KR101169460B1 - Box girder inbased footing member to inner box and bridge construction method using the same - Google Patents

Abstract

PURPOSE: A concrete box girder having a soundproof wall foundation and a construction method of a bridge structure using the same are provided to enable the cost-efficient construction of a bridge structure by optimizing the cross-section of the bridge structure. CONSTITUTION: A concrete box girder(200) having a soundproof wall foundation comprises a lower flange(230), side walls(220), an upper flange(210), a soundproof wall foundation(110), and EPS blocks(240). The side walls are extended upward from both sides of the lower flange. The upper flange is formed on the top ends of the side walls. The soundproof wall foundation is formed between the bottom surface of the upper flange and the top surface of the lower flange in a vertical wall shape. The EPS blocks are buried between the soundproof wall foundation and the side walls.

Description

BOX GIRDER INBASED FOOTING MEMBER TO INNER BOX AND BRIDGE CONSTRUCTION METHOD USING THE SAME}

The present invention relates to a concrete box girder and a bridge structure construction method using the soundproof wall foundation. More specifically, a concrete box girder in which a soundproof wall foundation can be constructed more economically and efficiently using a concrete box girder can be constructed using a concrete box girder, such as a loop type soundproof tunnel, and a bridge structure construction method using the same It is about.

Recently, many soundproof walls have been installed as environmentally friendly noise prevention facilities.

Such a soundproof wall is generally constructed by constructing a foundation formed of concrete on both sidewalls of a road, installing a steel frame on the upper end thereof, and installing a vertical soundproof plate (transparent soundproof board, etc.) between the steel frame supports. .

In particular, the transparent soundproof wall construction does not block the driver's field of view, so that the open field of view can be secured.

Furthermore, in the case of a detachable tunnel structure such as an underground road or a lamp-type road, there is an example in which the soundproof wall is constructed in the form of an arch-type roof soundproof tunnel when there are apartments, schools, and the like in FIG. 1A. .

That is, according to Figure 1a, when the soundproof plate 1 is installed, the support posts 2 are installed at regular intervals (usually 2M) in the middle of the upper end of the base portion 3,

The roof type soundproof tunnel (tunnel type soundproof tunnel) is constructed by inserting the sound insulation board 1 in turn between these pillars 2.

However, when such a roof soundproof tunnel is installed in a bridge, the weight of the loop soundproof tunnel must be primarily burdened by the bridge, so the foundation part 3 for supporting the actual loop soundproof tunnel and the foundation part ( The structural cross section of the slab 4 in which 3) is installed is inevitably increased.

In particular, when it is necessary to additionally install the roof type soundproof tunnel to the existing bridge, the situation arises that the additional bridges (reinforcement of the slab and girder) due to the weight of the loop type soundproof tunnel to be installed.

Therefore, the additional installation of the roof type soundproof tunnel type in the existing bridges will be forced to increase construction problems and construction costs due to the problem of reinforcing the existing bridges.

Therefore, existing bridges were left intact, and a method of installing additional bridge structures for installing a loop soundproof tunnel at both sides has been proposed.

In other words, the bridge structure for supporting the roof soundproof tunnel from the side of the bridge is to be installed separately.

This bridge structure is similar to the construction of a new bridge on the side of the existing bridge (A), not just a vehicle passes, but a bridge structure for installing a roof soundproof tunnel.

Figure 1b shows an example of such a bridge structure for a soundproof tunnel.

That is, the bridge structure is installed a plurality of lower support structure 10, such as a bridge in the longitudinal direction to the side of the existing bridge (A), and extends in the longitudinal direction as a girder or beam form between the lower support structure (10) Install the concrete box girder 20,

Install the roof type soundproof tunnel foundation 30 on the upper surface of the concrete box girder 20,

The soundproof wall support 40 is installed on the roof type soundproof tunnel foundation 30, and the soundproof plate 50 is installed on the soundproof wall support 40.

That is, it may be said that the roof type soundproof tunnel is additionally installed in the concrete box girder 20 on the lower support structure 10 such as a pier.

