KR101518034B1 - manufacturing method for concrete column having self-restraint features - Google Patents

Abstract

The present invention relates a forming and constructing method of a concrete column, which can prevent compression failure from occurring due to an outer force exerted to the concrete column. The forming and constructing method of a concrete column according to the present invention includes: a coupling bar installing step of installing a couple bar in such a manner that the bar passes through a main body of the column; a cover plate installing step of installing cover plates at outer sides of the main body of the column, which correspond to both ends of the coupling bar, respectively; a cover plate coupling step of installing a fixing member to be coupled with one end of the coupling bar while passing through the cover plate in order to provide virtual pressure to the main body of the column by relatively moving the cover plates.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a concrete column having self-

The present invention relates to a method of forming a concrete column having a self-restraining function and a method of constructing the same, and more particularly, to a method of installing a mechanism capable of introducing tension in a construction step in a column so as to exert a higher strength against an external force applied to a concrete column And a column forming technique capable of generating a higher withstand force than a conventional concrete column by introducing post tension after construction, and a method of constructing the column.

The structure is generally a plate or massive structure and consists of pillars which physically support the upper structures located at the upper part. Therefore, the pillars must be able to withstand the loads of the structure and various loads applied thereon, And the external force applied in the horizontal direction such as wind pressure. If the column can not withstand it, it collapses, and superstructures physically supported by it collapse as well.

Various methods such as fiber reinforcement, steel plate reinforcement and section enlargement are applied according to the conditions of the site. This method is to cover the outside of the concrete column with unidirectional fiber sheet, fiberboard, steel plate and concrete. It is common to attach the fiber sheet or the like to a concrete column.

The method of reinforcing a concrete column using a fiber sheet such as a carbon fiber or an aramid fiber has an excellent effect of enhancing the load carrying capacity of the column, but has a weak effect of improving the lateral flexibility.

In addition, the above-mentioned reinforcing method is applicable to existing concrete columns, but it is inappropriate to apply the reinforcing method to the column members.

Generally, a method of introducing a post tension by using a steel wire as a method for increasing a strength by applying a restraining effect to a column is used, but there is a disadvantage in that the effect of increasing the strength is not stable and construction is complicated.

Open Patent No. 10-2004-0057564: Reinforcing method of carbon fiber plate using precast plates in reinforced concrete columns Registration No. 10-0498247: Improvement of seismic performance of concrete column and reinforced concrete column Open Patent Publication No. 10-2008-0108880: Trench Foam Method for Making Steel Concrete Columns-TF Column Method

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a structure in which post tension can be introduced into a mold in a process of constructing a concrete column, The present invention provides a concrete column forming technique capable of increasing the strength of a concrete column by introducing a post tension by attaching a member.

According to another aspect of the present invention, there is provided a method of constructing a concrete column, the method comprising: a step of installing a fastening bar to penetrate the concrete column main body; A cover plate attaching step of attaching a fixing member to each end of the connecting rod through the respective cover plates so as to provide a pressing force to the column body by relatively moving the cover plates corresponding to each other, .

A Teflon sheet may be formed on the outer circumferential surface of the unbonded portion so that the fastening rod is not adhered to the concrete mortar to be laid. The plurality of first fastening rods extending along a direction connecting two opposed faces of the opposite side of the column body and spaced apart from each other in the vertical direction, And a second fastening bar extending between the first fastening rods and extending in a direction intersecting with the first fastening rods and extending across two opposing surfaces of the other side of the column body, wherein the cover plate has two opposing surfaces And two second cover plates covering the two opposed faces of the other side.

The step of installing the cover plate may further include a step of installing a corner cover member for installing a corner cover member surrounding four corners of the column main body.

In addition, in the step of installing the fastening rods, the fastening rods are installed so that the fastening rods are embedded in the concrete mortar pushed inside the formwork to form the column main body, and the fastening bolts are inserted between the end portions of the fastening rods and the formwork. And a filling blocking member for blocking the filling of the concrete mortar between the connecting rod and the mold to form an entering space into which the concrete mortar can enter.

