KR101184773B1 - Constructing method of cable bridge using free cantilever method - Google Patents

Abstract

PURPOSE: A construction method of a cable-stayed bridge for reducing construction time by changing the installation order of a support cable using the temporary connection of segments is provided to reduce time required for constructing an upper structure of a cable-stayed bridge. CONSTITUTION: A construction method of a cable-stayed bridge for reducing construction time by changing the installation order of a support cable using the temporary connection of segments is as follows. A movable form installation device(200) is installed on a first segment(102) and installs a form a second segment(103) is installed on the front of the first segment. The second segment is manufactured by placing concrete in the form. The first and second segments are connected to each other using a temporary connection assembly. The movable form installation device is moved to the second segment before a support cable(300) is connected to the second segment and tensioned. The moved movable form installation device installs a form for a third segment is installed on the front of the second segment. The third segment is manufactured by placing concrete in the form.

Description

Construction method of cable-stayed bridge to shorten air by changing the order of supporting cable installation by temporary connection of segments {Constructing Method of Cable Bridge using Free Cantilever Method}

The present invention relates to a method for constructing a bridge by a cantilever method, and specifically a cantilever for advancing a bridge deck using a form traveler on a bridge and a bridge deck that have already been constructed without a circle bar. In the construction of the cable-stayed bridge by the so-called FCM (Free Cantilever Method), the newly installed segment is temporarily connected with the already installed segment, and then the movable formwork is installed to install the formwork for the new segment, and the support cable is connected. By having a constitution, the construction method of the cable-stayed bridge that shortens the air required for the completion of the bridge by improving the construction speed.

In the construction of cable-stayed bridges, the cantilevering method, which is a free cantilever method (FCM), that uses a form-former to move the bridge deck forward on the bridges and bridge decks already constructed. It is used. 1 to 4 show side views of the state in which the upper structure of the cable-stayed bridge is constructed by a conventional FCM, respectively. As shown in the drawing, the FCM divides the bridge superstructure into a plurality of segments in the bridge direction, and sequentially forms each segment in the arrow M direction of FIG. 1 to construct the entire bridge superstructure.

In the prior art, first, as shown in FIG. 1, the n-th segment 101 of the bridge superstructure and the n-th segment 102 subsequent thereto are constructed. After the movable formwork 200 is installed on the upper part of the segment 102 or the n-th segment 102 and the n-second segment 101, the n-th segment 103 is manufactured. Forming the formwork for the front of the n-th segment 102 and the concrete is poured to produce the n-th segment 103. In FIG. 1, the nth segment 103 is shaded to indicate that the concrete of the nth segment 103 is not sufficiently cured yet.

FIG. 2 shows a tensioned state in which the support cable 300 is connected to the nth segment 103 after the state shown in FIG. 1, and a sufficient curing period of the concrete of the nth segment 103 has passed. Afterwards, the support cable 300 for supporting the nth segment 103 is connected to the nth segment 103 to tension the support cable 300 in the direction of arrow A of FIG. 2.

In this way, when the n-th segment 103 is supported by the support cable 300, the n-th segment 103 even if the load by the movable formwork 200 acts on the n-th segment 103. ) And the n-th segment 102 can be maintained, so after moving the movable formwork 200 above the n-th segment 103 as shown in FIG. 3, the n-th segment ( In front of 103, the formwork 210 for the n + 1th segment 104 is installed. And, as shown in Figure 4, the concrete for the n + 1 st segment 104 is installed in the formwork 210 and the concrete is poured in front of the n + 1 st segment 104 in front of the n th segment 103 ) Will be manufactured integrally. By repeating the above process, that is, the process illustrated in FIGS. 1 to 4, the superstructure is constructed to build a cable-stayed bridge.

As described above, in the prior art, in order to manufacture the n + 1th segment 104 subsequent to the manufacture of the nth segment 103, the concrete is sufficiently connected to the support cable 300 to the nth segment 103. Not only needs to be sufficiently cured, but the support cable 300 is connected to the nth segment 103 and is tensioned so that the nth segment 103 is supported by the support cable 300 to be suspended. That is, only after the n th segment 103 is supported by the support cable 300, the movable formwork apparatus 200 may move and be mounted on the n th segment 103. By the way, connecting the support cable 300 to the segment, tensioning the support cable 300 is a time-consuming task.

