KR101268429B1 - Pier table for modular bridge and method for installing modular bridge using thereof - Google Patents

Abstract

The present invention relates to a modular pier table for a modular pier, and more particularly to a modular pier table for a modular pier installed on a unit module of a top pier corner part of a pier corner part unit module comprising a plurality of filled steel pipes, A guide groove having an isosceles trapezoidal cross-sectional shape is formed at a position symmetrical with each of the filled steel pipes of the uppermost pier corner post unit module, and is mounted on the uppermost pierce post part unit module, And the bridge piercing section unit module is mounted.
According to the present invention, a peer table having a guide groove formed therein to guide a filled steel pipe to a top of a packed steel pipe of a pierced column unit module coupled with a top portion, that is, a unit of a piercing column portion unit, , The connecting material provided on the peer table and the end plate formed on the upper part of the filled steel pipe are bolted to each other to integrate the peer table and the filled steel pipe to increase the acupressure area and prevent the stress from concentrating.

Description

TECHNICAL FIELD [0001] The present invention relates to a pier table for a modular bridge pier, and a modular bridge pier using the same.

The present invention relates to a modular pier table for a modular pier and a modular pier installation method using the same. More particularly, the present invention relates to a pier table for a modular pier, A modular pier table for assembling the peer table and the filled steel pipe by bolting the end plate formed on the upper part of the filled steel pipe with the connecting material provided on the peer table, And a modular bridge pier installation method using the same.

Generally, bridge piers constructed in bridges are laid-in-place concrete structures, concrete is laid in a state where basic reinforcing bars and formworks are placed after foundation trenching work, and curing period is formed for a certain period to form a foundation portion .

In the state that the foundation is cured, the reinforcing bars and the formwork are formed on the upper part of the bridge, and the coping part which cures the bridge pier and supports the upper part of the bridge, that is, the bridge roof, is placed under the support of the bridge and the concrete is laid by the primary or secondary process, The bridge is completed by the method of forming the part.

Because of this, it takes a lot of construction period and expense in the work of demolding the form after installation and construction of the formwork. Also, depending on the location of the bridge, the pier gives traffic congestion around the construction site in case of overpass construction, and construction management is difficult in case of poor work environment such as underwater construction requiring drainage processing ability, .

For this purpose, a modular bridge pier is constructed in which the bridge is constructed as a unit structure and assembled in the field.

The modular pier is a standardized minimum factory-built module that can be expanded and assembled with various widths and spans. It can be used for information production such as automatic factory production and module history management. Simple connection and lightweight module It is a modular combination bridge system that minimizes site work with structure and can maintain long public life and minimum maintenance.

Through the automated production of standardized modules, it will be possible to meet the green industry by minimizing the waste such as the optimum manufacturing process and the filter media generated during production. The technology that can satisfy various field conditions with minimum modules can be applied to large- It can be solved by standard production, and it will be possible to reduce GHG emissions during module production.

As shown in FIG. 1, the modular bridge pillar is composed of a bridge pier foundation unit module A, a bridge pier unit module B, and a bridge piercing unit unit module C, ) Is made up of four stocks or two stocks, and a fine adjustment unit module (not shown) and a key post module (not shown) of a pillar column are added according to the selection. Meanwhile, the pierced column unit module (B) is a filled steel pipe filled with concrete.

However, this conventional modular bridge pier has a problem in that stress is concentrated in a narrow region of the filled steel pipe constituting the unit of the bridge pillar portion, while installing the pier capping unit module on the upper part of the bridge pillar unit module, There is a problem that it is difficult to set the position because it can not be fixed.

Also, since the conventional modular bridge pier has no separate fixing means for connecting the pier capping unit module on the top of the filled steel pipe of the pier corner post unit module, There is a problem that the working efficiency is lowered and the working time is lengthened.

In order to solve the above problems, the present invention provides a pier table having a guide groove formed therein to guide a filled steel pipe to the top of a filled steel pipe of a pierced column unit module coupled to a top portion, that is, The mortar is filled in the groove and the connecting material provided on the peer table and the end plate formed on the upper part of the filled steel pipe are bolted together to integrate the peer table and the filled steel pipe to increase the acupressure area and thereby prevent the stress from concentrating A modular bridge pier table, and a modular bridge pier installation method using the same.

