KR20130026311A - Precast bridge post - Google Patents

Abstract

PURPOSE: A prefabricated bridge pier using a precast unit pier structure and a gap maintaining body is provided to reduce the construction period and costs by the assembly not using a separate shear connector and to adjust the height of the bridge pier structure by using a high strength bolt. CONSTITUTION: A prefabricated bridge pier includes multiple precast unit pier structures, a gap maintaining body(200) and a fastening member(300). A support foundation has a support structure(1) whose top end is arranged with a unit pier structure(100). The gap maintaining body is installed on the lower end of the unit pier structure and connected to a connecting body(30) of the support structure. The connection plate(220) of the gap maintaining body and an outer side supporting plate(33) of a protruded structure are connected by bolts and maintained with a fixes space from each other. The fastening member is composed of a high tension bolt(310) and a nut(320). The unit pier structure has the top end on which other unit pier structure(101) is vertically installed and fixed through the gap maintaining body. The top end of the uppermost unit pier structure has a bridge support structure(40) fixed.

Description

Precast Prefabricated Piers {PRECAST BRIDGE POST}

The present invention relates to a precast prefabricated piers, and more particularly, to a precast prefabricated piers capable of rapid construction without additional tension work.

In general, the bridge piers being constructed in the bridge construction is a cast-in-place concrete structure, and after the foundation dig work in the field, the foundation is formed by having a curing period for a certain period after the concrete is laid in the state of laying the foundation reinforcement and formwork do.

While the foundation is cured, reinforcing bars and formwork are formed at the upper part, while the bridge is cured and the coping part supporting the upper part of the bridge, ie, the bridge deck, is placed in the primary or secondary process by placing the formwork with the supporting structure. The bridge is completed by the method of forming the coping portion.

For this reason, many construction periods and expenses are required in the formwork of formwork after installation and construction of formwork.

In addition, depending on the location where the bridge is constructed, in case of overpass construction, traffic is congested around the construction area, and construction management is difficult and there is concern of subconstruction in a poor working environment such as underwater construction requiring drainage. .

In order to solve this problem, after performing the foundation construction including the foundation trench from the top of the terrain, the prefabricated pier is constructed to build and assemble the pier as a unit structure.

Prior art related to the present invention is Republic of Korea Patent No. 10-1045805, the prior art discloses a technique for applying the pillar connecting material in the bonding between the internally confined hollow concrete filling unit.

SUMMARY OF THE INVENTION An object of the present invention is to provide a precast prefabricated piers that can be prefabricated pier without using a separate shear connector.

Another object of the present invention is to provide a precast prefabricated pier that can adjust the height between a plurality of unit pier structures assembled to each other using a high-tensile bolt in real time to correct the overall height error of the pier.

According to one aspect, the present invention provides a plurality of unit pier structures arranged at regular intervals along the vertical direction; An interval holder provided at one end or both ends of each unit pier structure and maintaining a predetermined interval between the unit pier structures by being in surface contact with each other; And it provides a precast prefabricated pier comprising a fastening member for fastening each of the spacers to each other.

The spacer maintains an extension end extending a predetermined length from one end or both ends of each unit pier structure, and a plate-shaped fastening plate connected to an end of the extension end and having a predetermined thickness and having a plurality of bolted fastening holes. Equipped.

In one end or both ends of each unit pier structure, it is preferable that a fixed end of a predetermined length extending from the extended end and a plate-shaped fixing plate installed at the end of the fixed end are further installed.

The extension end may include a first extension end connected to one end or both ends of each unit pier structure, a second extension end connected to the fastening plate, and a hollow shape, and the first extension end and the second extension end. It may be provided with a gap adjusting member for screwing together.

Here, the gap adjusting member may be formed with an injection hole in which the bonding agent is injected.

The gap holder may be provided at one end or both ends of each unit pier structure, have a predetermined thickness, and may include a fastening plate protruding to the outside of each unit pier structure.

It is preferable that a plurality of bolt fastening holes are formed in the fastening plate.

The fastening member may further include a high tension bolt fastened to the bolt fastening hole and a nut fastened to an end of the high tension bolt.

According to another aspect of the present invention, there is provided a support structure including a connector at an upper end thereof; Prefabricated piers according to any one of claims 1 to 5, wherein a lower end is fastened through the connecting body and the high tension bolt and is disposed perpendicularly to the upper end of the support structure; And a bridge support structure fastened through the spacer and the high tension bolt disposed at the top of the prefabricated bridge to support the bridge.

Here, it is preferable that a protruding structure protruding upward is further formed on the upper end of the support structure.

It is preferable that the connecting body further includes a reinforcing bar connecting the protruding structure and the supporting structure.

