KR20150058748A - Self assembly pillar for pier and construction method thereof - Google Patents

Abstract

The present invention comprises a base block, which is installed at the ground and has an upper end having a column main reinforcing bar protruding therefrom; a plurality of column blocks, which are stacked on the base block, have a hollow-shaft shape to allow concrete to be injected therein, and have the column main reinforcing bar protruding from each upper end and each lower end thereof; a coping part formed longitudinally in a transverse direction, wherein coping, column main reinforcing bars protrude from a lower end of the coping part to allow the coping part to be installed at an upper end of the column block, coping part main reinforcing bars and coping shearing bars covering the coping part main reinforcing bar are installed, and concrete is placed to form a bottom surface of a form; and connecting parts which are included at an upper end of the base block, upper and lower ends of the column block, and a lower end of the coping part and connect the column block or the coping part to be placed in an accurate position of the base block or the column block.

Description

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

The present invention relates to a prefabricated pier and a method of constructing the same. More specifically, the present invention relates to a prefabricated pillar block and a coping portion that can be assembled in the field in advance and can be rigidly assembled into a column block and a coping portion. And a method of constructing the same.

Generally, the upper concrete structure of the pier at the time of construction of the elevated road or the long bridge forms the foundation base of the pier on the ground, and on this foundation base, one pillar of T-shape or two pillar of π- And an upper reinforced concrete structure is formed on the upper part of the column.

In order to form the upper concrete structure, a coping form system (hereinafter referred to simply as a coping foam system) composed of an assembly of steel form members is installed at the upper end of the pillar of the pier by making it under the pier.

Here, the steel form member refers to a member formed of a steel or a steel material such as metal, and a plurality of steel form members are formed of various types of panels such as a square.

Accordingly, a plurality of steel form members can be assembled to form a lower portion, an inclined surface, and front, rear, left and right side portions.

Then, after the rebar working inside the coping foam system, the concrete is put into place by using the concrete concrete installation method which completes the upper reinforced concrete structure through the concrete pouring and curing process.

In order to form the upper concrete structure of the piers, first, the foundation base and the column parts of the piers are sequentially placed and cured after the concrete is poured into the upper concrete form using the steel form member to form the upper concrete structure. .

At this time, a railing construction for installing a balustrade, a support, a fall prevention net, a scaffold for work, a fence and the like is simultaneously performed.

The coping system manufactured by the steel formwork according to the shape of the pier upper concrete structure is fixed to the upper part of the pier of the pier using a crane such as a crane.

Then, a reinforcing bar is installed on the reinforcing bars according to the shape of the upper concrete structure so that the reinforcing bars can be integrally connected from the columns inside the fixedly installed coping foam system.

After installing the reinforcing bars to form the upper concrete structure of the piers, the concrete should be laid in the coping foam system and cured, and then the coping foam system should be dismantled.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-0809886 (published on Mar. 6, 2008, entitled " Pier Coring Foam System "

Generally, a pier of a pier forms an upper concrete structure after piercing and pouring concrete sequentially on a foundation base and a pier portion of the pier, so that it is difficult to reduce the time required for constructing the pier.

Also, in the method of assembling a pillar block by assembling blocks previously manufactured by the prior art, it is difficult to firmly assemble the connection portion between the blocks, so that it is difficult to ensure the safety of the pillar columns.

Therefore, there is a need for improvement.

An object of the present invention is to provide a prefabricated pillar block and a coping part that are assembled in the field in advance and can assemble the column block and the coping part firmly, and a method of constructing the same.

The present invention provides a base block comprising: a base block installed on a ground surface and having a base portion columnar root projected at an upper end; A column block having a hollow shaft shape in which a plurality of blocks are stacked in the base block to inject concrete, and a columnar casting bar is projected at an upper end portion and a lower end portion; And a coping shear reinforcing bar surrounding the coping root and the coping shear reinforcement is installed at the lower end of the column block so as to be installed at the upper end of the column block, Ping section; And a connecting portion provided at an upper end of the base block, an upper end portion and a lower end portion of the column block, and a lower end portion of the coping portion, the column block or the coping portion being seated at the correct position of the base block or the column block .

In addition, the base steel column main rods of the present invention are connected to the column main steel bars by a coupler, and the column main steel bars are connected to the column main bars or the copping column main bars by a coupler.

