KR20200050154A - Vertical concrete structure and method for constructing the same - Google Patents

Abstract

The present invention relates to a vertical concrete structure and a construction method thereof. The vertical concrete structure of the present invention includes: a concrete foundation; a vertical reinforced structure in which a reinforcing bar is reinforced in the concrete foundation in a vertical direction; a pair of half outer concrete walls surrounding the vertical reinforced structure; a fastening unit fastening the pair of half outer concrete walls in a horizontal direction; and a concrete core filled in the pair of half outer concrete walls. According to the present invention, construction is easy and simple and a construction period is shortened.

Description

Vertical concrete structure and its construction method {VERTICAL CONCRETE STRUCTURE AND METHOD FOR CONSTRUCTING THE SAME}

The present invention relates to a vertical concrete structure and its construction method.

In general, in order to construct a vertical concrete structure such as alternation and pier of a pillar or bridge of a building, a reinforced structure is installed in a vertical direction by reinforcing the reinforcing bars required at the construction location, and the shape of the vertical concrete structure to be constructed around the reinforced structure. After installing the formwork so that the interior space of the same shape is formed, and pouring and curing concrete in the interior space formed by the formwork, the formwork is removed and the concrete structure is constructed.

The formwork used to construct the concrete structure is composed of a plurality of panels and connecting means connecting the panels to each other. In the conventional panel, wood plywood was mainly used, but it is easily damaged and recently, a steel panel has been used. However, when installing the formwork by assembling the steel panels, there is a disadvantage in that workability is deteriorated because the weight is heavy and difficult to handle. In addition, when constructing a vertical concrete structure, the height is set while pouring the foundation part with concrete, continuously installing reinforcing bars in the vertical direction, and installing the formwork to wrap the reinforcing bars and repeatedly pouring and curing the concrete inside the formwork. As the concrete structure is constructed up to now, it is cured every time the concrete is poured, so the construction period is prolonged. Due to these problems, a precast concrete construction method is currently being developed.

In the Republic of Korea Patent No. 10-0860591 (2008. 09. 26. announcement date) (hereinafter referred to as prior art), the concrete base is spaced in the circumferential direction of a virtual circle, and a number of tension bars are installed and the bars are The ring-shaped circular PC blocks provided with through holes corresponding to the same are stacked in the vertical direction, and the steel bars are respectively inserted into the through holes of the circular PC blocks, and the concrete is stacked inside the vertical stack where the circular PC blocks are stacked. A technique for constructing a vertical concrete structure by pouring is disclosed. However, the prior art has a complicated and difficult problem of stacking circular PC blocks since a plurality of steel bars which are tension materials are installed on the concrete base and each through hole of the circular PC blocks is combined with each of the steel bars.

An object of the present invention is to provide a vertical concrete structure and a construction method that is easy and simple to construct and shortens the construction period.

In order to achieve the object of the present invention as described above, the concrete foundation; A vertical reinforcing bar structure in which reinforcing bars are vertically reinforced to the concrete foundation; A pair of outer half concrete walls surrounding the vertical reinforcement structure; A fastening unit for fastening the pair of outer half concrete walls in a horizontal direction; A vertical concrete structure including; a concrete core filled inside the pair of half outer concrete walls is provided.

It is preferable that the cross-sectional shape of the half-sided concrete wall is one of a shape of a desza, a semi-circular shape having a uniform thickness, a semi-elliptical shape having a uniform thickness, or a half hexagonal shape.

Preferably, the fastening unit includes a male threaded portion having male threads formed at both ends, and includes a pair of stud bolts penetrating a pair of half outer concrete walls, and fixing nuts fastened to both ends of the stud bolt.

In addition, the step of constructing a concrete foundation; Reinforcing the reinforcement in the vertical direction on the concrete foundation to install a vertical reinforcement structure; Positioning a pair of half outer concrete walls to surround the vertical reinforcement structure on the concrete foundation; Fastening the pair of outer half concrete walls in a horizontal direction with a fastening unit; Provided is a method for constructing a vertical concrete structure including; pouring and curing concrete in an inner space formed by the pair of outer half concrete walls.

