KR101527471B1 - Precast buit-up pier structure and construction method using the same - Google Patents

Abstract

According to the present invention, an adjustment end block 300 is installed at a predetermined distance from the base pile 100 and has a precast bridge piercing segment 200 stacked thereon, And a support frame (400) supporting the support frame (400) at a predetermined distance from the support frame (100).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a precast pier construction,

The present invention relates to a civil engineering field, and more particularly, to a precast bridge pillar construction method for constructing a precast pier bridge, And a method of constructing a cast pier.

The piers supporting the bridge are mainly formed of concrete structures. As the urban environment becomes more complicated, more and more bridges are being constructed for the purpose of effective distribution of traffic volume in urban areas. Conventionally, in the construction of a bridge in a city center, a form made of a slip form of a steel material is installed, a reinforcing bar is placed inside the concrete, a slip form is moved upward while a concrete is placed at a predetermined height interval from the ground surface, In order to increase the value.

However, in the conventional construction method, since the height of the pier can be raised only after the curing of the concrete poured at a predetermined height is completed, it takes a long time to construct the bridge and the problem of traffic congestion and traffic inconvenience .

In order to solve the above-mentioned problems, a method has been proposed in which precast bridge segments fabricated at a factory are transported to a site of a bridge installation and laminated and assembled to construct a bridge bridge.

As shown in FIG. 1, the conventional method of precast bridge pier construction is such that after the precast bridge pier segment 3 having the hole 4 into which the reinforcing bars 2 are inserted is laminated on the enlarged foundation 1, There has been proposed a method of inserting a reinforcing bar 2 and filling a hole 4 in which reinforcing bars 2 are inserted with a grouting material to form a bridge pier.

However, since the above-described conventional method of precast pier bridge construction has a structure for laminating the precast pier segment 3 on the enlarged foundation 1, the formation of the enlarged foundation 1 is indispensable for the formation of the precast bridge pier .

Therefore, there has been a problem in that it is difficult to apply a precast bridge pier construction method to a bridge pier having a single foundation pile formed in situ without forming an enlarged foundation 1.

This is attributed to the fact that a single foundation pile installed in the field can not necessarily produce a construction error in the position and the vertical degree, and the finish surface of the upper part of the single foundation pile is also uneven and it is impossible to laminate the precast pier segment immediately .

It is an object of the present invention to provide a precast pier bridge construction method capable of constructing a precast pier bridge without forming a pier foundation, .

Another object of the present invention is to provide a pre-cast pierched-angle adjustment stage structure which can easily adjust the position and verticality of the precast pierced segment stacked on top of the foundation pile.

Another object of the present invention is to provide a method of constructing a precast bridge pier using a pre-cast bridge pier adjustment stage capable of easily adjusting the position and verticality of a precast pierce segment stacked on top of a foundation pile .

According to an aspect of the present invention, there is provided an adjustment stage block 300, which is installed at a predetermined distance from an upper portion of a foundation pile 100 and on which a precast bridge pillar segment 200 is stacked, And a support frame (400) for supporting the base pile (100) at a predetermined distance from the foundation pile (100).

The connection pillar 500 formed in a field installation manner between the foundation pile 100 and the adjustment stage block 300 and the connection pillar 500 for forming the connection pillar 500 are formed in the same manner as the foundation pile 100, And a side mold 600 that closes the space between the blocks 300. The pre-cast pier may be a pre-

The apparatus may further include a first reinforcing bar insertion hole 310 formed to penetrate through the adjusting end block 300 so that the reinforcing bar 110 protruding from the base pile 100 can be inserted. It may be an adjustment stage structure of precast pier.

The first reinforcing bar insertion hole 310 has a diameter at least five times the diameter of the reinforcing bar 110 so that the plurality of reinforcing bars 110 can be inserted. / RTI >

In order to insert a filling material for forming the connecting pillar 500 into the space between the foundation pile 100 and the control end block 300, And a hole (320).

The first reinforcing steel insertion holes 310 are formed along the circumference of the control end block 300 and the filler insertion holes 320 are formed in the plurality of first reinforcing steel insertion holes 310 The pre-cast pier may be formed on the inner side of the pre-cast pier.

