KR20010044894A - Slab sheeting construction-method for bridge - Google Patents

Abstract

PURPOSE: A construction method of a slab mold form for a bridge is provided to improve construction efficiency and safety, to reduce construction costs, and to observe a crack with the naked eye by the exposure of a concrete surface. CONSTITUTION: First, A channel(10) formed a dismantling hole(26) in both upper parts of a beam(1) is fastened with a bolt in order and fixed on both sides of the upper part of the beam. A girder is installed between the channels through the opposite opening of the channel. Plywood for a board plate is installed on casting concrete in the upper part of the girder. A sealing step shuts tightly the contact surface of the plywood for preventing the spill of concrete when casting concrete. Then, common wiring and piping works and reinforcing rod arrangement are constructed. A stiffening plate(20) is installed in the channel. A girder is made up of a square bar on the upper part of a steel pipe.

Description

Bridge slab formwork construction method {SLAB SHEETING CONSTRUCTION-METHOD FOR BRIDGE}

The present invention relates to a method for construction of slab formwork for bridges, and more particularly, to complement and improve the disadvantages of the conventional deck plate and wood formwork in the construction of the bottom plate formwork for pouring the slab concrete of the bridge And how to install with plywood.

Conventional formwork for pouring slab concrete of bridges is made of wood or deck plates.

In the construction method using wood, install braces and vertical materials on the lower flange with safety facilities and scaffolds installed on the lower part of the bridge, and install plywood on the upper part of wood by installing longitudinal wood, and then reinforce the reinforcing bars. The wooden formwork was constructed by the process.

The construction method using the deck plate is to weld the deck plate to the structure by installing the c-section and c-channel on the adjustment and hunchy part by the gradient and installing the deck flakes on the preformed section and the bridge top flange. After fixing, the deck plate was constructed by the step of reinforcing the reinforcing bar in a state where the ends and the like (cross).

The wooden formwork can be dismantled after the completion of concrete and can be inspected for cracks due to the exposed concrete surface.However, it is disadvantageous in construction, disadvantageous in safety management, costly in construction, and expensive in construction. There was a problem that a separate process to install a scaffold, etc. to prevent falling.

On the other hand, deck plate has excellent workability, safety, shorter construction period and low construction cost, but it is very difficult to maintain in case of defects such as cracks due to unexposed concrete surface due to permanent formwork that cannot be dismantled. There was a problem that requires maintenance such as coating in the long-term (not reflected in the design).

The present invention has been made to solve the above-mentioned problems, the construction method to compensate for the disadvantages of the deck plate and wooden formwork and highlight the advantages, excellent construction properties, safety and construction period is short, cost of construction as well as dismantle after completion of concrete The purpose of this invention is to provide a method of constructing slab formwork for bridges that can be visually identified by crack exposure by exposure to concrete surfaces and has excellent follow-up during maintenance.

In order to achieve the above object, the present invention is a conventional formwork for pouring the slab concrete of the bridge;

A c-channel installation process in which bolts are formed on the upper sides of the beams and bolted sequentially to fix the c-channels on both sides of the beam, and a concrete load is supported between the c-channels through the openings of the opposing c-channels. After the girder installation process for installing the girder, the plywood installation process for installing the plywood used as the bottom plate when placing concrete on the upper part of the girder, and the sealing process for sealing the contact surface of the plywood to prevent the flow of concrete during the concrete placing, An object of the present invention is to provide a slab formwork for a bridge, which is constructed by a general wiring piping process and a reinforcement process.

1 is a perspective view in a state where the c channel according to the present invention is installed on the beam,

2 is a front sectional view of a state in which the formwork according to the present invention is installed between the inner beam;

3 is a front view of a state in which the formwork according to the present invention is installed to the outside of the outer beam;

4A and 4B are cross-sectional views taken along the line A-A of FIG. 2;

5 is a construction sequence diagram of the formwork according to the present invention,

Figure 6 is a front sectional view of the inner beam portion according to another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

1: beam, 10: c-channel, 12: girder, 12a: steel pipe, 12b: lumber, 14: plywood, 16: rebar, 18: clip bar, 19: support plate, 20: reinforcement plate, 22: bolt, 24 : Nut, 26: dismantling hole, 28: cantilever, 31: c-channel installation process, 32: girder installation process, 33: plywood installation process, 34: sealing process, 35: wiring piping process, 36: reinforcing bar process.

Hereinafter, the present invention will be described with reference to FIGS. 1 to 6.

1 is a perspective view of a state in which a c channel according to the present invention is installed in a beam, and FIG. 2 is a front sectional view of a form in which a form according to the present invention is installed between inner beams, and FIG. 4A and 4B are cross-sectional views taken along line AA of FIG. 2, FIG. 5 is a flowchart illustrating a formwork according to the present invention, and FIG. 6 is an inner beam according to another embodiment of the present invention. Front section of the site.

