KR101939949B1 - Half-pc column based on framed rebar column - Google Patents

Abstract

The present invention relates to a half-PC (HPC) column which enables a rapid construction with respect to a large-sized column (a large-sized cut surface/a long column) by prefabricating in a plant a hollow PC column in which a reinforced bar is embedded, and simply placing concrete in the center part thereof on the site to complete construction. The half-PC column according to the present invention comprises: a first PC assembly which has a right side-opened square-shaped cross section so as to constitute three surfaces of the HPC column based on the longitudinal direction of the column; and a second PC assembly which constitutes the remaining one surface of the HPC column, and which is coupled to an open surface of the first PC assembly in order to constitute the HPC column.

Description

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

In the present invention, a hollow PC column in which reinforcing bars are embedded in a large pillar (large cross section / long pile) is manufactured in the factory, and a half-PC (HPC) It is about pillars.

Precast Concrete (PC) method has been actively applied in the construction field since the 1980s in order to reduce labor cost and shorten the field in the field. The PC method is an example of an industrialized structure that constructs structures by assembling and joining factory-produced members in the field. It can reduce the construction period, increase the workability, reduce the labor force due to the decrease of field work, It is a method with various advantages. However, when the PC column is enlarged and long-termized, the weight of the PC is excessively limited due to its weight.

In order to solve this problem of the conventional PC column, a hollow part is formed inside the column by centrifugal molding or by inserting a steel pipe into the section, or a PC column of one layer is divided into several segments in the longitudinal direction to reduce the weight Is being made. However, centrifugal molding is disadvantageous in that there is a fear of material separation, production cost is high, and application of the hollow PC column having various shapes and sizes is restricted. In the case of steel pipe insertion, the void ratio is usually low, so that the effect of weight reduction is not great, and it is difficult to arrange the ribs passing through the column section. In addition, in the case of segmented PC columns, there is a limit in that additional processes and costs are incurred in order to increase the number of buoyancy and to achieve the interconnection.

Conventional connection of PC column is generally made by installing a mechanical joint device (sleeve) at the lower part of the main column of the upper column and filling the main shaft of the lower column or anchor bolt with no shrinkage mortar, (Coupler) with the main rope or anchor bolt of the lower column, and then the non-shrinkage mortar is bonded to the connecting portion by joining. Such connection joint is disadvantageous in that the construction is not simple, and the construction cost is high due to the material cost and the labor cost. In addition, the conventional PC-method beam-column joints are somewhat inferior in structural performance such as strength and stiffness due to lack of integral, and there are some negative aspects in terms of usability such as cracking, soundproofing and waterproofing.

Patent Document 1: Korean Patent No. 10-1570484 Publication Date November 20, 2015 Patent Document 2: Korean Patent Laid-Open No. 10-2014-0110490 Publication date September 17, 2014

The object of the present invention is to provide a pillar of a hollow PC in which reinforcing bars are buried in a factory so that rapid construction can be carried out, and to provide a pillar of HPC (Half-PC) which can be completed by placing deep concrete only on site.

In order to accomplish the above object, according to one embodiment of the present invention, a column-based HPC column for reinforcing bar assembly is a HPC column having a hollow shape, and the three sides of the HPC column A first PC assembly having a C-shaped cross section; And a second PC assembly that forms the other surface of the HPC column and joins the open side of the first PC assembly to form the HPC column.

At this time, the first PC assembly includes:

Four bending round angles disposed at the corner portions and serving as the main rods of the HPC columns; And a plurality of banded bars disposed in a multi-stage manner surrounding the four bending round angles in a horizontal direction as a buried reinforcing structure of the first PC assembly,

And an inner die forming a hollow portion of the HPC column.

At this time, among the four bending round angles, the two bending round angles disposed at the bottom of the C-shaped cross-section are formed by a plurality of bending round angles, which are protruded toward the bottom of the C-shaped cross section to form the concrete thickness of the first PC assembly 1 spacers.

The inner mold is formed by bending a steel plate whose surface is unevenly processed so as to have a U-shaped cross-section and is provided on the bottom of the U-shaped section so as to form a concrete thickness of the first PC assembly, And a second spacer protruding toward the bottom.

In addition, the inner die may have a stud bolt protruding in the opening direction of the first PC assembly, the second PC assembly may have a coupling hole to be inserted into the stud bend, and the nut may be coupled to the stud bend The engagement and tightening of the second PC assembly and the first PC assembly can be performed.

