KR20200075653A - Camber Connection Supporter of bent pressed girder and Bridge construction method therewith - Google Patents

Abstract

Disclosed are a support for camber connection of a bent girder and a bridge construction method using the same, which can conveniently and quickly perform camber connection of a bent girder and construction of a bridge using the same. According to an embodiment of the present invention, the support for camber connection of a bent girder to form a camber on a steel girder including two or more bent girders and a connection plate for connecting the bent girders comprises a pair of posts and a support beam to connect the pair of posts and support the bent girders arranged in the form of a straight line in a longitudinal direction to be coupled to the connection plate to be inclined at a camber height. A substructure of a bridge is constructed to construct a girder bridge, and a steel girder with a camber is installed on the substructure. Concrete is deposited and cured on an upper portion of the steel girder to synthesize a bottom slab. A support with a support beam of the camber height is provided for camber connection of the steel girder. A connection portion of a first bent girder and a second bent girder having the shape of the straight line in a longitudinal direction is mounted on the support beam. The first and second bent girders inclined by the support beam are connected by using a connection plate. The support is removed after the bottom slab is synthesized.

Description

Camber Connection Supporter of bent pressed girder and Bridge construction method therewith}

The present invention relates to a support for a bridge connection of a girder and a bridge construction method using the same, and more specifically, to a bridge connection method using a bridge girder bridge connection support and a bridge girder can be connected quickly and easily. It is about.

In general, girder bridges or rahmen bridges are mainly used for bridges that are installed in places where the length is not long.

Girder bridge is a method of manufacturing a girder, which is the upper structure of a bridge, and then placing the girder on the lower structure of the bridge to install it. The ramen bridge can be seen as a deformation of the girder bridge, and it is an integral part of the bridge superstructure and the bridge substructure, which is integrated with concrete and does not require bridge supports and expansion joints, so it is easy to maintain and has excellent durability. There are advantages.

On the other hand, the girder used in the girder bridge or the ramen bridge, since the load is concentrated in the central part during the use process after construction, to prevent the sagging due to the weight of the bridge during construction, the girder is placed upwards before installing the bottom plate. This is called'Camber'.

In addition, the girder (girder) of the bridge can be classified into a welding girder made by welding each plate by cutting a steel plate into small members, and a bending girder made by pressing a steel sheet with a press.

Since the welding girder is a method of manufacturing a girder by welding each plate after cutting, there is no other big problem in securing the girder because it is necessary to bend each steel plate and then weld it.

However, bending girders are manufactured by bending and bending a single steel sheet with a press, and thus it is difficult to impart the required soaring from a bridge, and thus there is a limitation to apply to a long bridge.

Korean Registered Patent No. 10-1065620 (2011.09.09)

The support for the girder connection of the bending girder according to an embodiment of the present invention and the bridge construction method using the same are intended to enable quick and easy construction of the bridge using the girder connection of the bending girder and the same.

According to one aspect of the present invention, at least two or more bending girders and a support for forming a rise in a steel girder including a connecting plate for connecting the bending girders, a pair of posts, a pair of posts between the connection And, a support for a raised connection of a bending girder may be provided, including a supporting beam supporting the bending girder provided in a straight line along the longitudinal direction to be inclinedly coupled to the connecting plate at a rising height.

In addition, each of the pair of posts includes an upper flange portion and a lower flange portion, and an abdomen connecting the upper and lower flange portions, and the support beam can connect the abdomen.

According to another aspect of the present invention, the construction of the lower structure of the bridge, installing a steel girder formed with a rise in the lower structure, and pouring and curing concrete on top of the steel girder to synthesize a floor slab, the steel girder For the connection of the rise, a support having a support height having a rise height is provided, and a connection portion between the first bending girder and the second bending girder having a linear shape along the longitudinal direction is mounted on the support beam, and the support beam A bridge construction method using a support for a raised connection of a bent girder connecting an inclined first bend girder and a second bent girder at an angle using a connecting plate may be provided.

In addition, the support may be removed after the floor slab is synthesized.

Since the support for connecting the girder of the bending girder according to an embodiment of the present invention connects the bending girder by using a support having a height corresponding to the swelling, the girder itself does not need a vertical swelling, resulting in a straight line Bending girders can be used to reduce costs.

