KR100895858B1 - Fabricated box bent for bridge and constructing method for fabricated box bent - Google Patents

Abstract

The present invention relates to a temporary girder installed to support the upper structure between the pier (including the shift) before installing the upper structure such as the girder and the bottom plate for the construction of the bridge, and a method of constructing a temporary construction of the bridge using the same Specifically, the prefabricated box section temporary girder and the bridge using the same are constructed so that the height, width, and length can be adjusted while the temporary girder is configured as a box section, so that the cross-sectional size of the temporary girder can be easily changed according to the needs of the site. It is about construction method of construction vent.

In the present invention, a temporary girder (FB-Girder) is installed between the bridge piers for the construction of the upper structure of the bridge, the side walls 10 are installed perpendicular to both sides; A bottom plate 20 detachably assembled to a lower portion of the side wall 10; It has a box-shaped cross section including an upper plate (60) decomposably assembled to the top of the side wall (10); The side wall 10 includes a plate 101, a reinforcement vertical beam 102 that is formed vertically on the plate 101 by being made of I beams, and a main side wall including upper and lower flanges 103a and 103b. A panel 11; Inside the space consisting of the side wall 10, the bottom plate 20 and the top plate 60, a b-shaped bracing mounting member having a T-shaped cross section at an inner upper portion of the reinforcing vertical beam 102 of the main side wall panel 11 ( 31 is assembled to be disassembled by fastening means such as bolts, and the transverse plate member 32 is assembled to be disassembled to the bottom or bottom plate 20 of the reinforcing vertical beam 102, and the transverse plate is installed. The prefabricated box section temporary girder with adjustable height, width, and length, characterized in that the bracing member 33 is detachably coupled between the member 32 and the bracing mounting member 31, and a temporary vent using the same. Construction methods are provided.

Hypothesis, Girder, Vent, Bridge, Construction Method, Box, Assembly

Description

Fabricated Box Type Temporary Girder with Adjustable Height, Width and Length and Construction Method for Fabricated Box Bent Using the Same

The present invention relates to a temporary girder installed to support the upper structure between the pier (including the shift) before installing the upper structure such as the girder and the bottom plate for the construction of the bridge, and a method of constructing a temporary construction of the bridge using the same Specifically, the prefabricated box section temporary girder and the bridge using the same are constructed so that the height, width, and length can be adjusted while the temporary girder is configured as a box section, so that the cross-sectional size of the temporary girder can be easily changed according to the needs of the site. It is about construction method of construction vent.

In constructing a bridge, in order to construct the superstructure of a bridge, ie, the girder and the bottom plate of a bridge, a temporary installation vent is generally used. A vertical temporary support is installed between the bridges (including shifts) using a copper bar, and a horizontal temporary girder is installed on the vertical temporary support and used as a temporary vent. In this way, after installing the temporary girder between the bridges in accordance with the height of the bridge, using the temporary girder to install the formwork for the upper construction of the bridge, the construction of the housing and the bottom plate of the bridge.

Conventionally, as a temporary vent, a simple I beam or a truss type beam has been used. However, these I-beam or truss-type temporary vents do not have sufficient bearing capacity, so a number of vertical temporary supports must be installed to support the upper temporary vents, thereby increasing the construction cost (including ground reinforcement and pile foundation processing costs) and There is a problem associated with the increase of air.

Temporary vents should be adapted to the size and load of the superstructure, so when using conventional I-beam or truss-type temporary girders, different sizes (increasing or decreasing cross-sectional coefficients) must be prepared each time according to the size of the superstructure. There is a limit. In particular, the conventional temporary vents in the form of I-beams or trusses have limitations in that they are difficult to use in bridges with different sections and sections after they are used in one bridge construction site because they are manufactured only in a specific length.

In addition, the conventional construction vents in the form of I-beams or trusses are limited in use due to problems caused by sagging because they do not have a function of controlling displacement (camber management) due to upper concrete placing loads.