The present invention has the effect of being able to form a pier prefabricated, without using a separate shear connector.

In addition, the present invention is capable of adjusting the height between the plurality of unit pier structures assembled to each other using a high-tensile bolt to have the effect of correcting the overall height error of the piers in real time.

1 is a cross-sectional view showing a unit pier structure according to the present invention.
2 is a cross-sectional view showing a precast prefabricated piers of the present invention.
3 is a cross-sectional view illustrating a connection portion between the unit bridge structures of FIG. 1.
4 is a cross-sectional view showing another example of the spacer according to the present invention.
5 is a cross-sectional view showing another example of a connecting portion according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the precast prefabricated piers of the present invention.

1 shows a unit pier structure according to the invention, Figure 2 shows a state in which the unit pier structure is assembled along the vertical direction.

1 and 2, the precast prefabricated pier of the present invention is composed of a plurality of unit pier structure (100, 101), the spacer 200, and the fastening member 300 (see FIG. 3).

Each unit pier structure (100, 101) forms the same configuration with each other.

Referring to FIG. 2, each unit pier structure 100 is formed of a pillar-like body forming a foundation of a pier.

Each unit pier structure (100, 101) may be disposed perpendicular to each other.

The gap holder 200 is positioned between the unit pier structures 100 and 101 so that the unit pier structures 100 and 101 are perpendicular to each other.

1 and 3, the gap holder 200 includes a plurality of extension ends 210 and a fastening plate 220.

Each of the extension ends 210 protrudes from both ends of the unit pier structure 100.

Each extension end 210 is preferably made of iron.

End portions of each of the extension ends 210 may be internally fixed at both ends of each unit pier structure 100.

The fastening plate 220 is formed in a plate shape having a predetermined thickness.

The fastening plate 220 is connected to the other end of the extension end 210. The other end of the extension end 210 may be connected to the fastening plate 220 through a welding method.

Here, the area of the fastening plate 220 is formed to be included in the area of both ends of the unit pier structure 100.

A plurality of bolt fastening holes 221 are formed in the fastening plate 220.

In addition, the spacer 200 further includes a fixed end 230 and a fixed plate 240.

The fixed end 230 may be provided in plurality.

The fixed end 230 is connected to the extension end 210 is embedded in both ends of each unit pier structure (100). Here, the fixed end 230 may form an extension end 210 and one body.

The fixing plate 240 is located inside each unit pier structure 100 and is connected to one end of the fixing end 230. Accordingly, the fixing plate 240 is installed inside both ends of each unit pier structure 100.

Accordingly, the fixed end 230 and the fixing plate 240 are installed in both ends of each unit pier structure 100, the extension end 210 protruding to the outside of both ends of each unit pier structure 100 and It may serve to fix the fastening plate 220.

Referring to FIG. 2, a method of assembling prefabricated piers including the plurality of unit pier structures 100 will be described.

The support base is provided with a support structure 1.

The support structure 1 includes a base 10 and a protruding structure 20 protruding upward from an upper end of the base 10.

The upper side of the protruding structure 20 is a structure side connection body 30 is formed.

The connecting member 30 has an inner support plate 31 which is installed inside the upper end of the protruding structure 20, and support ends 32 which are connected to the inner support plate 31 and protrude outside the upper end of the protruding structure 20. ) And an outer support plate 33 connected to the upper ends of the support ends 32.

A plurality of bolt fastening holes 33a are formed in the outer support plate 33.

The connecting body 30 further includes a reinforcing bar 34.

The reinforcing bar 34 is embedded in the base 10 and the protruding structure 20.

The reinforcing bar 34 is installed inside the side wall of the protruding structure 20, and an end thereof is bent along the bottom surface of the lower end of the base 10.

Therefore, the reinforcing bar 34 serves to support the base 10 and the protruding structure 20.

2 and 3, a unit pier structure 100 is disposed at an upper end of the support structure 1.

The space holder 200 installed at the lower end of the unit pier structure 100 is fastened to the connection body 30 of the support structure 1.

Here, the fastening plate 220 of the spacer 200 is in surface contact with the outer support plate 33 of the top of the projecting structure (20).

Here, the fastening plate 220 and the outer support plate 33 is bolted by the fastening member 300 according to the present invention.

The fastening member 300 includes a high tension bolt 310 and a nut 320.

The high tension bolts 310 are fitted into the bolt fastening holes 221 and 33a which are aligned with each other. Here, the head portion of the high tension bolt 310 spans the area around the bolt fastening hole 221, and the lower end portion of the high tension bolt 310 passes through the bolt fastening holes 221 and 33a.