A second reinforcing bar insertion hole 210 formed through the precast bridge piercing segment 200 to allow the reinforcing bar 110 to be inserted therein and a second reinforcing bar insertion hole 210 formed through the precast piercing segment 200 to reduce the weight of the precast piercing segment 200. [ And a weight reduction hole (220) formed in the core of the precast bridge segment (200).

The support frame 400 includes a lower frame 410 coupled with the foundation pile 100, an upper frame 420 coupled with the adjustment end block 300, And an adjustment unit 430 coupled to the frame 420 and capable of adjusting the position and the verticality of the adjustment stage block 300. [ have.

The adjusting unit 430 includes a first adjusting unit 431 vertically coupled to the lower frame 410 and the upper frame 420 and a second adjusting unit 432 vertically coupled to the lower frame 410 and the upper frame 420, And a second adjusting portion 432 coupled to the first and second adjusting portions 432 and 434 so as to form an angle.

The adjusting unit 430 includes an upper connecting member 434 coupled with the upper frame 420, a lower connecting member 435 coupled with the lower frame 410, And an adjusting member main body 433 screwed with the lower connecting member 435. The direction of the first screw thread 437 for screw connection between the upper connecting member 434 and the adjusting main body 433, And the second screw thread 438 for screw connection between the connecting member 435 and the adjustment body 433 are formed in opposite directions to each other.

Further, it may further comprise a rotation bar 436 protruding from the adjustment unit main body 433.

According to another aspect of the present invention, there is provided a method of constructing a precast pier, comprising the steps of: forming a foundation pile 100 at a first step S100; A third step S300 of placing a filler between the foundation pile 100 and the adjustment end block 300 to form a connection pillar 500, And a fourth step (S400) of stacking the precast bridge segment (200) on top of the short block (300).

The second step S200 includes a step S210 of coupling the support frame 400 to the foundation pile 100 and a step of coupling the support frame 400 to the adjustment end block 300 Wherein the support frame 400 includes a lower frame 410 coupled with the foundation pile 100, an upper frame 420 coupled with the adjustment end block 300, And an adjusting unit 430 coupled to the upper frame 420 and capable of adjusting the position and verticality of the adjusting end block 300. The pre- Lt; / RTI >

The step of adjusting the verticality (S215) further comprises a step (S215) of adjusting the position and the verticality of the adjustment end block (300) by stretching the length of the adjustment unit (430) (S220) of joining the support frame (400) to the block (300).

The adjusting unit 430 includes a first adjusting unit 431 vertically coupled to the lower frame 410 and the upper frame 420 and a second adjusting unit 432 vertically coupled to the lower frame 410 and the upper frame 420, And adjusting the vertical angle of the adjustment end block 300 by adjusting the horizontal angle of the adjustment end block 300 using the first adjustment unit 431 (S215b) of adjusting the position of the adjustment end block (300) by using the second adjustment unit (432) in the step (S215a).

The adjustment end block 300 includes a first rebar insertion hole 310 formed through the adjustment end block 300 so that the reinforcing bar 110 protruding from the base pile 100 can be inserted, Wherein the precast bridge segment 200 includes a second rebar insertion hole 210 formed through the precast bridge piercing segment 200 to allow the rebar 110 to be inserted therethrough, The pre-cast pier may be a method of constructing a pre-cast pier.

The first reinforcing steel insert hole 310 and the second reinforcing steel insert hole 210 may be formed to have a diameter equal to or greater than 5 times the diameter of the reinforcing steel bar 110 so that the plurality of reinforcing steel bars 110 can be inserted. And a diameter of the pre-cast pier bridge.

The reinforcing bar 110 is inserted into the first reinforcing steel insert hole 310 and the second reinforcing steel insert hole 210 by a mechanical joining or lap joining method. As shown in Fig.