The present invention was developed in order to overcome the limitations of the prior art as described above, by constructing a hypothesis girder that can be used as a construction vent when the bridge construction in the box cross-section and disassembly assembly, the upper part required in the field It provides a new structure construction girder that can easily adjust its height, width, and length according to the size (intersection and section) and load of the structure, and can control the deflection caused by the upper load, and the construction method of the construction work of the bridge using the same. It aims to do it.

In the present invention, in order to achieve the above object, a temporary girder installed between the piers for the construction of the upper structure of the bridge, the side walls are installed perpendicular to both sides; A bottom plate detachably assembled to a lower portion of the side wall; Has a box-shaped cross section including an upper plate decomposably assembled to an upper portion of the side wall; The side wall includes a plate material, a reinforcement vertical beam made of an I beam and installed perpendicularly to the plate material, and a main side wall panel including upper and lower flanges; Inside the space consisting of the side wall, the bottom plate and the top plate, a bracing mounting member having a T-shaped cross section is assembled so as to be decomposable by fastening means such as bolts on the inner upper part of the reinforcement vertical beam of the main side wall panel, and in the transverse direction. The plate member is assembled to be detachably installed on the bottom or bottom plate of the reinforcing vertical beam, and the bracing member is installed to be decomposably coupled between the transverse plate member and the bracing mounting member. The prefabricated box section temporary girder is provided.

In the present invention as described above, the side wall is formed by further assembling one or a plurality of auxiliary side wall panels further on the main side wall panel, the auxiliary side wall panel is also made of a plate and an I beam to the plate It has a configuration including a reinforcement vertical beam and vertically installed to reinforce, and the upper and lower flanges, by adjusting the assembly number of the auxiliary side wall panel may have a structure in which the height of the temporary girder is adjusted.

In addition, in the present invention, in order to achieve the above object, the side wall is installed perpendicular to both sides; A bottom plate detachably assembled to a lower portion of the side wall; Has a box-shaped cross section including an upper plate decomposably assembled to an upper portion of the side wall; The side wall includes a plate material, a reinforcement vertical beam made of an I beam and installed perpendicularly to the plate material, and a main side wall panel including upper and lower flanges; Inside the space consisting of the side wall, the bottom plate and the top plate, a bracing mounting member having a T-shaped cross section is assembled so as to be decomposable by fastening means such as bolts on the inner upper part of the reinforcement vertical beam of the main side wall panel, and in the transverse direction. A temporary girder having a structure in which a plate member is assembled to the bottom plate or a bottom plate of the reinforcement vertical beam so as to be decomposable, and the bracing member is detachably coupled between the transverse plate member and the bracing mounting member, Mounted on a horizontal member provided on top of the vertical temporary support between the piers; Pushing or pulling the temporary girder mounted on the horizontal member in a direction perpendicular to the throttle; Construction of a temporary vent for bridge construction by installing the temporary girder on the vertical temporary support by repeating the lifting of the temporary girder and the mounting on the horizontal member and the movement in the perpendicular direction of the bridge. A method is provided.

According to the present invention, the side wall of the temporary vent can be configured by the assembly of a plurality of side wall panels, the bottom plate also has a configuration that is assembled to the side wall panel, as well as this assembly can be made very simple, the width of the temporary vent And it can be easily adjusted to the height and length to suit the needs, there is an advantage that can easily meet the needs of the site.

Particularly, in the present invention, since the vertical reinforcing beam is provided on the side wall, and the internal bracing structure is assembled using the vertical reinforcing beam, the internal bracing can be easily installed at the required position, and the internal bracing is also performed. It has the advantage of being able to use materials very efficiently because it can be assembled and installed in the field in advance in the standardization state in advance.

