KR101068682B1 - Inverted T Concrete Girder, Rahmen Bridge using Inverted T Concrete Girders and Constructing Method for Rahmen Bridge - Google Patents

Abstract

In the present invention, the construction of the upper structure of the ramen bridge using the inverted T-shaped girder with the letter T upside down, the construction difficulties due to the interference of the rebar when mounting a plurality of inverted T-girder in the direction perpendicular to the bridge axis To prevent damage to the flange part of the inverted T-girder and to prevent construction difficulties due to interference with the wall reinforcement when the inverted T-girder is mounted on the wall of the ramen bridge. It is about the inverted T-girder with the new structure, the ramen bridge using the same, and the construction method that can solve the problem caused by the increase of the self-weight due to the increase.

In the present invention has an inverted English letter T-shaped cross section consisting of the lower flange 10 and the abdomen 11; An edge between the lower flange 10 and the abdomen 11 is provided with coupling bars 14 having both ends embedded in the lower flange 10 and the abdomen 11, respectively; The reinforcing bar 14 is inverted T-girder, characterized in that located within the width of the lower flange 10 in the direction perpendicular to the axial axis, concrete girder using the inverted T-girder, and the ramen bridge and construction method Is provided.

Bridge, girder, ramen, flange, abdomen, throttle

Description

Inverted T Concrete Girder, Rahmen Bridge using Inverted T Concrete Girders and Constructing Method for Rahmen Bridge

The present invention relates to an inverted T concrete girder (hereinafter referred to as an "inverted T-type girder"), a ramen bridge using the same, and a construction method thereof. In the construction of the upper structure of the ramen bridge by using the structure, it is possible to reduce the construction difficulties due to the interference of the reinforcement when mounting the plurality of reverse T-girders in the direction perpendicular to the bridge axis and to prevent damage to the flange portion of the reverse T-girder. New construction to reduce the construction difficulties caused by interference with wall reinforcement when the inverted T-girder is mounted on the wall of the Ramen bridge, and to solve the problem caused by the increase of the weight due to the increase of the bridge length It is about the inverted T-girder, the ramen bridge and its construction method.

Ramen bridges are used for bridges with various geographies, but are especially used for bridges with geographies of about 10 to 15m. Recently, in order to solve various problems that a general ramen bridge has, a technique of constructing an upper structure of a ramen bridge by using an inverted T-shaped girder having a cross-sectional shape of an inverted letter T has been proposed.

Figure 1 is a schematic side view of a ramen bridge using such a reverse T-girder 100, Figure 2 is a cross-sectional view along the line AA of Figure 1 in the ramen bridge using a reverse T-girder bridge of the superstructure A cross-sectional view showing a rectangular cross section structure is shown.

As shown in the figure, a plurality of inverted T-shaped girders 100 are arranged successively in the axial direction of the bridge between the bridge wall 200, the concrete 300 is poured on top of it to form a superstructure ramen bridge It is constructed. In the drawing, the concrete 300 is shown in dashed lines in order to show the inverted T-girder 100 in detail.

In the case of the conventional ramen bridge using the reverse T-girder 100, it is disposed on the lower flange 101 of the reverse T-girder 100 for the coupling of the adjacent reverse T-girder 100 in the axial direction. Apart from the reinforced reinforcing bar 102, the end portion has a structure in which the transverse connecting reinforcing bar 110 having a hook shape protrudes from the abdomen of the inverse T-shaped girder 100 in the axial direction. However, when performing the operation of arranging the inverted T-shaped girder 100 of the hook-type transverse connecting reinforcement 110 side by side in the axial perpendicular direction in this way, the protruding transverse connecting reinforcement 110 Interference occurs between the construction is very difficult and there is a problem that the risk of occurrence of deformation and safety accident of the protruding transverse connecting reinforcement 110 is very high. In addition, in order to project the transverse connecting reinforcement 110 in the axially orthogonal direction from the abdomen of the reverse T-shaped girder 100, the reverse T-shaped girder 100 of the lower flange 101 The transverse connecting reinforcement 110 must be disposed to penetrate the abdomen, and thus the amount of used reinforcing bars is increased, resulting in an increase in cost.