In addition, the support for connecting the girder of the bending girder according to an embodiment of the present invention and the bridge construction method using the same are using a support having a height corresponding to the swelling to connect the bending girder in a linear shape and then pouring the concrete floor slab Therefore, since it is possible to maintain the straightness in the longitudinal direction of the bridge, the construction is very easy and the bridge can be constructed quickly.

1 is a view schematically showing a girder bridge as an example of a bridge constructed by using a support for a raised connection of a bending girder according to an embodiment of the present invention.
2 is a view showing a support and a bending girder for the raised connection of the bending girder according to an embodiment of the present invention.
Figure 3 is a plan view showing a support for the raised connection of the bending girder according to an embodiment of the present invention.
Figure 4 is a front view showing a support for the raised connection of the bending girder according to an embodiment of the present invention.
5 to 7 is a view showing a method of constructing a bridge using a support for the raised connection of the bending girder according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor appropriately explains the concept of terms in order to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention. It should be understood that there may be equivalents and variations.

1 is a view schematically showing a girder bridge as an example of a bridge constructed using a raised connection structure of a bending girder according to an embodiment of the present invention.

Referring to the drawings, the girder bridge usually first constructs the bridge (1) and the pier (2), which are the lower structures of the bridge, and then passes the steel girder (4), the upper structure of the bridge over the bridge (1) and the pier (2). Then, concrete is poured and cured on the steel girder 4 to construct the floor slab 6.

During the construction process, the steel girder 4 mounted on the lower structure before construction of the floor slab 6 is connected to a connecting plate 5 formed by a support, which will be described later according to this embodiment, and convex upwards between spans. It has a shape, but after the construction of the floor slab 6, it is possible to maintain the horizontal state while the rise is compensated by its own weight.

Figure 2 is a perspective view showing a support for the raised connection of the bending girder according to an embodiment of the present invention, Figure 3 is a plan view of the support for the raised connection of the bending girder according to an embodiment of the present invention, Figure 4 Is a side view of a support for a raised connection of a bending girder according to an embodiment of the present invention.

Prior to the description, the support 10 for the splicing connection of the bending girder according to the present embodiment includes a first bending girder 4a and a second bending girder 4b that form the steel girder 4 and a first bending girder ( It can be used to form a rise in the connecting plate (5) connecting the 4a) and the second bending girder (4b).

The first bending girder 4a may be manufactured by bending a steel sheet having a linear shape in the longitudinal direction in the width direction using a press as shown in FIG. 2. The first bending girder 4a is installed in a lower structure such as an alternating or pier, and a concrete floor slab constituting the upper structure together with the girder may be installed in a post process. The first bending girder 4a may form an upper flange portion and an abdomen by bending and bending a steel material into an'U' shape as shown. The connecting plate 5 is coupled to one side of the first bending girder 4a.

The second bending girder 4b may also be manufactured by bending a steel sheet having a straight shape in the longitudinal direction in the width direction using a press. The second bending girder 4b is installed in a lower structure such as an alternating or pier, and a concrete floor slab constituting the upper structure together with the girder may be installed in a post process. The second bending girder 4b may form an upper flange portion and an abdomen by bending and bending a steel material into an'U' shape as shown. The connecting plate 5 may be coupled to one side of the second bending girder 4b.

The first and second bending girders 4a and 4b are coupled to the connecting plate 5 by welding or bolting. Can. Most recently constructed girder bridges are connected using bolts, but the bolt connection methods are largely divided into acupressure joints and friction joints. Recently, a friction joint method using a high tension bolt is mainly used.

The connecting plate 5 connects the first bending girder 4a and the second bending girder 4b, and when connected, a straight first bending to form a camber to prevent sagging due to the weight of the bridge The girder 4a and the second bending girder 4b are convexly supported upward.

In addition, the connecting plate 5 is a pair of side connecting plates (5a) and the bottom provided separately to surround the side ventral and bottom flange portions of the first bending girder (4a) and the second bending girder (4b) from the outside, respectively It includes a connecting plate (not shown). In addition, the connecting plate 5 may include an outer connecting plate 5a connecting the bending girders 4a, 4b outside the girder and an inner connecting plate 5b connecting outside the girder. The outer connecting plate 5a and the inner connecting plate 5b may be mutually fastened with bolts (not shown) penetrating the bending girders 4a and 4b.

The support 10 is a structure for forming a rise in the first and second bending girder (4a, 4b) and the connecting plate (5) constituting the steel girder (4) as shown in Figures 2 to 4, left and right It may include a post (11,12) provided in a pair, and a support beam (14) connecting the post (11,12).

