KR101031180B1 - Infilled type steel box bridge holder - Google Patents

Abstract

PURPOSE: A filled type steel box girder bridge bearing is provided to improve structural stability by preventing partial stress concentration and to easily perform a maintenance work by lowering the height of a steel box girder. CONSTITUTION: A filled type steel box girder bridge bearing is composed as follows. A fill support(20) is coupled to the bottom of a steel box girder(10). The fill support is inserted into a support groove(31) of a steel box girder support(30). A post(22) is composed of a cylindrical body(221) with the closed bottom. The top end of the post is coupled to the bottom of a post flange(21). Multiple studs(222) are welded in the inner surface of the cylindrical body. An air filling hole(211) and an air discharge hole(212) are formed in the inner side of the post flange.

Description

Filled Steel Box Bridge Holder {Infilled type steel box bridge holder}

The present invention relates to a filling type steel box bridge support, in particular, the filling support is inserted into the steel box support in the state in which the filling support is filled and cured in the lower portion of the steel box beam.

In general, bridges are constructed to allow roads, railroads, waterways and pipelines to cross rivers, lakes, straits and other traffic routes. The bridge is a road bridge constructed for automobile traffic, a railroad bridge dedicated to railroads, and a waterway bridge through which water, irrigation water, power generation water, rivers, straits, lakes, wetlands, etc. It is constructed according to its use, such as overpasses applied to three-dimensional intersections.

Concrete bridges constructed of concrete among the bridges have less rigidity, so the height of the cross section must be secured to secure the required stiffness, so the effect of live load is less than that of steel bridges.

The steel bridges constructed as steels among the bridges are excellent in rigidity and have low self-weight as a whole, which is likely to change bridge behavior under the influence of live loads. Especially, when the radius of curvature is small or rectangular, the structural behavior is complicated, which causes a large difference between theoretical and actual behavior.

Steel bridges have a bridge device that connects the superstructure with the substructure, but because the structure simply supports the superstructure in the vertical and horizontal directions, it is difficult to control the behavior caused by the reaction force and torsion.

When the steel bridge is small in square and curved radius, the structural stability due to falling phenomenon, earthquake load, temperature load, and vehicle load decreases due to the rise of the bridge device due to abnormal behavior. There were many inconveniences in management.

The present invention was created to solve the above problems, and the stress is caused by the moment that is variable due to the length of the steel box to be coupled to the filling support for the cross-sectional area is widened to the bottom of the steel box beam locally To prevent it.

The present invention is a filling type steel box bridge support that is configured to be inserted into the support groove 31 formed in the upper portion of the strong box support 30, the filling support 20 coupled to the bottom of the strong box 10 , The filling support 20 is coupled to the upper end of the post (22) formed of a cylindrical body 221 is closed to the lower portion of the post flange 21, a plurality of studs on the inner surface of the cylindrical body (221) 222 is welded, and the post flange 21 has a filling hole 211 and an air discharge hole 212 formed therein, and a female screw 241 under the through hole 213 formed at the edge side. Is formed so that the lower portion of the post flange 21 is welded to the upper portion of the cylindrical body 221, the filler C is filled and cured through the filling hole 211, and the filler C is The upper part of the hardened post flange 21 is coupled with the bolt B against the lower flange 12 of the steel box beam 10. Then, the post 22 is inserted to be seated to the upper portion of the post support hole 23 inserted into the support groove 31, the lower portion of the flange support hole 24 is seated on the upper edge of the support groove 31 The lower flange 12 of the steel box beam 10 is characterized in that it is seated on the upper portion of the flange support (24).

In addition, the inner side of the support groove 31 and the lower flange 12 are fixed by the anchor body 25 passing through the flange support 24, the upper portion of the anchor body 25 is a strong box beam The interior of the (10) is characterized in that it is embedded in the filling material (C) to be filled with the filling space 17 partitioned by the finishing panel 16, it is cured.

In addition, the post support 23 is the lower end of the steel plate 231 is seated in the support groove 31, the lower portion of the panel 232 is seated on the upper portion of the steel plate 231 of the post 22 The lower panel is opposed to the upper portion of the panel 232, the flange support hole 24 is a steel panel having a first anchor through hole (241-2) formed around the first post through hole (241-1) ( 241, the louver panel 242 having the second anchor through hole 242-2 formed around the second post through hole 242-1 may be stacked.

The present invention allows the filling support to be widened in the lower portion of the steel box beam to be coupled to prevent the local concentration of stress due to the moment that is variable due to the length of the steel box beam and at the same time the device for abnormal behavior Due to the rising phenomenon, it is possible to prevent the structural stability from lowering of horizontal load due to falling phenomena, earthquake load, temperature load, and vehicle load.