Looking at the basic configuration of the present invention first, in a conventional formwork method for pouring the slab concrete of the bridge;

A c-channel installation process 31 for fastening the c-channel 10 having the dismantling holes 26 formed on both sides of the beam 1 in sequence to bolts 22 to be fixed to both sides of the upper part of the beam 1; Girder installation process (32) for installing a girder (12) for supporting the concrete load between the c-channel (10) through the opening of the opposing c-channel (10), and when placing concrete on the girder (32) After the plywood installation step 33 for installing the plywood 14 used as the bottom plate, and the sealing step 34 for sealing the contact surface of the plywood 14 in order to prevent the flow of concrete during concrete placement, the normal wiring piping It is characterized in that the construction of the process 35 and the reinforcement step (36).

In more detail, the beam 1 is arranged vertically and horizontally on a pillar of a bridge.

The c-channel installation process 31 is a process of fastening the c-channel 10 to the upper both sides of the beam 1 by fastening the c-channel 10 on the upper surface of the beam 1 installed on the pillar. 12)) and the opening of the c-channel 10, which serves to support it, is directed toward the outside of the beam (1).

At this time, the dismantling hole 26 is formed at the lower side of the c-channel 10 so as to dismantle the girder 12 and the like after completion of the concrete.

When the bolt 22 of the c-channel 10 is fastened, the clip bar 18 is also fastened together to fix the c-channel 10 and later supports the rebar 16 with the clip bar 18 when the rebar 16 is reinforced. The clip bar 18 may be buried in concrete when placing concrete.

Also, instead of the clip bar 18, the c-channel 10 may be supported and fixed to the beam 1 by welding the support plate 19 to the nut 24 used to fasten the bolt 22 as shown in FIG. have.

The reinforcing plate 20 may be installed in the c-channel 10 to reinforce the c-channel 10.

The girder installation process 32 is a process of installing the girder 12 between the opposing c-channels 10 through the openings of the c-channels 10 fixed to the outside of the beam 1, and providing the girder ( 12) serves to support the load of the concrete when placing concrete and is constructed by placing a lumber (12b) used for fixing the plywood 14 on the top of the steel pipe (12a).

In this case, when the length is long or the girder 12 receives a lot of load, as shown in FIG. 4B, one steel box 12b may be placed on two steel pipes 12a.

The plywood installation process 33 is a process of installing the plywood 14 on the girder 12, the plywood 14 is used as a bottom plate when placing concrete, and serves to support the mold and load when placing concrete. .

When concrete is poured on top of plywood 14, concrete flows down between plywood 14 joint surface. To prevent this, tape the joint surface of plywood 14 or apply sealing agent to seal the joint surface. (Sealing process 34).

After the sealing step 34 has passed, the formwork is completed by the normal wiring piping step 35 and the reinforcing bar reinforcement step 36.

On the other hand, the cantilever 28 is installed to be inclined upwardly outward to the outside of the outermost beam 10, so that the form can be installed by adjusting the angle of the inclination angle.

The slab concrete is completed by placing and curing concrete to a predetermined thickness on the formwork thus constructed (concrete placing and curing process 35).

Formwork according to the invention can be dismantled can be reused c-channel (10), plywood (14), girder (12), cantilever (28), the disassembly of the formwork (disassembly process 36) is When the bolt 22 of the c-channel 10 is released through the dismantling hole 26, the c-channel 10 is separated and dismantled, and then the steel pipe 12a, the lumber 12b, and the plywood 14 are simply dismantled. To be dismantled.

In addition, in the cantilever 28 provided in the outermost beam 10, what is necessary is just to disassemble | release the bolt 22 and disassemble.

As described above, the formwork method according to the present invention is excellent in workability as a standardized construction at the time of construction, and the construction period is shortened because the factory manufacturing and welding of the girder 12, plywood 14, etc. are not performed, and after dismantling As it can be reused repeatedly, not only construction cost is reduced, but also scaffolding is unnecessary at the bottom of safety management, which is advantageous for cost and stability.

In addition, after the completion of concrete, the formwork can be dismantled in the post-management aspect, so that the concrete surface is exposed to the outside.

As described above, the present invention is a construction method that complements the disadvantages of the deck plate and wooden formwork and highlights the advantages of construction, safety and construction time is shortened, construction cost is low, and concrete can be dismantled after completion of concrete It is a useful invention that can visually identify the occurrence of cracks by surface exposure and has excellent follow-up during maintenance.

Claims (4)

In the conventional formwork for pouring the slab concrete of the bridge; A c-channel installation process 31 for fastening the c-channel 10 having the dismantling holes 26 formed on both sides of the beam 1 in sequence to bolts 22 to be fixed to both sides of the upper part of the beam 1; Girder installation process (32) for installing a girder (12) for supporting the concrete load between the c-channel (10) through the opening of the opposing c-channel (10), and when placing concrete on the girder (32) After the plywood installation step 33 for installing the plywood 14 used as the bottom plate, and the sealing step 34 for sealing the contact surface of the plywood 14 in order to prevent the flow of concrete during concrete placement, the normal wiring piping Slab formwork construction method for a bridge, characterized in that the construction by the process (35) and the reinforcement step (36). The slab formwork construction method according to claim 1, wherein the c-channel (10) is provided with a reinforcing plate (20). The method of claim 1, wherein the girder (12) is a bridge slab formwork construction method characterized in that by placing a wood (12b) on top of the steel pipe (12a). The slab formwork for bridge construction according to claim 1, wherein the support plate (19) erected on the nut (24) used to fasten the bolt (22) in the c-channel installation process (31) is welded.