Further, the connecting portion of the present invention includes: a seating rib projecting from an upper end of the base block or the column block and having a seating groove; And a connecting rib protruding from a lower end of the column block or a lower end of the coping portion so as to be seated on the seating rib, the seating protrusion being seated in the seating groove.

Further, the seating rib of the present invention is protruded inward from the inner wall of the base block or the column block, and the connecting rib is protruded inward from the inner wall of the column block or the coping portion, And the rib and the connecting rib are integrally connected to each other.

The reinforcing bars in the column blocks are connected to the seating ribs or the connecting ribs of the column blocks of the present invention. The reinforcing bars are orthogonal to the column main bars and extend inwardly of the column blocks. And the reinforcing bars are connected by a coupler.

The seating rib may protrude inward from an inner wall of an upper end of the base block or the column block, and the connecting rib may protrude inward from an inner wall of a lower end of the column block or the coping portion, And the seating rib and the connecting rib are separated from each other.

Further, the connecting piece is coupled to the inner wall or the outer wall of the connecting part of the present invention by a fastening member.

In addition, the circular mold is installed at the connecting portion between the base block and the column block, the connecting portion between the column block and the column block, or the connecting portion between the column block and the coping portion. do.

Further, the connecting portion of the present invention may have a seating rib formed at the same height as an upper end of the base block or the column block, and having a seating groove portion; And a connecting rib protruding from a lower end of the column block or a lower end of the coping portion so as to be seated on the seating rib, the seating protrusion being seated in the seating groove.

Further, the connecting portion of the present invention may include a seating rib formed on an inner wall of an upper end of the base block or the column block, the seating rib being formed lower than the upper end of the base block or the column block; And a connecting rib projecting from a lower end of the column block or a lower end of the coping portion to be seated on the seating rib.

Further, the connecting portion of the present invention may include: a seating rib protruding from an upper end of the base block or the column block; And a connecting rib formed at the lower end of the column block or the inner wall of the lower end of the coping portion to be seated on the seating rib and formed to be higher than the lower end of the column block or the lower end of the coping portion.

Further, the present invention is characterized in that: (a) a groove is formed by excavating the paper surface, a base casting root and a base casting steel root are provided in the base casting after the base casting is provided in the groove, and a plurality of seating ribs Injecting and curing the concrete into the foundation mold to construct a base block; (b) a column block previously formed so that the seating rib is formed at an upper end portion and a connecting rib is formed at a lower end portion is seated on an upper portion of the base block, a base rod column main shaft and a column main shaft rod are connected to each other by a coupler, And connecting the connecting block to the connecting rib, and inserting the circular mold to enclose the connecting part, and connecting the column block by injecting and curing concrete. (c) installing a column block by injecting and curing concrete into the column block; (d) a coping portion previously formed to form a connecting rib at the lower end portion is seated on an upper end of the pillar block, and the pillar and the copping pillar are connected to each other by the coupler, Installing the connecting piece on the connecting rib, installing the circular mold to surround the connecting part, injecting and curing concrete, and connecting the coping part; (e) providing a coping form on a side surface of the coping part, and injecting and curing concrete in the coping formwork to install the coping part.

Since the pillar according to the present invention can be seated at the precise position of the pillar block or the pillar block by the connection part provided between the base block, the pillar block or the coping part, the pillar block or the pillar block There is an advantage that the connecting portion between the coping portions can be firmly assembled.

In addition, the method of constructing a bridge pillar according to the present invention can reduce a construction time required in the field by assembling a previously manufactured pillar block or a coping part to construct a bridge pillar, So that the safety of the pillar column can be secured.

1 is a cross-sectional view of a pier column according to a first embodiment of the present invention.
2 is a cross-sectional view illustrating a pillar block of a pier of a pier according to a first embodiment of the present invention.
3 is a cross-sectional view of a coping portion of a pier of a pillar according to a first embodiment of the present invention.
4 is a view showing a construction method of a pier column according to a first embodiment of the present invention.
5 is a cross-sectional view of a pier column according to a second embodiment of the present invention.
6 is a cross-sectional view of a pier column according to a third embodiment of the present invention.
FIG. 7 is a cross-sectional view illustrating a bridge pillar according to a fourth embodiment of the present invention.
FIG. 8 is a cross-sectional view illustrating a pillar block of a pier of a pillar according to a fifth embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, one embodiment of a prefabricated pier and a method of constructing the same according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is a cross-sectional view illustrating a pillar block of a pier of a pillar according to a first embodiment of the present invention. FIG. 3 is a cross-sectional view of the pillar of the pillar according to the first embodiment of the present invention. 1 is a cross-sectional view illustrating a coping portion of a pierce column according to an embodiment.