The third step S300 may include closing a space between the foundation pile 100 and the adjustment end block 300 with a side mold 600 S310, (S320) filling the filler through a filler insert hole (320) formed through the adjuster block (300) in a space between the adjuster block (300) Lt; / RTI >

The upper frame 420 includes a coupling member 421 coupled to the adjustment member 430, a mounting member 423 coupled to the adjustment end block 300, A supporting member 422 having a mounting space in which the mounting member 423 can be mounted and a coupling means 424 for coupling the mounting member 423 and the supporting member 422, The step S220 of joining the support frame 400 to the short block 300 may include a step S221 of coupling the engagement member 421 to the adjustment unit 430, (S223); placing the receiving member 422 and the mounting member 423 in a state where the receiving member 422 is mounted on the supporting member 422; (S224) using the joining means (424). ≪ RTI ID = 0.0 > [0040] < / RTI >

According to the present invention, it is possible to construct a precast bridge pier without forming a pier foundation.

According to the present invention, it is possible to easily adjust the position and the verticality of the precast bridge segment stacked on the base pile.

According to the present invention, there is an effect that the construction period of the precast bridge pier can be shortened and the construction ratio can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a conventional method of constructing a precast pier. Fig.
2 is a diagram showing an adjustment stage structure of a pier in accordance with an embodiment of the present invention;
Figure 3 is a plan view of an adjustment stage structure of a pier in accordance with one embodiment of the present invention;
Figure 4 illustrates a precast bridge segment according to one embodiment of the present invention.
5 is a side view of a support frame according to an embodiment of the present invention.
6 is a diagram illustrating an adjustment unit according to an embodiment of the present invention;
7 is a front view of a support frame according to an embodiment of the present invention;
8 is a view showing a construction method of a pier using an adjustment stage structure of a precast pier bridge according to an embodiment of the present invention.

An embodiment of an adjustment stage structure of precast bridge piers according to the present invention and a method of constructing precast bridge piers using the same will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding components Elements are denoted by the same reference numerals, and redundant description thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

The conventional method of precast pier construction is not easy to match the verticality of the precast pierce segment 3 stacked on the top surface of the pier foundation 1, thereby impairing the structural safety of the bridge and increasing the construction time of the bridge (Fig. 1).

In addition, in order to construct the precast bridge pier, it is necessary to form the bridge pier foundation 1, which increases the cost of the precast bridge pier construction and prolongs the construction period.

The present invention has been developed in order to overcome the problems existing in the method of constructing such a conventional precast pier bridge. The present invention relates to a pre-cast pier bridge adjustment stage in accordance with an embodiment of the present invention, And an adjustment stage block 300 in which the precast bridge pillar segments 200 are stacked on the upper portion and a support stage block 300 for supporting the adjustment stage block 300 in a state spaced apart from the foundation pile 100 by a predetermined distance, (Fig. 2).

That is, in the construction of the conventional precast bridges, the construction of the pier foundation 1 is formed on the foundation pile and the precast bridge pierse segment 3 is stacked on the pier foundation 1 (FIG. 1) In the embodiment of the present invention, since the precast segment 3 is directly laminated on the foundation pile 100 without forming the bridge pier foundation, the effect that the formation of the bridge pier foundation is not essential have.

However, in order to stack the precast piercing segment 200 on the foundation pile 100, it is further required to align the top of the foundation pile 100. When the foundation pile 100 is not vertically formed, There is a problem that the precast bridge pillar segments 200 stacked on the upper part can not be stacked vertically and the structural safety of the entire bridge is deteriorated.

In order to solve such a problem, the pre-cast pier control stage according to an embodiment of the present invention is not a structure in which the precast pierce segment 200 is directly laminated on the base pile 100, The adjustment stage block 300 is installed at a predetermined distance from the support frame 400 and the position and the verticality of the adjustment stage block 300 are adjusted by adjusting the support frame 400 And the precast bridge piercing segment 200 is laminated on top of the tuning block 300.

When such a configuration is adopted, there is an effect that it is possible to easily adjust the position and the vertical degree of the precast bridge pillar segment 200 stacked on the upper part by adjusting the position and the verticality of the adjustment block 300. [

In addition, since the precast piercing segment 200 is not directly stacked on the upper surface of the foundation pile 100, it is not required to provide a precise head arrangement for the upper surface of the foundation pile 100, Can be shortened and the construction cost can be reduced.

