KR102518313B1 - Bridge Construction Method For Deck Rod Having Configuration For Securing Ease Of On-Site Assembly Using Precast And Configuration For Height Adjustment To Prevent Height Errors - Google Patents

Abstract

Disclosed is a bridge construction method for a deck road having composition for securing assemblability on a site using precast and composition for height adjustment to prevent a height error. The bridge construction method for a deck road is to construct a bridge for a deck road by using a precast pile, a precast coping, and a precast slab. The bridge construction method for a deck road includes: a pile construction step of constructing the pile of a cylindrical structure or a faceted cylinder structure on the installation ground; a coping preparing step of mounting an H-beam in the vertical direction on the inside of the coping and fixing the same; a coping mounting step of fixing the coping after mounting the coping of a structure enclosing an upper end of the pile constructed through the pile construction step; a composing step of integrating the pile and the coping by placing the concrete in a coupling part of the coping and the upper end of the pile; and a slab construction step of fixing the slab after mounting the slab by using an anchor mounted on the upper surface of the coping after the composing step. According to the present invention, the bridge construction method for a deck road can obtain assemblability on the site by using precast. The bridge construction method for a deck road also includes the composition for height adjustment to construct a precast pier coping at an accurate height by absorbing the height error generated according to the construction height of the pile.

Description

Bridge Construction Method For Deck Rod Having Configuration For Securing Ease Of On-Site Assembly Using Precast And Configuration For Height Adjustment To Prevent Height Errors}

The present invention relates to a method for constructing a bridge for deck rods, and more specifically, it is possible to secure the ease of on-site assembly using precast, and to absorb height errors generated according to the construction height of piles, thereby absorbing precast piers at an accurate height. It relates to a bridge construction method for deck rods including a height adjustment configuration capable of constructing coping.

In general, the lower structure of the hollow pier is composed of a foundation 1 and a pier 2 that is divided into several times according to the height of one casting on the foundation 1, as shown in FIG. 1, and the pier ( 2) has a structure in which a hollow part 3 is formed inside.

However, in small and medium-sized bridges, the hollow part (3) of the pier (1) is narrow, so it is often difficult or impossible to install formwork and supports therein and to demold, which causes the inner hollow of the pier (1). There were many cases in which solid piers, which were filled with concrete up to part (3), were applied.

In the end, when solid piers are applied due to the above reasons, the overall construction cost increases due to the increase in unnecessary concrete and the resulting increase in the amount of reinforcing bars, and problems such as hydration heat of concrete also occur due to heavy concrete placement .

Therefore, there is a need for a technique capable of solving the above-mentioned problems according to the prior art.

Korean Registered Patent Publication No. 10-0634698 (registration date: October 10, 2006)

An object of the present invention is to include a height adjustment configuration capable of securing the ease of on-site assembly using precast and absorbing height errors that occur depending on the construction height of piles to construct precast pier copings at the correct height. It is to provide a bridge construction method for a deck load.

In order to achieve this object, a bridge construction method for a deck rod according to an aspect of the present invention uses precast piles, precast copings, and precast slabs to construct a deck rod bridge. A bridge construction method for a deck rod to be constructed, comprising: a pile construction step of constructing piles of a cylindrical or polygonal column structure on the installation ground; A coping preparation step of mounting and fixing an H beam inside the coping in a horizontal direction; A coping holding step of fixing after mounting a coping of a structure surrounding the upper end of the pile constructed through the pile construction step; A synthesis step of integrating the pile and the coping by pouring concrete at the top of the pile and the coupling part of the coping; and a slab construction step of mounting and fixing the slab using an anchor mounted on the upper surface of the coping after the synthesis step.

In one embodiment of the present invention, the pile construction step includes a nut fastening step of fastening a nut to a screw thread formed at the top of a reinforcing bar extending by a predetermined height from the top of the pile constructed on the installation ground to the planned height; It may be a configuration that includes.

