KR20060008453A - Bridge construction work method - Google Patents

Abstract

The present invention, as well as the first span, when the concrete is placed in the first span, the working means of the worker is sufficiently secured in the state in which the supporting means and the lower plate forming plate is installed first through the support means in the piers corresponding to the second span. After installing the sidewall forming reinforcing bar assembly and the bottom forming reinforcing bar assembly and then installing the external formwork on the supporting means and placing concrete, the worker can perform the construction work with sufficient working area. Therefore, it aims to provide a bridge construction method that can significantly shorten the construction time.

The present invention for achieving the above object, in the construction method of the bridge for constructing a box-shaped girders provided with a ceiling and a bottom portion, both side wall portion and a hollow portion in the center on a plurality of bridges installed at regular intervals, the bridges A first step of installing the support means through the support means having a predetermined height between the piers corresponding to the first span of the bridge; A second step of installing a lower surface forming plate for forming a lower surface of a lower surface of a bottom part of the box-shaped girder on the upper surface of the supporting means; A third step of installing a sidewall forming reinforcing bar assembly and a bottom forming bar forming bar assembly for forming both side wall portions and a bottom portion constituting a box-shaped girder on the bottom forming plate; A fourth step of installing an external formwork having an outer surface forming plate for forming an outer surface of the ceiling and the adjacent side wall portions on the supporting means to contact the outer surface forming plate and the lower surface forming plate with each other; A fifth step of installing an inner formwork to support the inner surfaces of each of the side wall forming reinforcing bar assembly and the bottom forming reinforcing bar assembly and the ceiling forming reinforcing bar assembly to form an inner surface of the hollow part constituting the box girder; A sixth step of connecting and installing a ceiling forming reinforcing bar assembly for forming a ceiling constituting the box-shaped girder on top of the side wall forming bar reinforcing bar assembly; A seventh step of placing concrete on the sidewall forming rebar assembly and the bottom forming rebar assembly and the ceiling forming rebar assembly; At the same time, the first, second, third, fourth, fifth, sixth, and seventh steps are repeatedly performed on the bridge corresponding to the second span of the bridges. It is characterized in that the construction in order one by one span.

Bridges, girders, pours,

Description

Bridge construction work method

1 is a flow chart of a bridge construction method according to the prior art.

2 is a flow chart of the bridge construction method according to the present invention.

3 to 10 are drawings according to the construction method of the present invention in order shown.

11 and 12 are cross-sectional views of the box girders completed by the construction method of the present invention.

<Explanation of symbols for the main parts of the drawings>

200,210: piers

300: center vent structure

310,320: Side Vent Structure

330: lower surface forming plate

400: support means

510: external formwork

600: side wall forming rebar assembly

610: bottom forming rebar assembly

620: ceiling forming rebar assembly

630: internal formwork

The present invention relates to a bridge construction method, and more particularly, when the concrete is laid in the first span as well as the first span, the supporting means and the lower plate forming plate first through the support means in the piers corresponding to the second span. After securing sufficient working space of the worker in the hypothetical state, the side wall forming rebar assembly and the bottom forming reinforcing assembly are installed, and the external formwork is installed on the supporting means, and then concrete is poured to secure the working area. The construction can be performed by the operator in the state, and this relates to a bridge construction method that can significantly shorten the construction time.

In general, bridge construction methods include MSS method, ILM method, FCM method, PSM method, FSM method, among which FSM (Full Staging Method) method is the MSS method, ILM method, FCM method, PSM method Due to the push of the construction method is decreasing, but because of the low cost and relatively easy advantage of the equipment used, it is still widely used when constructing a short bridge of a suitable height on the flat terrain.

Bridge method using the FSM (Full Staging Method) method is to install the copper bar throughout the span of the concrete, the weight of the concrete weight, formwork, work table, etc. until the concrete reaches a predetermined strength It is a method of constructing bridges by prestressing after installing / working concrete, placing workbench, formwork and clubs throughout the span, and supporting them.

In recent years, many girders are installed on the pier of the bridge using the Full Staging Method (FSM) method as described above.

In the construction method of the girder type as described above, after installing the supporting means using a supporting means such as a club between the bridges corresponding to the first span of the bridges, the bottom of the bottom constituting the box-shaped girders on the upper surface of the supporting means (1) (First Step)

Next, a pair of external formwork is installed on both sides of the upper surface of the lower surface forming plate (2) (second step)

Then, the reinforcing bar assembly for forming the side wall portion of the box-shaped girder, the reinforcing bar assembly for forming the bottom portion, and the reinforcing bar assembly for forming the ceiling are installed on the upper surface of the bottom forming plate.

