KR101258409B1 - Differential strength steel box girderbridges - Google Patents

Abstract

"형 공간을 갖는 제1상부찬넬이 용접이음으로 결합되어 충진재가 충전 및 경화된 강결구조로 형성되어지고, 상기 상부플랜지의 상부에 돌출되게 형성된 스터드가 바닥판의 하부에 매립되어짐을 특징으로 한다.The present invention relates to a rigid differential-type steel box cross-section.
In order to achieve the above object, the present invention provides a rigid differential box girder bridge in which a lower portion of a steel box is installed to be supported by a bridge between two alternating turns and alternately, and a bottom plate is provided on the upper portion of the steel box, And the upper flange is welded to the upper part of the bend plate so as to be in contact with the upper flange, so that a space having a longitudinal direction is formed integrally with the upper part of the bend plate, The flange is cut to form a filler material injection hole, and a "

A first upper channel having a shape space is welded and joined to form a rigid structure in which a filler is filled and cured and a stud protruding from the upper portion of the upper flange is embedded in a lower portion of the bottom plate .

Description

{DIFFERENTIAL STRENGTH STEEL BOX GIRDERBRIDGES}

In particular, the present invention relates to a rigid differential box steel box bridge, in particular, an upper flange of a steel box forming a steel box cross section is cut to form a filler material injection hole, a channel is provided at a lower portion where a filler material injection hole is formed, So as to be filled and cured by a channel through a ball so as to have a strong structure that is effective in crack section moment.

In general, bridges have been constructed as roads, railways, waterways, pipelines, etc. to allow them to pass over rivers, lakes, straits or other traffic. The bridges are bridge schools that are built for automobile traffic, railway bridges dedicated to railways on which trajectories are constructed, river schools that have been constructed over waterway bridges, rivers, straits, lakes and wetlands passing through waterworks, irrigation water and power generation water, , High-rise bridges applied to a three-dimensional intersection, and so on.

Concrete bridges constructed with concrete are less rigid so that the section height must be secured in order to secure the required rigidity. Therefore, the influence of live load is less than that of steel bridges.

A steel bridge constructed with steel (hereinafter referred to as "steel box girder") has excellent rigidity and has a small weight as a whole. It has a thin plate with a thin thickness and alternately has a diagonal wall, vertical stiffener, horizontal stiffener, The bridge is installed at the bridge between the bridge.

However, due to the stress concentration at the point of the steel box due to the moment and moment generated in the steel box placed between the alternation and piers, a local buckling phenomenon occurs, and at the same time, There is a problem that deformation occurs.

In addition, since the heavy rage is placed against the bridge portion, vibrations due to live loads are severely generated, which causes noise pollution in the urban area and shortens the life due to an increase in fatigue load.

In addition, there is a problem in that safety is low due to difficulty in control due to a complex psychological anxiety due to the occurrence of deflection due to vibration, and a complicated behavior at the same time.

In addition, it was unsuitable for use in areas where heavy loads such as railway bridges, aqueduct bridges, ecological aisles, etc. were greatly influenced by the high shape of the steel box, and the bridges were reduced in span, There were difficulties to use in bridges.

The present invention prevents local buckling caused by a steel box to prevent deformation, reduces vibration caused by live load, facilitates use in a downtown area, and reduces fatigue load to prolong life To reduce the occurrence of deflection, to give psychological safety to the user, to simplify the behavior to increase the safety, to reduce the amount of steel to be used, to facilitate construction, and to maintain sufficient rigidity will be.