It is desirable that the length of the adjustment block 300 is shorter than the length of the precast bridge segment 200 for ease of bridge construction.

The support frame 400 is configured to support the adjustment stage block 300 at a predetermined distance from the top of the foundation pile 100 and to adjust the verticality of the adjustment stage block 300. To this end, The support frame 400 of the pre-cast pierched bridge structure according to an embodiment of the present invention includes a lower frame 410 coupled with the foundation pile 100, an upper frame 420 coupled with the adjustment stage block 300, (FIG. 5), which is coupled to the lower frame 410 and the upper frame 420 and is adjustable in length so as to adjust the position and the verticality of the control end block 300 (FIG. 5).

Here, the adjusting unit 430 includes an upper connecting member 434 coupled with the upper frame 420, a lower connecting member 435 coupled with the lower frame 410, an upper connecting member 434 and a lower connecting member 435, And an adjustment body 433 threadedly coupled to the main body 431 (FIG. 5).

The adjusting member main body 433 is provided with a first screw thread 437 for screw connection of the upper connecting member 434 and the adjusting member main body 433 and a second screw thread 434 for screwing the lower connecting member 435 and the adjusting main body 433 A second threaded line 438 may be provided. Here, it is preferable that the directions of the first thread line 437 and the second thread line 438 are opposite to each other.

When the adjustment member main body 433 is rotated in such a configuration, the coupling length in which the upper coupling member 434 and the lower coupling member 435, which are threadedly coupled to the adjustment unit main body 433, . Therefore, the entire length of the adjustment unit 430 can be expanded or contracted according to the rotation of the adjustment unit main body 433, and the adjustment of the position and verticality of the adjustment stage block 300 by the adjustment unit 430 is possible.

Specifically, when the entire length of the adjustment unit 430 is increased, a portion where the upper frame 420 and the adjustment end block 300 are positioned is moved upward, and when the total length of the adjustment unit 430 is reduced, 420 and the adjustment end block 300 are moved to the lower side, so that the position and the vertical degree can be adjusted through the movement of the upper and lower positions of the adjustment end block 300.

The pre-cast bridge pillar alignment stage structure according to an embodiment of the present invention may further include a rotation bar 436 protruding from the adjustment body 433 (FIG. 5).

When this configuration is taken, the constructor can easily rotate the adjustment unit main body 433 in order to expand and contract the length of the adjustment unit 430.

The adjustment unit 430 of the pre-cast bridge pillar alignment structure according to an embodiment of the present invention includes a first adjustment unit 431 vertically coupled to the lower frame 410 and the upper frame 420, And a second adjustment portion 432 coupled with the upper frame 420 to form an angle with respect to the upper frame 420 (FIG. 5).

The length of the first adjustment portion 431 can be adjusted by adjusting the vertical position of the adjustment stage block 300 and the length of the second adjustment portion 432 can be adjusted by adjusting the length of the adjustment stage block 300, It is possible to adjust the position in the left and right direction.

The pre-cast pierched bridge structure according to an embodiment of the present invention is configured such that a reinforcing bar 110 protruding from a foundation pile 100 is inserted, An insertion hole 310 may be formed (FIG. 4).

The first reinforcing bar insertion hole 310 preferably has a diameter at least five times the diameter of the reinforcing bar 110 so that a plurality of reinforcing bars 110 can be inserted. Here, the first reinforcing bar insertion hole 310 may have various shapes such as arc, trapezoid, and circle (FIG. 4).

With this configuration, it is easy to insert the reinforcing bar 110 into the first reinforcing steel bar insertion hole 310 when stacking the precast piercing segment 200, so that the ease of construction can be secured .

The pre-cast bridge pillar alignment structure according to an embodiment of the present invention is configured such that a filler for forming the connection pillar 500 can be inserted into the space between the foundation pile 100 and the control stage block 300 A filler insert hole 320 formed through the block 300 (FIG. 4).

