KR20190061195A - Pillar reinforcement method of parking lot structure for residential use - Google Patents

Abstract

The present invention relates to a method for reinforcing a pillar of a parking lot having a residential piloti structure, capable of preventing breakage of a parking lot pillar even if the ground is shaken. According to the present invention, the method for reinforcing a pillar of a parking lot having a residential piloti structure comprises a base layer making step (S100), a base layer forming step (S200), a vertical pillar making step (S300), a metallic reinforcement body assembly step (S400), and a parking lot pillar forming step (S500).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a parking lot structure for residential use,

More particularly, the present invention provides a method of constructing a parking concrete column of a building having a residential pilotty structure inside a metal reinforcement, thereby preventing damage to the parking pillar due to the rocking of the ground. The present invention has been achieved.

Generally, a building having a pilotty structure supports an upper structure with a plurality of vertical columns installed at a predetermined height from a floor surface of a foundation, secures a ground floor space according to the height of the vertical column, It is used as a traffic space and a parking space, and it is applied to common buildings such as multi-family houses and apartments.

However, the pilotty structure of a common building such as an apartment is basically constructed according to the earthquake-proof design standard, while the vertical column which is the base of the building is fixed to the hard rock bed in the ground and has seismic performance against an external force such as an earthquake, The vertical structure of the house is constructed by pouring and curing the concrete in the steel frame connected with the foundation concrete through the vertical under the condition that there is no earthquake-proof design standard, so that the vertical column easily buckles or breaks in the horizontal and vertical shakes of the ground, There was a problem such as collapse.

In addition, since it is utilized as a parking space of a vehicle in a house, a collision with a vehicle is frequent, and a shock is transmitted to a parking pillar to cause a crack, or a concrete is dropped and an inner reinforcing bar is exposed.

[Patent Document 1]. Korean Registered Patent No. 10-1209363 A concrete block and a seismic retrofit method using the steel of the present invention for an advanced steel column (Registration date: December 06, 2012)

In order to solve the problems of the conventional art as described above, the present invention is intended to prevent the concrete pillars constituting the parking lot structure for residential use from being cured inside the metal reinforcement member, .

It is another object of the present invention to provide a metal reinforcing member, which is a skeleton of a parking pillar, in the interior of a metal reinforcement to prevent a construction period and a time delay due to installation and removal of a mold, .

According to an aspect of the present invention,

A base layer forming step (S100) of arranging vertical reinforcing bars in the longitudinal and transverse directions according to the size of the building and forming a mold along the peripheries;

A base layer forming step (S200) of placing and curing concrete in the mold formed through the base layer forming step (S100);

A plurality of columnar reinforcing bars (21) extending from a foundation reinforcing bar of a foundation layer (10) are vertically arranged and a plurality of retaining rings (30) are integrally formed on the inner circumferential surface of the columnar reinforcing bars A vertical column manufacturing step (S300);

The reinforcing column 41 has a hollow metallic pipe shape and a metal reinforcing member 40 provided with a receiving flange 42 at the lower end of the reinforcing column 41 supports the base flange 10, (S400) of mounting the metal reinforcement member (42) on the base layer (10) by using the anchor bolt (43);

The concrete injection pipe F is inserted into the lower end of the pillar reinforcement 21 through the retaining ring 30 of the pillar reinforcement 21 at the upper part of the metal reinforcement 40, And a parking pillar forming step (S500) in which the concrete is poured into the reinforcing pillar (41) of the metal reinforcement body (40) by pouring the concrete while moving up and down.

The reinforcing pillars 41 of the metal reinforcement member 40 are formed into any one of a circular shape, a square shape, a hexagonal shape, and an octagonal shape with a hollow portion in which the pillar reinforcing bars 21 are accommodated, The upper plate flange 47 having the fitting hole 47a corresponding to the shape of the reinforcing column 41 is inserted into the reinforcing column 41 and the reinforcing column upper end The fixing step S700 is further included.

The parking lot bottom forming step S600 in which the bottom layer 50 is formed so that the front ends of the receiving flange 42 and the anchor bolt 43 of the metal reinforcement 40 are embedded after the parking pillar forming step S500, .