On the other hand, in the ramen bridge using the conventional inverted T-girder 100, the inverted T-girder in the state where the end of the vertical reinforcing bars 201, which were reinforced to the wall 200, is exposed at the upper edge of the wall 200. The end of the 100 is mounted on the top of the wall 200, and the concrete 400 of the corner portion is poured to integrate the end of the inverted T-girder 100 and the top of the wall 200. However, since the end reinforcement 103 protrudes in the axial direction even at the end of the inverted T-girder 100, when the end of the inverted T-girder 100 is mounted, the longitudinal end reinforcement 103 of the inverted T-girder 100 is mounted. Interference occurs between the vertical reinforcing bars 201 and there is a problem in that it is very difficult to mount the inverted T-girder 100 to the top of the wall 200.

In the fabrication of the reverse T-girder 100, a tension member may be disposed inside to introduce a tension force to the reverse T-girder 100, and thus, when the tension force is introduced to the reverse T-girder 100, the reverse T-girder 100 100 is deformed so that the central portion rises up and both ends serve as support points. When the inverted T-girder 100 to which the bending deformation is applied is lifted and mounted on the wall 200, the lower flange portions at both ends of the inverted T-girder 100 functioning as supporting points become very fragile and damaged. There is a problem that the probability is very high.

The present invention was developed in order to solve various problems of the prior art, and because the transverse connecting bars protrude from the abdomen of the inverted T-girder in the axially orthogonal direction, the neighboring T-girder is parallel to the axially perpendicular direction. To provide new inverted T-girder technology that can prevent interference between projected transverse rebars, and consequent construction difficulties and deformation and safety accidents of projected transverse rebars. The purpose.

In addition, an object of the present invention is to provide a technique that can prevent the lower flange portion from being broken at both ends of the reverse T-girder when the tension force is introduced into the reverse T-girder to act as a support point. .

In addition, the present invention when the end of the inverted T-girder is mounted on the top of the wall, the technique to facilitate the operation by preventing interference between the longitudinal end reinforcement of the inverted T-girder and the reinforcing bar provided at the corner It aims to provide.

In addition, an object of the present invention is to provide a technique that can prevent the increase in the weight of the girder even if the inter-length of the ramen bridge in the construction of the ramen bridge using the inverted T-girder.

In order to achieve the above object, in the present invention, it has an inverted English letter T-shaped cross section consisting of the lower flange and the abdomen; A corner between the lower flange and the abdomen is provided with coupling bars having both ends embedded in the lower flange and the abdomen, respectively; The coupling bar is provided with an inverted T-girder, characterized in that it is located within the width of the lower flange in the direction of the axial cross.

In this inverted T-girder of the present invention, the lower flange is disposed in the lower flange in the axial direction perpendicular to the lower flange; The upper reinforcement bar is disposed in the abdominal direction perpendicular to the abdomen; The lower reinforcing bars and the upper reinforcing bars are connected to each other to form a closed shape, and the corners of the closed reinforcing bars may have a structure corresponding to the coupling bars, and both ends of the inverted T-girder may have a part of a lower flange. The cutout portion from which the is removed may be formed.

In addition, in the present invention, in order to achieve the above object, the lower flanges are manufactured to be integral with each other in the state in which the plurality of reverse T-girders are arranged adjacent to each other in a perpendicular direction of the axial axis; The space between the abdomen of the inverted T-girder is provided with a concrete girder, which is filled with a lightweight filler.

In addition, in the present invention, a plurality of reverse T-girder having an inverted English letter T-shaped cross section consisting of a lower flange and the abdomen, walls provided at both ends of the reverse T-girder, and an upper portion of the reverse T-girder A ramen bridge having a structure in which concrete is poured to form a bottom plate, wherein a corner between the lower flange and the abdomen of the inverted T-girder is provided with coupling bars having both ends embedded in the lower flange and the abdomen, respectively; The reinforcing bar is provided with a ramen bridge using an inverted T-girder, wherein the reinforcing bars are located within the width of the lower flange in the direction of the cross axial direction.

In the bridge of the present invention as described above, in the state before the inverted T-girder is placed on the upper end of the wall, the upper end of the wall is provided with a coupler that can be connected to the reinforcing bar; In the state in which both ends of the inverted T-girder is placed on the upper end of the wall, the vertical vertical reinforcing bar is coupled to the coupler and the concrete is poured in the state where the vertical vertical reinforcing bar is disposed at the corner above the upper wall of the inverted T type It may have a structure that integrally connects the girder and the wall.