Therefore, in the prior art, the movable formwork 200 cannot move to the n-th segment 103 without supporting the n-th segment 103 by the support cable 300, and thus, the support cable 300 may not be moved. Since it takes a considerable amount of time to connect to the n-th segment, the mobile formwork 200 is mounted on the n-th segment 103 until the manufacture of the n + 1th segment 104 is started. It takes a long time, there is a problem that the production of the n + 1 st segment 104 is delayed to increase the time required for the overall bridge construction.

See Republic of Korea Patent Publication No. 10-0775580 (Nov. 15, 2007).

The present invention was developed to solve the limitations and problems of the prior art as described above, specifically, in the construction of the upper structure of the cable-stayed bridge by FCM, by connecting the support cable to the n-th segment, the mobile formwork installation apparatus Even if it is mounted on the nth segment, it is necessary to solve the air delay problem caused by the manufacture of the n + 1th segment only after the nth segment is made to support the load by the movable formwork. The purpose.

That is, in the present invention, when the manufacturing of the n-th segment is completed, even if the support cable is connected to the n-th segment before the tension work is performed, the movable formwork is moved to the n-th segment and mounted to the n-th segment. It is an object to shorten the air required to construct the superstructure of the cable-stayed bridge by allowing the manufacture of the first segment.

In order to achieve the above object, in the present invention, the n-th segment is continuously installed adjacent to the n-th segment, and subsequently, the n + 1-th segment is continuously installed to manufacture a plurality of segments sequentially. As the installation method of the cable-stayed bridge which connects the supporting cable to each segment and builds the upper structure on the pier by tensioning the supporting cable while being installed continuously, the mobile formwork is installed in the n-1th segment to install the nth segment. A first step of manufacturing a formwork for fabricating the n-th segment by installing concrete in front of the n-th segment and placing concrete; After the n-th segment and the n-th segment are connected and supported by a hypothetical coupling assembly, the movable formwork is moved to the n-th segment by connecting the support cable to the n-th segment before tensioning. A second step of performing a task of mounting the movable formwork installation apparatus on the; And in parallel with the tensioning operation by connecting the support cable to the nth segment, the formwork for the n + 1th segment is moved to the nth segment using the movable formwork installed in the nth segment. The installation method of the cable-stayed bridge is provided by constructing an upper structure by repeating the third step of installing the n + 1th segment by installing concrete in front of the nth segment.

In the present invention, the hypothetical connection assembly, a pair of fixing devices that are fixed to each of the upper surface of the adjacent segments, and the pair of fixing devices are arranged in the axial direction between the pair of fixing devices fixed to the pair of It may comprise a longitudinal connecting member connecting the devices to each other.

According to the present invention, in forming the upper structure of the cable-stayed bridge using the FCM, in the plurality of segments constituting the upper structure, when the production of the n-th segment is completed, the work to connect the tension to the support cable to the n-th segment In this state before the completion, the mobile formwork is mounted on the nth segment, so that the manufacture of the n + 1th segment can be started. Therefore, the air required for the construction of the upper structure of the cable-stayed bridge can be greatly reduced. Therefore, the time required for the construction of the overall cable-stayed bridge can be reduced, thereby reducing the construction cost.

1 to 4 are schematic side views showing the step of constructing the superstructure of the cable-stayed bridge by the conventional FCM, respectively.
FIG. 5 is a schematic side view illustrating a state in which the n-th segment is manufactured by the movable formwork in the state in which the n-second segment and the n-th segment are constructed in the construction method according to the present invention.
FIG. 6 is a schematic side view illustrating a state in which the n-th segment and the n-th segment are connected by a temporary connecting device and the movable formwork is moved to the n-th segment following the state shown in FIG. 5.
FIG. 7 is a schematic excerpt perspective view of the circle C portion of FIG. 6. FIG.
FIG. 8 is a schematic side view illustrating a state in which a formwork for manufacturing the n + 1th segment is installed at the same time as the support cable is connected to the nth segment subsequent to the state shown in FIG. 6.
FIG. 9 is a schematic side view illustrating a state in which an n + 1 segment is manufactured following the state shown in FIG. 8.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

5, 6 and 8 to 9 are schematic side views showing each step of constructing the superstructure of a cable-stayed bridge by FCM according to the present invention, respectively. FIG. 7 is a schematic excerpt perspective view of the circle C portion of FIG. 6. FIG.

