KR102590915B1 - Displacement receiving device for ramen bridge and construction method for ramen bridge using the same - Google Patents

Abstract

The present invention relates to a displacement accommodation device provided on an upper part of a ramen bridge substructure (2), including a support member (100) provided on an upper part of the lower structure (2); A ramen bridge displacement accommodation device including a rotational displacement member 200 provided on the upper part of the support member 100 and the lower part of the girder 1 to accommodate the rotational displacement occurring in the girder 1, and ramen bridge construction using the same It's about method.

Description

Displacement receiving device for ramen bridge and construction method for ramen bridge using the same}

The present invention relates to a displacement accommodation device that accommodates displacement that may occur during the construction of a ramen bridge and a method of constructing a ramen bridge using the displacement accommodation device.

More specifically, by accommodating the axial displacement of the girder and the rotational displacement of the girder that occur during the construction process of the ramen bridge, the negative moment occurring at the right corner of the ramen bridge can be reduced and the durability and stability of the ramen bridge can be improved. This relates to the ramen bridge displacement accommodation device and the ramen bridge construction method using it.

A ramen bridge is a type of bridge in which girders and piers (abutments) are strengthened, and the negative moment that occurs at the points must be carefully considered.

In a typical ramen bridge, during the construction process, the superstructure girder and substructure (abutment, pier wall part) are constructed in a state of being strengthened by steel structures and reinforcing bars, so negative moment is excessively generated in the right angle part (Figure 1 (a) ) (see also bending moment), and in order to be able to resist such a large negative moment, reinforcement of the upper and lower connections became complicated and construction costs were high.

In addition, because the upper girder and the lower structure were rigid, they were vulnerable to vibration, and there was a problem of additional temperature stress occurring due to expansion and contraction of the girder due to temperature changes.

This general ramen structure generates additional moment in the right corner and lower structure. To solve this problem, the cross-sectional size of the girder and lower structure had to be increased in the past, which had the disadvantage of increasing the construction period and cost. .

Therefore, there was a need to develop a ramen bridge displacement accommodation device and a ramen bridge construction method that could reduce the negative moment of the right leg that occurs during ramen bridge construction and prevent additional stress from occurring due to expansion and contraction of the girder.

Registered Patent Publication No. 10-2124537

In order to improve the above-mentioned problems of the prior art, the present invention provides a ramen bridge displacement accommodation device that can remove the negative moment of the right corner that occurs during the construction of a ramen bridge and prevent additional stress from occurring due to expansion and contraction of the girder, and the same. The purpose is to provide a construction method for ramen bridges using this method.

In the present invention, a ramen bridge displacement accommodation device having an efficient structure that reduces the cross-section of the girder and substructure by preventing additional stress occurring in the ramen bridge, making construction easier and reducing construction time and construction costs, and a ramen bridge displacement receiving device using the same The purpose is to provide a method for constructing a ramen bridge.

The purpose of the present invention is to provide a displacement accommodation device for a ramen bridge that can accommodate rotational and axial displacements that may occur during the construction of a ramen bridge with a simple structure.

In the present invention, in the displacement accommodation device provided on the upper part of the lower structure of the ramen bridge (2), the support member (100) is provided on the upper part of the lower structure (2); A ramen bridge displacement accommodation device is provided including a rotational displacement member 200 that is provided at the upper part of the support member 100 and the lower part of the girder 1 and accommodates the rotational displacement occurring in the girder 1.

The rotational displacement member 200 includes a support plate 210 supporting the girder 1; It includes a rotating plate 220 that is integrally provided on the lower surface of the support plate 210 in the same direction as the axial direction of the girder 1 and is provided with an axial member insertion hole 221 downward, and the support member 100 ) is provided with a shaft member 230 in a direction perpendicular to the axial direction of the girder (1), and the shaft member 230 is inserted into the shaft member insertion hole 221, causing damage to the girder (1) during construction of the ramen bridge. It is characterized by accommodating rotational displacement.