Further, in the bridge of the present invention, both ends of the inverted T-girder are formed with cutouts in which a part of the lower flange is removed, so that when both ends of the inverted T-girder are placed at the upper end of the wall, It may have a structure in which both ends of the inverted T-girder are supported.

In addition, in the present invention, a plurality of reverse T-girder having an inverted T-shaped cross section consisting of an inverted flange and an abdomen, walls provided at both ends of the reverse T-girder, and an upper portion of the reverse T-girder A method of constructing a ramen bridge having a structure in which concrete is poured to form a bottom plate, wherein the inverted T-girder has coupling bars having both ends embedded in the lower flange and the abdomen at corners between the lower flange and the abdomen, respectively. The reinforcing bar is manufactured to be positioned within the width of the lower flange 10 in the axial direction of the throttle; A coupler to which the reinforcing bar is connected is embedded at the upper end of the wall; With both ends of the inverted T-girder placed at the upper end of the wall, the vertical vertical reinforcing bar is coupled to the coupler and placed at the corner on the upper end of the wall, and then the concrete is poured to integrate the inverted T-girder and the wall together. Provided is a method for constructing a ramen bridge using an inverted T-girder, characterized in that the connection to the furnace.

According to the present invention, in the inverted T-girder of the present invention, at each corner between the lower flange and the abdomen, coupling bars having both ends embedded in the lower flange and the abdomen are provided so as to protrude to the outside. Since it has a structure located inside of the lower flange, it is difficult to install due to the interference of reinforcing bars arranged in the perpendicular direction of the bridge even when placed next to the inverted T-girder adjacent to the direction of the intersection. It is possible to solve the problems of the prior art, such as deformation of the rebar. In addition, when connecting the reinforcing bar with the lower reinforcing bar reinforced on the lower flange, it is possible to extend the reinforcing bar reinforcing the lower flange to form the connecting reinforcing bar, thereby reducing the use of reinforcing bar, thereby reducing the construction cost. Exerted.

In addition, in the present invention, the lower flanges of neighboring reverse T-girders are manufactured to be integral with each other, and a space between the abdomen of the reverse T-girder is provided with a concrete girder filled with a lightweight filling material such as styrofoam. If the construction of the ramen bridge by using the has the advantage that can reduce the weight of the girder even if the length of the ramen bridge increases. In addition, in the ramen bridge of the present invention, since a plurality of inverted T-girders are integrally manufactured at the same time, the joints of the reinforcing bars in the perpendicular direction of the bridge are reduced, and the structural stability as well as the economic efficiency are exerted.

In addition, in the present invention, it is possible to combine the corner vertical reinforcing bars which are arranged at the corners between the upper end of the wall and the opposite ends of the inverted T-girder after the mounting of the inverted T-girder, so that there is no inverted T-girder It is possible to mount the end of the upper part of the wall, and thus it is possible to avoid the interference between the reinforcement compared to the prior art that the above work in the state where the vertical reinforcement exists, it is possible to prevent various difficulties in construction do.

Hereinafter, with reference to the accompanying drawings will be described in detail the inverted T-girder and ramen bridge using the same according to the present invention.

FIG. 3 is a cross-sectional view in a cross axial direction in which a plurality of inverted T-girders 1 according to the present invention are arranged successively in a cross axial direction to form a superstructure of a ramen bridge.

As shown in the figure, the inverted T-girder 1 according to the present invention has an inverted English letter T-shaped cross-section consisting of the lower flange 10 and the abdomen 11, the lower flange 10 and the abdomen In the corner between the 11 is provided in the form in which both ends are coupled reinforcing bar 14 embedded in the lower flange 10 and the abdomen 11, respectively.

In the embodiment shown in the drawings, the lower flange 10 is disposed in the lower reinforcement bar 12 in the direction perpendicular to the throttle, the abdomen 11 is disposed in the upper reinforcement bar 13 in the direction perpendicular to the throttle, the lower back force Reinforcing bars 12 and the upper reinforcing bars 13 are connected to each other to form a closed form, and the edge portion of the closed reinforcing bars has a structure corresponding to the coupling bar (14). However, in the present invention, the lower reinforcement bar 12 and the upper reinforcement bar 13 may not necessarily be closed. That is, only the coupling bar 14 and the upper reinforcing bar 13 may be connected to each other, only the coupling bar 14 and the lower lifting bar 12 may be connected to each other, and the coupling bar 14 is the upper lifting bar It may be connected to neither the 13 nor the lower backing steel 12, but only both ends may be embedded in the abdomen 11 and the lower flange 10.