In addition, the step of constructing a concrete foundation; Reinforcing the reinforcement in the vertical direction on the concrete foundation to install a vertical reinforcement structure; Positioning a pair of half outer concrete walls to surround the vertical reinforcement structure on the concrete foundation; Fastening the pair of outer half concrete walls in a horizontal direction with a fastening unit; Placing a pair of half outer concrete walls on the pair of half outer concrete walls to wrap the vertical reinforcing structure and repeating the installation of the unit wall fastening with a fastening unit to a set height; Provided is a method for constructing a vertical concrete structure, including; pouring and curing concrete in an inner space of a chuck layer in which the pair of half outer concrete walls are vertically stacked.

It is preferable that the cross-sectional shape of the half-sided concrete wall is one of a shape of a desza, a semi-circular shape having a uniform thickness, a semi-elliptical shape having a uniform thickness, or a half hexagonal shape.

Preferably, the fastening unit includes a male threaded portion having male threads formed at both ends, and includes a pair of stud bolts penetrating a pair of half outer concrete walls, and fixing nuts fastened to both ends of the stud bolt.

The present invention installs a pair of half outer concrete walls to wrap a vertical reinforcing structure on a concrete foundation, fastens the pair of half outer concrete walls in a horizontal direction with a fastening unit, and is formed inside a pair of half outer concrete walls. Construction is performed by pouring concrete into the space, which makes construction simple and easy, shortening the construction period.

In addition, the present invention is a pair of half outer concrete wall is positioned in such a way that it surrounds the vertical reinforcing structure, a pair of half outer concrete walls are fastened as fastening units and a concrete core filled in the inner space of the pair of half outer concrete walls. The structure is sturdy because it is integrally formed with a pair of outer half concrete walls.

1 is a front view showing an embodiment of a vertical concrete structure according to the present invention,
Figure 2 is a plan view showing an embodiment of a vertical concrete structure according to the invention,
3 is a plan view showing a state in which the H-beam is provided in the vertical reinforcement structure in one embodiment of the vertical concrete structure according to the present invention,
Figure 4 is a perspective view showing a first example of a pair of outer half concrete wall constituting one embodiment of the vertical concrete structure according to the present invention,
Figure 5 is a plan view showing a straight projection provided on a pair of half outer concrete wall constituting an embodiment of the vertical concrete structure according to the present invention,
Figure 6 is a cross-sectional plan view showing a second example of a pair of outer half concrete wall constituting an embodiment of the vertical concrete structure according to the present invention,
Figure 7 is a cross-sectional plan view showing a third example of a pair of outer half concrete wall constituting one embodiment of the vertical concrete structure according to the present invention,
8 is a cross-sectional plan view showing another example of the third example of the pair of outer half concrete walls constituting one embodiment of the vertical concrete structure according to the present invention,
9 is a cross-sectional plan view showing a fourth example of a pair of outer half concrete walls constituting an embodiment of the vertical concrete structure according to the present invention,
10 is a flow chart showing a first embodiment of a method for constructing a vertical concrete structure according to the present invention,
11A to 11D are front views sequentially showing a construction process for a first embodiment of a method for constructing a vertical concrete structure according to the present invention,
12 is a flow chart showing a second embodiment of the vertical concrete structure construction method according to the present invention,
13A to 13D are front views sequentially showing a construction process for a second embodiment of a method for constructing a vertical concrete structure according to the present invention.

Hereinafter, an embodiment of the vertical concrete structure and its construction method according to the present invention will be described with reference to the accompanying drawings.

1 is a front view showing an embodiment of a vertical concrete structure according to the present invention. 2 is a plan view showing an embodiment of a vertical concrete structure according to the present invention.

1, 2, an embodiment of the vertical concrete structure according to the present invention, the concrete base 10, the vertical reinforcement structure 20, a pair of half outer concrete wall 30, the fastening unit ( 40), a concrete core (50).

The concrete foundation 10 is constructed by laying the foundation reinforcement 11 on the ground where the vertical concrete structure will be installed and pouring concrete.