1 to 3, a pier pillar according to an embodiment of the present invention includes a base block 10 provided on the ground and having a base portion pillar 12, A pillar block 30 having a hollow shaft shape in which a plurality of pillar blocks 30 are stacked on the upper surface of the pillar block 30 so as to be filled with concrete, And a coping shear reinforcing bar 54 surrounding the coping main shaft 52 and the coping shear reinforcement 52 is installed and the concrete is poured to form a coping portion 50 and the column block 30 or the coping portion 50 are provided at the upper end of the base block 10 and at the upper and lower ends of the column block 30 and the lower end of the coping portion 50, Or in a precise position of the pillar block (30) And a 70.

When the bridge pillar is to be installed, the ground surface is excavated to form a groove, and a mold for molding the base block 10 is provided in the groove. Then, the base column post 12 and the foundation base 14 are installed in the mold And the concrete is injected into the mold and cured to install the base block 10.

The seating ribs 72 protrude from the upper end of the base block 10 and the previously prepared column block 30 is seated on the upper end of the base block 10 when the base block 10 is installed.

The column block 30 is seated on the upper end of the base block 10 so that the connecting rib 74 protruding from the lower end of the column block 30 is seated on the seating rib 72 of the base block 10.

The base block column 12 and the column base block 32 are connected by the coupler 16 and the circular block 38 is installed on the connection block 70 exposed to the outside of the column block 30 and the base block 10 And concrete is injected into the circular mold 38 to cure the connection portion between the column block 30 and the base block 10 so as to be wrapped by the concrete.

Thereafter, the concrete is injected into the column block 30 and cured to complete the installation of the column block 30.

At the upper end of the column block 30, the other column blocks 30 are connected by the above-described connection method to form a column in which a plurality of column blocks 30 are stacked.

When the column block 30 is completely installed, the support block 58 is installed on the upper end of the column block 30, and then the coupling ribs 74 are formed on the upper surface of the support block 58, (50) is mounted on the support base (58) so as to be seated on the upper end of the base (30).

The coping portion 50 is formed by injecting and curing the concrete into the mold so that the lower ends of the reinforcing bars are fixed after the copping post 55, the coping 55, and the coping 55, 50 are manufactured, and the coping base steel bars 52 and the coping shear reinforcing bars 54 are formed so as to protrude above the bottom surface.

At this time, the lower end of the central portion of the coping portion is provided so as to protrude in the downward direction.

The coping part 50 manufactured by the above method is connected to the upper end of the pillar block 30 by the same method and the coping formwork 56 is installed on the side of the coping part 50, The concrete is cured and cured to complete the installation of the coping portion 50.

As described above, since the prefabricated pillar block 30 and the coping part 50 are assembled in the field, the prefabricated pier pillar according to the present embodiment can reduce the time required for constructing the pier pillar.

Since the column block 30 and the coping portion 50 of the present embodiment are seated and connected to the correct positions of the base block 10 or the column block 30 by the connecting portion 70, So that the safety of the pier column can be secured.

The base column main rods 12 are connected to the column main rods 32 by couplers 16 and the column main bars 32 are connected to the column main bars 32 or the copping column main bars 57 by a coupler 16 .

The base column main reinforcement bars 12 are provided so as to protrude upward from the upper end of the base block 10. The column main bar reinforcement bars 32 protrude from the upper and lower ends of the column block 30, Is formed to protrude from the lower end of the coping portion (50).

Therefore, when the base column main iron wire 12 and the column main iron core 32 are connected by the coupler 16 and the column main iron core 32 and the copping column main iron core 57 are connected by the coupler 16, The same effect as that in which one of the cast iron roots 32 and the base column main iron rods 12 are connected in the vertical direction and inserted into the base block 10 through the column block 30 from the coping portion 50 do.

The connecting portion 70 includes a seating rib 72 projecting from the upper end of the base block 10 or the column block 30 and having a seating groove 72a formed therein, And a connecting rib 74 protruding from the lower end of the capping portion 50 or the lower end of the capping portion 50 and formed with a seating protrusion 74a that is seated in the seating recess 72a.