In this way, when the reinforcing bar 14 is exposed to the outside, the reinforcing bar 14 does not protrude further to the outside of the lower flange 10 in the direction perpendicular to the axial axis. In the embodiment shown in the drawing, since the lower reinforcing bar 12 and the upper reinforcing bar 13 have a length less than or equal to the length of the lower flange 10 in the axial direction of the lower flange 10, the coupling reinforcement 14 is It is to be located inside the lower flange (10).

In the conventional inverted T-girder, the transverse connecting reinforcement 110 protrudes longer than the lower flange in the axially perpendicular direction from the abdomen of the inverted T-girder 100 to overlap with the transverse connecting reinforcement of the neighboring inverted T-girder. Although having a structure, in the reverse T-girder 1 of the present invention, as shown above, the coupling reinforcing bar 14 is exposed at the corner between the lower flange 10 and the abdomen 11, and the exposed part thereof is the lower flange 10. Since it has a structure that is located inside of the construction, due to the interference of the reinforcing bars arranged in the perpendicular direction of the axial axis even when arranged in succession with the neighboring inverted T-girder (1) in the perpendicular direction of the axial axis, occurrence of safety accidents, It is possible to solve the problems of the prior art, such as deformation of the rebar.

On the other hand, when the coupling reinforcing bar 14 is connected to the lower reinforcing bar 12 as described above, it is possible to extend the reinforcing bar reinforcing the lower flange 10 to form a coupling reinforcing bar 14, thereby reducing the amount of steel used It will be possible to enjoy the effect, such as construction cost reduction.

In FIG. 3, reference numeral 15 denotes a concrete 30 which is filled between the inverted T-shaped girders 1 and forms a bottom plate while connecting the coupling reinforcing bars 14 to each other between neighboring inverted T-shaped girders 1. The intermediate reinforcing bars 15 to reinforce, and the member number 16 is an abdominal reinforcing bar 16 for reinforcing the abdomen (11). In the present invention, there are no limitations on the intermediate lifting bar 15 and the abdominal reinforcing bar 16.

As described above, the inverse T-type girder 1 according to the present invention is disposed adjacent to each other in the direction perpendicular to the axial direction, and the intermediate lifting bars 15 and the like are installed, and then the site-casting concrete is poured on the upper part to form the upper structure of the ramen bridge. It will be constructed.

On the other hand, in the present invention, the inverted T-girder (1) may be modified to have a cross-section of a plurality of integrally connected to each other in the axial direction perpendicular to each other and filled with a lightweight filling material therebetween.

4 schematically shows a cross-section of an inverted T-shaped girder 1 according to the invention with two inverted T-shaped girders 1 integrally connected to one another in a cross axial direction. As shown in the drawing, the lower flanges 10 of the inverted T-girder 1 adjacent to each other are manufactured to be integral with each other, and the space between the abdomen 11 of the inverted T-girder 1 has a weight such as styrofoam or the like. A lightweight lightweight filler 40 can be filled. In this case, there is an advantage that the weight of the girder can be reduced even if the span length of the ramen bridge is increased, and furthermore, since a plurality of inverted T-girders (1) are manufactured integrally at the same time, the joints of the reinforcing bars in the perpendicular direction of the bridge are also reduced and the structure is reduced. Not only economic stability but also economic efficiency is improved.

In mounting the inverted T-girder 1 between the walls of the ramen bridges, the present invention can have the following structure.

5a and 5b show a detailed side view of the corner portion of the upper part of the wall 20 when the end of the inverted T-shaped girder 1 is mounted on the one side wall 20 in the ramen bridge according to the present invention. 5A shows a state before the edge vertical rebar 22 is coupled, and FIG. 5B shows a state in which the edge vertical rebar 22 is coupled and the concrete 31 is poured.