Meanwhile, the second PC assembly includes a sealing member disposed on a surface in contact with the first PC assembly, the sealing member being fused by high temperature to seal a gap between the second PC assembly and the first PC assembly; And a heating element disposed inside the surface in contact with the first PC assembly and generating heat by current application.

According to the reinforced pre-assembly column-based HPC column according to the present invention,

First, since the present invention is a recessed inner formwork method, it is easy to manufacture a hollow PC column, and a lightweight ribbed or synthetic deck plate is used, thereby minimizing the amount of inner formwork, And it is possible to produce small quantity of various kinds.

Second, in the present invention, a hollow PC column reinforced with reinforcing bars is pre-fabricated in a factory, and a hollow PC column is installed on the site, and only a deep concrete is laid, so that the construction is simple and the main portion of the column is overlapped And the structural integrity of the beam-column joint can be improved through the deep concrete inserted in the field.

Third, since the present invention is a method of installing a hollow PC column reinforced with reinforcing bars, it is possible to omit the reinforcing bars and formwork in the field, minimizing the work of construction, and the hollow PC column itself reinforced with reinforcing bars has a load- It is possible to shorten the air by installing concrete beams or slabs in advance.

Fourth, since the present invention minimizes the weight of the PC since the thickness of the PC part is minimized, the weight of the double weight is greatly reduced compared to the conventional PC column, and the number of times of filling is reduced compared with the conventional PC column, It is advantageous to plan the capacity and operation of the heavy equipment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a reinforced pre-assembly column-based HPC column according to the present invention.
2 is a cross-sectional view of the reinforcing bar pre-assembly column-based HPC column shown in FIG.
3 is an enlarged cross-sectional view of a portion A in Fig.
4 is a perspective view of a second PC assembly illustrating a side engaged with a first PC assembly;
5A to 5D illustrate a manufacturing process of a reinforced pre-assembly column-based HPC column according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 1 is a perspective view of a column of HPC columns according to the present invention, FIG. 2 is a cross-sectional view of a column of HPC columns based on reinforcing bars shown in FIG. 1, FIG. 3 is an enlarged cross- Figure 4 is a perspective view of a second PC assembly illustrating a side engaged with a first PC assembly;

The reinforced bar precast column-based HPC column 1000 according to the present invention includes a half precast column (HPC) based on a pre-assembly column in which a bending round angle 110 is assembled with a bar steel reinforcement 120, (C) to minimize the thickness of the PC part, thereby reducing the weight of the PC.

Referring to FIGS. 1 to 4, a reinforced pre-assembly column-based HPC column 1000 according to an embodiment of the present invention includes a first PC assembly 100 and a second PC assembly 200.

The first PC assembly 100 is a precast structure having a C-shaped cross section to form three surfaces of the HPC column 100 with respect to the longitudinal direction of the HPC column 1000.

The second PC assembly 200 is a precast structure that forms the remaining one side of the HPC column 1000 and is joined to the open side of the first PC assembly 100 to form the HPC column 1000.

First, the first PC assembly 100 will be described in detail.

The first PC assembly 100 includes four bending round angles 110, a plurality of band bars 120, and an inner die 130.

The four bending round angles 110 and the plurality of band bars 120 are the buried reinforcing structure of the first PC assembly 100 and the inner mold 130 forms the first PC assembly 100 when the HPC column 100 To form a hollow portion (C) of the substrate (1000).

The four bending round angles 110 are formed by bending a steel material of 5T to 12T, which is disposed at the corner of the column and serves as a main body of the HPC column 1000. At this time, it is preferable that the bent portion has a round shape in order to improve the adhesion with the band bar 120

The bending round angle 110) is an angle formed by an arc-shaped portion bent at 90 degrees and is vertically disposed at a corner position of the column.

Also, although not shown, the bending round angle 110 may have rounded corners bent at 90 [deg.] In an arc shape at both ends.

The plurality of strip reinforcing bars 120 are connected to the outside of the bending round angles 110 in a multi-stage manner while surrounding the outside of the bending round angles 110 such that the corners are circular arc-shaped. The reinforcing bar 120 may be a welding reinforcing bar and the reinforcing bar 120 may have an inner radius R of the bent portion of 2 to 10 times the nominal diameter d of the reinforcing bar.

The bending round angles 110 and the band bars 120 are joined by spot welding.