The seating rib 72 is formed at the upper end of the base block 10 and the upper end of the column block 30. The seating ribs 72 are arranged so as to maintain a constant spacing and the seating groove 72a is formed at the upper end do.

The connecting ribs 74 are formed at the lower end of the column block 30 and the lower end of the coping portion 50. A plurality of connecting ribs 74 are arranged at the same number and the same interval as the seating ribs 72, A seating projection 74a to be inserted into the seating groove portion 72a is formed.

The seating rib 72 protrudes inward from the inner wall of the base block 10 or the column block 30 and the connecting rib 74 extends inward from the inner wall of the column block 30 or the coping portion 50 And the seating rib 72 and the connecting rib 74 are integrally connected to each other.

When the seating rib 72 and the connecting rib 74 are integrally connected to each other, the connecting portion 70 formed on the base block 10, the connecting portion 70 formed on the column block 30, and the connecting portion 70 formed on the capping portion 50 Since the connecting portions 70 are connected in a single rib shape, the supporting strength against the load applied to the coping portion 50 is improved.

The reinforcing bars 36 are provided on the seating ribs 72 or the connecting ribs 74 of the column block 30 so as to be orthogonal to the columnar steel rods 32 and to extend inwardly of the column blocks 30, The inner reinforcing reinforcing bars 36 are connected to the column reinforcing bars 32 by couplers 16 and the reinforcing bars 36 provided in the column blocks 30.

A plurality of reinforcing bars 36 extending inward from the inner wall are provided on the inner wall of the pillar block 30. The reinforcing bars 36 pass through the connecting portions 70 and are coupled to the column main bars 32 by couplers 16. [ To the reinforcing bar 36 which is engaged with the reinforcing bar 36.

Therefore, when the concrete is injected into the column block 30 and cured, the reinforcing bar 36 is inserted into the concrete filled in the column block 30, thereby improving the strength of the column block 30. [

Since the connecting piece is coupled to the inner wall or the outer wall of the connecting portion 70 by the fastening member, after the connecting rib 74 is seated on the seating rib 72, the operator places the connecting piece on the outer wall and the inner wall of the connecting portion 70, When the pair of connecting pieces are coupled by the fastening member, the fastening member is coupled through the connecting portion (70).

Therefore, it is possible to prevent the seating rib 72 from being separated from the connecting rib 74 while the concrete is injected and cured in the connecting portion 70, and the bonding strength of the connecting portion 70 is improved.

A circular mold 30 is provided at a connecting portion between the base block 10 and the pillar block 30, a connecting portion between the pillar block 30 and the pillar block 30 or a connecting portion between the pillar block 30 and the coping portion 50 Is installed by the fastening member, the concrete can be injected by covering the connection portion 70 exposed to the outside.

A connecting portion 70 located between the base block 10 and the pillar block 30, a connecting portion 70 located between the pillar block 30 and the coping portion 50, The circular mold 38 is installed in the connecting portion 70 positioned between the connecting portions 30 and the concrete is injected into the circular mold 38 and cured so as to enclose the connecting portion 70, An improvement effect is obtained.

A method of constructing the pier pillars according to an embodiment of the present invention will now be described.

4 is a view showing a construction method of a pier column according to a first embodiment of the present invention.

1 to 4, a method of constructing a pier column according to a first embodiment of the present invention includes the steps of forming a groove portion by excavating a ground surface, providing a foundation form in the groove portion, A step of installing a base block 10 by providing concrete pillars 12 and a base steel rope 14 and injecting and curing concrete into the base molds so that a plurality of seating ribs 72 are formed at an upper end, A column block 30 previously formed so that a seating rib 72 is formed and a connecting rib 74 is formed at the lower end is seated on the upper portion of the base block 10 and the base column post cast iron rope 12 and the column cast iron rods 32 are connected by a coupler 16 and a connecting piece for connecting the seating rib 72 and the connecting rib 74 is provided and a circular mold 38 is installed to surround the connecting portion 70 to inject concrete, Connecting the column block (30) A step of inserting and curing the concrete into the column block 30 to install the column block 30 and the step of forming the connecting ribs 74 at the lower end by inserting the pre- And the connecting rod 74 is connected to the connecting rib 74 of the seating rib 72 of the column block 30 and the coping portion 50 by connecting the column main iron wire 32 and the coping column main iron wire 57 with the coupler 16. [ A step of inserting a circular mold 38 to enclose the connecting portion 70 and injecting and curing concrete to connect the coping portion 50 and a step of installing a coping form 56 on the side of the coping portion 50 And injecting and curing concrete into the coping form 56 to install the coping portion 50.