The posts 11 and 12 may use welding girders as an example. The welding girder may include plate-shaped upper flange portions 11a and 12a and lower flange portions 11c and 12c and abdomen portions 11b and 12b connecting vertically therebetween.

The support beam 14 is for connecting a pair of posts 11 and 12, and specifically, may connect the abdomen 11b and 12b of the facing posts 11 and 12. The support beam 14 may use'I' shaped steel, and may be welded or bolted to the abdomen of the post.

The height of the support beam 14 is substantially proportional to the rising height (or inclination angle) of the steel girder 4, that is, the first and second bending girders 4a and 4b to be connected to the connecting plate 5, so that the appropriate size is selected. Or, you can use an aid to modify the height.

In addition, at least one support beam 14 may connect a pair of posts 11 and 12. For example, as shown in FIGS. 3 and 4, when two support beams 14 are installed, the first, second, and third bending girders 4a, 4b, and 4c have long intervals between the lower structures. ).

According to the present embodiment, since the rise required for the steel girder 4 during the construction of the bridge can be easily formed on the connecting plate 5 using the support 10, the first and second bending girders 4a and 4b The can be used to reduce the construction cost by using a linear bending girder, furthermore, it is possible to avoid the length limitation of the bridge using the bending girder due to the use of the linear bending girder.

Then, a method of constructing a bridge using a support for a raised connection of a bending girder according to this embodiment provided as above will be described.

According to this embodiment, the girder bridge first constructs a substructure including a shift and a pier, and then installs a steel girder soared on the shift and the pier, and then synthesizes a floor slab by pouring and curing concrete on top of the steel girder. By doing so, bridge construction can be completed.

During the construction process of the bridge, the first bending girder (4a) to the third bending girder (4c) as shown in Figure 5 to form a rise in the steel girder mounted on the lower structure (1,2), The first, second and third bending girders 4a to 4c are fixedly coupled to the connecting plate 5 by bolts (or welding) while being supported by a support 10 having a raised height. At this time, the connecting plate 5 should be able to withstand the force of the steel girder 4 due to its own weight.

6 shows the steel girder 4 supported by the support 10 during the construction of a bridge, and in the case of a wide bridge, a plurality of steel girders 4 are spaced at a single shift (or bridge). Can be placed side by side. Since the support 10 according to the present embodiment is easy to modify the length of the support beam 14, the support beam 14 of an appropriate length is selected as necessary to simultaneously support the steel girders 4 in which several are arranged side by side. Can form a rise.

Subsequently, concrete is poured and cured on the steel girder 4 to which the first, second, and third bending girders 4a, 4b, 4c and the connecting plate 5 are combined to synthesize the floor slab 6, and thereafter the support ( When 10) is removed by using a hydraulic jack or a crane, a girder bridge that maintains a straight line in the longitudinal direction may be constructed while rising is compensated by the load of the upper structure of the bridge as shown in FIG. 7.

1.. shift 2.. pier
4..Steel girders 4a,4b,4c..1st,2nd,3 bending girders
5.. connection plate 6.. bottom slab
10..Support 11,12..post
14..Support

Claims (4)

A support for forming a rise in a steel girder comprising at least two or more bending girders and connecting plates for connecting the bending girders,
A pair of posts,
A support for connecting the pair of posts, and supporting supports for supporting the bending girders provided in a straight shape along the longitudinal direction to be inclinedly coupled to the connecting plate at a rising height. According to claim 1,
Each of the pair of posts includes an upper flange portion and a lower flange portion, and an abdomen connecting the upper and lower flange portions,
The support beam is a support for a raised connection of a bending girder connecting the abdomen. Constructing the substructure of the bridge,
A steel girder is formed on the lower structure to form a rise,
Concrete is poured and cured on top of the steel girder to synthesize a floor slab,
For the connection of the steel girders
Prepare a support having a raised height support beam,
A connecting portion of the first bending girder and the second bending girder having a straight shape along the longitudinal direction is mounted on the support beam,
A bridge construction method using a support for a raised connection of a bending girder fixedly connecting a first bending girder and a second bending girder inclined by the support beam using a connecting plate. According to claim 3,
After the floor slab is synthesized, a bridge construction method using a support for a raised connection of a bending girder from which the support is removed.

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