In addition, the present invention relates to a pier table unit module, a reinforcing bar and a connecting plate, which are stacked on a peer table by allowing a reinforcing bar integrated with a filled steel pipe to flow through the upper portion to penetrate the peer table, The present invention also provides a modular bridge pier table and a modular bridge pier installation method using the same.

The present invention also provides a modular bridge pier table for welding a support plate to which a peer table is fixed to an upper portion of a filled steel pipe and sealing a guide groove formed in the peer table using a support plate, And a modular bridge pier installation method using the same.

Further, according to the present invention, a sheath tube and a reinforcing bar are disposed in the lateral direction of the peer table, a reinforcing hole symmetrical to the upper side of the filled steel pipe is formed, and a reinforcing bar is inserted after joining the peer table and the filled steel pipe. And a modular bridge pier installation method using the same.

According to an aspect of the present invention,

A modular pier table for a modular pier installed on a unit module of an uppermost pier square column unit of a pier square column unit module comprising a plurality of filled steel pipes, wherein the modular pier table for a modular pier is formed in a rectangular plate shape, A guide groove having an isosceles trapezoidal cross-sectional shape is formed at a position symmetrical with each of the packed steel pipes of the module, the module is mounted on the uppermost pillar corner unit module, and the pierce coping unit module is mounted on the upper surface.

Here, the modular bridge pier table includes a main body having the guide groove formed therein and being a reinforced concrete structure; A connecting member coupled to an upper surface of the main body, the connecting member being installed in a direction perpendicular to the guide groove at a position symmetrical with the guide groove; A sheath tube installed at a position symmetrical with respect to the guide groove and provided with a cap at both ends thereof; And a transverse reinforcement inserted into the sheath tube.

Here, the connection member may include a main plate having a rectangular shape formed of a metal material and having a first mortal injection hole into which the mortar is inserted and a first bolt hole into which the bolt is fastened; An extension plate fixed in the longitudinal direction at the center of the upper surface of the main plate in the same material as the main plate and having a plurality of reinforcement grooves; And a front end joint member vertically protruding from the bottom surface of the main plate and integrally formed with the main body.

Here, a reinforcing bar provided on the bottom surface of the pier capping unit module is coupled to the reinforcing groove of the extension plate.

Here, the transverse reinforcement is discharged from the sheath tube to the outside for a predetermined length when the transverse reinforcement is placed on the main body, and then discharged through the guide groove.

In this case, the filled steel pipe is filled with concrete to form a space portion, and a vertical reinforcing bar is extended through the space portion so as to protrude outward. The transverse reinforcing bars penetrate to both sides of the space portion, Through holes for discharging the mortar into the sheath tube are formed.

Here, the filled steel pipe may include a second mortal injection hole formed in a square plate shape and into which molten metal is injected at a position symmetrical to the first mortal injection hole and the first bolt hole of the main plate, A second bolt hole to which the bolt is fastened, and an end plate guided along the guide groove of the main body is coupled to the upper surface.

Here, the filled steel pipe supports the main body, and a square plate-shaped support plate is welded to the outside of the upper end to seal the guide groove of the main body.

Here, the support plate is provided with an elastic material for sealing and leveling adjustment on the upper surface.

Here, the mortar is introduced into the space of the guide groove and the filled steel pipe of the main body through the first mortal injection hole of the main plate and the second mortar injection hole of the end plate, and is integrated.

Here, the vertical reinforcing bars of the filled steel pipe are vertically passed through the pier capping unit module to fix them.

According to another aspect of the present invention,

The modular bridge pillar installation method using the modular bridge pier table for a modular bridge pier includes: a first step of sequentially installing a pier foundation unit unit module and a bridge pier unit module and installing a unit module at the uppermost pierce pillar unit; A second step of lifting the main body and inserting the end plate formed in the filled steel pipe into the guide groove formed in the main body to mount the main body on the support plate formed outside the upper end of the filled steel pipe; A third step of fastening the end plate of the filled steel pipe with a bolt to fix the connecting member formed in the main body and the filled steel pipe when the mounting is completed; A fourth step of filling the mortar with the guide groove of the main body, the space formed in the filled steel pipe, and the sheath pipe formed in the main body in the direction of the bolt extension and having the reinforcing bars inserted therein; And a vertical reinforcing bar formed on the filled steel pipe is passed through the pier capping unit module to fix the pier capping unit module on the upper surface of the body when the curing of the mortar is completed, And a fifth step of placing the reinforcing bars installed in the main body in the reinforcement grooves of the connecting member provided in the main body and then filling and integrating the mortar.