Specifically, a hose may be inserted into the filler insert hole 320 to perform pressurization and filling.

When this configuration is taken, it is easy to insert the filler into the space between the foundation pile 100 and the adjustment end block 300. The filler may be a grouting material such as mortar, concrete or the like.

The first reinforcing steel insert hole 310 may be formed along the circumference of the control end block 300. In this case, the filler insert hole 320 may be formed in a plurality of first reinforcing steel insert holes 310 Is preferable in terms of structural stability and workability (Fig. 4).

The pre-cast bridge pillar alignment structure according to an embodiment of the present invention includes a second reinforcing bar insertion hole 210 formed through the precast piercing segment 200 so that the reinforcing bar 110 can be inserted, Weight reduction hole 220 formed in the deep portion of the precast bridge segment 200 to reduce the weight of the bridge segment 200.

The second reinforcing bar insertion hole 210 preferably has a diameter at least five times the diameter of the reinforcing bar 110 so that a plurality of reinforcing bars 110 can be inserted. Here, the shape of the second reinforcing bar insertion hole 310 may have various shapes such as arc, trapezoid, and circular.

The self weight reduction hole 220 serves to reduce the weight of the precast bridge pillar 200 so as to facilitate the movement and construction of the precast bridge pillar segment 200.

A method of constructing a precast bridge pier using the pre-cast pier cross-section structure according to an embodiment of the present invention will be described below.

A method of constructing a precast bridge pier using an adjusting stage structure of precast pier angles according to an embodiment of the present invention includes a first step S100 of forming a base pile 100, A third step S300 of forming a connecting column 500 by placing a filler between the foundation pile 100 and the adjustment stage block 300 in a second step S200 of setting the adjustment stage block 300 spaced apart from each other, And a fourth step S400 of stacking the precast bridge segment 200 above the tuning end block 300 (Fig. 8).

The second step S200 includes a step S210 of coupling the support frame 400 to the foundation pile 100, a step S220 coupling the support frame 400 to the adjustment stage block 300, And adjusting the position and the verticality of the adjustment end block 300 (S215).

The step S220 of joining the support frame 400 to the adjustment end block 300 may include a step S221 of joining the joining member 421 to the adjustment member 430, A step S223 of mounting the mounting member 423 on the supporting member 422 and a step S223 of coupling the supporting member 422 and the mounting member 423 to the mounting member 300 using the combining means 424 (S224). ≪ / RTI >

It is preferable that the step S215 of adjusting the position and the verticality is performed after the step S220 of joining the support frame 400 to the adjustment end block 300 from the viewpoint of accuracy of position and vertical adjustment.

Concretely, the step S215 of adjusting the position and the vertical degree is performed by using the first adjustment unit 431 to adjust the horizontal angle of the adjustment stage block 300 (S215a), the second adjustment unit 432 And adjusting the position of the adjustment end block 300 (S215b).

The adjustment end block 300 includes a first rebar insertion hole 310 formed through the adjustment end block 300 so that the rebar 110 protruding from the base pile 100 can be inserted The precast bridge segment 200 includes a second rebar insertion hole 210 formed through the precast bridge piercing segment 200 so that the rebar 110 can be inserted.

The first reinforcing bar insertion hole 310 and the second reinforcing bar insertion hole 210 are filled with the filling material after the reinforcing bar 110 is inserted.

The first reinforcing bar insertion hole 310 and the second reinforcing bar insertion hole 210 preferably have a diameter at least five times the diameter of the reinforcing bar 110 so that a plurality of reinforcing bars 110 can be inserted. Here, the first reinforcing bar insertion hole 310 and the second reinforcing bar insertion hole 210 may have various shapes such as arc, trapezoid, and circle.

The reinforcing bar 110 is preferably inserted in the first reinforcing bar insertion hole 310 and the second reinforcing bar insertion hole 210 by extending in a mechanical joint or a folding manner.