The filling shielding member may include a blocking sheet having one end fixed to the outer circumferential surface of the end portion of the connecting rod and extending toward the mold and protruding to the outside of the mold through a through hole formed in the mold, Wherein the filling shielding member is inserted from the outside of the mold through the through hole of the mold into the mold and has an end which can be inserted into the hollow of the connecting rod and a through hole And an extension extending outwardly from the die.

The fastening bolt may be coupled to an upper portion of the head portion. The fastening bolt may further include a pin tail detached from the head portion when the fastening bolt is fastened to the fastening rod and the fastening bolt and the fastening bolt are subjected to a tensile force larger than a predetermined magnitude.

The concrete pillar according to the present invention and the construction method thereof can construct a concrete pillar including reinforcing means capable of effectively restraining a concrete column after installation so as to more effectively resist an external force acting on the concrete pillar, The construction process is simple, and the synergy effect is stable and excellent.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a concrete column constructed according to a method of constructing a concrete column according to the present invention;
FIG. 2 is a plan view of the concrete column of FIG. 1,
FIG. 3 is a perspective view showing a reinforcing steel reinforcing step in a method of constructing a concrete column of the present invention,
FIG. 4 is a perspective view showing a step of installing a fastening bar for installing a fastening rod to a reinforced steel rod,
Fig. 5 is a partial exploded perspective view showing a state in which a fastening rod is installed on a reinforcing bar;
6 is a perspective view showing a concrete mortar pouring step,
7 is a sectional view showing a state in which a cover film is formed for forming a passage between a fastening rod and a formwork in a concrete mortar pouring step,
8 is a perspective view showing a passage forming member fastened to the fastening bar for forming a passage between the fastening rod and the die,
9 is a perspective view showing the cover plate engaging step,
10 is a perspective view showing another embodiment of a fastening bolt for engagement of a cover plate,
11 is a sectional view showing the process of fastening the fastening bolts of Fig. 10,
12 is a perspective view showing another embodiment of a concrete column further comprising a corner cover member,
13 is a perspective view showing a step of installing the corner cover member,
FIG. 14 is a perspective view showing a cover plate engaging step of engaging after the corner cover member of FIG. 13 is installed,
Fig. 15 is a perspective view showing a coupled state of a concrete column further comprising the corner cover member of Fig. 12;
16 is an exploded perspective view showing a concrete column constructed according to a concrete column construction method according to another embodiment of the present invention.

Hereinafter, a method of constructing a concrete column according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 9 show a preferred embodiment of a concrete column construction method according to the present invention.

1 to 6, a concrete pillar 100 constructed by a method of constructing a concrete pillar according to an embodiment of the present invention is formed by placing a concrete mortar 120 on a pillar body 160 having a square cross- (131) and a second fastening rod (132) provided along the direction of connecting two opposed faces of one side and two opposite faces of the other side, and a reinforcing plate is provided on the outer peripheral face of the pillar body And the rear fastening bolts 180 are fastened.

2, the first fastening rod 131 and the second fastening rod 132 are formed to be relatively shorter than the separation distance between the outer circumferential surfaces of the column main body 160, respectively, and the first fastening rod 131 The first cover plate 171 and the second cover plate 173 are not in a state where they are attached to the column main body 160 but the first cover plate 171 and the second cover plate 173 are fastened to each other through the fastening bolts 180, And can be coupled to the rod 131 and the second fastening bar 132 to reinforce the strength of the column body 160 with respect to external force.

Meanwhile, the concrete column 100 constructed by the method of constructing the concrete column of the present invention can be applied to the column body 160 formed to have a circular cross section by placing the concrete mortar 120 as shown in FIG. 16 have. At this time, the first and second fastening rods 131 are embedded in the column main body 160 so as to be perpendicular to each other. The cover plate is attached to the outer peripheral surface of the column main body 160 and the fastening bolts 180 are fastened to the first and second fastening rods 131 to fix the cover plate to the outer peripheral surface of the column main body 160. At this time, it is preferable that the cover plate is curved in an arcuate shape corresponding to the curvature of the outer circumferential surface of the columnar body 160.

The concrete pillar 100 constructed according to the method of constructing the concrete pillar of the present invention thus formed is inserted into the pillar body 160 in a non-adhered state instead of being fastened to the pillar body 160 Since the cover body 170 is coupled to the connecting rod 130, a compressive force is applied to the column body 160 by the cover plate 170, thereby reinforcing the strength of the column body 160.

