 30 to have a height or higher than the base to be expanded. By cutting the upper end, as shown in Figure 9, so that the upper portion of the formwork 30 all have the same height.

In addition, in the second embodiment according to the present invention, by cutting the formwork 30 and the secondary formwork 30 'together, the upper part of the formwork 30 and the secondary formwork 30' are all the same. Have a height.

Next, the guide dismantling step (S5) is a step of dismantling the installed guide 20 after installation of the formwork 30. In the second embodiment according to the present invention, the guide 20 and 2 Remove all the car guides 20 'while removing them.

In the case of the second embodiment according to the present invention, after the guide dismantling step (S5), the order wall mounting step (S5-1) is carried out, and the order wall mounting step (S5-1) is the installed formwork 30 ) Is a process of installing the order wall 31 between the secondary formwork (30 '), the order wall 31 is a steel plate or a synthetic resin plate that is excellent in durability, capable of bending, not broken in bending, The space between the formwork 30 and the secondary formwork 30 'is separated by the order wall 31.

In addition, the form fastening step (S6) is a process of fastening the driven form 30 to be intertwined with each other, such as to be integrated by fastening each other by a method such as banding, bolting, etc. In addition, in the case of the second embodiment of the present invention , The formwork (30) is tied to each other, and the secondary formwork (30 ') to be coupled to each other to be integrated.

On the other hand, the space between the neighboring neighbors of the installed formwork 30, since the guide 20 is a pipe, the gap between the formwork 30 after the guide 20 is removed is small, but it is determined that the generated gap is too large. At that time, as shown in Fig. 8, a space shape between adjacent dies 20 on the circumference, that is, a gasket 32 having a triangular cross section or a ribbon or wedge cross section is sandwiched, and the concrete 50 ), The gasket 32 has a shape corresponding to the groove portion of the formwork 30, so that the enlarged cross section after the cross section continues the side surface of the enlarged base 101 relatively smoothly. In general, the gap 32 is installed between the formwork 30, but if necessary, it is also installed in the gap between the secondary formwork 30 '.

Subsequently, support part disassembly process S7 is a process of disassembling the installed support part 10, and disassembles the installed support stand 12 and the bracket 11 in order.

In addition, in the case of the second embodiment, after the support part dismantling step (S7), the dredging step (S7-1) is carried out, the dredging step (S7-1), the soil, gravel, By the dredging process, as shown in FIG. 13, the space inside the formwork 30 is expanded to the lower part than before.

Next, the reinforcing bar reinforcement step (S8) is a step of reinforcing the reinforcing bar 40 inside the formwork 30, as shown in Figs. 10 and 11, and weave the reinforcing bar 40 in advance, It is preferable to inject the woven reinforcing bar 40 into the formwork 30, the reinforcing bar 40 is reinforcement in the horizontal direction and the circumferential direction, reinforcement reinforcement using the hook-shaped hook reinforcement 41 as necessary 40 weave together.

And concrete pouring and curing step (S9), the process of pouring concrete 50 into the formwork 30, the poured concrete 50 is cured over a predetermined time, the formwork 30 Even when the concrete 50 is poured, the shape is maintained by the formwork 30 embedded in the ground, and the cross section of the base 101 is expanded as shown in FIGS. 11 to 13 by the curing.

On the other hand, the concrete 50 to be poured is added to the ordinary concrete concrete admixture for fire-dissolving concrete, even if the concrete 50 is poured in the presence of water or water, the concrete 50 in the water It does not separate and maintains its form in the formwork.

Subsequently, the demolding step (S10) is a step of removing the installed formwork 30 after the curing of the poured concrete 50 is completed, and the formwork 30 embedded in the ground is unpacked integrally, and laterally It is knocked down and removed to the outside. In the second embodiment, in the demolding step (S10), the order wall 31 is removed, and both the secondary formwork 30 'and the formwork 30 are integrally fastened. Loosen one, fall sideways, remove to the outside, clean up the surface of the foundation 101 whose cross section is enlarged as necessary, and complete the cross-sectional enlargement method of the foundation 101 by the demolding step (S10). .