The nut 320 is fastened to the lower end of the high tension bolt 310. The fastening plate 220 and the outer support plate 33 may be connected to each other by the fastening force of the nut 320.

Accordingly, the unit pier structure 100 may be maintained at a predetermined interval from each other, while being fixed in a vertical state to the top of the protruding structure 20 of the support structure (1).

Meanwhile, another unit pier structure 101 is vertically disposed and fixed to an upper end of the fixed unit pier structure 100.

The other unit pier structure 101 is substantially the same as the configuration of the unit pier structure 100.

In addition, an upper end of the unit pier structure 100 and a lower end of the other unit pier structure 101 are fastened through each of the spacers 200.

The fastening method between each of the spacers 200 is the same as the fastening method of the connection body 30 and the spacer 200 of the support structure (1).

The unit bridge structures 100 and 101 may be provided in a predetermined number and fixedly installed in a vertical direction.

The bridge support structure 40 is fixedly installed on an upper end of the unit bridge structure 101.

The lower end of the bridge support structure 40 is provided with a connection member 50 having the same structure as the spacer 200 described above.

The connecting member 50 is connected to the inner connecting plate 51 which is installed in the lower end of the bridge support structure 40 and the inner connecting plate 51 and protrudes to the lower end of the bridge support structure 40. End 52 and the outer connecting plate 53 is connected to the connecting ends (52).

A plurality of bolt fastening holes 53a are formed in the outer connection plate 53.

Therefore, the connection member 50 of the bridge support structure 40 is fastened and fixed to the upper end of the unit pier structure 101 of the uppermost in the same manner as the fastening method between the above-described spacer 200.

Accordingly, the plurality of unit bridge structures 100 and 101 according to the present invention may be sequentially assembled at a predetermined height along a vertical direction at the top of the support structure 1.

3 shows that the unit pier structures are fastened to each other by being fastened with each of the spacers.

In the state in which the fastening plates 220 of each of the spacers 200 are in surface contact with each other, the fastening plates 200 are bolted to each other through the fastening member 300 as described above.

Each unit pier structure (100, 101) is maintained at a predetermined interval up and down each other.

The interval holder 200 exposed to the space (a) in which the predetermined interval is maintained, that is, the extension end 210 and the fastening plate 220 may be surrounded by epoxy or mortar.

Accordingly, the space a between the unit bridge structures 100 and 101 may be filled through epoxy or mortar.

The separation space (a) of the support structure (1) and the unit pier structure 100 and the separation space (a) of the uppermost unit pier structure 101 and the bridge support structure 40 is also to be filled by epoxy or mortar Can be.

4 shows another example of the spacer according to the present invention, that is, a spacer capable of height adjustment up and down.

4, the spacer 200 is composed of an extension end 210 and the fastening plate 220.

The extended end 220 may be connected to the fixed end 230, and the fixed end 230 may be connected to the fixed plate 240.

The fixed end 230 and the fixing plate 240 are installed inside one end or both ends of the unit pier structure 101.

In particular, the extension end 210 includes a first extension end 211, a second extension end 212, and a gap adjusting member 213.

The first extension end 211 is formed to protrude a predetermined length from the top and bottom of the unit pier structure 101.

The second extension end 212 is formed to protrude a predetermined length from the fastening plate 220.

Threads are formed in the first extension end 211 and the second extension end 212.

The gap adjusting member 213 has a predetermined length and a hollow shape. A thread is formed in the hollow inner circumference.

The gap adjusting member 213 is screwed with the first extension end 211 and the second extension end 212 to connect the first and second extension ends 211 and 212.

The first and second extension ends 211 and 212 are formed with threads forming opposite directions to each other.

Referring to the above configuration, the first extension end 211 is formed at the lower end of the upper unit pier structure 101. The second extension end 212 is formed on the upper end of the fastening plate 220.

Here, the first and second extension ends 211 and 212 are positioned along each other up and down, and are disposed to face each other. The first and second extension ends 211 and 212 are formed with threads symmetrical with each other.

The first extension end 211 and the second extension end 212 are screwed into the gap adjusting member 213.

It is possible to adjust the length of the extension end up and down in accordance with the rotation direction of the gap adjusting member 213.

That is, the first and second extension ends 211 and 212 may flow along the direction in which the first and second extension ends 211 and 212 are in close contact with each other or in the opening direction.

In addition, the gap adjusting member 213 is further formed with an injection hole 213a exposing the inside thereof to the outside.

A binder such as cement mortar may be injected into the gap adjusting member 213 through the injection hole 213a.

The first and second extension ends 211 and 212 are fitted to the gap adjusting member 213 to be coupled thereto. The first and second extension ends 211 and 212 may be spaced apart from each other within the gap adjusting member 213.