Subsequently, an internal formwork is installed to support the inner surfaces of each of the side wall forming reinforcing bar assembly, the bottom forming reinforcing bar assembly, and the ceiling forming reinforcing bar assembly to form the inner surface of the hollow part constituting the box-shaped girders (step 4).

Next, concrete is poured into the sidewall forming rebar assembly, the bottom forming rebar assembly, and the ceiling forming rebar assembly. (5) (Step 5)

Next, the first, second, third, fourth, and fifth steps are repeatedly performed on the piers corresponding to the second span of the piers, and the construction is sequentially performed one by one over the entire span.

However, the conventional Full Staging Method (FSM) method as described above has the following problems.

First, in the prior art, the first, second, third, and fourth steps are completed to complete the box girders over one span, and then the first, second, third, fourth, and fifth steps are repeated for the next span. Therefore, there is a problem in that it takes a lot of construction time to shorten the air.

Second, in the prior art, since the work space is reduced by the external formwork constructed in the first step, the second step is performed after the first step, the second step, and the third step. There was an inconvenience for a worker to work in a narrow work space between the lower surface forming plate, the third side wall forming reinforcing bar assembly and the bottom forming reinforcing bar assembly, and the external formwork installed during the installation of the ceiling forming reinforcing bar assembly. Due to the rather long construction time there was a problem.

The present invention was created to solve the above problems, as well as the first span, when placing concrete in the first span when the support means in the piers corresponding to the second span through the support means and the lower plate forming plate First, secure enough working space for the worker in the state of installation, then install the sidewall forming reinforcing bar assembly and the bottom forming reinforcing bar assembly, and then install the external formwork on the supporting means, and then cast concrete to secure the working area. It is an object of the present invention to provide a bridge construction method that can allow a worker to perform a construction work in this state, thereby significantly reducing construction time.

The present invention for achieving the above object, in the construction method of the bridge for constructing a box-shaped girders provided with a ceiling and a bottom portion, both side wall portion and a hollow portion in the center on a plurality of bridges installed at regular intervals, the bridges A first step of installing the support means through the support means having a predetermined height between the piers corresponding to the first span of the bridge; A second step of installing a lower surface forming plate for forming a lower surface of a lower surface of a bottom part of the box-shaped girder on the upper surface of the supporting means; A third step of installing a sidewall forming reinforcing bar assembly and a bottom forming bar forming bar assembly for forming both side wall portions and a bottom portion constituting a box-shaped girder on the bottom forming plate; A fourth step of installing an external formwork having an outer surface forming plate for forming an outer surface of the ceiling and the adjacent side wall portions on the supporting means to contact the outer surface forming plate and the lower surface forming plate with each other; A fifth step of installing an internal formwork to support the inner surfaces of each of the side wall forming reinforcing bar assembly, the bottom forming reinforcing bar assembly and the ceiling forming reinforcing bar assembly to form an inner surface of the hollow part constituting the box-shaped girders; A sixth step of connecting and installing a ceiling forming reinforcing bar assembly for forming a ceiling constituting the box-shaped girder on top of the side wall forming bar reinforcing bar assembly; A seventh step of placing concrete on the sidewall forming rebar assembly, the bottom forming rebar assembly, and the ceiling forming rebar assembly; At the same time, the first, second, third, fourth, fifth, sixth, and seventh steps are repeatedly performed on the bridge corresponding to the second span of the bridges. It is characterized by constructing one by one sequentially.

Hereinafter, a preferred embodiment of the bridge construction method according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a flow chart of the bridge construction method according to the present invention, Figures 3 to 10 are drawings according to the construction method of the present invention shown in sequence, Figures 11 and 12 by the construction method of the present invention Sectional view of the finished box girders.

The present invention is a box-shaped girders 100 provided with a ceiling portion 110 and a bottom portion 120 and both side wall portion 130 and a hollow portion 140 in the center on a plurality of installed piers (200, 210) at regular intervals. In the construction method of the bridge to construct), it is a construction method by placing concrete on the site by applying the FSM method.

Referring to the construction method of the present invention in more detail with reference to the drawings as follows.