It further includes a girder plate 300 provided integrally with the girder 1 at the lower part of the girder 1, and a sliding pad 400 is provided between the girder plate 300 and the support plate 210.

Displacement-accommodating long holes 310 are provided on both sides of the girder plate 300, and a separation prevention member 500 is fixed to the support plate 210 to accommodate the axial displacement of the girder 1, and the girder ( 1) It is characterized by preventing escape.

The separation prevention member 500 includes a fixing plate 510 fixed to the support plate 210; It is provided on the upper part of the fixing plate 510, and includes a cover plate 520 so that it can be positioned on both sides of the girder plate 300, and the cover plate 520 is provided with a bolt hole 521. The sliding pad 400 is provided with a bolt hole 410, and the support plate 210 is provided with an inner bolt hole 211, and the bolt hole 521, the displacement receiving hole 310, and the bolt A girder bolt 522 is fastened to penetrate the hole 410 and the inner bolt hole 211.

The support member 100 includes a web 110; Flanges 120 integrally provided at both ends of the web 110; It includes a reinforcing plate 130 provided between the flanges 120, and the shaft member 230 is installed to be supported by the flange 120 and the reinforcing plate 130.

The rotation plate 220 is characterized in that its width becomes narrower as it goes downward.

The sliding pad 400 is characterized by being made of PTFE (Polytetrafluoroethylene) material.

In addition, in the present invention, in the ramen bridge construction method using the ramen bridge displacement accommodation device, the steps include: a) installing the ramen bridge lower structure (2); b) providing a girder plate (300) integrally with the lower part of the girder (1); c) providing a support member 100, a rotational displacement member 200, and a sliding pad 400 on the upper part of the lower structure 2, and mounting the girder 1; d) fixing the separation prevention member 500; E) Provides a ramen bridge construction method using a displacement accommodation device, which includes the steps of installing formwork and pouring concrete.

The girder (1) is characterized in that it is one of a steel pipe girder, a PSC-BEAM girder, a corrugated steel plate composite girder, an H-BEAM girder, and a PS composite girder.

The ramen bridge displacement accommodation device of the present invention and the ramen bridge construction method using the same have the following effects.

First, the negative moment of the right corner that occurs during the construction of a ramen bridge is removed, and the generation of additional stress due to expansion and contraction of the girder can be prevented, resulting in excellent structural stability.

Second, compared to a conventional ramen bridge, the upper and lower connection structure is simple, and the cross-section and foundation size of the lower structure can be reduced, making construction easier, shortening the construction period, and reducing the input of equipment, manpower, and materials, thus reducing construction costs. can be saved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the description of the claims.

Figure 1 (a) is a bending moment diagram of a general ramen bridge, and (b) is a bending moment diagram of a simple beam.
Figure 2 is a side view of the displacement accommodation device of the present invention installed.
Figure 3 is a front view of the displacement accommodation device of the present invention installed.
Figure 4 is an exploded perspective view of the displacement accommodation device of the present invention being installed.
Figure 5 is a perspective view of the displacement accommodation device of the present invention installed.
Figure 6 is a partial enlarged view of the displacement accommodation device of the present invention.
Figure 7 is a perspective view of the rotational displacement member of the present invention.
Figure 8 is a perspective view of the separation prevention member of the present invention.
Figure 9 is an example of applying the present invention to a PSC-BEAM girder.
Figure 10 is an example of applying the present invention to a corrugated steel plate composite girder.
Figure 11 is an example of applying the present invention to an H-BEAM girder.
Figure 12 is an example of applying the present invention to a PS composite girder.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification. Throughout the specification, when a part is said to “include” a certain element, this means that it may further include other elements rather than excluding other elements, unless specifically stated to the contrary. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

In the description of the present invention, the outside of the bridge in the direction perpendicular to the longitudinal direction of the girder will be referred to as the bridge outside, and the side toward the center of the bridge will be expressed as the bridge inside.