In the process of enlarging the cross section of the foundation 101, the guide 20 installed in the support part 10 is installed, and the formwork 30 is installed through the guide 20. It is installed vertically by the guide 20, the formwork 30 is able to firmly support the concrete 50 during pouring and curing the concrete 50 by the formwork 30 fixed to the floor.

In addition, when the depth of the bridge for enlarging the cross section of the foundation 101 is deep, the order wall 31 and the secondary formwork 30 'are further provided, and dredging the formwork 30, the flow velocity and depth Without being influenced by external influences such as, the cross section of the foundation 101 can be expanded, and the formwork 30 is also installed in a double, so that it can support the load of the concrete 50 to be placed therein.

For reference, after the cross-sectional enlargement of the foundation 101, the cross-sectional enlargement of the portion of the pillar 102 of the bridge 100 is further constructed to further enhance the load capacity of the bridge, which is the following five according to the process diagram of FIG. The process of enlarging the cross section of the pillar 102 is made with reference to FIGS. 15 to 17 as follows.

First, the chipping step G1 is a step of removing the deteriorated portion of the pillar 102 to pry off the decayed or deteriorated portion of the surface, so that the inside of the pillar 102 is partially exposed.

And the reinforcement step (G2), as shown in Figure 16 and 17, the step of reinforcing the reinforcement 60 around the pillar 102, between the base 101 and the bottom of the coping portion 103 In the vertical direction to reinforce the reinforcement 60 to the column 102 at regular intervals along the outer surface, reinforce the reinforcement 60 so as to surround the column at a predetermined interval with the existing pillar 102 in the horizontal direction, In the case of increasing the cross section, it is preferable to further reinforce the rebar 60 in the vertical direction and the horizontal direction, and the reinforcement 60 of the overlapping portion is preferably fixed by welding or bending.

For reference, in the reinforcement step (G2), prior to reinforcement of the reinforcing bar 60, a plurality of bolts are installed to protrude to the chipped pillar 102 to protrude, and to the anchor bolt installed in the pillar 102 It is to facilitate the fixing and installation of the reinforcing bar (60).

In addition, the formwork installation step (G3) is a step of installing the formwork (not shown) to the outside of the reinforcing bar 60 installed around the pillar 102, the formwork is usually a form having a plate form the reinforcing bar (60). ) And install it to surround the column.

Next, the concrete pouring and curing step (G4) is a step of pouring concrete 70 into the installed formwork and curing over time, and finally, the demolding and finishing step (G5), the installed Remove the formwork, clean the surface to enlarge the cross section of the pillar (102).

In addition, when the column 102 of the bridge to be constructed includes a part submerged in water, in the concrete pouring and curing step (G4), as in the foundation cross-sectional enlargement, the concrete to be poured is placed in ordinary concrete underwater It is preferable to use what added the admixture for fire-separated concrete.

Therefore, when the pillar cross-sectional enlargement further proceeds, the cross section of the pillar 102 is enlarged by increasing the durability of the piers 100 and increasing the load capacity.

In addition, since the cross-section of the pillar 102 is expanded together with the cross-sectional expansion of the foundation 101, the piers 100 have a characteristic of increasing durability as a whole.

1 is a process chart by the basic cross-sectional expansion method of the bridge using a pipe-shaped guide and formwork according to the present invention.

Figure 2 is a side view of the piers installed bracket on the pillar in accordance with the present invention.

Figure 3 is a bottom perspective view installed on the pillar in accordance with the present invention.

4 is an enlarged cross-sectional view of portion A of FIG.

Figure 5 is a side view of the piers installed support and guide in accordance with the present invention.

Figure 6 is a side view of the piers installed formwork in accordance with the present invention.

Figure 7 is a plan sectional view of the piers installed formwork in accordance with the present invention.