In addition, in the present invention, in order to compensate for the occurrence of deflection of the inter-girder girder due to the load according to the bridge type, the advantage of overcoming the deflection by installing a pre-fabricated height adjustment jack (Screw jack) between the upper part of the temporary girder and the transverse beam It has the advantage that can be appropriately applied during construction of the transverse gradient bridge by using it.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Figure 1 shows a schematic exploded perspective view of the prefabricated box-section temporary girder 1 according to the present invention.

As shown in the drawings, the prefabricated box-section temporary girder 1 of the present invention includes a side wall 10 and a bottom plate 20. In detail, the side wall 10 may be formed by one main side wall panel 11, or may be formed by assembling the main side wall panel 11 and the auxiliary side wall panel 12. In particular, the auxiliary side wall panel 12 may be provided in plurality.

As shown in the drawing, the main side wall panel 11 includes a plate 101, an I beam, a reinforcement vertical beam 102 installed perpendicularly to the plate 101 and reinforced, and upper and lower flanges 103a. , 103b). Reinforcing ribs may be installed on the surface of the plate member 101. The reinforcement vertical beam 102 serves to reinforce the plate 101 of the main side wall panel 11, but when the panel is assembled as described below, the lateral bracing installed in the temporary girder 1 is coupled. It also functions as a member.

As necessary, the auxiliary side wall panel 12 coupled to the main side wall panel 11 to form the side wall 10 may be formed of a plate, a reinforcement vertical beam, and upper and lower flanges, like the main side wall panel 11 described above. consist of. The main side wall panel 11 and the auxiliary side wall panel 12 may be coupled to enable disassembly by flange coupling. That is, in the state in which the auxiliary side wall panel 12 is mounted on the upper side of the main side wall panel 11, the upper and lower flanges are coupled by penetrating a fastening means such as a bolt to the flange.

As described above, in the present invention, the side wall 10 may be formed by only the main side wall panel 11 or by further combining the auxiliary side wall panel 12 on the main side wall panel 11. The temporary girder can be manufactured easily. In particular, if the height and the like of the auxiliary side wall panel 12 is standardized, the auxiliary side wall panel 12 of an appropriate size can be easily combined to manufacture a temporary girder as needed, thereby significantly reducing the production time or cost, and the like. Economical construction will be possible.

Figure 2 shows a schematic coupling perspective view of the prefabricated box-section temporary girder 1 according to the present invention, Figure 3 shows a front view in the axial direction. As shown in the figure, the bottom plate 20 is coupled to the lower portion of the main side wall panel 11, and the main side wall panel 11 and the bottom plate 20 are coupled to each other by using a fastening member capable of disassembling assembly such as a bolt. It consists of a flange coupling of the lower flange 103b and the bottom plate 20. Therefore, if you want to increase the width of the temporary girder (1), because the flange is coupled to the main side wall panel 11 by replacing the bottom plate 20, there is an advantage that can easily meet the needs of the site.

On the other hand, by using the reinforcement vertical beam 102 of the main side wall panel 11, the transverse bracing 30 is assembled to the interior of the temporary girder 1 so as to be disassembled. Specifically, the bracing mounting member 31 having a T-shaped cross section is assembled on the inner upper portion of the reinforcing vertical beam 102 so as to be decomposable by fastening means such as a bolt, and the transverse plate member is also disposed on the inner lower portion of the reinforcing vertical beam 102. The 32 is assembled to be disassembled. The lateral plate member 32 may be installed assembled with the bottom plate 20 instead of being coupled to the reinforcement vertical beam 102. The bracing member 33 is detachably coupled between the lateral plate member 32 and the bracing mounting member 31. As the bracing member 33, a bent steel having a N-shaped cross section may be used. When both ends of the bracing member 33 are coupled to the bracing mounting member 31 and the transverse plate member 32, it is configured to be disassembled and assembled using fastening means such as bolts.

As shown in the figure, when the auxiliary side wall panel 12 is coupled to the upper side of the main side wall panel 11 to increase the internal space height of the temporary girder 1, the upper side of the lateral bracing 30 as shown in the figure. The plate-shaped bracing 40 made of a plate shape can be further installed. The plate-shaped bracing 40 may also be installed by coupling the flange bolt to the vertical reinforcement beam 102 by using a fastening means.