As shown in the figure, in the cable-stayed bridge construction method according to the present invention, while manufacturing the upper structure to be built on the pier sequentially into segments of a predetermined length, using a FCM that connects the support cable to each segment and tension the support cable 5 to 9, the movable formwork is mounted on the nth segment by moving the support cable to the nth segment before the tensioning operation is performed. Production of the segment can be started. That is, in the present invention, before the support cable connection / tensioning operation of the n-th segment is completed, the movable formwork installation apparatus moving operation to the n-th segment is performed.

Specifically, as shown in FIG. 5, in the state in which the n-second segment 101 of the bridge superstructure and the n-th segment 102 subsequent thereto are constructed, the n-th segment ( After moving the mobile formwork installation apparatus 200 to 102, the formwork for the manufacture of the n-th segment 103 is installed in front of the n-th segment 102, and the concrete is poured to n-th The second segment 103 is produced. The movable formwork 200 is installed in the n-th segment 102, and the movable formwork 200 is the upper surface of the n-th segment 102 and the n-second segment 101. It is a state including the state installed over the upper surface of).

In FIG. 6, after the n-th segment 102 and the n-th segment 103 are connected by the temporary connection assembly 10 following the state shown in FIG. 5, the movable formwork apparatus 200 is provided. The state in which the movable formwork mounting apparatus 200 is mounted on the upper part of the n-th segment 103 by moving it is shown. As shown in the drawing, in the present invention, the concrete pouring of the n-th segment 103 is performed. When curing is completed, the n-th segment 102 and the n-th segment 103 are connected to each other by the temporary connection assembly 10, and then the movable formwork is moved to the n-th segment 103. Make sure it is mounted on top.

FIG. 7 shows a schematic perspective view of the circle C portion of FIG. 6, wherein the hypothetical connection assembly 10 includes a pair of fixing devices 11 fixed to the upper surfaces of adjacent segments, respectively, It is composed of a longitudinal connecting member 12 disposed in the axial direction between the pair of fixing devices 11 to connect the pair of fixing devices 11 to each other. That is, as shown in the figure, in the relationship between the n-th segment 102 and the n-th segment 103, each of the fixing devices 11 is the top surface of the n-th segment 102 and the n-th segment. The coupling is installed in the first segment 103, respectively. Since the hypothetical connection assembly 10 can be disassembled from the segment and moved to the front segment, the fixing device 11 is installed in a form that can be disassembled on the upper surface of the segment. For example, the fixing device 11 may be coupled to the upper surface of the segment by a detachable fastening member such as a bolt.

A longitudinal connecting member 12 is disposed between the pair of fixing devices 11 so that both ends of the longitudinal connecting member 11 are coupled to each of the pair of fixing devices 11. The longitudinal connecting member 11 may be made of a member such as a steel bar, but also preferably made of a member capable of imparting a tension force such as tendon. Although only one hypothetical connection assembly 10 is illustrated in FIG. 7, a plurality of hypothetical connection assemblies 10 may be arranged side by side in the crosswise direction.

In this way, when the n-th segment 103 is manufactured and the temporary connection assembly 10 is installed between the n-th segment 102 and the n-th segment 103, the n-th segment 102 is formed. Even without connection of the support cable 300, it becomes a state which can support the load of the movable formwork installation apparatus 200. FIG. That is, the load applied to the n-th segment 103 is transmitted to and supported by the n-th segment 102 by the temporary connection assembly 10.

Therefore, as shown in FIGS. 6 and 8, even when the n-th segment 103 is not completely supported by the support cable 300, the movable formwork 200 is moved to move the n-th segment ( The movable formwork apparatus 200 may be mounted on the upper portion of the 103, and the movable formwork apparatus 200 mounted on the nth segment 103 may be mounted in front of the nth segment 103. Formwork 210 for the n + 1 th segment 104 can be installed. That is, since the operation to move the movable formwork 200 to the n-th segment 103 is completed, even if the n-th segment 103 is not yet supported by the support cable 300, the movable formwork By using the installation device 200 it is possible to install the formwork 210 for the n + 1 st segment 104 in front of the n-th segment (103).