According to the modular bridge pier table and the modular bridge pier installation method using the same, the guiding groove can be formed at the upper part, that is, at the upper part of the pierced column part unit module, And the end plate formed on the upper portion of the packed steel pipe is bolted to the peer table to integrate the packed steel pipe to increase the acupressure area, It is possible to prevent the stress from concentrating.

In addition, according to the present invention, it is possible to provide a bridge piercing unit unit module, a reinforcing bar, and a connecting plate, which are stacked on a peer table by allowing reinforcing bars integrated with a charged steel pipe to flow through the upper portion to penetrate the peer table, So that they can be structurally stabilized.

According to the present invention, a support plate, to which a peer table is fixed, is welded to an upper portion of a filled steel pipe, and a guide groove formed in the peer table is sealed using a support plate, So that it is possible to shorten the working time.

According to the present invention, a sheath tube and a reinforcing bar are disposed in the transverse direction of the peer table, a reinforcing hole symmetrical to the upper side of the filled steel pipe is formed, and a reinforcing bar is inserted after joining the peer table and the filled steel pipe, The strength can be increased.

1 is a perspective view showing the construction of a general modular bridge pier.
2 is a perspective view showing a configuration of a modular bridge pier table according to the present invention.
3 is an exploded perspective view showing a configuration of a modular bridge pier table according to the present invention.
4 is a sectional view taken along the line AA in Fig.
5 is a sectional view taken along line BB of Fig.
6 is a perspective view showing the structure of a filled steel pipe applied to a modular bridge pier table according to the present invention.
FIG. 7 is a side sectional view showing a state in which a modular bridge pier table according to the present invention is installed.
8A to 8E are explanatory diagrams for explaining a modular bridge pier installation method using a modular bridge pier table according to the present invention.

Hereinafter, the configuration of a modular bridge pier table according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

2 is a perspective view showing a configuration of a modular bridge pier table according to the present invention, FIG. 3 is an exploded perspective view showing the configuration of a modular bridge pier table according to the present invention, FIG. 4 is a cross- 5 is a cross-sectional view taken along the line BB of FIG. 2, FIG. 6 is a perspective view showing a structure of a filled steel pipe applied to a modular bridge pier table according to the present invention, and FIG. Fig.

2 to 7, a modular pier table 1 according to the present invention includes a main body 10, a connecting member 20, a sheath pipe 30, and a transverse reinforcing bar 40 do.

2 to 5, the main body 10 is formed in a rectangular plate shape as a reinforced concrete structure, and is disposed at a position symmetrical to each of the filled steel pipes 50 of the uppermost pillar- A guide groove 11 having an isosceles trapezoidal cross-sectional shape is formed, and the uppermost pierced column portion is mounted on the unit module B2, and the pierce coping unit unit module C is mounted on the upper surface. Here, in the case of four pairs of pillar-column unit modules, four guide grooves 11 are formed at positions symmetrical to each other, and in the case of two stocks, two are formed at symmetrical positions.

The connecting member 20 is composed of a main plate 21, an extension plate 23, and a front end connection member 25.

The main plate 21 is formed in a rectangular shape with a metal material and is installed on the upper surface of the main body 10 in a direction perpendicular to the main body 10 at a position symmetrical to the guide groove 11, A first mortal injection hole 21a through which the vertical steel bar 53 of the charged steel pipe 50 is inserted and a first bolt hole 21b into which the bolt B is fastened are formed respectively.

The extension plate 23 is welded vertically in the longitudinal direction at the center of the upper surface of the main plate 21 with the same material as that of the main plate 21 and a plurality of reinforcing groove grooves 23a are formed at even intervals. At this time, it is preferable that the reinforcement Ca installed on the bottom surface of the pier capping unit module C is coupled to the reinforcement grooves 23a of the extension plate 23.

