KR101182680B1 - I section composite girder, girder bridge and manufacturing and constructing method thereof - Google Patents

Abstract

PURPOSE: An I-shaped concrete filled girder, a girder bridge using the same, and manufacturing and construction methods thereof are provided to construct a lightweight girder bridge by optimizing the structure of the girder. CONSTITUTION: An I-shaped concrete filled girder comprises a pair of H-beams(3), a concrete filled portion(4), a center plate(5), and a cover plate(6). The side ends of the H-beams are coupled to each other to form a sealed space portion(2). The concrete filled portion is formed by filling a part of the sealed space portion with concrete. The center plate divides the closed space portion into upper and lower space portions. The cover plate is coupled to the bottom surface of the lower flanges of the coupled H-beams.

Description

Type I concrete filled girders, girder bridges using the same and their construction and construction method {I section composite girder, girder bridge and manufacturing and constructing method

The present invention relates to a type I concrete filling girders, girder bridges using the same and a method for manufacturing and installing the same, and more specifically, by using a type I girders bonded to a pair of H-shaped steel and filled with concrete inside thereof, It is lightweight, high rigidity, low height and long span, and I-type concrete filling girders to facilitate on-site assembly, girder bridge using the same and methods of manufacturing and installing them.

Recently, the demand for girder, which is lightweight, high rigidity, easy to manufacture and low production cost, is increasing day by day, and various researches and developments have been made.

As an example for this, Korean Patent Laid-Open Publication No. 10-2010-0055277 (2010.5.26. Published) uses a steel girder for the site that acts largely on the load, PSC girder for the site where the load acts relatively small It is a technique to provide composite girders with reasonable cross-sectional size and height by using.

However, these prior arts are difficult to manufacture in the factory and field construction, there is a problem that does not reflect the precise structural analysis of the stress generated according to the load and position is not substantially high rigidity, and also takes a lot of manufacturing and installation costs .

In order to solve the problems as described above, the present invention combines a pair of H-shaped steel and filled with concrete between the I-shaped steel and concrete composite girder to increase the light weight and rigidity and low The purpose of the present invention is to provide a type I concrete filling girder, a girder bridge using the same, and a method of manufacturing and installing the same.

In addition, the present invention can be easily manufactured through a simple process of welding and concrete pouring using commercially available H-shaped steel, in particular, easy construction on-site, simple manufacturing process, I-type concrete filling girder excellent in manufacturing and construction technology The purpose of this study is to provide girder bridges and their fabrication and construction methods.

In addition, the present invention is the I-type concrete-filled girder, girder bridge using the same and the fabrication method and the method of the girder bridge to increase the rigidity by optimally designing the structure of the steel and concrete composite girders according to the stress generated according to the position of the bridge The purpose is to provide.

Another object of the present invention is to provide an I-type concrete-filled girder, a girder bridge using the same, and a method of manufacturing and installing the same, which can be easily dismantled and reused.

As a means for solving the above problems, the present invention I-type concrete filling girders are

A pair of H-shaped steels, one side of which is joined to each other to form a closed space

Part or all of the space portion is characterized in that it comprises a concrete filling portion formed by filling with concrete.

And a center plate which is divided into the upper space portion and the lower space portion and horizontally installed.

The concrete filling part is characterized in that it is formed only in the upper space or the lower space.

And it is characterized in that the cover plate is further provided coupled to the lower flange bottom of the pair of H-shaped steel.

In addition, the present invention is a manufacturing method of the I-shaped concrete filling girder,

Preparatory steps for preparing a pair of H-beams,

A joining step of positioning the flange side ends of the pair of H-beams to be in contact with each other and engaging the side ends which are in contact with each other; and

It characterized in that it comprises a filling step of placing concrete in part or all of the closed space formed by coupling the flange side ends.

And in the coupling step, it characterized in that it comprises a step of coupling both ends of the central plate to the middle portion of the web of the pair of H-shaped steel to be coupled.