In the vertical column manufacturing step S300, the horizontal horizontal shelf 22 is continuously assembled at regular intervals while surrounding the outer peripheral surface of the vertical pillar 21 in the vertical direction.

According to the present invention, it is possible to prevent damage to the parking pillar due to parking of the vehicle by curing the parking pillar of the residential pilotage structure inside the metal reinforcement, and to prevent damage such as bending or breaking of the parking pillar It is possible to maximize safety.

In addition, it is possible to place concrete directly on the metal reinforcement body without installing a mold for forming a parking pillar, thereby reducing the construction period and increasing the construction efficiency.

1 is a sectional view of a parking lot of a pilotty structure to which the present invention is applied;
Figs. 2A to 2F are sectional views for explaining a parking pillar reinforcement method for a residential pilotty structure according to the present invention. Fig.
3 is a flow chart of a parking pillar reinforcement method for a residential pilotty structure according to the present invention.

The parking lot reinforcing method for a residential pilotty structure provides a method for constructing a parking concrete column of a building having a residential pilotty structure inside a metal reinforcement body so as to prevent breakage of a parking pillar will be.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the attached drawings, with reference to the parking pillar reinforcement method for residential pilots.

1 to 3, the present invention is for reinforcement of a first-floor parking pillar in a residential pilotty structure such as a multi-family building or a multi-family building, wherein the parking pillar is poured and cured in a metal reinforcement, And to prevent damage to the house even when an earthquake occurs.

As shown in FIG. 2A, the foundation reinforcement is longitudinally and transversely aligned with the size of the building through the foundation layer forming step (S100) .

In the base layer forming step S200, the concrete is poured and cured in the manufactured mold, and the molds formed along the periphery are removed. The method for forming the base layer 10 generally includes the steps of constructing multi- And the detailed description thereof will be omitted.

At this time, in order to fix the metal reinforcement member 40 to be described later in the base layer forming step (S100) and the base layer forming step (S200), the fastening end portions of the base layer 10 and the anchor bolts So that the anchor bolts 43 can be installed even after the formation of the base layer 10.

In the base layer forming step S100, as shown in FIG. 2B, a vertical column forming step S300 (see FIG. 2) for extending the base reinforcing bars of the foundation layer 10 and arranging the plurality of column reinforcing bars 21 in the vertical direction In the present invention, a plurality of telescoping rings 30 are integrally formed on the inner circumferential surface of the vertical pillar reinforcement 21 at regular intervals.

That is, a plurality of pillar reinforcing bars (30) are provided at regular intervals in the vertical pillar reinforcement (21) by welding or wire fixing so that the pillar reinforcing bars (21) come into contact with the outer peripheral surface of the retaining ring (30) So that the path of the injection tube F is formed.

In addition, in the vertical column manufacturing step (S300), it is preferable to further increase the rigidity of the column by horizontally assembling the horizontal supports (22) surrounding the outer peripheral surface of the columnar reinforcing bars (21) in the horizontal direction at regular intervals.

In the metal reinforcing member assembling step S400, a reinforcing column 41 having a hollow metal pipe shape as shown in FIG. 2C is inserted into the column reinforcement 21 using a crane device so as to enclose the column reinforcement 21, So that the receiving flange 42 provided at the lower portion of the reinforcing column 41 stably stays on the upper surface of the base layer 10. [

At this time, since the fastening end portion of the anchor bolt 43 is projected on the upper portion of the base layer 10, the fastening end portion is passed through the bolt hole of the receiving flange 42 and then fixed with a nut (not shown) It is possible to prevent the reinforcement member 40 from flowing and fix it stably.

Accordingly, the columnar reinforcing bar 41 is accommodated in the inside of the reinforcing column 41, and the base layer 10 is stably fixed to the supporting flange 42 and the anchor bolt 43, 21 and the horizontal shelter 22 are not in contact with the inner surface of the reinforcing column 41 but are provided with concrete therebetween.

The reinforcement column 41 of the metal reinforcement member 40 has a hollow portion in which the pillar reinforcement 21 is accommodated and is formed into any one of a circular shape, a square shape, a hexagonal shape, and an octagonal shape. It is possible to easily cope with the shape of the pillar reinforcement 21 and the shape of the retaining ring 30 to form the retaining ring 30.