"형 공간을 갖는 제1상부찬넬(15)이 용접이음으로 결합되어 충진재(C)가 충전 및 경화된 강결구조로 형성되어지고, 상기 교각(30)의 상부로 지지되는 강상자(10) 내부의 공간부(14)에는 주입홀(161)을 갖는 "

"형 제1하부찬넬(16)이 용접이음으로 결합되어지고, 상기 제1하부찬넬(16) 상부의 주입홀(161)을 통해 충진재(C)가 충전 및 경화된 강결구조를 갖도록 구성되어지며, 상기 교대(20)의 상부로 지지되는 강상자(10)의 공간부(14)에는 상부와 하부에 각각 "

"형 공간을 갖는 제2상부찬넬(17)과, 주입홀(181)을 갖는 "

"형 제2하부찬넬(18)이 용접이음으로 결합되어 상기 제2상부찬넬(17)과 제2하부찬넬(18)의 내부로 충진재(C)가 충전 및 경화된 강결구조를 갖도록 구성되어지되, 상기 교대(20)와 교각(30) 사이로 위치된 강상자(10)의 상부플랜지(13)는 중앙에 센터개구부(132)가 형성되어지고, 상기 센터개구부(132)의 양측에 각각 일정 간격을 갖는 곳에 사이드개구부(133)가 형성되어지되, 상기 센터개구부(132)는 사이드개구부(133) 보다 넓은 형태를 갖도록 구성되어지고, 상기 강상자(10)의 공간부(14)에 충진재(C)가 충전 및 경화된 부분의 상부에는 피에스강선(P)이 관통되어 긴장되게 결합되어지되, 상기 피에스강선(P)이 관통되어 노출된 경화된 부분에 강선정착구(19)가 구비되어지고, 상기 상부플랜지(13)의 상부에 돌출되게 형성된 스터드(S)가 바닥판(40)의 하부에 매립되어짐을 특징으로 한다.The lower part of the steel box 10 is supported by the bridge 30 between the alternate 20 and the alternate 20 and the bottom plate 40 is provided on the upper part of the steel box 10, The upper end of the upper flange 13 is welded to the lower end of the upper flange 11 and the upper end of the lower flange 11 is welded to the upper end of the upper end of the upper flange 11, And the upper flange 13 of the steel box 10 supported by the upper portion of the bridge 30 is cut to form a filler An injection hole 131 is formed, and the lower part of the filler material injection hole 131 is provided with a "

A first upper channel 15 having a shape space is welded and joined to form a rigid structure in which the filler material C is filled and cured and a steel box 10 Which has an injection hole 161, is formed in the space portion 14 of the "

The first lower channel 16 is welded and the filler C is filled and hardened through the injection hole 161 in the upper portion of the first lower channel 16 , The space portion 14 of the steel box 10 supported on the upper portion of the alternation 20 has a "

A second upper channel 17 having a mold space and a second upper channel 17 having an injection hole 181,

The second lower channel 18 is welded and joined so that the filler material C is filled and hardened into the second upper channel 17 and the second lower channel 18 A center opening 132 is formed at the center of the upper flange 13 of the steel box 10 positioned between the alternate 20 and the bridge 30, The center opening 132 is formed to have a wider shape than the side opening 133 and the filler C is inserted into the space 14 of the steel box 10, And a steel wire fixing groove 19 is provided on the hardened portion where the steel wire P is penetrated and exposed, The studs S protruding from the upper portion of the upper flange 13 are embedded in the lower portion of the bottom plate 40 And a gong.

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The upper flange of the steel box constituting the steel box cross-section is cut to form a filler material injection hole, and a channel is provided at a lower portion where the filler material injection hole is formed so that the filler material is filled and hardened by the channel through the filler material injection hole , It is possible to obtain the effect of preventing the local buckling of the upper flange, the bump plate and the lower flange made of steel plates by having a strong structure effective for the crack section moment.

In addition, it can reduce vibration caused by live load, making it easy to use in downtown area. It can extend the service life by reducing fatigue load, reduce psychological safety by reducing sagging rate, The effect can be obtained.

Further, it is possible to obtain an effect that the maintenance by the concentrated load and the activation can be easily performed.

In addition, the filling material can be easily charged while reducing the amount of the steel material, so that the construction can be easily performed.