In this case, a plurality of reinforcing bars may be mounted in a left-right, up-down symmetrical form when viewing the top surface of the pile in a plan view, and the nut may have a structure that supports the bottom surface of the H-beam installed horizontally inside the coping.

In one embodiment of the present invention, in the coping preparation step, an opening corresponding to the top of the pile is formed at the lower end, extends upward by a predetermined height from the opening, and extends laterally by a predetermined width in a left-right, up-down symmetrical form. A coping manufacturing step of manufacturing a precast structure in which a storage space is formed and a bolt is inserted into a portion where an H beam is seated; H-beam preparation step of forming a bolt hole having a structure corresponding to a bolt mounted inside the precast in the H-beam and installing a plurality of stud bolts at a predetermined interval on the lower surface of the H-beam; And an H-beam mounting step of fixing the H-beam by fixing the H-beam by horizontally mounting the H-beam inside the precast manufactured from the coping manufacturing step and then binding the bolt hole of the H-beam with the bolt installed inside the pre-cast; can be config.

In one embodiment of the present invention, the coping holding step may include: a pile top insertion step of inserting the top of the pile into an opening of the coping formed on the bottom surface of which the opening corresponding to the top of the pile; And the bottom surface of the H-beam installed in the horizontal direction inside the coping, which extends upward by a predetermined height from the opening of the coping and extends laterally by a predetermined width in a left-right, top-down symmetrical form to form an internal storage space, is placed on the top of the pile. It may be configured to include; H-beam seating step to do.

In one embodiment of the present invention, in the synthesizing step, concrete is poured after welding an anchor to be fastened to the slab on the upper surface of the H-beam, or concrete is poured at the top of the pile and the binding portion of the coping. After that, it is possible to install anchors for fastening with the slab by drilling the upper surface of the concrete.

In one embodiment of the present invention, the slab construction step may include a pad mounting step of mounting a urethane pad having a predetermined area to an anchor mounted on an upper surface of the coping; A slab seating step of seating the slab on the upper surface of the coping by matching the positions of the plurality of assembly holes formed in the slab and the anchor of the coping to each other; and a slab fixing step of fixing the slab by fastening the slab and the anchor to each other using a fastening nut.

As described above, according to the bridge construction method for deck rods of the present invention, by having a pile construction step, a coping preparation step, a coping holding step, a synthesis step, and a slab construction step to perform a specific process, using a precast It is possible to secure the ease of on-site assembly and to provide a bridge construction method for deck rods including a height adjustment configuration capable of constructing precast pier copings at the correct height by absorbing height errors caused by the construction height of piles. there is.

1 is a cross-sectional view showing the lower structure of a hollow pier according to the prior art.
2 is a flowchart showing a method for constructing a bridge for a deck rod according to an embodiment of the present invention.
3 is a front view showing piles, copings and slabs applied to the bridge construction method for deck rods according to an embodiment of the present invention.
4 is an exploded assembly view showing the structure shown in FIG. 3 in an exploded manner.
5 is a perspective view showing piles and copings applied to the bridge construction method for deck rods according to an embodiment of the present invention.
6 is a longitudinal cross-sectional view showing a coping and an H-beam according to an embodiment of the present invention.
7 is a longitudinal cross-sectional view showing how an H-beam is assembled to the coping shown in FIG. 6;
8 is a longitudinal cross-sectional view showing a reinforcing bar and a nut of a pile according to an embodiment of the present invention.
9 is a longitudinal cross-sectional view showing a state in which the planned height of the coping is customized by adjusting the fastening position of the nut shown in FIG. 8 .
10 is a longitudinal cross-sectional view showing a state in which piles and copings applied to the bridge construction method for deck rods according to an embodiment of the present invention are assembled.
FIG. 11 is a longitudinal cross-sectional view showing the performance of the synthesis step of integrating piles and coping by pouring concrete in the state shown in FIG. 10.
12 is a longitudinal cross-sectional view showing a slab construction step of a bridge construction method for a deck rod according to an embodiment of the present invention.
FIG. 13 is a partially enlarged longitudinal sectional view showing a state in which the urethane pad shown in FIG. 12 is mounted and assembled;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. Prior to this, terms or words used in this specification and claims should not be construed as limited to ordinary or dictionary meanings, but should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Throughout this specification, when a member is said to be located “on” another member, this includes not only a case where a member is in contact with another member, but also a case where another member exists between the two members. Throughout this specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