The front end connection member 25 is formed integrally with the main body 10 by protruding vertically from the bottom surface of the main plate 21 with the same material as the main plate 21. [

The sheath tube 30 is provided in the upper and lower ends at positions symmetrical with respect to the guide grooves 11, Here, the sheath tube 30 is provided with the caps 31 at both ends thereof.

Further, the transverse reinforcement 40 is inserted into the sheath tube 30. [ Here, the lateral reinforcing bar 40 has a structure in which, when the main body 10 is removed from the guide groove 11 by discharging the main body 10 from the sheath pipe 30 to the outside for a predetermined length so as to facilitate a high- When completed, it is desirable to reinsert.

Meanwhile, as shown in FIG. 6, the filled steel pipe 50 in which the peer table 1 for a modular bridge pier according to the present invention is placed is filled with concrete to form a space portion 51, The vertical reinforcing bars 53 are extended through the through holes 51 to protrude to the outside and the transverse reinforcing bars 40 are passed through the both side surfaces of the space portion 51 and the through- A hole 55 is formed. At this time, the vertical reinforcing bars 53 of the filled steel pipe 50 vertically pass through the pier capping unit module C to fix them.

An end plate 60 of the same material is coupled to the upper surface of the filled steel pipe 50. The end plate 60 is formed in the shape of a square plate to form a first mortal injection hole 21a, A second mortal injection hole 61 into which the mortar is inserted at a position symmetrical to the first bolt hole 21b and through which the vertical reinforcing bar 53 penetrates and a second bolt hole 63 to which the bolt B is fastened And is guided along the guide grooves 11 of the main body 10.

The packed steel pipe 50 supports the main body 10 and welds the support plate 70 in the form of a square plate to the outer side of the upper end to weld the guide groove 11 of the main body 10. At this time, the elastic plate 71 is installed on the upper surface of the support plate 70 for sealing and leveling adjustment.

The modular piercing peer table 1 according to the present invention includes a first mortal insertion hole (not shown) of the main plate 21 in the space portion 51 of the guide groove 11 and the filled steel pipe 50 of the main body 10, 21a of the end plate 60 and the second mortal injection hole 61 of the end plate 60 to integrate them. At this time, the mortar also flows into the sheath tube (30).

Hereinafter, a modular bridge pier installation method using a peer table for a modular bridge pier will be described in detail with reference to the accompanying drawings.

8A to 8E are explanatory diagrams for explaining a modular bridge pier installation method using a modular bridge pier table according to the present invention.

First, as shown in FIG. 8A, the pier foundation base unit module A and the pierce column portion unit module B1 are sequentially installed, and the uppermost pierce column portion unit module B2 is installed. At this time, the supporting plate 70 and the end plate 60 are installed in the filled steel pipe 50 of the uppermost pillar-column unit module B2, and the space portion 51 and the through-hole 55 are formed (S100).

8B, the main body 10 to which the shear connector 25 is integrally coupled is lifted and the guide grooves 11 are formed in the respective filled steel tubes 50 of the uppermost pillar- The installed end plate 60 is inserted and the main body 10 is mounted on the support plate 70 (S110). The vertical reinforcing bar 53 of the filled steel pipe 50 is inserted into the first mortal insert hole (not shown) of the main plate 21, 21a. Also, the leveling of the main body 10 can be adjusted through the elastic material 71 provided on the support plate 70 when the base body 10 is mounted.

8C, the transverse reinforcing bar 40 is inserted into the sheath pipe 30 so that the transverse reinforcing bar 40 passes through the through hole 55 of the filled steel pipe 50, The first bolt hole 21b formed in the main plate 21 of the connection member 20 and the second bolt hole 21b formed in the end plate 60 of the filled steel pipe 50 are inserted into the opposite sheath pipe 30, The bolts B are fastened to the fastening bolts 63 (S120).

When the bolts are fixed, the mortar is filled into the space portion 51 of the guide groove 11 of the main body 10 and the filled steel pipe 50 and the sheath pipe 30 as shown in FIG. 8D, The mortar is introduced through the first and second mortar injection holes 21a and 61 of the end plate 21 and the end plate 60 at step S130.