When the bending round angle 110 is used, there is no edge, and the steel material is brought into close contact with the round surface to secure the continuity of the strip reinforcement 120 to confine the inner concrete and to settle the disconnection part of the strip reinforcement 120 .

The band bar 120 is a reinforcing bar that surrounds four bending round angles 110 in a horizontal direction and has a plurality of bars arranged in multiple tiers. It is preferable to use reinforcing bars.

The inner mold 130 is installed at the interface between the hollow portion C and the first PC assembly 100.

The inner formwork 130 can be formed by bending a steel plate whose surface is unevenly processed into a form. It is preferable that the width corresponds to the interval between the bending round angles 110.

It is preferable that the inner formwork 130 is formed of a steel plate having unevenness such as bending and embossing on its surface in order to secure the integrity of the inter-concrete structure. Although not shown in the drawings, a rigid reinforcement bar may be further provided inside the inner mold 130 according to the size of the HPC column 1000.

2, the detailed structure of the first PC assembly 100 will be described.

Two bending round angles 110b disposed in a portion corresponding to the bottom of the c-shaped cross section among the four bending round angles 110 are protruded toward the bottom of the c-shaped section so as to form the concrete thickness of the first PC assembly 100 And a first spacer (111). The thickness of the concrete covering the outside of the bending round angle 110 is determined according to the protruding length of the first spacer 111. [ The first spacer 111 may be provided in such a manner that the stud bolt or the plate-shaped steel is welded to the outside of the bending round angle 110b.

The inner mold 130 may also be provided on the bottom of the inner mold 130 to form the concrete thickness of the first PC assembly 100 and directed toward the bottom of the C- And a second spacer 131 projecting toward the bottom mold.

The second spacer 131 may be provided in such a manner that a stud bolt or a plate-shaped steel material is welded to a lower side of a bottom surface of the inner formwork 130. In addition, the second spacer 131 may be welded to the bar reinforcement 120 to securely fix the inner mold 130.

The inner mold 130 has a plurality of stud bolts 132 protruding in the opening direction of the first PC assembly 100.

The second PC assembly 200 has a coupling hole 210 that fits into the stud bold 132. [ The second PC assembly 200 includes a steel plate having concavities and convexities such as bending and embossing formed thereon to improve the bonding strength with the concrete to be placed in the hollow portion C, As shown in FIG.

After the first PC assembly 100 is placed at a position where the building is to be installed and the fixing is completed and an additional reinforcing bar or a pipe according to design is installed in the first PC assembly 100, ) Are combined to complete the assembly of the HPC column (1000). Thereafter, after the upper structure such as the composite beam (or the PC beam) and the deck is installed, the hollow portion C is filled by the concrete pouring. The concrete poured into the hollow portion C and the first PC assembly 100 and the second PC assembly 200 form an integral structure according to concrete curing.

By engaging the nut (N) to the stud bold (132), coupling and tightening between the second PC assembly (200) and the first PC assembly (100) is achieved.

As described above, since the hollow portion C is filled by the concrete, there may be a clearance between the coupling surface of the second PC assembly 200 and the first PC assembly 100 due to the tolerance or the like, Leakage of the poured concrete may occur.

Since the second PC assembly 200 and the first PC assembly 100 are not resilient as a concrete structure, when the second PC assembly 200 is forcedly tightened by tightening the nut N, cracks may occur in the second PC assembly 200, Lt; / RTI >

To seal the gap, the second PC assembly 200 includes a sealing body 220 and a heating body 230.

The sealing member 220 is disposed on a surface in contact with the first PC assembly 100 and is preferably formed as a long rod for sealing. The sealing member 220 is a synthetic resin which is fused by high temperature to seal the gap that may occur on the mating surfaces of the second PC assembly 200 and the first PC assembly 100 by fusion.

The heating element 230 generates heat by applying a current, and the heating element 230 may be formed of a nichrome wire. The heating element 230 is disposed inside the surface contacting the first PC assembly 100 and is disposed adjacent to the sealing body 220 so as to effectively apply heat to the sealing body 220. More preferably, as shown in Figs. 3 and 4, the heating element 230 is preferably disposed at the deep portion of the sealing member 220. Fig. Since the heating element 230 is disposed at the core of the sealing element 220, it is possible to prevent the current from being leaked when the current is applied. Since the arrangement of the heating element 230 is completed by simply disposing the sealing element 220, It can also reduce the effect.