In mounting the end of the inverted T-shaped girder 1 on one side wall 20, the upper end of the wall 20 and the end of the inverted T-shaped girder 1 are integrated with the concrete 31 that is placed in the corner portion. To this end, the longitudinal end reinforcing bars 21 are exposed to the outside of the longitudinal T-girder 1 in the axial direction longer. A coupler 24 to which rebar can be connected is buried in an upper end of the wall 20. After mounting the end of the inverted T-girder 1 to the upper end of the wall 20 as shown in FIG. 5A, the edge vertical rebar 22 is coupled to the coupler 24 as shown in FIG. 5B to the wall. (20) It is placed in the corner above the upper end and subsequently poured concrete 31 to connect the inverted T-girder 1 and the wall 20 integrally. In the drawing, reference numeral 23 denotes a wall vertical reinforcing bar 23 arranged on the wall 20.

In the past, since vertical bars were already fixed to the upper edges of the walls, when the end of the reverse T-girder was mounted, interference between the longitudinal end bars of the reverse T-girder and the vertical bars was generated. It was very difficult to mount the reverse T-girder on the top of the wall. However, according to the present invention, since the end of the reverse T-shaped girder (1) is mounted on the upper end of the wall 20 in the absence of the vertical rebar, compared to the prior art of performing the above operation in the state of the vertical rebar between the rebar Interference, that is, interference between the vertical reinforcing bar 22 and the longitudinal end bar 21 can be avoided, thereby preventing various difficulties in construction.

On the other hand, in the fabrication of the reverse T-type girder 1 used for the ramen bridge, the tension member is disposed inside to introduce the tension force to the reverse T-type girder 1 in the direction of the arrow P. When the tension force is introduced into the reverse T-girder 1 as described above, the reverse T-shaped girder 1 is deformed so that the center portion rises upward and both ends serve as supporting points. FIG. 6 is a schematic side view of the inverted T-girder 1 showing a state in which bending deformation is generated in such a way that a tension force is introduced into the inverted T-girder 1 and the center portion rises upward.

When the tension force is introduced into the reverse T-girder 1 or the reverse T-girder 1 is lifted and mounted on the wall 20, both ends of the reverse T-girder 1 functioning as supporting points (circular in Fig. 6). The portion of the lower flange (10) is a very fragile portion and the possibility of breakage is very high. Therefore, in the present invention, the cutouts 17 in which a part of the lower flange 10 is removed are formed at both ends of the inverted T-girder 1. 7 shows an enlarged schematic view of one end of the inverted T-shaped girder 1 according to the invention so that the cutout 17 is visible. As shown in FIG. 7, at both ends of the inverted T-shaped girder 1 according to the invention there is a cutout 17 in the lower flange 11 at a predetermined length from the end. Therefore, when the inverted T-girder 1, which is deflected in the form of the central portion rising up, is placed on the wall 20, substantially the abdomen 11 of the inverted T-girder 1 functions as a support point. Damage to the lower flange 10 at the end of the girder 1 is prevented. In particular, when the cutout 17 is formed in this way, the amount of concrete used for manufacturing the reverse T-girder 1 is reduced by that amount, thereby reducing the weight of the reverse T-girder 1 and reducing the material weight. Economic improvements will also be enjoyed.

In manufacturing the inverted T-girder 1 of the present invention, since the concrete 30 is poured between the upper part of the inverted T-girder 1 and the neighboring inverted T-girder 1, the inverted T-girder 1 and In order to increase the adhesive force with the concrete 30, it is also preferable to form a groove or a pattern on the surface of the inverted T-girder 1 to roughen it.

1 is a schematic side view of a ramen bridge using a conventional inverted T-girder.

FIG. 2 is a cross-sectional view taken along the line A-A of FIG. 1 and showing a cross sectional perpendicular to the axial direction of the superstructure in a ramen bridge using a conventional inverted T-girder.

Figure 3 is a cross-sectional view of the cross direction perpendicular to the state in which a plurality of inverse T-shaped girders in accordance with the present invention are arranged in succession in the direction perpendicular to the axial axis to form the upper structure of the ramen bridge.

4 is a schematic cross-sectional view of a state in which two inverted T-girders are integrally connected to each other in a perpendicular direction in an axial direction as another embodiment of the present invention.

5A and 5B are detailed side views of the corner portion of the upper wall of the wall when the end of the inverted T-shaped girder is mounted on one wall, respectively, in the ramen bridge according to the present invention.

Figure 6 is a schematic side view showing a state in which bending deformation occurs in the form in which the tension is introduced to the inverted T-girder in the present invention the center portion rises up.

FIG. 7 is an enlarged schematic view of one end of the inverted T-girder in order to easily see the cutout in the embodiment shown in FIG. 6.