Figure 1 (a) shows the bending moment diagram of a general ramen structure. As shown in Figure 1 (a), a large negative moment occurs at the right leg of the ramen bridge, and the cross-section of the girder and substructure had to be enlarged to be able to resist this large negative moment.

In the present invention, during the construction process of a ramen bridge, it is possible to release the moment restraint of the right corner due to stiffening and to accommodate the expansion and contraction of the girder due to temperature changes, etc., thereby converting the boundary conditions of the fulcrum to the movable end, thereby converting the ramen bridge During the construction process, the girder mounted on the substructure is allowed to behave as a simple beam as shown in Figure 1 (b).

The girder of the present invention can rotate and move at both points during the construction of a ramen bridge, eliminating the generation of negative moment at the right angle part, and since the expansion and contraction of the girder is not restricted, additional stress due to expansion is not generated.

The ramen bridge displacement accommodation device will first be explained, and then the ramen bridge construction method using it will be explained.

In order to enable rotation and movement at the point, the ramen bridge displacement accommodation device of the present invention includes a support member 100, a rotational displacement member 200, a girder plate 300, a sliding pad 400, and a separation prevention member ( 500).

The support member 100 is provided on the upper part of the lower structure 2 and supports the rotational displacement member 200, the girder plate 300, the sliding pad 400, the separation prevention member 500, and the girder (1). I support it.

The support member 100 includes a web 110 and flanges 120 integrally provided at both ends of the web 110. In order to increase the supporting force and strength of the support member, a reinforcing plate 130 may be further included between the flanges 120.

The lower part of the web 110, flange 120, and reinforcement plate 130 can be fixed by welding by providing a lower plate 140, and the lower plate 140 is an anchor ( 141).

In order to firmly attach the concrete and the support member 100 after pouring concrete to form the outer surface of the ramen bridge, studs 150 may be provided on the outer surfaces of the web 110, flange 120, and reinforcement plate 130. , studs 11 may also be provided on the outer surface of the girder 1.

The rotational displacement member 200 is provided at the upper part of the support member 100 and the lower part of the girder 1, and can accommodate the rotational displacement occurring in the girder 1 and also accommodate the axial displacement. Ensure that the configuration (girder plate, sliding pad, separation prevention member, etc.) can be installed.

The rotational displacement member 200 includes a support plate 210, a rotation plate 220, and a shaft member 230.

The support plate 210 supports the girder and accommodates rotational displacement and longitudinal displacement.

The support plate 210 may be provided with an inner bolt hole 211 and an outer bolt hole 212.

The inner bolt hole 211 is located inside the bridge than the outer bolt hole 212.

A girder bolt 522, which will be described later, can be fastened to the inner bolt hole 211, and a fixing bolt 512, which will be described later, can be fastened to the outer bolt hole 212.

On the lower surface of the support plate 210, a rotation plate 220 is integrally provided in the same direction as the axial direction of the girder (1).

A shaft member insertion hole 221 is provided below the rotation plate 220, and the shaft member 230 is inserted into the shaft member insertion hole 221 to accommodate the rotational displacement occurring in the girder (1). do.

It is preferable that two rotation plates 220 are provided side by side, and they are preferably located outside the flange 120 so as not to be disturbed when rotating. In addition, in order to prevent rotation from being interfered with by studs, reinforcing bars, etc., it is desirable to have the width narrower as it goes down.

The axial member 230 is preferably a steel bar of circular cross-section, and is provided in a direction perpendicular to the axial direction of the girder 1.

A hole through which the shaft member 230 can pass may be formed in the flange 120 and the reinforcing plate 130, and the shaft member 230 may be inserted and installed, and may be installed only on the outside of the flange 120. It can also be fixed as much as possible.

The girder plate 300 is provided integrally with the girder 1 at the lower part of the girder 1 to prevent the girder 1 from being separated and to accommodate axial displacement.

Displacement receiving holes 310 are provided on both sides of the outer bridge of the girder plate 300.