When the prefabricated pier columns of the present embodiment are to be installed, the ground is excavated to form a groove portion. After the base formwork, the base column main column 12 and the foundation main column 14 are installed in the groove, concrete is injected and cured to form a base block 10) is installed.

The column block 30 is seated on the upper end of the base block 10 so that the connecting rib 74 of the column block 30 is seated on the seating rib 72 formed on the upper surface of the base block 10, 72 and the connecting rib 74 to each other.

Thereafter, a circular mold 38 is installed to enclose the connection portion 70, and concrete is injected into the circular mold 38 to cure it.

When the connection of the column block 30 is completed, concrete is injected into the column block 30 and cured to complete the installation of the column block 30. The other column block 30 is placed on the upper surface of the column block 30 Connect the same connection method.

When the installation of the column block 30 is completed, the support block 58 is installed on the upper end of the column block 30 and the coping portion 50 is mounted on the upper surface of the support block 58, 30) are connected in the same manner as the connection method described above.

Thereafter, a coping formwork 56 is installed on the side of the coping portion 50, and concrete is injected and cured to complete the construction of the piercrete column.

The pillar blocks 30 and the coping portions 50 constituting the pillar columns can be previously manufactured and assembled in the field and the pillar blocks 30 and the coping portions 50 can be firmly assembled. It is possible to provide a construction method thereof.

5 is a cross-sectional view of a pier column according to a second embodiment of the present invention.

5, the connection part 170 of the assembled pierced pillar according to the second embodiment of the present invention is formed at the same height as the upper end of the base block 110 or the pillar block 130, A seating protrusion 174a protruding from the lower end of the column block 130 or the lower end of the coping portion 150 to be seated in the seating rib 172 and seated in the seating recess 172a, A connecting rib 174 is formed.

The connecting rib 174 is formed to extend from the upper end of the base block 110 or the upper end of the column block 130 to the upper end of the column block 130, Or the lower end of the coping portion 150 in a downward direction.

6 is a cross-sectional view of a pier column according to a third embodiment of the present invention.

6, the connection part 270 of the assembled pierced post according to the third embodiment of the present invention is formed on the inner wall of the upper end of the base block 210 or the column block 230, A connection rib 274 protruding from the lower end of the column block 230 or the lower end of the coping portion 250 to be seated on the seating rib 272, .

The seating rib 272 of the present embodiment is formed so as to have a lower height compared with the upper end of the base block 210 or the upper end of the column block 230 so that the inner side wall of the base block 210 or the inner side wall of the column block 230 As shown in Fig.

The connection rib 274 is formed to protrude downward from the lower end of the column block 230 or the lower end of the coping portion 250 so that the connection rib 274 is inserted into the base block 210 or the column block 230 And is seated on the upper surface of the seating rib 272.

7 is a cross-sectional view of a prefabricated pier pillar according to a fourth embodiment of the present invention.

7, the connecting portion 370 of the present embodiment includes a seating rib 372 protruding from the upper end of the base block 310 or the column block 330 and a column rib 330 which is seated on the seating rib 372. [ And a connecting rib 374 formed at an inner wall of a lower end portion of the coping portion 350 and formed to be higher than a lower end portion of the pillar block 330 or a lower end portion of the coping portion 350.

The mounting block formed at the upper end of the base block 310 or the upper end of the column block 330 is inserted into the lower end of the column block 330 or the lower end of the coping portion 350 to support the connecting rib 374.

8 is a cross-sectional view illustrating a pillar block 30 of a pier of a pillar according to a fifth embodiment of the present invention.

8, the seating ribs 472 of the assembled pierced column according to the fifth embodiment of the present invention are protruded inward from the inner wall of the upper end of the base block 410 or the column block 430, The mounting rib 474 is protruded inward from the inner wall of the lower end of the column block 430 or the coping portion 450. The seating rib 472 and the connecting rib 474 are separated from each other.