Here, the bonding agent injected through the injection hole 213a is introduced into the gap adjusting member 213 and filled.

The bonding agent may fill a space formed by spaced apart from the first and second extension ends 211 and 213 in the gap adjusting member 213.

In addition, the bonding agent may further fix the first and second extension ends 211 and 212 having a fixed position within the gap adjusting member 213.

Embodiments according to the present invention have the advantage that the construction can be easily adjusted by adjusting the height correction error of the plurality of prefabricated bridge piers installed on the support base to support the bridge.

5 shows another example of a connecting part according to the invention.

5, the spacer according to the present invention includes a fastening plate 250. A plurality of bolt fastening holes 251 are formed in the fastening plate 250.

The fastening plate 250 is installed at both ends of each unit pier structure (100, 101).

The area of the fastening plate 250 is formed to be out of the area of both ends of each unit pier structure (100, 101).

The bolt fastening hole 251 is formed at an edge portion of the fastening plate 250 that deviates from both ends of the unit pier structures 100 and 101.

Each unit pier structure (100, 101) is arranged to be perpendicular to each other. In this case, the fastening plates 250 formed in the unit structure structures 100 and 101 are in surface contact with each other. The bolt fastening holes 251 of the fastening plate 250 which are in surface contact with each other are coincident with each other.

The fastening plates 250 are fastened to each other through fastening of the high tension bolt 310 and the nut 320 according to the present invention.

Embodiments in accordance with the present invention by fastening the fastening plates to each other, and fastening them using a high-tensile bolt, giving the high-tension bolt itself the role of a shear connector, and can be constructed prefabricated pier without further tightening work.

In the embodiment according to the present invention, the prestress step can be eliminated, and the construction of the long column piers is easy.

Embodiment according to the present invention, by fastening and fixing the pre-fabricated unit pier structure through a fastening member consisting of a high-strength bolt and nut, it is possible to eliminate the pour and curing process at the pier installation site, the air efficiently Can be shortened.

1: support structure 10: base
20: projecting structure 30: connector
31: inner support plate 32: support end
33: outer support plate 40: bridge support structure
50 connection member 51 inner connecting plate
52: connection 53: outer connecting plate
100, 101: unit pier structure 200: spacer
210: extended ends 220, 250: fastening plate
230: fixed end 240: fixed plate
300: fastening member 310: high tension bolt
320: nuts

Claims (8)

A plurality of unit pier structures arranged at regular intervals along the vertical direction;
An interval holder provided at one end or both ends of each unit pier structure and maintaining a predetermined interval between the unit pier structures by being in surface contact with each other; And
Precast prefabricated piers characterized in that it comprises a fastening member for fastening each of the spacers to each other.
The method of claim 1,
The spacer is,
An extension end extending a predetermined length from one end or both ends of each unit pier structure;
Precast prefabricated piers characterized in that it is connected to the end of the extended end, having a predetermined thickness, a plate-like fastening plate is formed a plurality of bolt fastening holes.
The method of claim 2,
In one end or both ends of each unit pier structure,
A fixed end of a predetermined length extending from the extended end,
Precast prefabricated piers, characterized in that the fixing plate on the plate installed at the end of the fixed end is further built.
The method of claim 2,
The extended end is,
A first extension end connected to one or both ends of each unit pier structure;
A second extension end connected to the fastening plate;
It is formed in a hollow shape and provided with a gap adjusting member for screwing the first extension end and the second extension end with each other,
The precast prefabricated piers, characterized in that the gap adjustment member is formed with an injection hole is injected.
The method of claim 1,
The spacer is,
Is provided at one end or both ends of each unit pier structure, has a predetermined thickness, and includes a fastening plate protruding outward of the unit pier structure,
Precast prefabricated piers, characterized in that the fastening plate is formed with a plurality of bolt fastening holes. 6. The method according to claim 2 or 5,
The fastening member
A high tension bolt fastened to the bolt fastening hole;
And a nut fastened to the end of the high tension bolt.
A support structure having a connector at the top;
Prefabricated piers according to any one of claims 1 to 5, wherein a lower end is fastened through the connecting body and the high tension bolt and is disposed perpendicularly to the upper end of the support structure; And
Precast prefabricated piers including a bridge support structure that is fastened through the high tension bolt and the spacer and disposed on the top of the prefabricated bridge to support the bridge.
8. The method of claim 7,
The upper end of the support structure is further formed a protruding structure protruding upwards,
The connecting body includes:
Precast prefabricated piers, characterized in that it further comprises a reinforcing bar connecting the projecting structure and the support structure.

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