In addition, by lowering the height of the strong box through this, it is possible to obtain an effect that can be made easy to maintain and at the same time increase the urban aesthetics.

1 to 3 are perspective views showing the steel box bridges constructed by the filled steel box bridge support according to the present invention.
Figure 4 is an exploded perspective view of the main portion of the steel box bridge constructed by the filled steel box bridge support according to the present invention.
Figure 5 is a side cross-sectional view of the steel box bridge constructed by the filled steel box bridge support according to the present invention.
Figure 6 is a side view showing a steel box bridge of another embodiment constructed by a filled steel box bridge support according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Filled steel box bridge support according to the present invention, as shown in Figures 1 to 5, the steel box beam 10 is stably coupled to the upper portion of the steel box beam support unit 30 that is being constructed pier or alternately The filling support 20 is coupled to the lower portion of the strong box 10, and the filling support 20 is configured to be inserted into the strong box support 30.

The steel box beam 10 is formed so that the steel plate is extended in the longitudinal direction so that a predetermined space is provided therein, perpendicular to both sides of the upper flange 11 and the lower flange 12 arranged in a horizontal form. The upper and lower parts of the abdominal plate 13 arranged in the form are welded. Part of the filler (C) is partially filled in the space provided to the inside of the welded joint, and the filler (C) is filled inside the lower flange 12 of the steel box beam 12 in which the filler (C) is filled. The hardened filling support 20 is coupled. The charging support 20 is configured to be inserted into the support groove 31 formed in the upper portion of the strong box support 30.

The filling support 20 is coupled to the upper end of the post (22) formed of a cylindrical body 221 is closed to the lower portion of the post flange 21, a plurality of studs on the inner surface of the cylindrical body (221) ( 222 is coupled to the welding joint is configured to prevent the generation of voids and the filler (C) to be filled and cured inside.

The post flange 21 has a filling hole 211 and an air discharge hole 212 is formed inside the air through the air discharge hole 212 as much as the filling amount of the filler (C) to be filled in the filling hole 211 It is configured to be discharged to the outside is configured to be easily filled with the filler (C).

A female thread 241 is formed at a lower portion of the through hole 213 formed at the edge of the post flange 21, and a post flange 21 is formed on the lower flange 12 by a bolt B passing through the lower flange 12. It is configured to be easily combined.

A lower portion of the post flange 21 is welded to the upper portion of the cylindrical body 221, and the filler C is filled and cured through the filling hole 211. The upper portion of the post flange 21 is the filler (C) is hardened to be coupled to the bolt (B) against the lower flange 12 of the steel box beam (10).

The post 22 is inserted to be seated to the upper portion of the post support hole 23 inserted into the support groove 31, the lower portion of the flange support hole 24 is seated on the upper edge of the support groove 31 is a strong box The lower flange 12 of the beam 10 is configured to be seated on the upper portion of the flange support 24.

The inner side of the support groove 31 and the lower flange 12 are fixed by the anchor body 25 penetrating through the flange support 24, and the upper portion of the anchor body 25 is a strong box beam 10 ) Is embedded and hardened in the filling material (C) to be filled in the filling space portion 17 partitioned by the finishing panel 16 in the interior of the anchor member 25 is loosened due to vibration or other causes, the fixing force or the support force It is configured to prevent the weakening.

The post support hole 23 is the lower end of the steel plate 231 is seated in the support groove 31, the lower portion of the panel 232 is seated on the upper portion of the steel plate 231 is the lower end of the post 22 It is configured to face the upper portion of the panel 232.

The flange supporter 24 allows the post 22 to be easily inserted into the support groove 31 and the post flange 21 for coupling the post 22 to the lower flange 12 to be in close contact with each other. It is configured to prevent the local load, that is, a portion of the full strength of the steel box beam 10 is transmitted to the steel box support portion 30 through the post 22 only.

The flange support 24 is composed of a lower steel panel 241 and a louver panel 242 abuts on the upper portion of the steel panel 241, the steel panel 241 is a first post through hole 241 The first anchor through hole 241-2 is integrally formed around the second panel 241-2, and the second anchor penetrates around the steel panel 241 having the second post through hole 242-1. The louver panel 242 having the holes 242-2 is formed to be stacked.

The process of being coupled to the steel box beam supporting portion made of piers or alternately by the filling support having the configuration as follows.

First, a plurality of studs 222 are welded to the inner surface of the cylindrical body 221 in which the steel panel is rolled in a cylindrical shape, and then the upper portion of the cylindrical body 221 in which the stud 222 is welded is a post flange ( 21, the post flange 21 is coupled to the post 22 by welding.