The construction process of the concrete column 100 having the above-described construction is as follows.

○ Reinforcement stage

First, as shown in FIG. 3, a reinforcing bar 110 for constructing the concrete column 100 is installed at the installation position of the column. A plurality of reinforcing bars 110 are extended upward from the supporting surface. A plurality of reinforcing bars 110 arranged in a matrix form as in the present embodiment may extend upward or extend upward to form a cylindrical shape.

The shape and method of placing the reinforcing bars 110 are the same as those of reinforcing rods 110 of a conventional concrete column 100, and the reinforcing rods 110 can be formed in various forms and schemes.

○ Step of installing the fastening rods

After completion of the reinforcement 110, the fastening bar 130 is installed to be supported by the reinforcing bars 110 as shown in FIG.

The connecting rod 130 is a hollow round barrel having threads formed on the inner circumferential surfaces of both ends and has a relatively short length as compared with the distance between the opposed surfaces of the columnar body 160 formed through a mortar placing step Install it.

As shown in FIG. 5, when the concrete mortar 120 is installed and cured, the connecting rod 130 is attached to the concrete mortar 120 and is not fixed. A Teflon sheet 133 is applied to the outer circumferential surface of the fastening bar 130. After the concrete mortar 120 is cured by installing the Teflon sheet 133, the fastening bar 130 is not fixed to the column body 160, but can be moved in the longitudinal direction inside the column body 160 do.

The Teflon sheet 133 is formed on the outer circumferential surface of the fastening bar 130 to prevent the fastening bar 130 from adhering to the column body 160 in the course of the construction of the column body 160, Various anti-adhesion means can be applied to prevent the connecting rod 130 from adhering to the column main body 160 formed by curing the concrete mortar 120. [

The connecting rod 130 includes a first connecting rod 131 extending in one direction and a second connecting rod 132 extending in a direction intersecting the first connecting rod 131. In the first connecting rod 131, Two rods 131 are installed at the same height so as to be vertically spaced apart from each other. The second rods 132 are installed between the first rods 131 so as not to interfere with the first rods 131 do.

○ Formwork stage

After the fastening rod 130 is coupled to the reinforced bar 110, the form 150 for pouring concrete is installed outside the reinforcing bar 110.

Four formwork dies 150 are connected to form a square body section 160 so that the concrete is laid on the dies 150. The dies 150 are connected to the first connecting rod 131 or Through holes 151 are formed at positions corresponding to the hollow of the second fastening bar 132. On the other hand, the molding step further includes a filling blocking member.

○ Filling block installation step

After the mold 150 is installed, a filling blocking member 140 is installed between the mold 150 and the connecting rod 130.

The filling blocking member 140 is formed of a concrete mortar so as to secure an entering space into which the fastening bolts 180 to be described later can enter from the outer circumferential surface of the column main body 160 to the fastening rods 130 after curing of the column main body 160. [ The concrete mortar 120 is prevented from being filled in the corresponding section before the concrete block 120 is installed.

As shown in FIG. 7, the filling blocking member 140 may be composed of a barrier sheet whose one end is fixed to the end of the coupling rod 130 and the other end is fixed to the die 150.

The filling blocking member 140 of the present embodiment is configured such that one end of the filling blocking member 140 is fixed to the connecting rod 130 so as to surround the outer circumferential surface of the end portion of the connecting rod 130 and the other end of the filling blocking member 140 protrudes outside the form 150 through the through hole 151 The cylindrical structure is formed in the spacing space between the mold 150 and the fastening bar 130. [ If the concrete mortar 120 is installed in this state, the concrete mortar 120 can not be filled in the installation region where the filling and blocking member 140 is installed, so that the concrete mortar 120 is cured to form the column main body 160 There is left an entry space in which the Jirel fastening bolts 180, in which the filler blocking members 140 are installed, can enter.

The filler blocking member may be formed in the shape shown in FIG.

8 includes an insertion portion 144 which can be inserted into the hollow of the fastening bar 130 and an insertion portion 144 which is inserted through the through hole 151 from the insertion portion 144 An extension portion 143 extending to protrude outwardly, and an extension portion 142 formed at an end portion of the extension portion 143.