The parking pillar forming step S500 is a step in which the concrete injection pipe F is inserted into the pillar reinforcement 21 through the retaining ring 30 of the pillar reinforcement 21 at the upper portion of the metal reinforcement 40 as shown in Figures 2d and 2e, And then the concrete is poured while the concrete injection pipe F is moved up and down.

That is, the concrete injection pipe F for pouring concrete is guided through the inner diameter of the retaining ring 30 and can be easily inserted up to the lower end, while being lifted from the lower end to the upper end and being inserted through the concrete injection pipe F Concrete is poured and cured to prevent formation of a hollow layer in the concrete, so that a solid column can be formed.

In addition, after the parking pillar forming step S500, forming the two-layer structure through the molding pillar and the parking pillar is a well known step that is generally used, and thus a detailed description thereof will be omitted.

In the present invention, it is also possible to further add the reinforcing column top fixing step (S700) after the parking pillar forming step (S500), and the fitting hole (47a) corresponding to the shape of the reinforcing pillar (41) And the upper plate flange 47 is attached to the bottom surface of the two-layer structure, that is, the ceiling wall of the first layer, with the anchor plate 47 having the upper plate flange 47, Bolts or the like so as to further reinforce the upper end of the reinforcing column 41. As shown in Fig.

In the parking lot bottom forming step (S500), as shown in FIG. 2F, the bottom layer 50 is formed so that the ends of the receiving flange 42 and the anchor bolt 43 of the metal reinforcement 40 are buried S600) may be further included.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

10. Foundation layer 21. Pillar reinforcement
30. Retaining ring 40. Metal reinforcement
41. Reinforcing column 42. Support flange
50. Floor
S100. Base layer production step S200. Base layer forming step
S300. Vertical column making step S400. Metal reinforcement assembly phase
S500. Parking lot pillar formation step S600. Parking lot floor formation step
S700. Securing column top

Claims (4)

A base layer forming step (S100) of arranging vertical reinforcing bars in the longitudinal and transverse directions according to the size of the building and forming a mold along the peripheries;
A base layer forming step (S200) of placing and curing concrete in the mold formed through the base layer forming step (S100);
A plurality of columnar reinforcing bars (21) extending from a foundation reinforcing bar of a foundation layer (10) are vertically arranged and a plurality of retaining rings (30) are integrally formed on the inner circumferential surface of the columnar reinforcing bars A vertical column manufacturing step (S300);
The reinforcing column 41 has a hollow metallic pipe shape and a metal reinforcing member 40 provided with a receiving flange 42 at the lower end of the reinforcing column 41 supports the base flange 10, (S400) of mounting the metal reinforcement member (42) on the base layer (10) by using the anchor bolt (43);
The concrete injection pipe F is inserted into the lower end of the pillar reinforcement 21 through the retaining ring 30 of the pillar reinforcement 21 at the upper part of the metal reinforcement 40, And a parking pillar forming step (S500) of placing the concrete in the reinforcement column (41) of the metal reinforcement body (40) by placing the concrete while lifting and lowering the concrete . The reinforcing column 41 of the metal reinforcement member 40 is formed in a shape of a circle, a quadrangle, a hexagon, or an octagon, having a hollow portion in which the columnar bar 21 is received, An upper plate flange 47 having a fitting hole 47a corresponding to the shape of the reinforcing column 41 is fixed to the ceiling wall of the first floor in a state of being further inserted into the reinforcing column 41 after the column forming step S500 And a step (S700) of fixing the upper end of the reinforced column is further included. The method as claimed in claim 1, further comprising: a parking lot floor forming step (S600) of forming a floor layer (50) so that the front ends of the receiving flange (42) and the anchor bolt (43) of the metal reinforcement (40) The parking lot reinforcing method for a residential pilotty structure is further provided. 2. The method according to claim 1, wherein in the step of constructing the vertical pillar (S300), the horizontally-extending horizontal shelf (22) is continuously assembled at regular intervals while surrounding the outer peripheral surface of the vertical pillar Pillar Reinforcement Method.

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