The vertical reinforcing bar structure 20 is a reinforcing bar reinforced in the vertical direction to the concrete base 10. The lower end of the vertical reinforcement structure 20 is preferably connected to the foundation reinforcement 11 of the concrete foundation 10. The vertical reinforcing structure 20 includes vertical reinforcing bars 21 reinforced to be positioned in the vertical direction, and a reinforcing bar 22 connecting the vertical reinforcing bars 21 in the horizontal direction, and the reinforcing bar 22 is vertical The reinforcing bars 21 are installed at intervals in the longitudinal direction. The vertical reinforcing bars 21 of the vertical reinforcing bar structure 20 are reinforced in various forms according to the cross-sectional shape of the vertical concrete structure, and the shape of the reinforcing bar 22 is determined according to the reinforcing shape of the vertical reinforcing bars 21. When the cross-sectional shape of the vertical concrete structure is square, the vertical reinforcing bars 21 are reinforced to form a square, and the strip reinforcing bars 22 are also formed in a square shape. When the cross-sectional shape of the vertical concrete structure is circular, the vertical reinforcing bars 21 are reinforced to form a circular shape, and the strip reinforcing bars 22 are also formed in a circular shape. As shown in Figure 3, it is preferable that the H-beam 60 is located in the vertical direction inside the vertical reinforcing structure 20. The lower end of the H-beam 60 is in a state embedded in the concrete base (10).

A pair of half outer concrete walls 30 are located on the concrete foundation 10 to surround the vertical reinforcement structure 20. As shown in Fig. 4, it is preferable that the half outer concrete wall 30A has a set length and a uniform cross-sectional shape. In order to increase the contact area with the concrete core 50 on the inner surface of the half outer concrete wall 30A, as shown in FIG. 5, it is preferable that straight protrusions 31 having a length in the longitudinal direction are provided. It is preferable that the cross section of the straight projection 31 is uniform in the longitudinal direction. The straight protrusions 31 are preferably formed at intervals in the transverse direction of the half outer concrete wall 30. As a first example of the half-outside concrete wall 30, the cross-sectional shape of the half-outside concrete wall 30A is a de-shaped shape. When the cross-sectional shape of the half-side concrete wall 30A is in the shape of a deja-ja, when a pair of half-side concrete walls 30 wrap around the vertical reinforcing structure 20, the pair of half-side concrete walls 30 are viewed in plan view It becomes a square ring shape and becomes a square tube shape with an inner space. As a second example of the half-side concrete wall 30A, as shown in FIG. 6, the cross-sectional shape of the half-side concrete wall 30A is a semicircular shape. When the cross-sectional shape of the half outer concrete wall 30 is a semi-circular shape, when a pair of half outer concrete walls 30 wrap around the vertical reinforcing structure 20, the pair of half outer concrete walls 30 are viewed in plan view It becomes a circular ring shape and becomes a cylindrical tube shape having an internal space. As a third example of the half outer concrete wall 30, as shown in FIG. 7, the cross-sectional shape of the half outer concrete wall 30A is a semi-elliptical shape. When the cross-sectional shape of the half outer concrete wall 30A is a semi-elliptical shape, when a pair of half outer concrete walls 30 wrap around the vertical reinforcing structure 20, the pair of half outer concrete walls 30 are viewed in a plane. When it becomes an elliptical ring shape, it becomes an elliptical tube shape having an inner space. The half outer concrete wall 30A may be of a half track type, as shown in FIG. As a fourth example of the half outer concrete wall 30A, as shown in FIG. 9, the cross-sectional shape of the half outer concrete wall 30A is a half hexagonal shape. When the cross-sectional shape of the half outer concrete wall 30A is a semi-hexagonal shape, when a pair of half outer concrete walls 30 wrap around the vertical reinforcing structure 20, a pair of half outer concrete walls 30 are viewed in a plane. When it becomes a hexagonal ring shape, it becomes a hexagonal tube shape having an internal space. The cross-sectional shape of the half outer concrete wall 30A can be variously implemented.

It is preferable that a sealant is provided on two surfaces where a pair of half outer concrete walls 30 are in contact with each other, so that the two surfaces are sealed.

The fastening unit 40 fastens a pair of half outer concrete walls 30 in the horizontal direction. As an example of the fastening unit 40, the fastening unit 40 is provided with a male screw thread portion having male threads formed at both ends thereof, a stud bolt 41 penetrating through the pair of half outer concrete wall 30, and the stud bolt It includes fixing nuts 42 that are fastened to both ends of the (41). A pair of half outer concrete walls 30 are provided with through holes, respectively, and a pair of half outer concrete walls with a stud bolt 41 penetrated through the through holes of the pair of half outer concrete walls 30 By fastening the fixing bolts 42 to the male threaded portions provided at both ends of the stud bolts 41 protruding out of the through-holes of the 30, the pair of half outer concrete walls 30 are coupled so that they do not open.