The width of the displacement-accommodating long hole 310 in the direction perpendicular to the bridging axis is sufficient to allow the girder bolt 522 to pass through, and the width of the displacement-accommodating long hole 310 in the bridging direction is greater than the width in the direction perpendicular to the bridging axis. It is formed long. That is, the displacement-accommodating long hole 310 is short in the direction perpendicular to the bridge axis and long in the direction of the bridge axis, so that the girder can be expanded and contracted due to temperature changes, etc. even when fastened with girder bolts 522.

A sliding pad 400 is provided between the girder plate 300 and the support plate 210, so that the girder can expand and contract smoothly without being constrained when the girder expands and contracts due to temperature changes, etc.

The sliding pad 400 is provided with a bolt hole 410, so that its position can be fixed by fastening a girder bolt 522, which will be described later.

The sliding pad 400 can be made of PTFE (Polytetrafluoroethylene) material with a low coefficient of friction.

In order to prevent separation of the girder while accommodating the axial displacement of the girder, a separation prevention member 500 is fixed to the support plate 210.

The separation prevention member 500 includes a fixing plate 510 and a cover plate 520.

The fixing plate 510 and the cover plate 520 may be provided integrally, and may further include a spacer 530 provided integrally between the two to adjust the height between them.

The fixing plate 510 is fixed to the support plate 210, and may be fixed by welding. The fixing plate 510 has a bolt hole 511, and the support plate 210 has an outer bolt hole ( 212), it may be fastened and fixed by a fixing bolt 512.

When the fixing plate 510 is fixed to both upper sides of the support plate 210 and the girder plate 300 is positioned between the fixing plates 510 on both sides, the fixing plate 510 and the support plate 210 A girder plate 300 is located between the formed steps to prevent deviation in the direction perpendicular to the bridge axis.

The cover plate 520 is provided on the upper part of the fixing plate 510 and is provided to cover the upper portions of both sides of the girder plate 300 (see FIG. 3).

The cover plate 520 is provided with a bolt hole 521, and a girder bolt 522 is fastened to penetrate the bolt hole 521, the displacement receiving long hole 310, and the inner bolt hole 211. At this time, the bolt hole 410 of the sliding pad 400 may also be fastened.

Since the cover plate 520 is bolted while covering both sides of the girder plate 300, the axial displacement of the girder is not restricted and the girder can be prevented from deviating in the direction perpendicular to the bridge axis or upward. do.

Therefore, the displacement accommodating device of the present invention prevents the generation of negative moment at the right angle section by removing the unexpected stress caused by the expansion and contraction of the girder and the restraint of the bending moment caused by the self-weight of the mounted girder and relaxation of the prestress introduced into the girder. You can do it.

Below, a method of constructing a ramen bridge using a displacement accommodation device will be described.

After installing the lower structure (2) of the ramen bridge and completing the installation of the lower structure, the process of providing the girder plate (300) integrally with the lower part of the girder (1) and the support member (100) on the upper part of the lower structure (2) , the process of providing the rotational displacement member 200 and the sliding pad 400 is proceeded. The process of providing the girder plate 300 integrally with the lower part of the girder 1 may be performed first or simultaneously.

After the above process, the girder (1) is mounted so that the girder plate (300) is located on the upper part of the sliding pad (400), and the separation prevention member (500) is fixed.

As above, by installing the support member 100, rotational displacement member 200, girder plate 300, sliding pad 400, and separation prevention member 500, negative moment and additional stress are not generated at the right corner position. It won't happen.

Afterwards, the formwork is installed according to the design of the ramen bridge, and the concrete is poured and cured to complete the construction of the ramen bridge.

Although the drawing shows the use of a steel pipe girder as an example, the ramen bridge displacement accommodation device and ramen bridge construction method of the present invention include PSC-BEAM girder, corrugated steel plate composite girder, H-BEAM girder, and PS composite girder ( It can also be applied (see FIGS. 9 to 12 in order).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached claims.