And in the combining step,

One end of the center plate is joined to the middle of the web of one H-beam,

Then, the flange side ends of the pair of H-beams are joined to each other,

Then, the other end of the center plate is characterized in that the coupling to the middle portion of the web of the H-beam.

In addition, the present invention relates to a girder bridge using the I-type concrete-filled girder,

A pair of H-shaped steels, one side of which is joined to each other to form a closed space

The upper half, the lower half or the entire space of the space is made of I-type concrete filling girders, including a concrete filling is formed by filling with concrete,

The general part between the alternating part and the alternating end is composed of type I concrete filling girders, in which only the upper half of the space part is filled with concrete,

In the alternating part, the whole of the space is made of I-type concrete filling girders filled with concrete,

The point where the middle pier is located is made of I-type concrete filling girders filled with concrete only the lower half of the space,

The general part between the alternating part and the alternating part without intermediate piers is characterized in that the upper half of the space portion is made of I-type concrete filling girders filled with concrete.

In addition, the present invention is a pair of H-shaped steel and one side flange portion is coupled to each other to form a closed space portion and

The upper half, the lower half or the entire space of the space is made of I-type concrete filling girders, including a concrete filling is formed by filling with concrete,

The general part between the alternating part and the alternating end is composed of type I concrete filling girders, in which only the upper half of the space part is filled with concrete,

The alternating part and the point where the middle piers are located are made of I-type concrete filling girders in which the whole of the space part is filled with concrete.

The general part between the alternating part and the alternating part without intermediate piers is characterized in that the upper half of the space portion is composed of I-type concrete filling girders filled with concrete.

In addition, the present invention is a pair of H-shaped steel, one side flange side end is coupled to each other to form a closed space portion,

Concrete filling part is formed by filling the entire space portion with concrete and

Characterized in that it comprises a steel wire located inside the concrete filling portion.

And it is characterized in that the cover plate is further provided coupled to the lower flange bottom of the pair of H-shaped steel.

In addition, the present invention relates to the manufacturing and construction method of the girder bridge using I-type concrete-filled girder,

Preparatory steps for preparing a pair of H-beams,

A coupling step of positioning the flange side ends of the pair of H-beams to be in contact with each other and engaging the side ends which are in contact with each other,

Mounting step of mounting the combined H-beam on site,

Primary tensioning step to install the steel wire and tension it firstly to compensate for sag caused by self-weight,

Filling step for pouring and curing concrete in space

And a second tensioning step of tensioning in order to correct the deflection due to self weight and to give an additional stress for correcting the load deflection due to the placing.

In addition, the present invention relates to the manufacturing and construction method of the girder bridge using I-type concrete-filled girder,

Preparatory steps for preparing a pair of H-beams,

A coupling step of positioning the flange side ends of the pair of H-beams to be in contact with each other and engaging the side ends which are in contact with each other,

An additional coupling step of additionally coupling a cover plate to a lower surface of the lower flange of the pair of H-beams;

Mounting step of mounting the combined H-beam on site,

Primary tensioning step to install the steel wire and tension it firstly to compensate for sag caused by self-weight,

Filling step for pouring and curing concrete in space

And a second tensioning step of tensioning in order to correct the deflection due to self weight and to give an additional stress for correcting the load deflection due to the placing.

Through the problem solving means as described above, the present invention I-type concrete-filled girder, girder bridge using the same and the production and construction method thereof,

Low weight and long span are possible by combining the pair of H-shaped steel and I-shaped steel filled with concrete and concrete composite girder to increase rigidity and light weight.

It is easy to manufacture through the simple process of welding and concrete placing using H-shaped steel on the market, especially the field construction is easy, and the manufacturing process is simple, and the manufacturing and construction technology is excellent.

According to the position of the bridge, the girder bridge with excellent weight and rigidity can be obtained by optimally designing the structure of the composite girder by using steel and filling the concrete according to the working stress.

It is easy to disassemble and reuse.