Explanation of symbols on the main parts of the drawings

1: reverse T-girder 2: wall

10: lower flange 11: abdomen

14: bonded rebar

Claims (10)

An inverted English letter T-shaped cross section consisting of the lower flange 10 and the abdomen 11; An edge between the lower flange 10 and the abdomen 11 is provided with coupling bars 14 having both ends embedded in the lower flange 10 and the abdomen 11, respectively; The reinforcing bar (14) is inverted T-shaped girders, characterized in that located within the width of the lower flange (10) in the orthogonal direction. The method of claim 1, A lower backing reinforcement (12) is disposed on the lower flange (10) in an orthogonal direction; The upper reinforcing bar 13 is disposed in the axial direction perpendicular to the abdomen 11; The lower reinforcing bar 12 and the upper reinforcing bar 13 is connected to each other to form a closed form, and the inverted T-shaped girder, characterized in that the corner portion of the closed reinforcing bar corresponds to the coupling reinforcing bar (14). The method according to claim 1 or 2, Inverted T-shaped girder, characterized in that the cut-out portion (17) from which a part of the lower flange 10 is removed at both ends of the reverse T-girder (1). delete delete A plurality of inverted T-girders (1) having an inverted English letter T-shaped cross section consisting of a lower flange (10) and an abdomen (11), and wall bodies (2) provided at both ends of the inverted T-girder (1); ) And a ramen bridge having a structure in which concrete is poured on top of the inverted T-girder 1 to form a bottom plate, The corner between the lower flange 10 and the abdomen 11 of the inverted T-girder 1 is provided with coupling bars 14 having both ends embedded in the lower flange 10 and the abdomen 11, respectively. ; The coupling reinforcing bar (14) is a ramen bridge using an inverted T-girder, characterized in that located within the width of the lower flange (10) in the direction perpendicular to the axial axis. The method of claim 6, A lower backing reinforcement (12) is disposed at the lower flange (10) of the inverse T-shaped girder (1) in the direction perpendicular to the throttle; The upper reinforcing bar 13 is disposed in the axial direction perpendicular to the abdomen 11; The lower reinforcement bar 12 and the upper reinforcement bar 13 is connected to each other to form a closed form and the inverted T-shaped girder, characterized in that the corner portion of the closed reinforcement bar corresponds to the coupling reinforcement 14 Used ramen bridge. 8. The method according to claim 6 or 7, In the state before the inverted T-girder (1) is placed on the upper end of the wall (2), the upper end of the wall (2) is provided with a coupler (24) that can be connected to the reinforcing bar; With both ends of the inverted T-girder 1 lying at the upper end of the wall 2, a vertical edge reinforcing bar 22 is coupled to the coupler 24 and is cornered at the corner above the upper end of the wall 20. Ramen bridge using the inverted T-girder, characterized in that the concrete 31 is poured in the state that the secondary vertical reinforcing bar 22 is disposed to integrally connect the inverted T-girder 1 and the wall 20 . The method of claim 8, Both ends of the inverted T-girder 1 are formed with a cutout 17 from which a part of the lower flange 10 is removed, so that both ends of the inverted T-girder 1 are placed at the upper end of the wall 2. Ramen bridge using an inverted T-girder, characterized in that both ends of the inverted T-girder (1) are supported by the abdomen (11). A plurality of inverted T-girders (1) having an inverted English letter T-shaped cross section consisting of a lower flange (10) and an abdomen (11), and a wall (2) provided at both ends of the inverted T-girder (1). And, as the construction method of the ramen bridge having a structure in which concrete is poured on the upper portion of the inverted T-girder (1) to form a bottom plate, The inverted T-girder 1 is provided with a coupling reinforcing bar 14 having both ends embedded in the lower flange 10 and the abdomen 11 at the corner between the lower flange 10 and the abdomen 11, respectively. The reinforcing bar (14) is manufactured to be located within the width of the lower flange (10) in the direction perpendicular to the axial direction; A coupler 24 to which rebar can be connected is embedded at the upper end of the wall 2; In the state where both ends of the inverted T-girder (1) is placed on the upper end of the wall (2), the edge vertical reinforcing bar 22 is coupled to the coupler 24 and disposed in the corner above the upper end of the wall (20) And subsequently placing concrete 31 to connect the reverse T-type girder 1 and the wall 20 integrally, the construction method of the ramen bridge using the reverse T-girder.

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