100. Support members
110. Web 120. Flange
130. Reinforcement plate
140. Lower plate 141. Anchor
150. Stud
200. Rotational displacement member
210. Support plate
211. Inner bolt hole 212. Outer bolt hole
220. Rotating plate 221. Shaft member insertion hole
230. Shaft member
300. Girder plate 310. Displacement accommodation fixture
400. Sliding pad 410. Bolt hole
500. Breakaway prevention member
510. Fixed plate
511. Bolt hole 512. Fixing bolt
520. Cover plate
521. Bolt hole 522. Girder bolt
530. Spacer
1. Girder 11. Stud
2. Substructure

Claims (10)

In the displacement receiving device provided on the upper part of the ramen bridge lower structure (2),
A support member 100 provided on the upper part of the lower structure 2;
A rotational displacement member 200 provided at the upper part of the support member 100 and the lower part of the girder 1 to accommodate the rotational displacement occurring in the girder 1;
Includes a girder plate 300 provided integrally with the girder (1) at the lower part of the girder (1),
The rotational displacement member 200 is,
Support plate 210 supporting the girder (1);
It includes a rotation plate 220 that is integrally provided on the lower surface of the support plate 210 in the same direction as the axial direction of the girder 1 and is provided with an axial member insertion hole 221 downward,
The support member 100 is provided with a shaft member 230 in a direction perpendicular to the axial direction of the girder 1, and the shaft member 230 is inserted into the shaft member insertion hole 221, thereby forming the girder during construction of the ramen bridge. Accepts the rotational displacement that occurs in (1),
A sliding pad 400 is provided between the girder plate 300 and the support plate 210,
Displacement receiving holes 310 are provided on both sides of the girder plate 300,
A separation prevention member 500 is fixed to the support plate 210 to accommodate the axial displacement of the girder (1) and prevent the girder (1) from separating.
Ramen bridge displacement receiving device. delete delete delete According to paragraph 1,
The separation prevention member 500 is,
A fixing plate 510 fixed to the support plate 210; It is provided on the upper part of the fixing plate 510, and includes a cover plate 520 so that it can be positioned on both upper sides of the girder plate 300,
The cover plate 520 is provided with a bolt hole 521,
The sliding pad 400 is provided with a bolt hole 410,
The support plate 210 is provided with an inner bolt hole 211,
A girder bolt 522 is fastened to penetrate the bolt hole 521, the displacement receiving hole 310, the bolt hole 410, and the inner bolt hole 211.
Ramen bridge displacement receiving device. According to claim 1 or 5,
The support member 100 includes a web 110; Flanges 120 integrally provided at both ends of the web 110; It includes a reinforcement plate 130 provided between the flanges 120,
The shaft member 230 is installed so as to be supported on the flange 120 and the reinforcement plate 130.
Ramen bridge displacement receiving device. According to claim 1 or 5,
The rotation plate 220 is characterized in that the width becomes narrower as it goes downward.
Ramen bridge displacement receiving device. According to claim 1 or 5,
The sliding pad 400 is characterized in that it is made of PTFE (Polytetrafluoroethylene) material.
Ramen bridge displacement receiving device. In the ramen bridge construction method using the displacement accommodation device of paragraph 1 or 5,
A) Installing the ramen bridge substructure (2);
b) providing a girder plate (300) integrally with the lower part of the girder (1);
c) providing a support member 100, a rotational displacement member 200, and a sliding pad 400 on the upper part of the lower structure 2, and mounting the girder 1;
d) fixing the separation prevention member 500;
e) Including the steps of installing formwork and pouring concrete
Ramen bridge construction method using displacement accommodation device. According to clause 9,
The girder (1) is any one of a steel pipe girder, a PSC-BEAM girder, a corrugated steel plate composite girder, an H-BEAM girder, and a PS composite girder.
Ramen bridge construction method using displacement accommodation device.

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