First, the first step of installing the support means 400 through the support means 310, 320 of a predetermined height between the piers corresponding to the first span of the piers 200, 210 proceeds. (10)

Here, the support means 400 comprises a central vent structure 300, side vent structure 310, 320 (see Fig. 3).

After the first step, the bottom forming plate 330 for forming a bottom surface of the bottom surface 120a of the bottom portion 120 constituting the box-shaped girders 100 on the top surface of the support means 400 Proceed with the second step of installation (20) (see Fig. 4).

After proceeding to the third step, the side wall portion forming reinforcing bar assembly 600 and the bottom to form both side wall portion 130 and the bottom portion 120 constituting the box-shaped girders 100 on the bottom forming plate 330 Proceed to the third step of installing the secondary forming rebar assembly 610. (30, see Fig. 4, see Fig. 5).

After the third step, the outer form plate 510 is provided with an outer form forming plate 511 for forming the outer surface of the side wall portion 130 and the outer surface of the ceiling portion 110 adjacent thereto. On the 330, a fourth step of contacting the outer surface forming plate 511 and the lower surface forming plate 330 with each other is performed. (40) (see FIG. 7).

Here, the installation method of the external formwork 510, as shown in Figure 7, the rail 512 is installed on the upper portion of the support means 400, the external formwork 510 to slide along the rail 512 When the roller 513 is installed to push the external formwork 510, the roller 513 is moved along the rail 512.

On the other hand, in addition to the method of sliding the external formwork 510 can be installed separately using a crane equipment, of course.

After the fifth step, the sidewall forming rebar assembly 600 and the bottom forming rebar assembly 610 and the ceiling are formed to form the inner surface of the hollow part 140 constituting the box-shaped girder 100. The fifth step of installing the inner formwork 630 to support the inner surface of each of the rebar assembly 620 is carried out (50) (see Fig. 9).

After the fifth step, the ceiling forming reinforcing bar assembly 620 for forming the ceiling portion 110 constituting the box-shaped girders 100 to the upper portion of the side wall forming reinforcing bar assembly 600 is installed Proceed to step 6 (60) (see FIG. 10).

After the sixth step, the seventh step of pouring concrete into the sidewall forming rebar assembly 600, the bottom forming rebar assembly 610, and the ceiling forming rebar assembly 620 is performed. )

Subsequently, the first, second, third, fourth, fifth, sixth, and seventh steps are repeatedly performed in the pier corresponding to the second span of the pier at the same time as the seventh step. Thus, the construction is done one by one span over the span.

Here, in the third step, the side wall forming rebar assembly 600 is installed in the third step so as to be supported by the side support 601 on the side (see FIG. 4), and the side wall forming reinforcing assembly 600 is upper part. It is installed so as to be supported by the upper support 602 (see Fig. 6), and in the fourth step, a step of removing the side support 601 before the installation of the external formwork 510 is further performed. See Figure 7)

Here, the reason for installing the side support 601 is to temporarily support the side wall forming rebar assembly 600, as shown in Figures 4 and 5.

In addition, the external formwork 510 should be removed because the side support 601 should be installed at the point where the side support 601 is installed. In order to remove the side support 601, as shown in FIG. A plurality of upper supports 602 are temporarily connected to the top of the assembly 600 to prevent breakage of the sidewall forming rebar assembly 600.

After connecting the upper support 602 as described above, the side support 601 is removed.

Next, the outer formwork 510 is installed in the space of the removed side support 601.

On the other hand, according to the present invention, after the fourth step, a plurality of sheath pipes 700 are installed in the side wall forming rebar assembly 600 and the bottom forming rebar assembly 610, and the sheath pipe 700 is installed. Of course, it may further include the step of inserting the steel wire 710 in the (see Fig. 5).

In addition, the concrete placing step of the step of the present invention can be carried out in two ways, one of which is to cast concrete in the sidewall forming reinforcing assembly 600 and the bottom forming reinforcing assembly 610 to box-shaped girders ( A one-time pouring step of simultaneously forming the bottom portion 120 and both side wall portions 130 constituting the 100; After the above step, the concrete is hardened, and then the concrete is placed in the ceiling forming reinforcing bar assembly 620 consists of two casting steps to form the ceiling (110) constituting the box-shaped girders (100).

By performing as described above, as shown in Figure 12, the bottom portion 120 and the side wall portion 130 constituting the box-shaped girder 100 is an integral cross section, the ceiling portion 110 to have a separate cross section do.