An upper plate 60 is coupled to an upper surface of the main side wall panel 11 or an upper surface of the auxiliary side wall panel 12 coupled thereto. Since the top plate 60 is coupled in the same manner as the bottom plate 20 described above, repeated description thereof will be omitted.

Meanwhile, auxiliary horizontal beams 71 and 72 additionally arranged in the axial direction may be further coupled to upper and lower flanges of the main side wall panel 11 or upper flanges of the auxiliary side wall panel 12. Among the auxiliary horizontal beams 71 and 72, the lower auxiliary horizontal beam 72 is a portion which is placed on the temporary support when the temporary girder 1 is supported by the temporary support between the piers, and the upper auxiliary horizontal beam 71. Silver is a part which directly contacts and supports the formwork when installing the formwork or the like on the temporary girder 1. The auxiliary horizontal beams 71 and 72 are flanged to the flanges of the side wall panels 11 and 12 in a disassembleable manner by fastening means.

4 is a schematic perspective view showing a shape in which the temporary girder 1 is connected in the throttle direction, and the continuation of the temporary girder 1 in the axial direction will be described with reference to the present invention. As shown in the figure, in continuation of the temporary girder 1 according to the present invention in the axial direction, a bolt connection using a connecting plate 80 is used.

Specifically, as shown in the drawing, the connecting plate 80 is installed between the main side wall panel 11 constituting the side wall 10 and the plate member 101 of the auxiliary side wall panel 11, and the bolt is fastened using a fastening means such as a bolt. Will be connected.

Next, the method steps for installing the temporary girder 1 according to the present invention will be described with reference to FIGS. 5 and 6.

 Figure 5 is a side view of some sections of the bridge showing the construction of a box-section concrete girder bridge using the temporary girder 1 according to the present invention. FIG. 6 is a schematic cross-sectional view showing a process in which the temporary girder 1 according to the present invention is installed on a vertical temporary support 200. In FIG. 7, a box-section concrete girder 300 is constructed thereon. A schematic cross sectional view is shown showing the state shown.

As shown in the figure, the temporary girder 1 is installed on an upper portion of the vertical temporary support 200 installed between the piers, when a plurality of temporary girder 1 is installed in the direction perpendicular to the pier as shown in FIG. The temporary girder 1 is placed in a sliding manner on the horizontal member 201 installed at the upper portion of the temporary support 200. After placing the temporary girder 1 on one side of the horizontal member 201 by using a lifting equipment such as a crane, the temporary girder 1 is pushed or pulled in the direction perpendicular to the throttle so that the temporary girder 1 is slid. Will be placed in the same position as

Since the temporary girder 1 is mounted by the sliding method as described above, only one side of the bridge, that is, one side of the vertical temporary support 200, can lift and mount the temporary girder 1, and thus, the work space. The operation and operation of the working machine can be made very efficiently.

On the other hand, Figure 8 is a cross-sectional view in the axial direction corresponding to Figure 7, as shown in the figure, when the deflection of the long girders due to the load load according to the bridge type is issued, in order to compensate for this Between the upper part of 1) and the lateral beam 202 disposed thereon, a pre-fabricated height adjustment jack 203 is provided, and the jack 203 is stretched and adjusted as necessary to prevent deflection. It can respond appropriately. Such a configuration can be applied not only when deflection occurs but also when constructing a bridge portion requiring a lateral gradient.

1 is a schematic exploded perspective view of a prefabricated box-section temporary girder according to the present invention.

Figure 2 is a cross-sectional perspective view showing the configuration of the main side wall panel to form a prefabricated box cross-section temporary girder according to the present invention.

Figure 3 is a schematic coupling perspective view of the prefabricated box-section temporary girder according to the present invention.