After the nut N is coupled to the stud bold 132 at a predetermined torque when the second PC assembly 200 and the first PC assembly 100 are engaged and tightly engaged with each other, (+) Electrode and (-) electrode are connected to each other to apply a current. Resistance heat of the heating element 230 is generated in accordance with application of a current, and the sealing member 220 is melted. When the sealing member 220 is melted, the electrode connection is released and the tightening of the nut N is completed to the stud bold 132 to complete the connection and tight contact between the second PC assembly 200 and the first PC assembly 100 .

5A to 5D illustrate a manufacturing process of a reinforced pre-assembly column-based HPC column according to the present invention.

First, as shown in FIG. 5A, the four bending round angles 110 and the steel strip 120 form a reinforcing steel pre-assembly column serving as a buried reinforcing structure of the first PC assembly 100.

Next, as shown in FIG. 5B, the steel plate whose surface is unevenly processed is bent in a form to form an inner mold 130.

At this time, a plurality of boss latching grooves 133 are formed at the ends bent in the form of the inner mold 130. The plurality of bending hooking grooves 133 are arranged in a plurality of pairs in the left and right direction and the multi-step arrangement intervals are formed to be equal to the arrangement intervals of the band bars 120.

5C, the inner mold 130 is pushed into the reinforcing bar pre-assembly column formed in FIG. 5A, and the inner mold 130 is fixed by hooking the bent hook groove 133 to the belt reinforcing bar 120 . 5D is an enlarged view of a portion where the bar reinforcement 120 is fixed to the bar fixing groove 133. The band bar 120 is passed through the vertical portion 133b of the bar fixing groove 133, The horizontal part 133a of the hooking groove 133 is fixed to the band bar 120 in a latching manner so that the fixing of the inner mold 130 is performed. The stud bolt 132 is inserted into the vertical portion 133b of the hooking groove 133 and then welded to fix the stud bolt 132 and seal the clearance through which the concrete can flow. At this time, it is preferable that the welding is also performed on the portion where the band bar 120 is attached to the horizontal portion 133a.

5e, the arrangement of the inner mold 130, the stud bolt 132, the first spacer 111 and the second spacer 131, and the completed reinforcing structure are inserted into a mold composed of a side mold and a floor mold, And concrete is poured to complete the manufacture of the first PC assembly 100.

Since the first PC assembly 200 has a flat PC structure, detailed description of the manufacturing process will be omitted.

The embodiments of the present invention disclosed in the present specification and drawings are merely illustrative examples of the present invention and are not intended to limit the scope of the present invention in order to facilitate understanding of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

1000: Reinforced pre-assembly column-based HPC columns
100: first PC assembly
110: Bending round angle
120:
130: Inner mold
200: second PC assembly

Claims (6)

As a HPC column having a hollow shape,
A first PC assembly having a C-shaped cross-section to form three faces of the HPC column with respect to a longitudinal direction of the column; And
And a second PC assembly forming the remaining one side of the HPC column and joined to an open side of the first PC assembly to form the HPC column,
The first PC assembly includes:
Four bending round angles disposed at the corner portions and serving as the main rods of the HPC columns; And
A plurality of band bars arranged in a multi-stage manner surrounding the four bending round angles in a horizontal direction as a buried reinforcing structure of the first PC assembly,
An internal die forming a hollow portion of the HPC column,
Among the four bending round angles,
And two bending round angles disposed at a portion corresponding to the bottom of the C-
A first spacer projecting toward a bottom of the U-shaped cross-section to form a concrete thickness of the first PC assembly,
The inner mold,
And is formed by bending a steel plate whose surface is unevenly processed into a form,
And a second spacer provided on the bottom of the D-shape so as to form a concrete thickness of the first PC assembly, the second spacer protruding toward the bottom of the C-
Wherein the inner die has a stud bolt protruding in an opening direction of the first PC assembly,
The second PC assembly having a coupling hole to be fitted in the stud bend,
By engaging the nut on the stud bold, the engagement and tightening of the second PC assembly and the first PC assembly is performed,
The second PC assembly comprising:
A seal disposed on a surface in contact with the first PC assembly, the seal being fused by high temperature to seal a gap between the second PC assembly and the first PC assembly; And
And a heating element disposed adjacent to the sealing member and generating heat by application of an electric current,
Wherein the sealing member is formed in a long bar shape, and the heating element is disposed at a deep portion of the sealing member. delete delete delete delete delete

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