The insertion portion 144 is formed to correspond to the hollow diameter of the fastening rod 130 and is inserted into the hollow. The extension portion 143 is formed to correspond to the outer diameter of the fastening rod 130. The extension part 142 is formed to have a larger diameter than the through hole 151 and the insertion part 144 and the extension part 143 are inserted into the through hole 151 from the outside of the formwork 150, The concrete mortar 120 is poured and cured, and then the filling blocking member 141 is removed to remove the filling material from the column main body 160. As a result, It is possible to form an entry section in which the fastening bolt 180 can enter the outer circumferential surface of the fastening rod 130.

The filling blocking member 141 of the present embodiment may be formed of a Teflon sheet such as Teflon sheet or the like on the outer peripheral surface of the extending portion 143 so as to prevent the filling blocking member 140 from being adhered to the concrete mortar 120 after the concrete mortar 120 is laid. It is preferable to apply the adhesion preventing means.

○ Mortar casting stage

After completion of the installation of the filler blocking member 140, the concrete mortar 120 is poured into the mold 150 as shown in FIG. 6 and then cured to mold the columnar body 160.

○ Cover plate installation step

After the concrete mortar 120 is laid and cured to form the columnar body 160, the cover plate 170 is installed on the outer peripheral surface of the columnar body 160 as shown in FIG.

The first and second cover plates 171 and 172 are attached to two opposing sides of the first and second cover plates 173 and 173, The first cover plate 171 and the second cover plate 173 are used to wrap the column main body 160.

The first cover plate 171 is formed with first fastening holes 172 corresponding to the positions of the first fastening rods 131 so that the second fastening rods 173 are spaced apart from each other. The second fastening holes 174 corresponding to the installation positions of the first and second fastening holes 132 and 132 are formed.

○ Cover plate joining step

After the first cover plate 171 and the second cover plate 173 are installed, the first cover plate 171 and the second cover plate 173 are fixed to the first and second coupling rods 131 and 132 ).

The fastening bolts 180 are passed through the first fastening holes 172 and the second fastening holes 174 from the outer sides of the first cover plate 171 and the second cover plate 173, And the ends of the second fastening rods 132. As shown in Fig.

At this time, since the coupling rods 130 are not coupled to the column main body 160 and are slidable along the longitudinal direction, the two first coupling plates and the second coupling plates, which face each other, 131 and the second fastening rod 132 through the fastening bolts 180, the fastening bolts 180 are fastened only to the first fastening rods 131 and the second fastening rods 132, A tensile force is applied to the connecting rod 130 and the first cover plate 171 and the second cover plate 173 press the outer peripheral surface of the column body 160 inward.

The fastening bolt 180 may further include a pin tail 182 on the head portion 181 as shown in FIGS.

The pin tail 182 is attached to the head portion 181 and has a spline formed on the outer circumferential surface thereof. When a torque larger than a predetermined size is applied to the pin tail 182, such as a torque shear bolt, And is for securing the fastening bolts 180 to the fastening rods 130 with a constant torque separated from the head portion 181. That is, the fastening mechanism for mounting the fastening bolts 180 of this embodiment is provided with a first clamping part for clamping the head part 181 and a second clamping part for clamping the pin tail 182, The second clamping part rotates together and rotates the head part 181 and the pin tail 182 to screw the fastening bolts 180 to the fastening rods 130. As the coupling progresses, the magnitude of the torque applied to the first clamping portion and the second clamping portion gradually increases. The pin tail 182 is detached from the head portion 181 when a torque greater than a set magnitude is applied, The fastening bolt 180 can be installed so that the fastening is stopped at the time when the pin tail 182 is separated, so that the tension bolt 180 can be tensioned to a predetermined size.

The concrete column 100 formed through the process described above presses the column main body 160 through the connecting rod 130 even if breakage of the column main body 160 occurs due to external force applied to the column main body 160 The outer circumferential surface of the column body 160 is pressed inward by the cover plates 170 to be fastened, so that the supporting force against the structure can be maintained.