2 is a flowchart showing a method for constructing a bridge for a deck rod according to an embodiment of the present invention, and FIG. 3 shows piles, copings and slabs applied to the method for constructing a bridge for a deck rod according to an embodiment of the present invention. A front view showing a is shown, and FIG. 4 is an exploded assembly view showing the exploded structure shown in FIG. 3 is shown.

Referring to these drawings, the deck rod bridge construction method (S100) according to the present embodiment includes a precast pile 110, a precast coping 120, and a precast slab ( 130), a pile construction step (S110), a coping preparation step (S120), a coping holding step (S130), a synthesis step (S140), and slab construction that perform specific processes. By providing the step (S150), it is possible to secure the ease of on-site assembly using the precast, and to absorb the height error generated according to the construction height of the pile 110 to construct the precast pier coping 120 at the correct height. It is possible to provide a bridge construction method for a deck rod including a height adjustment configuration that can be used.

Hereinafter, each step constituting the bridge construction method (S100) for a deck rod according to this embodiment will be described in detail.

In the pile construction step (S110) according to the present embodiment, a process of constructing a pile 110 having a cylindrical structure or a polygonal column structure is performed on the installation ground.

Specifically, as shown in FIGS. 2 and 8 to 10, in the pile construction step (S110), the upper end of the reinforcing bar 111 extended by a predetermined height in a shovel direction from the top of the pile 110 constructed on the installation ground A nut fastening step (S111) of fastening the nut 112 to the screw thread formed in the plan height is performed.

At this time, a plurality of reinforcing bars 111 are mounted in a left-right, up-down symmetrical form when the top surface of the pile 110 is viewed in a plan view. In addition, the nut 112 is a structure that supports the bottom surface of the H-beam 123 installed horizontally inside the coping 120.

In the coping preparation step (S120) according to the present embodiment, a process of placing the H beam 123 inside the coping 120 in a horizontal direction and then fixing the H beam 123 is performed.

Specifically, as shown in FIGS. 2, 6 and 7, the coping preparation step (S120) includes a coping manufacturing step (S121), an H beam preparation step (S122) and an H beam mounting step (S123) performing a specific process. ). In the coping manufacturing step (S121), an opening 121 corresponding to the upper end of the pile 110 is formed at the lower end, extends upward by a predetermined height from the opening 121, and extends laterally by a predetermined width in a left-right, up-down symmetrical form. An internal storage space is formed, and a process of manufacturing a precast structure in which a bolt 122 is inserted into a portion where the H beam 123 is seated is performed. In the H beam preparation step (S122), a bolt hole 124 having a structure corresponding to the bolt 122 mounted inside the precast is formed in the H beam 123, and a plurality of bolt holes 124 are formed on the lower surface of the H beam 123. A process of installing a plurality of stud bolts 125 at regular intervals is performed. In the H beam mounting step (S123), after the H beam 123 is horizontally seated inside the precast manufactured in the coping manufacturing step (S121), the bolt 122 and the H beam 123 mounted inside the precast Performs a process of fixing the H beam 123 by binding the bolt holes 124 of ).

In the coping mounting step (S130) according to the present embodiment, the coping 120 having a structure surrounding the upper end of the pile 110 constructed in the pile construction step (S110) is mounted and then fixed.