1 is a cross-sectional view and a perspective view showing an I-type concrete filling girder according to the present invention.
2 is a view showing a method of manufacturing a type I concrete filling girder according to the present invention.
3 is a view showing a filling method of the installation state using the I-type concrete filling girder according to the present invention.
Figure 4 is a view showing another example of the filling method of the installation state using the I-type concrete filling girder according to the present invention.
5 is a view showing a girder bridge using the I-type concrete-filled girder according to the present invention and a method of manufacturing and installing the same.

With reference to the accompanying drawings, a preferred embodiment of the type I concrete filling girder according to the present invention will be described in detail.

1 is a cross-sectional view and a perspective view showing an I-type concrete filling girder according to the present invention.

As shown in Figure 1, the I-shaped concrete filling girders according to the present invention, one side flange (1) side ends are coupled to each other by welding or the like a pair of H-shaped steel to form a closed space portion (2) (3) and the concrete filling part 4 which is formed by filling part or all of the said space part 2 with concrete.

The cross section of the girder takes the form of 'I' by the pair of H-shaped steels 3 and the concrete filling part 4 formed therein, so that the secondary moment value of the cross section can be easily formed. As a result, the bending stiffness is increased.

In particular, the present invention divides the internal space portion 2 generated by the coupling of the pair of H-beams 3 into the upper space portion 2 and the lower space portion 2 and is installed in a horizontal center plate ( 5) is further provided, and the concrete filling part 4 is configured to be formed only in the divided upper space part 2 or the lower space part 2.

Through this, when used as a girder, it is possible to respond more effectively to the stresses appearing differently over the top and bottom of the cross section. Specifically, in the case where a compressive stress occurs at the top of the cross section and a tensile stress occurs at the bottom due to the load acting on the girder. It is possible to effectively cope with the generated stress by placing the concrete filling portion 4 having excellent strength against the upper space portion 2, and vice versa, the concrete filling portion 4 in the lower space portion 2 .

In addition, in the present invention, the cover plate (6) is coupled to the lower surface of the lower flange (1) of the pair of H-shaped steel (3) coupled as described above, wherein the cover plate (6) is vulnerable to the lower tensile stress It is attached to the site by utilizing the role of the tension reinforcement plate, and also serves as a reinforcing material to prevent the fatigue failure that can appear on the lower coupling portion, in particular the welded portion by the repeated action of the load.

In other words, the support of the single welding part can be supported by the plurality of welding parts due to the additional coupling of the cover plate 6, so that reinforcement is achieved in terms of strength.

As described above, the reinforcing plate through the cover plate (6) is used to increase the effect, the size of the width of the cover plate 6 is the bottom surface of the lower flange (1) of the pair of H-shaped steel (3) as a whole It is preferably formed larger than the size of the width.

In addition, in the present invention, the tensile strength may be reinforced by installing the steel wire 11 inside the concrete filling part 4 formed by filling the space part 2 with concrete.

The installation method of the steel wire 11 is mentioned later.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the manufacturing method of the I-shaped concrete filling girder according to the present invention as described above will be described in detail.

2 is a view showing a method of manufacturing a type I concrete filling girder according to the present invention.

As shown in Figure 2, the manufacturing method of the I-shaped concrete filling girder according to the present invention, the preparation step (a) of preparing a pair of H-shaped steel (3), a pair of flanges of the H-shaped steel (3) ( 1) a part (or all) of the enclosed space (2) formed by coupling the step (b, c, d) and the flange (1) side end portion by positioning the side end portions to be in contact with each other and welding and joining the side end portions are in contact with each other; It comprises a filling step (e) for pouring concrete into.

Here, in the case of pouring concrete to a part of the closed space 2 in the filling step, the middle plate 5 of the middle portion of the web 7 of the pair of H-beams 3 joined in the joining step A process of joining both ends is further included. Specifically, one end of the central plate 5 is joined to the middle portion of the web 7 of one H-beam 3, and then the pair of H-beams 3 The flange 1 side ends are coupled to each other, and then the other end of the center plate 5 is coupled to the middle portion of the web 7 of the remaining H-beams 3.