On the other hand, in the present invention, after the movement of the movable formwork installation apparatus 200 is completed in this way, in parallel with performing a new formwork installation work to connect the support cable 300 to the n-th segment 103 to tension the work It can be done. That is, the support cable 300 is connected to the nth segment 103 in parallel with the work of installing the formwork 210 for the n + 1th segment 104 in front of the nth segment 103. To work nervously.

As discussed above in connection with the prior art, the work of connecting the support cable to the segment and tensioning the support cable takes considerable time. In the related art, only when the work connecting the support cable to the segment that takes a long time and the work for tensioning the support cable are completed, the formwork for manufacturing a new segment can be installed by moving the movable formwork installation apparatus 200. In the present invention, after moving the movable formwork device 200, the connection and tension work of the support cable is made, while the connection and tension work of the support cable, a new segment production using the movable formwork device (200) Installation of the formwork for the work can be done in parallel. That is, in the present invention, when the manufacturing of the n-th segment 103 is completed, the n-th segment 103 is connected even if the support cable 300 is connected to the n-th segment 103 before the tensioning operation is completed. It is possible to start the manufacture of the n + 1 st segment 104 by using the movable formwork mounting device 200 mounted on the move, it will be able to significantly shorten the air required to build the upper structure of the cable-stayed bridge .

When the formwork 210 for the n + 1th segment 104 is installed, as shown in FIG. 9, concrete for the n + 1th segment 104 is poured into the formwork 210 to form the nth segment. In front of the 103, the n + 1th segment 104 is integrally manufactured and constructed. When the fabrication of the n + 1th segment 104 is completed, as described above, the hypothetical coupling assembly 10 is installed between the nth segment 103 and the n + 1th segment 104, and the FIG. By constructing the upper structure by repeating the process shown in Figures 8 and 9 to build a cable-stayed bridge. When installing the temporary connection assembly 10 between the nth segment 103 and the n + 1th segment 104, it is provided between the n-1st segment 102 and the nth segment 103. It is preferable to remove the temporary connection assembly 10 that was present and use it again.

For reference, in the present specification, the movable formwork installation apparatus 200 is not merely meant to install only the formwork, but should be understood to mean a device for manufacturing segments by installing formwork and placing concrete.

10: Hypothetical Connection Assembly
200: movable formwork installation device
300: support cable

Claims (2)

Next, the n-th segment 103 is continuously installed adjacent to the n-th segment 102, and the n + 1th segment 104 is continuously installed, and a plurality of segments are sequentially manufactured and continuously installed. As a construction method of the cable-stayed bridge to connect the support cable to each segment and to build a superstructure on the piers by tensioning the support cable,
The movable formwork installation apparatus 200 is installed on the n-th segment 102 to install the formwork for the manufacture of the n-th segment 103 in front of the n-th segment 102 and the concrete A first step of manufacturing the n-th segment 103 by pouring;
After connecting between the n-th segment 102 and the n-th segment 103 by the temporary connection assembly 10, by connecting the support cable 300 to the n-th segment 103 to tension Before, the second step of moving the movable formwork apparatus 200 to perform the operation to mount the movable formwork apparatus 200 to the n-th segment 103; And
In parallel with the tension by connecting the support cable 300 to the n-th segment 103, the movable formwork apparatus 200, which is already moved and mounted to the n-th segment 103, is used. Repeating the third step of installing the formwork 210 for the n + 1 st segment 104 in front of the n th segment 103 and casting the concrete to produce the n + 1 st segment 104 Construction method of the cable-stayed bridge, characterized in that to build the upper structure.
The method of claim 1,
The hypothesis connecting assembly 10,
A pair of fixing devices 11 fixed to the upper surfaces of the segments adjacent to each other,
The construction method of the cable-stayed bridge, characterized in that consisting of a longitudinal connecting member (12) arranged in the axial direction between the pair of fixing devices (11) connecting the pair of fixing devices (11) to each other.

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