However, when installing the roof type soundproof tunnel foundation 30 on the upper surface of the concrete box girder 20, the weight of both the base portion 30 and the strut 40 and the soundproof plate 50 concrete box girder 20 ) Can only support all, the cross-sectional design of the concrete box girder 20 becomes very important.

That is, the concrete box girder 20 is not enough to support the load of the bridge passing through the vehicle, but should be manufactured in a cross section that can support the loop soundproof tunnel, but should be made as economically as possible, and for transportation and installation. The weight should be reduced as much as possible.

The concrete box girder 20 may be used as a conventional steel box girder, but the steel box girder is expensive, so the concrete box girder is used.

In order to overcome this disadvantage, in order to reduce the weight, a weight reduction means such as an EPS block 24 is installed therein.

As a result, a concrete box girder having a concrete weight reduced by the volume occupied by the EPS block is used. Referring to FIG. 1B, the upper flange 21, both side walls 22, and the lower flange 23 have a rectangular cross-sectional shape. It can be seen that it is formed of the EPS block 24 buried between both sidewalls 22.

However, even in the use of such a concrete box girder 20, the problem is that it is difficult to fully support the weight of the base 30 and the support 40 and the sound insulation panel 50 for the loop type soundproof tunnel with only the upper flange (21). to be.

In other words, the upper flange 21 around the base portion 30 is likely to cause cracks due to punching shear and the like, so that supplementary means such as increasing the thickness of the upper flange 21 are required.

Of course, if there is a limit to increase the thickness of the upper flange, it is also possible to use a concrete box girders of solid section (EPS block not installed) of the solid section for structural safety, but in this case the weight of the longitudinal girders 20 will be too large, so As such, it is not easy to carry and install, and thus, the lower support structure 10 also has a problem in that its cross section becomes large and the overall air extension and cost must increase.

In addition, the load acting on the soundproof wall is different from the vertical direction, which is the load acting direction of the existing bridge structure. Therefore, the cross-sectional shape of the bridge is governed by the torsional moment due to the horizontal load. Therefore, it is difficult to withstand the torsional moment due to the horizontal load acting on the soundproof wall with the existing I-shaped cross section.

Accordingly, the present invention is to bridge the bridge structure consisting of a concrete box girder and the lower support structure to newly install a soundproof wall on both sides or one side of the existing bridge (A), it is possible to minimize the weight of the concrete box girder, the structure sufficiently The present invention provides a concrete box girder formed therein and a bridge structure construction method using the same, in which a soundproof wall foundation for constructing the bridge structure more economically can be supported and can be easily manufactured and transported and installed.

According to an aspect of the present invention,

First, in order to construct a bridge structure for newly constructing a soundproof wall on both sides or one side of an existing bridge (A), a concrete box girder is installed on the lower support structure and the lower support structure, and the soundproof wall foundation is provided on the concrete box girder. Install wealth,

At this time, the concrete box girder is to embed the EPS block therein to reduce its own weight.

In this case, the concrete box girder has an EPS block embedded therein and is formed of an upper flange, both sidewalls, and a lower flange, but supports a pillar and a soundproof plate (soundproof wall) of the loop type soundproof tunnel between the bottom surface of the upper flange and the upper surface of the lower flange. The foundation of the soundproof wall foundation in the form of a straight wall is installed in advance.

In other words, in the concrete box girder, the soundproof wall foundation is formed between the upper surface of the concrete box girder and the bottom of the lower flange and the center of the upper surface name so that the soundproof wall foundation of the structure is formed inside the concrete box girder.

After all, in the present invention, when constructing a new bridge structure on the side of an existing bridge, the upper flange is a part except the soundproof wall foundation of the bridge structure because the soundproof wall foundation for installing the soundproof wall is formed inside the concrete box girder. It is not necessary to reinforce the upper flange separately because it only needs to bear the load of the column and sound insulation board.

Second, since the soundproof wall foundation installed inside the concrete box girder is intended to support the weight of the strut and soundproof plate, the soundproof wall foundation may be continuously formed longitudinally in the concrete box girder but spaced apart from each other. It could be formed as.