Specifically, the reinforcing bar 110 can be extended using the coupler 120. [ In this case, a male thread line 111 for coupling the coupler 120 may be formed at both ends of the reinforcing bar 110. The coupler 120 includes a through hole 121 formed in the core portion, It is preferable that a number of the reinforcing bars 110 or a female thread 122 for inserting the spiral 111 is formed.

Further, the diameter of the coupler 120 is preferably set to a minimum diameter that can form the through hole 121.

When the filler is filled in the first reinforcing steel bar insertion hole 310 and the second reinforcing steel bar insertion hole 210, a space through which the filler can pass through the coupler 120 can be maximally secured , And the effect that the filler can easily move to the lower portion.

The third step S300 is a step S310 of closing the space between the foundation pile 100 and the adjustment stage block 300 with the side formwork 600 and the step S310 between the foundation pile 100 and the adjustment stage block 300 (S320) filling the filler through the filler insert hole (320) formed through the adjustment end block (300) in the space of the control end block (300).

The side mold 600 is preferably a reusable steel material and may be removed after the curing of the filler is complete.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: foundation pile
200: Precast Pier Segment
300: Adjustment stage block
400: support frame
500: Connection pillar
600: side mold

Claims (20)

An adjusting end block 300 spaced apart from the base pile 100 by a predetermined distance and having a precast piercing segment 200 stacked thereon; And
And a support frame (400) for supporting the adjustment stage block (300) in a state of being spaced apart from the foundation pile (100) by a predetermined distance,
The support frame (400)
A lower frame 410 coupled with the foundation pile 100;
An upper frame 420 coupled with the adjustment end block 300; And
And an adjusting unit 430 coupled to the lower frame 410 and the upper frame 420 and capable of adjusting the position and the vertical degree of the adjusting end block 300. [ Of the precast pier.
The method according to claim 1,
A connection pillar 500 formed between the foundation pile 100 and the adjustment end block 300 in a field installation manner; And
A side mold 600 closing the space between the foundation pile 100 and the adjustment end block 300 to form the connecting pillar 500;
Further comprising a pre-cast pierched bridge structure.
3. The method according to claim 1 or 2,
A first rebar insertion hole 310 formed through the adjustment end block 300 so that the reinforcing bar 110 projected from the foundation pile 100 can be inserted;
Further comprising a pre-cast pierched bridge structure.
The method of claim 3,
The first reinforcing steel bar insertion hole 310 is formed in the first reinforcing bar insertion hole 310,
Has a diameter at least five times the diameter of the reinforcing bar (110) so that a plurality of the reinforcing bars (110) can be inserted.
5. The method of claim 4,
A filler insert hole (not shown) formed through the adjustment end block 300 so as to insert a filler for forming the connection column 500 into a space between the base pile 100 and the adjustment end block 300, 320);
Further comprising a pre-cast pierched bridge structure.
6. The method of claim 5,
The first reinforcing steel insert holes 310 are formed in plural along the circumference of the adjusting end block 300,
And the filler insert hole (320) is formed inside the plurality of first reinforcing steel insert holes (310).
The method according to claim 6,
A second reinforcing bar insertion hole 210 formed through the precast bridge piercing segment 200 so that the reinforcing bar 110 can be inserted; And
A weight reduction hole (220) formed in a deep portion of the precast bridge pillar segment (200) to reduce the weight of the precast bridge pillar segment (200)
Further comprising a pre-cast pierched bridge structure.
delete 3. The method according to claim 1 or 2,
The adjusting unit 430,
A first adjustment portion 431 vertically coupled to the lower frame 410 and the upper frame 420; And
A second adjusting unit 432 coupled with the lower frame 410 and the upper frame 420 at a predetermined angle,
Wherein the pre-cast bridge pillar has an adjustment stage structure.
3. The method according to claim 1 or 2,
The adjusting unit 430,
An upper connecting member 434 coupled with the upper frame 420;
A lower connecting member 435 coupled with the lower frame 410; And
And an adjusting unit main body 433 screwed with the upper connecting member 434 and the lower connecting member 435,