In addition, prior to the filling step of placing concrete in part or all of the space part 2, a hole forming step of drilling holes for concrete placement in the flange 1 of the pair of H-shaped steels 3 is further combined. It may be provided.

Thus, through the production method of simple and easy I-shaped concrete filling girders, it is possible to produce a girder of uniform quality.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the girder bridge using the I-type concrete-filled girder according to the present invention as described above will be described in detail.

3 is a view showing a filling method of the installation state using the I-type concrete filling girder according to the present invention.

As shown in FIG. 3, the girder bridge using the I-type concrete-filled girder according to the present invention includes a pair of H-shaped steels 3 in which one side end portion 1 of the flange 1 is coupled to each other to form an enclosed space 2. ) And the I-shaped concrete filling girder including the concrete filling part 4 formed by filling the upper half, the lower half, or the whole of the space part 2 with concrete, with both ends of the alternating side 8 being stressed. The general part between these changing parts (the form of stress change) consists of an I-type concrete-filled girder in which only the upper half of the space part 2 is filled with concrete, and in the alternating part 9 the space part The whole of (2) is made of concrete I-filled girder filled with concrete, the point portion 13 in which the intermediate piers 10 are located, only the lower portion of the compressive stress of the space portion 2 is filled with concrete I Type concrete filling girders Between the piers 10, the alternating portion 9 with alternating portions 9 free general portion 12 is made of a concrete-filled girders are I-form is filled with concrete, only the upper half of the space portion (2).

Here, the alternating portion 9 is a point where the shape of the stress generated in the cross section from the tensile stress to the compressive stress, the compressive stress to the tensile stress and its surrounding portion, the shape of the stress can be changed by repeated additional loads The length of the alternating portion 9 is preferably determined in consideration of the length of the bridge, structural analysis of the girder, and the like.

The reason for the configuration as described above will be explained. The girder located at the general portion 12 between the alternating portions 9 on both ends 8 and the alternating stress has a cross section due to the load acting on the bridge and its own load. Compression stress at the upper part of the cross section, tensile stress is generated at the lower part of the cross section so that only the upper half of the space part 2 is configured to be filled with concrete, and in the alternating part 9, the compressive stress appears at both the upper and lower parts of the cross section. Since the whole of the space portion 2 is configured to be filled with concrete, the point portion 13 in which the intermediate piers 10 are located, the tensile stress in the upper section of the cross section, the compressive stress is generated in the lower section of the Only the lower half of the space 2 is configured to be filled with concrete, and since the compressive stress is generated in the upper portion of the cross section and the tensile stress is generated in the lower portion of the cross section in the general portion 12, Only half are configured to be filled with concrete.

Figure 4 shows another example of the girder bridge using the I-type concrete-filled girder according to the present invention, a pair of one side flange (1) side ends are coupled to each other to form a closed space (2) H-shaped steel (3) and the upper half, the lower half or all of the space portion 2 is used as an I-shaped concrete filling girder comprising a concrete filling part 4 is formed by filling with concrete, both sides alternate The general part 12 between the alternating part 9 and the alternating stress part 8 consists of an I-type concrete filling girder in which only the upper half of the space part 2 is filled with concrete, and the alternating part 9 and the middle pier The point portion 13 in which the 10 is located is made of an I-type concrete-filled girder in which the entirety of the space 2 is filled with concrete, and the alternating portion 9 and the alternating portion (the intermediate piers 10) are not included. 9) In the general part 12 between the concrete only the upper half of the space (2) Filled made an I-beam girders with concrete filling.

Here, the alternating portion 9 and the point portion 13 has the advantage that the entire space portion 2 is filled with concrete, making it easier to manufacture than the previous embodiment.

Hereinafter, an application example of the girder bridge using the I-type concrete-filled girder according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a view showing a girder bridge using the I-type concrete-filled girder according to the present invention and a method of manufacturing and installing the same.