Figure 4 is a view corresponding to Figure 3 is a perspective view of the embodiment in which the plate-type bracing is further provided in addition to the lateral bracing using the bracing member in the present invention.

Figure 4 is a schematic perspective view showing a shape in which the temporary girder is connected in the axial direction in the present invention.

5 is a side view of some sections of the bridge showing the construction of the construction vent using the temporary girder according to the present invention and the construction of a box-section concrete girder bridge on the top.

6 is a schematic cross-sectional view showing a process of installing a temporary girder according to the present invention on a vertical temporary support.

7 is a schematic cross-sectional view showing a state in which a box section concrete girder is constructed on an installed temporary girder.

FIG. 8 is a cross sectional view corresponding to FIG. 7.

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

10: side wall 20: bottom plate

11: main sidewall panel 12: secondary sidewall panel

Claims (3)

Temporary girder (FB-Girder) installed between the piers for the construction of the upper structure of the bridge, the side wall (10) installed perpendicular to both sides; A bottom plate 20 detachably assembled to a lower portion of the side wall 10; It has a box-shaped cross section including an upper plate (60) decomposably assembled to the top of the side wall (10); The side wall 10 includes a plate 101, a reinforcement vertical beam 102 that is formed vertically on the plate 101 by being made of I beams, and a main side wall including upper and lower flanges 103a and 103b. A panel 11; Inside the space consisting of the side wall 10, the bottom plate 20 and the top plate 60, a b-shaped bracing mounting member having a T-shaped cross section at an inner upper portion of the reinforcing vertical beam 102 of the main side wall panel 11 ( 31 is assembled to be disassembled by fastening means such as bolts, and the transverse plate member 32 is assembled to be disassembled to the bottom or bottom plate 20 of the reinforcing vertical beam 102, and the transverse plate is installed. Prefabricated box cross-section hypothesis capable of adjusting the height, width, and length, characterized in that the bracing member 33 is installed so as to be decomposed between the member 32 and the bracing mounting member 31. The method of claim 1, wherein the side wall 10, One or more auxiliary side wall panels 12 are further assembled and assembled over the main side wall panels 11, The auxiliary side wall panel 12 also has a structure including a plate, an I beam and a reinforcement vertical beam installed perpendicularly to the plate to reinforce, and upper and lower flanges. The height of the temporary girder by adjusting the number of assembly of the auxiliary side wall panel 12 is adjustable prefabricated box section temporary girder, characterized in that the height, width, length can be adjusted. Side walls 10 installed perpendicular to both sides; A bottom plate 20 detachably assembled to a lower portion of the side wall 10; It has a box-shaped cross section including an upper plate (60) decomposably assembled to the top of the side wall (10); The side wall 10 includes a plate 101, a reinforcement vertical beam 102 that is formed vertically on the plate 101 by being made of I beams, and a main side wall including upper and lower flanges 103a and 103b. A panel 11; Inside the space consisting of the side wall 10, the bottom plate 20 and the top plate 60, a b-shaped bracing mounting member having a T-shaped cross section at an inner upper portion of the reinforcing vertical beam 102 of the main side wall panel 11 ( 31 is assembled to be disassembled by fastening means such as bolts, and the transverse plate member 32 is assembled to be disassembled to the bottom or bottom plate 20 of the reinforcing vertical beam 102, and the transverse plate is installed. Between the member 32 and the bracing mounting member 31 is a temporary girder (1) having a structure in which the bracing member 33 is installed to be detachably coupled, Mounted on a horizontal member provided on an upper portion of the vertical temporary support provided between the bridge piers; Pushing or pulling the temporary girder (1) mounted on the horizontal member in the direction perpendicular to the throttle; Hypothesis, characterized in that the construction of the construction vents for the bridge by installing the temporary girder on the vertical temporary support by repeating the lifting of the temporary girder (1), the mounting on the horizontal member, and the movement in the direction perpendicular to the bridge axis Construction method of the vent.

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