The first screw thread 437 for screw connection between the upper linking member 434 and the adjuster main body 433 and the second screw 437 for screw connection between the lower linking member 435 and the adjuster main body 433, And the threaded lines (438) are formed in opposite directions to each other.
10. The method of claim 9,
A rotation rod 436 protruding from the adjustment body 433;
Further comprising a pre-cast pierched bridge structure.
A method of constructing a precast bridge pier,
A first step S100 of forming a foundation pile 100;
A second step (S200) of installing an adjusting end block (300) at a predetermined interval on the base pile (100);
A third step (S300) of forming a connecting pillar (500) by pouring a filler between the base pile (100) and the adjusting end block (300); And
And a fourth step (S400) of stacking the precast bridge pierce segments (200) above the tuning end block (300)
In the second step S200,
Coupling the support frame 400 to the foundation pile 100 (S210); And
(S220) coupling the support frame (400) to the adjustment end block (300)
The support frame (400)
A lower frame 410 coupled with the foundation pile 100;
An upper frame 420 coupled with the adjustment end block 300; And
An adjusting unit 430 coupled to the lower frame 410 and the upper frame 420 and capable of adjusting the position and the vertical degree of the adjusting end block 300,
≪ RTI ID = 0.0 > 11. < / RTI >
delete 13. The method of claim 12,
(S215) of adjusting the position and the verticality of the adjustment end block (300) by expanding and contracting the length of the adjustment portion (430)
The step S215 of adjusting the position and the vertical degree is performed after the step S220 of joining the support frame 400 to the adjustment end block 300. [ .
15. The method of claim 14,
The adjusting unit 430,
A first adjustment portion 431 vertically coupled to the lower frame 410 and the upper frame 420; And
A second adjusting unit 432 coupled with the lower frame 410 and the upper frame 420 at a predetermined angle,
≪ / RTI &
The step of adjusting the verticality (S215)
Adjusting the horizontal angle of the adjustment end block 300 using the first adjustment unit 431 (S215a); And
Adjusting the position of the adjustment end block 300 using the second adjustment unit 432 (S215b);
≪ RTI ID = 0.0 > 11. < / RTI >
13. The method of claim 12,
The adjustment end block 300 includes a first rebar insertion hole 310 formed through the adjustment end block 300 so that the rebar 110 protruding from the base pile 100 can be inserted In addition,
The precast bridge segment 200 includes a second rebar insertion hole 210 formed through the precast bridge segment 200 to allow the rebar 110 to be inserted therethrough. A method of constructing a precast pier.
17. The method of claim 16,
The first reinforcing steel insert hole 310 and the second reinforcing steel insert hole 210 may have a diameter equal to or greater than five times the diameter of the reinforcing steel bar 110 so that a plurality of the reinforcing bars 110 may be inserted. Wherein the pre-cast pier is provided with a pre-cast pier.
18. The method of claim 17,
The reinforcing bar 110 is inserted in the first reinforcing steel insert hole 310 and the second reinforcing steel insert hole 210 by mechanical joining or lap jointing. How to.
13. The method of claim 12,
In the third step S300,
Closing a space between the foundation pile 100 and the adjustment end block 300 with a side mold 600; And
(S320) filling the filler through the filler insert hole (320) formed through the adjustment end block (300) in a space between the base pile (100) and the adjustment end block (300)
≪ RTI ID = 0.0 > 11. < / RTI >
13. The method of claim 12,
The upper frame (420)
A coupling member 421 coupled to the adjustment unit 430;
A mounting member (423) coupled to the adjusting end block (300);
A supporting member 422 formed on the coupling member 421 and having a mounting space in which the mounting member 423 can be mounted; And
And engaging means (424) for engaging the receiving member (422) with the receiving member (423)
The step S220 of joining the support frame 400 to the adjustment stage block 300 includes:
Coupling the coupling member 421 to the adjustment unit 430 (S221);
Coupling the mounting member 423 to the adjusting end block 300 (S222);
(S223) mounting the mounting member (423) on the support member (422); And
(S224) coupling the receiving member 422 and the mounting member 423 using the coupling means 424;
≪ RTI ID = 0.0 > 11. < / RTI >

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