12-15 illustrate a concrete column 100 further comprising a corner cover member 190. [

It is possible to further provide a corner cover member 190 that surrounds the four corners of the column main body 160 in the stage before the cover plate 170 is installed after the construction of the mortar pouring step for molding the column main body 160, The corner cover member 190 is formed in a shape of a letter 'C' so as to cover both adjacent side surfaces of the first cover plate 171 and the second cover plate 173 The first cover plate 171 and the second cover plate 173 are covered by the inner peripheral surface of the end portions of both ends of the first cover plate 171 and the second cover plate 173. When the first cover plate 171 and the second cover plate 173 are installed, It prevents the concrete from escaping through the spacing space.

The corner cover member 190 is installed at the four corners of the column main body 160 as shown in Fig. 13 and then the first cover plate 171 and the second cover plate 173 are installed The first cover plate 171 and the second cover plate 173 are fixed to the first and second coupling rods 131 and 131 through the coupling bolts 180 as in the coupling step of the cover plate 170, 132, the concrete column 100 is formed with the corner cover member 190 mounted on the corner as shown in FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100; Concrete pillar
110; rebar
120; Concrete mortar
130; Fastening rod
131; A first connecting rod 132; The second fastening rods
133; Teflon sheet
140; Fill-
141; Fill-
142; Expander 143; Extension portion
144; The insertion portion
150; Mold
151; Through hole
160; Column body
170; Cover plate
171; A first cover plate 172; The first fastening hole
173; A second cover plate 174; The second fastening hole
180; Fastening bolt
181; Head portion 182; Pin tail
190; The edge cover member

Claims (8)

And is provided with a fastening rod provided with an anti-sticking means on its outer circumferential surface in order to prevent it from adhering to the column main body in the course of the construction of the column main body, Installation steps;
A cover plate mounting step of mounting cover plates on outer surfaces of the column main bodies respectively corresponding to both end portions of the connecting rod;
And a cover plate engaging step of engaging the cover plates corresponding to each other so as to provide a pressing force to the column body so as to penetrate the cover plates and to fasten the engaging bolts to the ends of the engaging bars. Formation of column and its construction method.
The method according to claim 1,
Wherein the adhesion preventing means provided on the outer circumferential surface of the fastening rod has a Teflon sheet formed on an outer circumferential surface thereof so as not to be bonded to the column body, and a method of constructing the same.
The method according to claim 1,
The column main body is cured in the form of a column having a square cross section,
Wherein the step of installing the fastening rods comprises a plurality of first fastening rods extending along a direction connecting the two opposed faces of the opposite sides of the column body and spaced vertically apart from each other, A second connecting rod extending along a direction intersecting the first connecting rod and extending across two opposing surfaces of the other side of the column body,
The cover plate mounting step includes the steps of providing two first cover plates that cover two opposing surfaces of one side facing each other of the column body and installing two second cover plates so as to cover two opposite surfaces of the other side of the column body And a method of constructing the concrete column. The method of claim 3,
Wherein the step of installing the cover plate further comprises the step of installing a corner cover member for installing the corner cover member which surrounds the four corners of the column main body, and the method for constructing the same.
The method according to claim 1,
Wherein the step of installing the fastening rods is provided so that the fastening rods are embedded in the concrete mortar pouring inside the formwork to form the column main body,
And a filling blocking member for blocking the filling of the concrete mortar is provided between the connecting rod and the mold to form an entering space between the end of the connecting rod and the mold, Further comprising the step of forming a concrete column and a method of constructing the same.
6. The method of claim 5,
And the blocking member includes a blocking sheet whose one end is fixed to an outer circumferential surface of the end portion of the connecting rod and which extends toward the mold and protrudes to the outside of the mold through a through hole formed in the mold, And a method for constructing the concrete column.
6. The method of claim 5,
Wherein the filling shielding member is inserted into the mold from the outside of the mold through a through hole formed in the mold and has an end which can be inserted into the hollow of the connecting rod, And an extension extending outwardly from the mold through a hole. The method of claim 1,
The method according to claim 1,
Wherein the fastening bolt is coupled to an upper portion of the head portion and further comprises a pin tail detached from the head portion when the fastening bolt is fastened to the fastening rod and a tensile force greater than a predetermined magnitude is applied to the fastening rod and fastening bolt. Formation of Concrete Columns and Its Application Method.

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