Third, in the construction of the concrete box girder in order to install additionally in the side of the existing bridge, the lower support structure is to be installed, the height of the lower support structure is to increase the construction of the concrete box girder at high altitude because the construction is very poor. Accordingly, the concrete box girder is made in advance of the cast-in-place concrete method or about half of the cross-sectional height, and the rest can be installed by additional installation after installing the lower support structure.

In addition, the concrete box girder is to be introduced to the prestress using a tension material to be efficiently used in the construction of the bridge between the long span.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

In the case of a bridge structure installed on the side of an existing bridge, which is large in weight, such as a loop type soundproof tunnel (soundproof wall) according to the present invention, after the foundation of the soundproof wall is separately constructed, the cross-section of the bridge structure can be more optimized. Economical construction is possible.

In other words, in order to construct a structure such as a loop type soundproof tunnel (soundproof wall) on an existing bridge, it is necessary to reinforce the existing bridge. However, if such reinforcement is not feasible, a new bridge structure is installed on the side of the existing bridge, and the soundproof wall is used as the new bridge structure. Will be installed on

At this time, the construction of the new bridge structure can be constructed more economically by optimizing the cross section and minimizing its own weight so that the construction can be performed.

Figure 1a is a construction attempt of the conventional soundproof tunnel,
Figure 1b is a construction of a conventional structure (loop soundproof tunnel) installed on the side of the bridge.
2a and 2b is an exploded perspective view of a concrete box girder according to the present invention,
3a and 3b is a perspective view of another concrete box girder according to the present invention,
Figure 4 is a bridge structural construction according to the present invention,
5a and 5b is a construction sequence diagram of the bridge structure according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

[Concrete box girder with soundproof wall foundation formed inside]

The present invention is a concrete box girder 200, the lower support structure for supporting the concrete box girder 200 is made to be formed inside the soundproof wall foundation 110 of the bridge structure 100, as shown in Figure 2a and 2b It consists of 300.

First, the bridge structure 100 will be described based on the case where a loop type soundproof tunnel (soundproof wall) is installed.

Accordingly, the bridge structure 100 includes a soundproof wall foundation 110 made of concrete and a soundproof wall 120 installed on an upper surface of the soundproof wall foundation 110 as shown in FIG. 4.

The soundproof wall 120 is formed of a support 121 and a soundproof plate 122 installed between the support post 121 and a plurality of spaced apart in the longitudinal direction on the upper surface of the soundproof wall foundation 110, the soundproof wall 120 is It can be seen that the arch form.

At this time, the soundproof wall 120 is necessary to make a soundproof wall foundation 110 made of concrete to support the support 121 and the soundproof plate 122. According to the conventional method is made of the concrete as shown in Figure 1b The concrete box girders had to be installed in such a way that the weight of the soundproof wall foundation and the soundproof walls were all transferred to the concrete box girders.

Accordingly, the upper flange of the concrete box girder is bound to cause problems such as the occurrence of dead cracks around the foundation due to excessive load action.

Therefore, the present invention is not to be installed on the upper surface of the upper flange 210 of the soundproof wall foundation 110 of the structure, it is to be formed in the concrete box girder 200.

Looking at the concrete box girder 200 of the present invention

It can be seen that the cross-sectional shape consisting of the upper flange 210, both side walls 220, the lower flange 230 as shown in Figure 2a to be manufactured in the form of a box girder in which the EPS block 240 is embedded in order to reduce its own weight. have.

The reason for the manufacture of the box girders as described above is that the structure such as the loop type soundproof tunnel generates horizontal loads such as wind loads, so that buckling and twisting act on the girders fixing the lower part of the structure.

Therefore, the girder is manufactured as a box girder so as to minimize the effects of such buckling.

Furthermore, the soundproof wall foundation 110 of the structure is formed to be formed at the time of manufacturing the concrete box girder 200 to extend in the longitudinal direction inside the concrete box girder 200.

The soundproof wall foundation 110 of the structure is formed in the vertical wall form in the center between the bottom surface of the upper flange 210 and the upper surface of the lower flange 230 of the concrete box girder 200 as shown in Figure 2a to form a continuous in the longitudinal direction Or

2b may be spaced apart from each other in the longitudinal direction in the form of a columnar structure.