On the other hand, the other one of the concrete placing method is to cast the concrete in the sidewall forming rebar assembly 600, the bottom forming rebar assembly 610 and the ceiling forming rebar assembly 620 once to form a box-shaped girders (100) The ceiling portion 110 and the bottom portion 120 and both side wall portion 130 and the hollow portion 140 is formed at the same time.

By performing as described above, as shown in Figure 11, the bottom portion 120 and the side wall portion 130 and the ceiling portion 110 constituting the box-shaped girders 100 is formed integrally having a single cross-section.

As described above, in the bridge construction method according to the present invention, when placing concrete in the first span as well as the first span, the supporting means and the lower plate forming plate first through the support means in the piers corresponding to the second span. After securing sufficient working space of the worker in the hypothetical state, the side wall forming rebar assembly and the bottom forming reinforcing assembly are installed, and the external formwork is installed on the supporting means, and then concrete is poured to secure the working area. In the state, the operator can perform the construction work, which can greatly reduce the construction time.

Claims (5)

Constructing a box-shaped girders 100 provided with a ceiling part 110, a bottom part 120, both side wall parts 130, and a hollow part 140 in the center on a plurality of bridges 200 and 210 installed at regular intervals. In the construction method of the bridge, A first step of installing the support means (400) through the support means (310, 320) of a predetermined height between the bridges corresponding to the first span of the bridges (200, 210); A second step of installing a lower surface forming plate (330) for forming a lower surface of the lower surface (120a) of the bottom portion (120) constituting the box-shaped girder (100) on the upper surface of the supporting means (400); The side wall forming rebar assembly 600 and the bottom forming rebar assembly 610 for forming both side wall portions 130 and the bottom portion 120 constituting the box-shaped girder 100 are installed on the bottom forming plate 330. Performing a third step; The outer surface is formed by installing an outer formwork 510 having an outer surface forming plate 511 for forming an outer surface of the both side wall portions 130 and an outer surface of the ceiling 110 adjacent thereto on the support means 400. A fourth step of bringing the plate 511 and the lower surface forming plate 330 into contact with each other; In order to form an inner surface of the hollow part 140 constituting the box-shaped girder 100, an inner surface of each of the sidewall forming rebar assembly 600, the bottom forming rebar assembly 610, and the ceiling forming rebar assembly 620 is formed. A fifth step of installing the inner formwork 630 to support it; A sixth step of connecting and installing the ceiling forming reinforcing bar assembly (620) for forming the ceiling part (110) constituting the box-shaped girder (100) on the sidewall forming bar (600); A seventh step of placing concrete in the sidewall forming rebar assembly (600), the bottom forming rebar assembly (610), and the ceiling forming rebar assembly (620); At the same time, the first, second, third, fourth, fifth, sixth, and seventh steps are repeatedly performed on the bridge corresponding to the second span of the bridges. Bridge construction method characterized in that the construction in order one by one span. The method of claim 1, After the fourth step, a plurality of sheath pipes 700 are built-in in the side wall forming rebar assembly 600 and the bottom forming rebar assembly 610, and a steel wire is formed inside the sheath pipe 700. Bridge construction method further comprises the step of inserting (710). The method of claim 1, The concrete pouring step, Placing concrete in the sidewall forming rebar assembly 600 and the bottom forming rebar assembly 610 to form the bottom 120 and both side wall 130 at the same time to form a box-shaped girder 100 at the same time Wow; After the above step, the concrete is solidified, and then cast the concrete in the ceiling-formed reinforcing bar assembly 620 to form a two-stage casting step to form the ceiling (110) constituting the box-shaped girders (100) Bridge construction method. The method of claim 1, The concrete pouring step, The ceiling part 110 and the bottom part 120 which form the box-type girder 100 by pouring concrete once in the side wall forming reinforcing assembly 600, the bottom forming reinforcing bar assembly 610, and the ceiling forming reinforcing bar assembly 620. ) And both side wall portion 130 and the bridge construction method, characterized in that to form the hollow portion 140 at the same time. The method of claim 1, In the third step, the side wall forming rebar assembly 600 is installed to be supported by the side support 601 on the side, The side wall portion forming reinforcing assembly 600 is installed to be supported by the upper support 602 on the top, Bridge construction method, characterized in that to remove the side support (501) before the installation of the external formwork (510) in the fourth step.

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