Figure 8 is a plan sectional view of the piers installed formwork according to a second embodiment of the present invention.

Figure 9 is a partial side cross-sectional view showing a state in which the reinforcement bar according to the present invention.

10 is a partial cross-sectional view showing a state in which the reinforcement bar according to the present invention.

Figure 11 is a side view of the foundation with an enlarged cross section in accordance with the present invention.

12 is a plan sectional view of a foundation having an enlarged cross section in accordance with the present invention.

13 is a side view of a foundation having an enlarged cross section according to a second embodiment of the present invention;

14 is a process chart according to the column cross-sectional expansion process of the present invention.

15 is a side view of a pier showing the column cross-section portion of the bridge to be enlarged in accordance with the present invention.

16 is a side view of the piers showing the outer cross section of the pillar with an enlarged cross section in accordance with the present invention;

FIG. 17 is a side elevational view of the piers showing a column section enlarged in section B of FIG. 15; FIG.

[Description of Code for Major Parts of Drawing]

10: support portion 20, 20 ': guide

30, 30 ′: Formwork 40, 60: Rebar

50, 70: concrete

100: pier 101: foundation

102: pillar

Claims (4)

A support part installation step (S1) of fixing and installing the support part 10 having an area for enlarging the pillars 102 of the piers 100 and enlarging the base 101 to the pillars 102; A guide installation step (S2) of installing and fixing the pipe-shaped guide 20 in a vertical direction along the outer edge of the support part 10; A formwork installation process (S3) for driving the formwork 30 along the inside of each of the installed guides 20 and fixing it to the floor; Forming top cleaning process (S4) to have a predetermined height of the upper end of the installed formwork (30); A guide dismantling step (S5) of removing the installed guide 20; A form fastening step (S6) of tying the formwork 30 together with each other; A guide 20 dismantling step (S7) of disassembling and removing the installed support part 10; Reinforcing bar reinforcement step (S8) for reinforcing the reinforcing bar 40 into the formwork 30; Concrete placing and curing process (S9) for pouring concrete 50 into the formwork 30; Foundation section extension method of the bridge using the guide and the form of the pipe, characterized in that completed by the demolding process (S10) to remove the formwork (30) around the pillar (102). The method of claim 1, The support unit 10 of the support unit installation step (S1) is composed of at least two, Consists of a bracket (11) and the support (12) for fixing to the pillar (102), The support 12 is composed of a truss structure surrounding the pillar 102, The bracket 11 is formed with a plurality of penetrating holes (11a), In the support unit installation step (S1), the bracket 11 is fixed to the pillar 102 by a fixing member through the fixing hole 11a, and the support 12 is fixed to the bracket 11, Basic section expansion method for bridges using pipe guides and formwork, characterized by easy installation of support. The method of claim 1, In the guide 20 installation step (S3), a secondary guide 20 ′ is installed in the installed guide 20, In the formwork installation process (S3) is also fixed to the floor by driving the secondary formwork (30 ') with the installed secondary guide (20'), In the disassembling step S3 of the guide 20, after disassembling all of the secondary guides 20 together with the guide 20 installed therein, a spherical wall installing step S3-1 for installing the order wall 31 outside the installed formwork is performed. Add, In the form fastening step (S6), after each fastening so as to integrate the formwork and the secondary formwork 30 'respectively, dredging operation (S5-1) for discharging soil, sand and gravel inside the formwork inside the formwork is added. , In the demolding step (S10), both the formwork 30 and the secondary formwork 30 'are removed, Basic section expansion method for bridges using pipe-shaped guides and formwork, which is easy to construct even if the depth of construction is deep. The method according to any one of claims 1 to 3, In the form fastening step (S6), Between the installed and neighboring formwork 30, the gasket 32 which fills the gap is inserted and installed, Basic section extension method for bridges using pipe guides and formwork, characterized by preventing the leakage of concrete.

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