At this time, the upper portion of the soundproof wall foundation 110 of the structure may be formed to protrude upward more from the upper surface (upper flange upper surface) of the concrete box girder 200, to secure the support for installing the soundproof wall 120 to be.

Furthermore, the protruding portion and the base portion 110 formed in the concrete box girder 200 may be further provided with a vertical reinforcing member 250 such as an anchor bolt or a vertical reinforcing bar for reinforcement.

As such, the weight (weight) of the bridge structure 100 is transferred to the upper flange 210 of the concrete box girder 200 and the soundproof wall foundation 110 formed inside the concrete box girder 200, whereby the upper flange is shared. There is less load to cause less cracks, etc. The soundproof wall foundation 110 has a function to ensure that the load is stably transmitted to the final lower support structure 300 while supporting the load as a kind of columnar structure. have.

In addition, the concrete box girder 200 is an extended upper flange 210a protruding to both sides as shown in Figure 3a, both side walls 220 of the vertical wall form and the lower flange 230 of the horizontal plate form, the expansion Formed by including a soundproof wall foundation 110 of the structure formed between the bottom surface of the upper flange (210a) and the upper surface of the lower flange 230 and the EPS block 240 formed between both sidewalls on both sides of the soundproof wall foundation (110) Can be,

As shown in FIG. 3b, the concrete box girder 200 has an extended upper flange 210a which protrudes to both sides, an inclined both sidewall 220a having a shape that goes downward, and a lower flange 230 having a horizontal plate shape. It may be formed including a soundproof wall foundation 110 of the structure formed between the bottom of the upper upper flange 210a and the lower flange 230 and the EPS block 240 formed between both sidewalls on both sides of the foundation. It can be seen.

Further, the lower support structure 300 of the present invention is a bridge supporting structure 100, the concrete box girder 200 is made of a bridge 310 installed in the longitudinal direction spaced on the ground (G).

Thus, it can be seen that the structure supporting bridge structure according to the present invention is used to install a bridge structure 100 such as a loop type soundproof tunnel on both sides of an existing bridge A through which a conventional vehicle passes, as shown in FIG. 4.

That is, it can be seen that the lower support structure 300 of the present invention on both sides of the existing bridge (A) is first installed a plurality of longitudinally spaced apart.

It can be seen that the concrete box girder 200, in which the soundproof wall foundation 110 of the bridge structure is pre-formed between the lower support structures 300, is installed using a bridge support, etc., not shown.

It can be seen that the soundproof wall 120 of the loop type soundproof tunnel type is installed on the upper surface of the concrete box girder 200.

It can be seen that the soundproof wall 120 is composed of a soundproof plate 122 installed between the support 121 and the support 121 on the upper surface of the soundproof wall foundation 110 of the bridge structure.

In addition, the concrete box girder 200 should be manufactured with a long span as the span between the lower supporting structures 300 as the bending member increases. Preferably, the prestress is introduced by using a tension member not shown over the entire extension length. It can be produced as a long box concrete box girder 200. Therefore, the concrete box girder 200 of the present invention may be made of prestressed concrete box girder in which prestress is introduced by a reinforced concrete box girder or a tension member.

[Construction method of bridge structure using concrete box girder with foundation part inside]

The construction method looks at the concrete box girder 200 according to Figure 2a.

First, the lower support structure 300 of the present invention will be constructed on both sides or one side of the existing bridge (A) as shown in FIG. 5A.

The lower support structure 300 is installed by installing a plurality of piers 310 spaced apart in the longitudinal direction.

A concrete box girder 200 is installed on the upper portion of the lower support structure 300. The concrete box girder 200 is constructed of a precast concrete box girder 200, which is prefabricated in a factory, such as a crane not shown. It may be installed so that both ends are supported by the bridge support installed in the lower support structure 300 by lifting with a device.