1 is a perspective view of a rigid differential type girder bridge.
2 is an exploded perspective view of a rigid differential type girder bridge according to the present invention.
3 is a vertical cross-sectional view of a rigid differential type girder bridge according to the present invention.
4 is an enlarged sectional view taken along the line AA in Fig.
5 is an enlarged cross-sectional view taken along line BB of Fig.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 5, the lower portion of the steel box 10 is supported by a bridge 30 between the alternate 20 on both sides and the alternate 20, And a bottom plate 40 is installed on the upper part of the steel box 10 to support the bottom plate 40.

The steel box 10 has a predetermined thickness and a long steel plate cut along the longitudinal direction is coupled to the steel box 10. The bottom portion of the bamboo plate 12 having the same length on both sides of the lower flange 11 is vertically abutted, And a lower portion of the upper flange 13 is brought into contact with the upper portion of the bumper plate 12 by welding so that the space portion 14 having a longitudinal direction is integrally formed have.

The alternation 20 and the bridge 30 have a function of distributing the load of the steel box 10 and the bottom plate 40 so as to be stably supported and the support portion 22 And the support portions 22 and 32 are formed integrally with seating portions 23 and 33 having a horizontal direction on the upper portion of the support portions 22 and 32. [

A filler material injection hole 131 having a shape in which the upper flange 13 is cut to a predetermined length is formed on the upper part of the steel box 10 supported on the upper part of the pier 30, So that the filler (C) can be easily charged.

The first upper channel 15 is welded to the lower portion of the filler material injection hole 131 so as to prevent the filler material C from being filled in the inner space of the steel box 10, .

"형 공간이 제공되어지도록 구성되어 있다. 상기 제1상부찬넬(15)의 내면에는 다수개의 스터드(S)가 형성되어 충전된 충진재(C)가 경화되어 강결구조가 얻어질 수 있게 구성되어 있다.For this purpose, the first upper channel 15 is formed by cutting a steel plate having a predetermined thickness,

A plurality of studs S are formed on the inner surface of the first upper channel 15 so that the filled filler material C is cured to obtain a strong structure .

A plurality of studs S are formed on the upper portion of the upper flange 13 so that the studs S can be embedded in the bottom plate 40 in a state in which reinforcing bars are laid.

"형 제2하부찬넬(16)이 용접이음으로 결합되어지고, 상기 제1하부찬넬(16) 상부의 주입홀(161)을 통해 충진재(C)가 충전 및 경화된 강결구조를 갖도록 하여 충분한 강성이 발휘될 수 있게 구성되어 있다.The strength of the steel box 10 supported by the upper part of the pier 30 is extremely small so that the shear force is controlled so that the bending compression and the bending tensile stress are large and the injection hole 161 is formed below the inner space 14 Having "

And the filler material C is filled and hardened through the injection hole 161 in the upper portion of the first lower channel 16 so that sufficient rigidity And the like.

The upper flange 13 constituting the root portion of the steel box 10 positioned between the alternation 20 and the bridge 30 is formed with a center opening 132 having a predetermined area at the center so as to have a stiffness difference form A side opening 133 is formed on both sides of the center opening 132 at predetermined intervals and a width of the center opening 132 is set to be a width of the center opening 132. [ Is formed to be wider than the side openings 133, so that rigidity deterioration prevention and shape management can be easily performed. The center opening 132 or the side opening 133 may have any shape such as a circle, an ellipse, and a square.

"형 공간을 갖는 제2상부찬넬(17)과, 주입홀(181)을 갖는 "

"형 제2하부찬넬(18)이 용접이음으로 결합되어진 상태에서 상기 제2상부찬넬(17)과 제2하부찬넬(18)의 내부로 각각 충진재(C)가 충전 및 경화된 강결구조를 갖도록 구성되어 있다.Stress concentration occurs in the space portion 14 of the steel box 10 which is supported on the upper portion of the alternation 20,

A second upper channel 17 having a mold space and a second upper channel 17 having an injection hole 181,

So that the filler material (C) is filled and cured into the second upper channel (17) and the second lower channel (18) in a state where the second lower channel (18) Consists of.