As shown in FIG. 5, the girder bridge using the I-shaped concrete-filled girder according to the present invention includes a pair of H-shaped steels (3) where one side end portion (1) is coupled to each other to form a closed space portion (2). ), The entirety of the space (2) is configured to include a concrete filling part (4) formed by filling with concrete and a steel wire (11) located inside the concrete filling part (4).

Thus, by adding the steel wire 11, it is possible to increase the tensile strength, and by pre-tensioning the steel wire 11 it is possible to compensate for the deflection of the girder before concrete placement and curing.

In addition, as described above, a cover plate 6 coupled to the lower surface of the lower flange 1 of the pair of H-shaped steels 3 may be further provided.

Hereinafter, a method of manufacturing and installing a girder bridge using an I-type concrete filling girder will be described in detail with reference to the accompanying drawings.

As shown in Figure 5, the manufacturing and construction method of the girder bridge using the I-shaped concrete-filled girder according to the present invention, the preparation step of preparing a pair of H-shaped steel (3), a flange of a pair of H-shaped steel (3) (1) the joining step of positioning the side end parts in contact with each other and welding and joining the side end parts in contact with each other, a mounting step of mounting the coupled pair of H-shaped steels (3) on site, and installing the steel wire 11 and Primary tensioning step to tension first to correct deflection, filling step to pour and cure concrete in space (2), and to correct deflection by self weight and to give additional stress to correct load deflection due to casting To a second tensioning step for the second tension.

Through the first tensioning step, the present invention prevents the deflection deformation from deepening due to the concrete pouring in advance by correcting it in advance so as not to cause the deflection deformation caused by the self-weight of the bonded H-beams 3.

As an application example of the manufacturing and construction method of the girder bridge using the I-shaped concrete-filled girder according to the present invention, the present invention, the preparation step of preparing a pair of H-shaped steel (3), a flange of a pair of H-shaped steel (3) (1) a coupling step of positioning the side ends to be in contact with each other and welding and coupling the side ends to be in contact with each other, and an additional coupling that additionally couples the cover plate 6 to the bottom surface of the lower flange 1 of the pair of H-shaped steels 3. Step, the mounting step of mounting the combined H-beam steel (3) on site, the first tension step to install the steel wire 11 and tension first to correct the deflection due to its own weight, in the space (2) It is characterized in that it comprises a filling step for placing and curing concrete, and a second tension step for correcting the deflection due to its own weight, and a second tension step to give additional stress for correcting the load deflection due to the placing.

The steel wire is preferably a PC steel wire.

Through the configuration as described above, the present invention is lightweight and increase the rigidity, low height and long span is possible, and can be easily manufactured through a simple process, in particular, easy on-site construction, the production process is simple, manufacturing and emergency It is a structure that can be hypothesized, and also has the advantage that it can be easily dismantled and reused.

1: flange 2: space
3: H-beam 4: concrete filling part
5: center plate 6: cover plate
7: Web 8: Both end shifts
9: alternation 10: intermediate piers
11: steel wire 12: general
13: branch

Claims (12)

A pair of H-beams, one side of the flange side end is joined to each other to form a closed space portion,
A central plate which is divided into an upper space and a lower space and horizontally installed;
Consists of the I-type concrete filling girder comprising a cover plate coupled to the lower flange bottom of the pair of H-shaped steel;
The general part is made of type I concrete filling girders filled with concrete only the upper half of the space,
The alternating portion is made of I-type concrete filling girders, the whole of which is filled with concrete,
The point where the middle piers are located is characterized in that the lower half of the space portion is made of I-type concrete filling girders filled with concrete
Girder bridge using type I concrete filled girders
A pair of H-beams, one side of the flange side end is joined to each other to form a closed space portion,
A central plate which is divided into an upper space and a lower space and horizontally installed;
Consists of the I-type concrete filling girder comprising a cover plate coupled to the lower flange bottom of the pair of H-shaped steel;
The general part is made of type I concrete filling girders filled with concrete only the upper half of the space,
The point portion where the alternating portion and the middle piers are located is characterized in that the entire I-shaped concrete filling girders filled with concrete
Girder bridge using type I concrete filled girders
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