KR100582563B1 - Construction method for bridges and bridges production it - Google Patents

Abstract

The present invention relates to a method for constructing a temporary bridge and a bridge manufactured by the method, and an object thereof is to install an external steel wire on a side of a girder prepared in advance, and to install it on a site, and to precast a bottom plate on an upper surface of the girder. To provide a construction method of the construction bridge and the bridge made by this method to simplify the construction by connecting the precast bottom plate installed on the upper surface of the girder as well as tension the outer steel wire. This includes the steps of: (a) installing an external steel wire 50 on the side of the girder 30 prepared in advance, and installing the girder 30 on-site; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) synthesizing the precast bottom plate 40 and the girder 30; It will include. In addition, (a) installing the external steel wire 50 on the side of the girder 30 made in advance, the step of installing the girder 30 in the field; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) non-synthesizing the precast bottom plate 40 and the girder 30; It will include.

Girder, Bottom Plate, Outer Steel Wire

Description

Construction method for bridges and bridges production it}

1 is a view for explaining the construction method according to the present invention, a view showing a state in which the external steel wire is installed on the side of the girder.

2 is a view for explaining a step of seating the bottom plate in the state of FIG.

3 is a view for explaining the step of tensioning the outer steel wire installed in FIG.

Figure 4 is a view for explaining the step of connecting the bottom plate in Figure 3 showing a state of connecting the steel wire to the bottom plate.

Figure 5 is a view for explaining the step of connecting the bottom plate in Figure 3 showing a state of pouring concrete between the bottom plate.

6 is a view for explaining the step of synthesizing the bottom plate and the girder according to the present invention.

(Explanation of symbols for the main parts of the drawing)

10: pier 20: bridge system

30: girder 40: bottom plate

41: through hole 42: inner steel wire

43: reinforcing bar 44: fixing means

45: pocket 50: outer steel wire

51: fixing unit 52: divider

The present invention relates to a method for constructing a temporary bridge and to a bridge manufactured by the method, and more particularly, to install the external steel wire on the side of a girder prepared in advance, and to install it on a site, and to a precast floor on an upper surface of the girder. The present invention relates to a construction method of a temporary bridge and a bridge manufactured by this method, in which a plate is installed and the external steel wire is tensioned and a precast bottom plate installed on the upper surface of the girder is connected to the construction.

In general, there are several types of bridges, among which girder bridges are installed in the longitudinal direction between the bridge piers, a bottom plate (also called slab) is installed on the upper surface of the girder, and concrete is placed on the bottom plate. do.

The bridge between the bridge and the bridge is called span, and the bridge where the mold is separated between each bridge is called the simple bridge, and the bridge between the bridges is called the continuous bridge. It is called intercontinental bridge.

Various methods for constructing such a girder bridge are known.

However, in the related art, in order to improve the tension force of the girder, a sheath tube is installed inside the girder, a steel wire passes through the sheath tube, and both ends of the steel wire are tensioned so that workability and workability are deteriorated. .

The present invention has been made to solve such a conventional problem, the object is to install in the field by installing an external steel wire on the side of the girder made in advance, and install a precast bottom plate on the upper surface of the girder, The present invention provides a method of constructing a temporary bridge in which the construction is simple by tensioning an external steel wire and connecting a precast bottom plate installed on an upper surface of the girder, and a bridge manufactured by the method.

The present invention for achieving this object is (a) installing the external steel wire 50 on the side of the girder 30 made in advance, the step of installing the girder 30 in the field; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) synthesizing the precast bottom plate 40 and the girder 30; It will include.

In addition, the reinforcing external steel wire 50 is installed on one side or both sides to be constructed.

In addition, the precast bottom plate 40 is to be integrally constructed using the inner steel wire 42 when connecting.

In addition, the reinforcing bar 43 is disposed between the bottom plate 40 when the precast bottom plate 40 is connected, and the concrete is placed between the precast bottom plate 40 by connecting.

In addition, the fixing portion 51 of the reinforcing outer steel wire 50 is provided at both ends of the girder 30 to tension the outer steel wire 50.

In addition, a plurality of dividers 52 are provided at the position where the load of the girder 30 is concentrated and tensioned.

In addition, a plurality of fixing means 44 is installed on the upper surface of the girder 30 as a device for fixing with the precast bottom plate 40, and the precast bottom plate 40 is coupled to the fixing means 44. At least one pocket (45) formed in the present invention is filled with mortar, preferably non-shrink mortar so that the girder 30 and the precast bottom plate 40 is a composite cross section.

In addition, (a) installing the external steel wire 50 on the side of the girder 30 made in advance, the step of installing the girder 30 in the field; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) non-synthesizing the precast bottom plate 40 and the girder 30; It will include.

In addition, the mortar, preferably the non-contraction mortar, is filled and poured into the pocket 45 formed on the precast bottom plate 40 to form a non-synthetic cross section.

In addition, it includes a temporary bridge produced by the construction method.

In addition, the type of girder 30 of the bridge is any one of the PSC (PSC) girder, steel box girder, steel plate girder.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 are views for explaining the construction method of the temporary bridge according to the present invention. Hereinafter, reference numeral 10 denotes a pier, 20 denotes a bridge arrangement, 30 denotes a girder, and 40 denotes a bottom plate.