8E, the vertical reinforcing bar 53 of the filled steel pipe 50 is inserted into the upper surface of the pier capping unit unit C as shown in FIG. 8E, So that the reinforcing bars Ca provided on the bottom face of the pillar capping unit module C are seated in the reinforcing steel groove 23a formed in the extension plate 23 of the connecting member 20 ). Thereafter, the mortar is filled between the reinforcing bars Ca provided on the bottom surface of the pier capping unit module C and the reinforcing grooves 23a formed on the extension plate 23 of the connecting member 20 to integrate them.

The above procedure is repeated to complete the modular bridge pier.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

10: Body 20: Connector
30: sheath tube 40: transverse reinforcement
50: Filled steel pipe 60: End plate
70: Support plate

Claims (12)

delete A modular pier for a pier for a pier provided in a unit module of an uppermost pier of a pierce column unit module comprising a plurality of filled steel tubes,
Wherein the modular bridge pier table includes:
A guide groove having an isosceles trapezoidal cross-sectional shape is formed at a position symmetrical to each of the filled steel pipes of the uppermost pierced column portion unit module, A main body on which the pier capping unit module is mounted on an upper surface thereof;
A connecting member coupled to an upper surface of the main body, the connecting member being installed in a direction perpendicular to the guide groove at a position symmetrical to the guide groove;
A sheath tube installed at a position symmetrical with respect to the guide groove and provided with a cap at both ends thereof; And
And a transverse reinforcing bar inserted into the sheath pipe. 3. The method of claim 2,
The connecting member
A main plate having a rectangular shape formed of a metal material and having a first mortal injection hole into which the mortar is inserted and a first bolt hole into which the bolt is engaged;
An extension plate fixed in the longitudinal direction at the center of the upper surface of the main plate in the same material as the main plate and having a plurality of reinforcement grooves; And
And a front end joint member vertically protruding from a bottom surface of the main plate and integrally formed with the main body. The method of claim 3,
In the reinforcement groove of the extension plate,
And a reinforcing bar installed on a bottom surface of the pier capping unit module. 3. The method of claim 2,
The lateral reinforcing bars
Wherein the shade tube has a predetermined length and is discharged from the guide groove when the main body is mounted on the shade tube. The method of claim 3,
The filled steel pipe
And a vertical reinforcing bar is extended through the space to protrude to the outside. The transverse reinforcing bars are penetrated to both sides of the space, and the molten material introduced into the inside of the sheath pipe And a through hole is formed for discharging the piercing hole. The method according to claim 6,
The filled steel pipe
A second mortal injection hole formed in a square plate shape in which the mortar is inserted at a position symmetrical to the first mortal injection hole and the first bolt hole of the main plate and the vertical reinforcing bar is penetrated and a second bolt hole And an end plate guided along a guide groove of the main body is coupled to an upper surface of the peer table. 8. The method of claim 7,
The filled steel pipe
And a support plate in the form of a square plate is welded to the outside of the upper end to support the main body and to close the guide groove of the main body. 9. The method of claim 8,
The support plate
Characterized in that an elastic material is provided for sealing and leveling control on the upper surface of the peer table. 8. The method of claim 7,
In the space portion of the guide groove and the filled steel pipe of the main body,
Wherein the mortar is introduced through the first mortar injection hole of the main plate and the second mortar injection hole of the end plate to integrate the same. The method according to claim 6,
The vertical reinforcing bars of the filled steel pipe,
And vertically penetrating the pier capping unit module to fix the pier table. A modular bridge pier installation method using a modular bridge pier table,
A first step of sequentially installing the pier foundation unit unit module and the pier corner post unit module and installing the uppermost pier corner post unit module;
A second step of lifting the main body and inserting the end plate formed in the filled steel pipe into the guide groove formed in the main body to mount the main body on the support plate formed outside the upper end of the filled steel pipe;
A third step of fastening the end plate of the filled steel pipe with a bolt to fix the connecting member formed in the main body and the filled steel pipe when the mounting is completed;
A fourth step of filling the mortar with the guide groove of the main body, the space formed in the filled steel pipe, and the sheath pipe formed in the main body in the direction of the bolt extension and having the reinforcing bars inserted therein; And
When the mortar curing is completed, a vertical pillar formed on the filled steel pipe is passed through the pillar coping unit module and is fixed on the upper surface of the pillar coping unit module. And a fifth step of placing the installed reinforcing bars in the reinforcement grooves of the connecting member installed in the main body and then filling and integrating the molten metal with the reinforcing bars.

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