The connecting portion 470 of the present embodiment is formed such that the seating rib 472 and the connecting rib 474 are separated from each other so that the amount of concrete required to manufacture the connecting portion 470 The effect is reduced.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Also, the pre-assembled pillar and its construction method have been described as an example, but the present invention is not limited thereto, and the pillar and its construction method of the present invention can be used for the pre-assembled pillar and its construction method.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: Base block 12: Base column Column base
14: basic foundry root 16: coupler
30: Column block 32: Column column
34: columnar bar 36: reinforced bar
38: circular mold 50:
52: Copping section main iron core 54: Copping shear reinforcement
56: coping die 57:
58: support 70: connection
72: seating rib 72a: seating groove
74: connecting rib 74a:

Claims (12)

A base block installed on the ground and having a base portion columnar steel bars protruding from an upper end thereof;
A column block having a hollow shaft shape in which a plurality of blocks are stacked in the base block to inject concrete, and a columnar casting bar is projected at an upper end portion and a lower end portion;
And a coping shear reinforcing bar surrounding the coping root and the coping shear reinforcement is installed at the lower end of the column block so as to be installed at the upper end of the column block, Ping section; And
And a connection portion provided at an upper end of the base block, an upper end portion and a lower end portion of the column block, and a lower end portion of the coping portion, the column block or the coupling portion being seated at an accurate position of the base block or the column block Features prefabricated pier pillars. The method according to claim 1,
Wherein the base column main iron core is connected to the column main iron core by a coupler, and the column main iron core is connected to the column main iron core or the copping column main iron core by a coupler. The connector according to claim 1,
A seating rib protruding from an upper end of the base block or the column block and having a seating groove; And
And a connecting rib protruding from a lower end of the column block or a lower end of the coping portion so as to be seated on the seating rib, the seating rib being seated in the seating groove. The method of claim 3,
Wherein the seating rib is protruded inward from an inner wall of the base block or the column block, the connecting rib is protruded inward from an inner wall of the column block or the coping portion, Are integrally connected to each other. 5. The method of claim 4,
Wherein a reinforcing bar is provided on the seating rib or the connecting rib of the column block so as to be orthogonal to the column main reinforcement and extend in an inner side of the column block and a reinforcing bar provided in the column block, Are connected by a coupler. The method of claim 3,
Wherein the seating rib is protruded inward from an inner wall of an upper end portion of the base block or the column block, the connecting rib is protruded inward from an inner wall of a lower end portion of the column block or the coping portion, And the connecting ribs are separated from each other. The method according to claim 1,
And a connection piece is coupled to an inner wall or an outer wall of the connection part by a fastening member. The method according to claim 1,
Wherein a circular mold is provided by a fastening member at a connecting portion between the base block and the column block, a connecting portion between the column block and the column block, or a connecting portion between the column block and the coping portion. The connector according to claim 1,
A seating rib formed at the same height as an upper end of the base block or the column block and having a seating groove portion; And
And a connecting rib protruding from a lower end of the column block or a lower end of the coping portion so as to be seated on the seating rib, the seating rib being seated in the seating groove. The connector according to claim 1,
A seating rib formed on the inner wall of the upper end of the base block or the column block and formed lower than the upper end of the base block or the column block; And
And a connecting rib protruding from a lower end of the column block or a lower end of the coping portion so as to be seated on the seating rib. The connector according to claim 1,
A seating rib projecting from an upper end of the base block or the column block; And
And a connection rib formed at a lower end of the column block or an inner wall of a lower end portion of the coping portion to be seated on the seating rib and formed to be higher than a lower end portion of the column block or a lower end portion of the coping portion. (a) a groove is formed by excavating the floor surface, and a base casting root and a foundation casting bar are installed in the casting mold after the casting mold is installed in the groove, and a plurality of seating ribs are formed in the upper end, Injecting and curing concrete to construct a base block;
(b) a column block previously formed so that the seating rib is formed at an upper end portion and a connecting rib is formed at a lower end portion is seated on an upper portion of the base block, a base rod column main shaft and a column main shaft rod are connected to each other by a coupler, And connecting the connecting block to the connecting rib, and inserting the circular mold to enclose the connecting part, and connecting the column block by injecting and curing concrete.
(c) installing a column block by injecting and curing concrete into the column block;
(d) a coping portion previously formed to form a connecting rib at the lower end portion is seated on an upper end of the pillar block, the pillar cast iron root and the copping pillar cast iron rope are connected by the coupler, and the seating rib of the pillar block and the Installing the connecting piece on the connecting rib, installing the circular mold to surround the connecting part, injecting and curing concrete, and connecting the coping part; And
(e) installing a coping die on the side of the coping portion, and injecting and curing concrete into the coping die to install the coping portion.

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