However, when the height of the lower support structure 300 is increased, it is impossible to lift by a lifting device such as a crane in the field conditions, so that the high work is made, or the extension length of the concrete box girder 200 is increased If the weight is increased, the workability of manufacturing, transporting and installation may be reduced.

The concrete box girder 200 may be installed by using cast-in-place concrete and formwork, but preferably, a part of the concrete box girder 200 corresponding to approximately half of the cross section height H as shown in FIG. After the precast concrete box girder (200a), and the remaining half of the concrete box girder (200b) after installing the precast concrete box girder (200a) on the lower support structure 300, the precast concrete box girder (200a) In addition to installing the formwork 260 in the cast-in-place concrete is to be finished.

In the interior of the concrete box girder 200, the soundproof wall foundation 110 of the structure is formed in advance, and will be constructed to be finally completed in the field.

Next, as shown in FIG. 5B, the soundproof wall 120 is installed on the top of the soundproof wall foundation 110 formed in the concrete box girder 200 on the finished concrete box girder 200.

That is, the upper surface of the soundproof wall foundation 110 of the bridge structure (in detail, the anchor plate upper surface fixed by the anchor bolt on the upper surface of the protrusion formed on the upper flange 210 of the concrete box girder 200) in the longitudinal direction. By installing the struts 121 so that a plurality of the spaced apart from each other and installing the soundproof plate 122 is inserted between the struts 121 to install the arched soundproof wall 120.

As a result, it can be seen that the new bridge structure 100 is newly installed by the concrete box girder 200 and the lower support structure 300 around the final existing bridge (A).

100: bridge structure
110: soundproof wall foundation
120: soundproof wall
121: prop 122: soundproof plate
200: concrete box girder
210: upper flange 220: both side walls
230: lower flange 240: EPS block
250: vertical reinforcement 260: formwork
300: lower support structure 310: pier

Claims (7)

Existing bridge (A) In order to construct the bridge structure 100 for the new construction of the soundproof wall 120 on both sides or one side, the lower support structure 300 and the concrete box girder (top) on the lower support structure (300) 200, install the soundproof wall foundation 110 in the concrete box girder 200,
The concrete box girder 200 has a lower flange 230; Both sidewalls 220 extending upwardly at both sides of the lower flange 230; Upper flange 210 formed on the upper side of the side wall 220; Soundproof wall foundation 110 formed in the form of a vertical wall in the center between the bottom of the upper flange 210 and the bottom of the lower flange 230; And an EPS block 240 buried between the soundproof wall foundation 110 and both sidewalls 220.
The soundproof wall foundation 110 is formed in the concrete box girder 200 to extend continuously in the longitudinal direction, or a concrete box girder formed inside the soundproof wall foundation, characterized in that formed in the longitudinal direction spaced apart. delete delete Installing the lower support structure 300 on both sides or one side of the existing bridge (A); And
A lower flange 230 on an upper surface of the lower support structure 300; Both sidewalls 220 extending upwardly at both sides of the lower flange 230; Upper flanges 210 formed on both sidewalls 220; A soundproof wall foundation 110 formed in a vertical wall shape at the center between the bottom of the upper flange 210 and the bottom of the lower flange 230 so that the soundproof wall 120 is installed on the top; Constructing a new bridge structure 100 by installing a plurality of concrete box girders 200 including a plurality of EPS box 240 embedded between the soundproof wall foundation 110 and both sidewalls 220 in a longitudinal direction. ;;
The soundproof wall foundation 110 is formed to extend continuously in the longitudinal direction inside the concrete box girder 200, or the soundproof wall foundation is formed using a concrete box girder, characterized in that formed in the longitudinal direction spaced apart Bridge structure construction method. delete The method of claim 4, wherein the concrete box girder 200
Installed on the upper surface of the lower support structure 300 as a concrete box girder completed in the factory,
Bridge structure construction method using a concrete box girder formed inside the soundproof wall foundation, characterized in that the pre-fabricated part is installed on the upper surface of the lower support structure 300, the remaining part is made of formwork 260 and cast-in-place concrete . The method according to claim 4, wherein the concrete box girder 200 is made of reinforced concrete box girder or prestressed concrete box girder.

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