Specifically, as shown in FIGS. 2, 5, 9 and 10, the coping holding step (S130) includes a pile top insertion step (S131) and an H-beam seating step (S132) performing a specific process. It may be a configuration that In the pile top insertion step (S131), a process of inserting the top of the pile 110 into the opening 121 of the coping 120 formed on the bottom surface of the opening 121 corresponding to the top of the pile 110 is performed. . In the H-beam seating step (S132), the inside of the coping 120 extends upward by a predetermined height from the opening 121 of the coping 120 and extends laterally by a predetermined width in a left-right, up-down symmetrical form to form an internal storage space. Performs a process of mounting the bottom surface of the H beam 123 installed in the horizontal direction to the top of the pile 110.

In the synthesis step (S140) according to the present embodiment, concrete is poured at the top of the pile 110 and the binding portion of the coping 120 to perform a process of integrating the pile 110 and the coping 120.

Specifically, as shown in FIGS. 2 and 11, in the synthesis step (S140), after welding the anchor 126 for fastening with the slab 130 to the upper surface of the H-beam 123, concrete can be poured. there is. In some cases, after pouring concrete at the upper end of the pile 110 and the binding portion of the coping 120, the upper surface of the concrete is drilled to install an anchor 126 for fastening with the slab 130.

In the slab construction step (S150) according to the present embodiment, after the synthesis step (S140), the slab 130 is mounted and fixed using the anchor 126 mounted on the upper surface of the coping 120. do.

Specifically, as shown in FIGS. 2, 12 and 13, the slab construction step (S150) includes a pad mounting step (S151), a slab mounting step (S152) and a slab fixing step (S153) performing a specific process. It may be a configuration that includes. In the pad mounting step (S151), a process of mounting a urethane pad 127 having a predetermined area to the anchor 126 mounted on the upper surface of the coping 120 is performed. In the slab mounting step (S152), the slab 130 is seated on the upper surface of the coping 120 by matching the positions of the plurality of assembly holes formed in the slab 130 and the anchor 126 of the coping 120 to each other. do. In addition, the slab fixing step (S153) performs a process of fixing the slab 130 by fastening the slab 130 and the anchor 126 to each other using the fastening nut 128.

As described above, according to the bridge construction method for deck rods of the present invention, a pile construction step (S110), a coping preparation step (S120), a coping holding step (S130), and a synthesis step (S140) performing a specific process And by having a slab construction step (S150), it is possible to secure the ease of on-site assembly using precast, and to absorb the height error occurring according to the construction height of the pile 110, precast pier coping 120 to the correct height It is possible to provide a bridge construction method for deck rods including a height adjustment configuration capable of constructing.

In the above detailed description of the present invention, only specific embodiments thereof have been described. However, it should be understood that the present invention is not limited to the particular forms mentioned in the detailed description, but rather it is understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It should be.

That is, the present invention is not limited to the specific embodiments and descriptions described above, and anyone having ordinary knowledge in the technical field to which the present invention belongs can make various modifications without departing from the gist of the present invention claimed in the claims. is possible, and such variations fall within the protection scope of the present invention.

S100: Bridge Construction Method for Deck Road
S110: Pile construction step
S111: nut fastening step
S120: coping preparation step
S121: coping manufacturing step
S122: H beam preparation step
S123: H-beam mounting step
S130: coping holding step
S131: Pile top insertion step
S132: H-beam seating step
S140: synthesis step
S150: Slab construction step
S151: Pad mounting step
S152: slab seating step
S153: slab fixing step
100: bridge construction assembly for tech road
110: pile
111: rebar
112: nut
120: coping
121: opening
122: bolt
123: H beam
124: bolt hole
125: stud bolt
126: Anchor
127: urethane pad
128: fastening nut
130: slab
140: deck load

Claims (6)