As shown, the construction method of the temporary bridge according to the present invention comprises the steps of (a) installing the external steel wire 50 on the side of the girder 30 prepared in advance, and installing the girder 30 in the field, (b Installing a precast bottom plate 40 on the upper surface of the girder 30, (c) tensioning the outer steel wire 50, and (d) installed in the step (b) Connecting the precast bottom plate 40 and (e) synthesizing the precast bottom plate 40 and the girder 30.

In order to install the external steel wire 50, the fixing unit 51 of the reinforcing external steel wire 50 is installed at both ends of the girder 30, the load of the girder 30 between the fixing unit 51 The plurality of dividers 52 are installed in the concentrated position to tension the outer steel wire 50.

Since the fixing unit 51 and the divider 52 are general, detailed description thereof will be omitted.

In addition, the precast bottom plate 40 is manufactured in advance in the factory to be sequentially seated on the upper surface of the girder 30.

In addition, there are two methods of integrating the precast bottom plate 40 and integrating the precast bottom plate 40. One of them includes the inner steel wire 42 in the through hole 41 formed in the longitudinal direction of the precast bottom plate 40. It is a method of connecting the precast bottom plate 40 by installing.

Another method is to arrange reinforcing bars 43 between the bottom plate 40 and the bottom plate 40, and to pour concrete therebetween.

In addition, a plurality of fixing means 44 is installed on the upper surface of the girder 30 as a device for fixing with the precast bottom plate 40, and the precast bottom plate 40 is coupled to the fixing means 44. It is preferable to fill the mortar, preferably the non-shrink mortar in at least one pocket formed in the) so that the girder 30 and the precast bottom plate 40 is a composite cross section.

The fixing means 44 is to protrude the rebar, and the like.

On the other hand, the construction method of the present invention can be carried out not only the synthetic cross section but also the non-synthetic cross section, and proceed to the same step.

That is, (a) installing the external steel wire 50 on the side of the girder 30 prepared in advance, and installing the girder 30 in the field, and (b) precast (top) on the upper surface of the girder 30 precast) installing the bottom plate 40, (c) tensioning the outer steel wire 50, (d) connecting the precast bottom plate 40 installed in the step (b) and , (e) non-synthesizing the precast bottom plate 40 and the girder 30.

In addition, the mortar, preferably the non-condensed mortar, may be filled and poured into the pocket 45 formed on the precast bottom plate 40 to form a non-synthetic cross section.

In addition, the girder 30 type applied to the bridge formed by the above construction method may be any one of PSC girder, steel box girder, and steel plate girder, but steel plate is more preferable.

In addition, the bridge manufactured by the construction method as described above is installed on the side of the girder 30, the outer steel wire 50, the precast bottom plate 40 is seated in advance, the outside of the girder 30 Install the steel wire 50 to tension, and connecting the bottom plate 40, the construction is made simple.

In addition, although the construction method of the present invention has been described using a continuous bridge as an example, it is natural that a simple bridge can also be constructed.

Install the external steel wire on the site of the pre-fabricated girders of the present invention as described in detail above, install in the field, install a precast bottom plate on the upper surface of the girder, and tension the external steel wire as well as the girder Installation is made simply by connecting the precast bottom plate installed on the upper surface.

Claims (12)

(a) installing the external steel wire 50 on the side of the girder 30 prepared in advance, and installing the girder 30 in the field; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) synthesizing the precast bottom plate 40 and the girder 30; Temporary bridge construction method comprising a. The method of claim 1, Temporary bridge construction method characterized in that the reinforcing external steel wire 50 is installed on one side or both sides. The method of claim 1, Temporary bridge construction method, characterized in that the pre-cast floor plate 40 is integrally constructed using an internal steel wire (42) when connecting. The method of claim 1, Reinforcement 43 is disposed between the bottom plate 40 when the precast bottom plate 40 is connected between the precast bottom plate 40, the construction of the temporary bridge construction method, characterized in that by connecting concrete. The method of claim 1, Temporary bridge construction method characterized in that the fixing of the fixing portion 51 of the reinforcing outer steel wire (50) on both ends of the girder 30 to tension the outer steel wire (50). The method of claim 1, Temporary bridge construction method characterized in that the tension is provided by installing a plurality of dividers (52) in the position where the load of the girder (30) is concentrated. The method of claim 1, As a device for fixing with the precast bottom plate 40 on the upper surface of the girder 30, a plurality of fixing means 44 are installed, and the precast bottom plate 40 is coupled to the fixing means 44. Method of constructing a temporary bridge construction, characterized in that the girder 30 and the precast bottom plate (40) is filled with a mortar, preferably a non-shrink mortar in the formed at least one pocket (45). (a) installing the external steel wire 50 on the side of the girder 30 prepared in advance, and installing the girder 30 in the field; (b) installing a precast bottom plate 40 on an upper surface of the girder 30; (c) tensioning the outer steel wire 50; (d) connecting the precast bottom plate 40 installed in step (b); (e) non-synthesizing the precast bottom plate 40 and the girder 30; Temporary bridge construction method comprising a. The method of claim 8, Temporary bridge construction method characterized in that the pocket 45 formed in the precast bottom plate 40 is filled with mortar, preferably non-contraction mortar to form a non-synthetic cross section. Temporary bridge produced by the construction method described in claim 1. Temporary bridge produced by the construction method of claim 8. The method according to claim 10 or 11, wherein The bridge girder (30) type is a temporary bridge, characterized in that any one of the PSC (PSC) girder, steel box girder, steel plate girder.

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