By filling and curing the filler material (C) in the second upper channel (17) and the second lower channel (18) to a certain degree of load, it is possible to prevent the adverse reaction and twisting phenomenon The same function as the one provided.

In each of the fulcrums where the filling material C is filled and cured into the space 14 of the steel box 10, the steel wire P is inserted in a tensioned state in order to resist the momentum . To this end, a cured portion through which the threaded wire P passes and is exposed is provided with a steel wire fixture 19 so that tension can be applied to the steel wire P, respectively.

In this type of rigid differential box girder bridge, first, the support portions 22 and 32 are projected onto the upper portions of the foundation portions 21 and 31, 10 to be seated.

Next, the filler material C is filled into the first upper channel 15 through the filler material injection hole 131 of the upper flange 13 at the upper part of the steel box 10 to be cured. The injection holes 161 formed in the first lower channel 16 and the injection holes 181 formed in the second upper channel 17 and the second lower channel 18 formed at both side ends of the steel box 10, So that the filler (C) is filled and cured. In this process, the filling material is filled through the filling material injection hole 131 formed in the upper flange 13, thereby facilitating the workability and preventing the generation of the gap.

Next, the steel wire P is inserted into the space 14 of the steel box 10 in a state where the steel wire P passes through the steel wire fixing hole 19 formed at the portion filled with the filler C and hardened, (40) is constructed so that a rigid differential type steel box bridge is constructed. At this time, since a plurality of studs S formed on the upper portion of the stud S are kept embedded in the bottom plate 40, a good combination function of the bottom plate 40 and the steel box 10 can be obtained .

In addition, since a plurality of center openings 132 and side openings 133 are formed in the upper flange 13, the amount of steel to be used can be reduced, thereby improving the economical efficiency.

10: Steel box 11: Lower flange
12: abdomen plate 13: upper flange
14: space part 15: first upper channel
20: Alternation 30: Pier
40: bottom plate 131: filling material injection hole

Claims (5)

The bottom of the steel box 10 is supported so as to be supported by the bridge 30 between the alternate 20 and the alternate 20 and the bottom plate 40 is provided on the top of the steel box 10, In the differential box-type steel box girder, the lower end of the bobbin plate 12 is welded to both sides of the lower flange 11 of the steel box 10, and the upper flange 13 is abutted on the upper portion of the bobbin plate 12 And a space portion 14 having a longitudinal direction therein is integrally formed,
The upper flange 13 of the steel box 10 supported at the upper portion of the pier 30 is cut so that a filler material injection hole 131 is formed,

The first upper channel 15 having a shape space is welded and joined to form a rigid structure in which the filler material C is filled and cured,
The space portion 14 inside the steel box 10 supported on the upper portion of the pier 30 is provided with an injection hole 161,

The first lower channel 16 is welded and the filler C is filled and hardened through the injection hole 161 in the upper portion of the first lower channel 16 ,
In the space portion 14 of the steel box 10 supported on the upper portion of the alternation 20,

A second upper channel 17 having a mold space and a second upper channel 17 having an injection hole 181,

The second lower channel 18 is welded and joined so that the filler material C is filled and hardened into the second upper channel 17 and the second lower channel 18 ,
The upper flange 13 of the steel box 10 positioned between the alternation 20 and the bridge 30 is formed with a center opening 132 at a center thereof and has a predetermined interval at both sides of the center opening 132 Side opening 133 is formed in the center opening 132. The center opening 132 is configured to have a wider shape than the side opening 133,
The steel wire P is threadedly connected to the upper part of the space 14 of the steel box 10 filled with the filler material C and hardened, And a stud (S) protruding from an upper portion of the upper flange (13) is embedded in a lower portion of the bottom plate (40). The stiffener Box bridge.
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