As a deck rod bridge construction method (S100) for constructing a deck rod bridge using a precast pile 110, a precast coping 120, and a precast slab 130, ,
A pile construction step (S110) of constructing a pile 110 of a cylindrical structure or a polygonal pillar structure on the installation ground;
A coping preparation step (S120) of mounting and fixing the H beam 123 inside the coping 120 in a horizontal direction;
A coping holding step (S130) of fixing after mounting the coping 120 having a structure surrounding the upper end of the pile 110 constructed through the pile construction step (S110);
A synthesis step of integrating the pile 110 and the coping 120 by pouring concrete at the top of the pile 110 and the binding portion of the coping 120 (S140); and
After the synthesis step (S140), a slab construction step (S150) of mounting and fixing the slab 130 using the anchor 126 mounted on the upper surface of the coping 120;
including,
In the pile construction step (S110),
A nut fastening step (S111) of fastening the nut 112 to the screw thread formed at the top of the reinforcing bar 111 extending by a predetermined height from the top of the pile 110 constructed on the installation ground to the planned height (S111);
including,
The reinforcing bars 111 are mounted in a symmetrical form when the top surface of the pile 110 is viewed in a plan view, and a thread is formed continuously at the top by a predetermined length,
The nut 112 is tightened by changing the height in the vertical direction along the screw thread formed at the top of the reinforcing bar 111, and has a structure extending from the upper end of the reinforcing bar 111 by a predetermined height, and a fastening operation from the upper end of the reinforcing bar 111. It is a structure that changes the length extended from the top of the reinforcing bar 111 by, characterized in that the structure supporting the bottom surface of the H beam 123 in the form of surface contact with the bottom surface of the H beam 123 Deck Road bridge construction method.
delete According to claim 1,
In the coping preparation step (S120),
An opening 121 corresponding to the upper end of the pile 110 is formed at the lower end, and extends upward by a predetermined height from the opening 121 and extends laterally by a predetermined width in a left-right, up-down symmetrical form to form an internal storage space, A coping manufacturing step (S121) of manufacturing a precast structure in which the bolt 122 is inserted into the portion where the H beam 123 is seated;
Bolt holes 124 having a structure corresponding to the bolts 122 mounted inside the precast are formed in the H-beam 123, and a plurality of stud bolts 125 are installed on the lower surface of the H-beam 123 at regular intervals. H-beam preparation step (S122) of installing multiple spaced apart; and
After mounting the H beam 123 in the horizontal direction inside the precast manufactured from the coping manufacturing step (S121), the bolt 122 mounted inside the precast and the bolt hole 124 of the H beam 123 are bound. H-beam mounting step of fixing the H-beam 123 by doing (S123);
Bridge construction method for a deck rod, characterized in that it comprises a.
According to claim 1,
In the coping holding step (S130),
A pile top insertion step (S131) of inserting the top of the pile 110 into the opening 121 of the coping 120 in which the opening 121 corresponding to the top of the pile 110 is formed on the bottom surface; and
An H beam installed in the horizontal direction inside the coping 120 extending upward by a predetermined height from the opening 121 of the coping 120 and extending laterally by a predetermined width in a left-right, up-down symmetrical form to form an internal storage space ( H-beam seating step (S132) of mounting the bottom surface of 123) to the top of the pile 110;
Bridge construction method for a deck rod, characterized in that it comprises a.
According to claim 1,
In the synthesizing step (S140),
After welding the anchor 126 for fastening with the slab 130 to the upper surface of the H-beam 123, concrete is poured, or
After pouring concrete at the top of the pile 110 and the binding portion of the coping 120, the upper surface of the concrete is drilled to install an anchor 126 for fastening with the slab 130. bridge construction method.
According to claim 5,
In the slab construction step (S150),
A pad mounting step (S151) of mounting a urethane pad 127 having a predetermined area to the anchor 126 mounted on the upper surface of the coping 120;
A slab mounting step (S152) of seating the slab 130 on the upper surface of the coping 120 by aligning the positions of the plurality of assembly holes formed in the slab 130 and the anchor 126 of the coping 120 with each other; and
A slab fixing step (S153) of fixing the slab 130 by fastening the slab 130 and the anchor 126 to each other using the fastening nut 128;
Bridge construction method for a deck rod, characterized in that it comprises a.

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