Next, the filler C is filled into the cylindrical body 221 positioned downward through the filling hole 211 formed in the post flange 21 to be cured. At this time, the air remaining in the interior of the cylindrical body 221 in the process of filling the filling material (C) through the filling hole 211 is discharged through the air discharge hole 212 to generate voids therein As the filler C is injected and cured evenly between the studs 222, the inner surface of the cylindrical body 221 can be prevented from being lifted.

Next, the through hole formed in the post flange 21 through the lower flange 12 in a state that the upper portion of the post flange 21 to the lower flange 12 of the steel box beam 10 The filling support 20 is coupled to the lower portion of the steel box 10 by being coupled to the female screw 214 via the 213.

Next, in the process of constructing the strong box beam support unit 30, the support groove 31 having a predetermined diameter and depth is formed on the upper side of the strong box beam support unit 30, a plurality of around the support groove 31 Two anchor bodies 25 are inserted to a predetermined depth in advance.

Next, the steel plate 231 and the panel 232 forming the post support 23 in the support groove 31 are sequentially inserted, and then the flange support 24 is placed on the upper side of the steel box 10. The steel panel 241 and the louver panel 242 to be formed are sequentially stacked. At this time, the anchor body 25 is exposed to the upper through the first anchor through hole 213 and the second anchor through hole 213. In this state, the cylindrical body 221 forming the filling support 20 in the lifted state using the steel box beam 10 as a crane to be matched to the support groove 31 and then the anchor body 25 is Through the lower flange 12 to be exposed to the filling space 17.

Next, the filler C is charged to the filling space 17 so as to be primarily hardened, and then the nut N is coupled to the anchor body 25 exposed to the upper portion thereof to tighten the filling box 17. As the lower part is tightly coupled to the edge of the support groove 31, it is converted from the simple beam structure to the ramen structure.

Subsequently, the filling type steel box bridge is constructed to be cured by filling the filler C in the remaining part of the filling space 17 again. At this time, the other side of the steel box beam is to be supported in the shifted form.

On the other hand, in the present invention, one side of the strong box beam 10 is to be fixed directly to the lower support 12, the filling support 20 for supporting the strong box beam 10, the other side of the strong box beam 10 6, but in addition to this configuration, as shown in FIG. 6, both ends of the steel box 10 of the steel box bridge in which the steel box 10 is continuous are filled with support 20 in the piers. Can be fixed and inserted, and the shift can be supported by a movable type.

10: steel box beam 11: upper flange
12: lower flange 13: abdominal plate
20: filling support 21: post flange
30: steel box support 31: support groove
22: post 211: charging hole
212 air discharge hole 213 through hole
221: cylinder 222: stud
241: female thread

Claims (3)

In the filling type steel box bridge supporter configured to be inserted into the support groove 31 formed in the upper portion of the strong box support 30 is coupled to the bottom of the strong box 10,
The filling support 20 is coupled to the upper end of the post (22) formed of a cylindrical body 221 is closed to the lower portion of the post flange 21, a plurality of studs on the inner surface of the cylindrical body (221) ( 222 is welded, and the post flange 21 has a filling hole 211 and an air discharge hole 212 formed therein, and a female thread 241 is formed below the through hole 213 formed at the edge side. And a lower portion of the post flange 21 is welded to the upper portion of the cylindrical body 221, the filler C is filled and cured through the filling hole 211, and the filler C is cured. The upper part of the post flange 21 is joined with the bolt B against the lower flange 12 of the steel box beam 10, and the post support hole into which the post 22 is inserted into the support groove 31 ( 23) It is inserted to be seated in the upper portion, the lower portion of the flange support 24 is seated on the upper edge of the support groove 31 is compulsory Beam 10, the lower flange 12 is the flange receiving port 24 charge alternating bridge box bearings, characterized by doeeojim seated on top of the sphere. The method of claim 1,
The inner side of the support groove 31 and the lower flange 12 are fixed by the anchor body 25 penetrating through the flange support 24, and the upper portion of the anchor body 25 is a strong box beam 10 Filled steel box bridge support, characterized in that it is embedded in the filling material (C) to be filled with the filling space portion 17 partitioned by the finishing panel 16 inside the). The method of claim 1,
The post support hole 23 is the lower end of the steel plate 231 is seated in the support groove 31, the lower portion of the panel 232 is seated on the upper portion of the steel plate 231 is the lower end of the post 22 The steel panel 241 facing the upper portion of the panel 232, and the flange supporter 24 has a first anchor through hole 241-2 formed around the first post through hole 241-1. Filled steel box bridge support, characterized in that the louver panel 242 having a second anchor through hole (242-2) is formed on the periphery having a second post through hole (242-1) on the top.

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