The concrete core 50 is filled and cured in the inner space of the pair of outer half concrete walls 30. The concrete core 50 is integrally formed with a pair of half outer concrete walls 30, and a vertical reinforcing structure 20 is located inside the concrete core 50.

10 is a flow chart showing a first embodiment of a method for constructing a vertical concrete structure according to the present invention. 11A to 11D are front views sequentially showing a construction process for a first embodiment of a method for constructing a vertical concrete structure according to the present invention.

As shown in FIG. 10, in the first embodiment of the method for constructing a vertical concrete structure according to the present invention, a step (S1) of constructing a concrete foundation 10 proceeds. The concrete foundation 10 is constructed by laying foundation reinforcement on the ground where the vertical concrete structure will be installed and pouring concrete (see FIG. 11A).

After the concrete foundation 10 is constructed, the step S2 of installing the vertical reinforcement structure 20 by reinforcing the reinforcement in the vertical direction to the concrete foundation 10 is performed (see FIG. 11B). The vertical reinforcement structure 20 is to reinforce the reinforcing bars in the vertical direction to the concrete base 10. The lower end of the vertical reinforcement structure 20 is reinforced to be connected to the foundation reinforcement 11 of the concrete foundation 10. The vertical reinforcing structure 20 includes vertical reinforcing bars 21 reinforced to be positioned in the vertical direction, and a reinforcing bar 22 connecting the vertical reinforcing bars 21 in the horizontal direction, and the reinforcing bar 22 is vertical The reinforcing bars 21 are installed at intervals in the longitudinal direction. The vertical reinforcing bars 21 of the vertical reinforcing bar structure 20 are reinforced in various forms according to the cross-sectional shape of the vertical concrete structure, and the shape of the reinforcing bar 22 is determined according to the reinforcing shape of the vertical reinforcing bars 21. For example, when the cross-sectional shape of the vertical concrete structure is square, the vertical reinforcing bars 21 are reinforced to form a square, and the reinforcing bar 22 is also bent into a square. When the cross-sectional shape of the vertical concrete structure is circular, the vertical reinforcing bars 21 are reinforced to form a circular shape, and the stiffeners 22 are also bent in a circular shape. The H-shaped steel 60 may be provided in the vertical direction in the vertical reinforcing structure 20. At this time, the H-beam 60 is located inside the strip reinforcing bars 22 and the lower end of the H-beam 60 is positioned to be embedded in the concrete base 10.

After the vertical reinforcement structure 20 is installed, a step S3 of positioning a pair of half outer concrete walls 30 to surround the vertical reinforcement structure 20 on the concrete foundation 10 is performed (see FIG. 11C). . It is preferable that the half outer concrete wall 30 has a set length and a uniform cross-sectional shape. A closed inner space in which only the upper side is opened is formed inside the pair of half outer concrete walls 30 by positioning the pair of half outer concrete walls 30 to surround the vertical reinforcing structure 20. The transverse cross-sectional shape of the half outer concrete wall 30 may be one of a deguza shape having a uniform thickness, a semi-circular shape having a uniform thickness, a semi-elliptical shape having a uniform thickness, a half-track shape, or a half hexagonal shape. . When the cross-sectional shape of the half-outside concrete wall 30 is in the shape of a deja-ja, the pair of half-outside concrete walls 30 becomes a square tube shape in a state surrounding the vertical reinforcement structure 20, and the half-outside concrete wall 30 When the cross-sectional shape is a semi-circular shape, the pair of half outer concrete walls 30 becomes a circular tube shape in a state surrounding the vertical reinforcing bar structure 20, and when the cross-sectional shape of the half outer concrete wall 30 is a semi-elliptical shape A pair of half outer concrete walls 30 are formed in an oval shape in a state surrounding the vertical reinforcement structure 20, and when the cross-sectional shape of the half outer concrete wall 30 is a semi-track shape, a pair of half outer concrete walls 30 is a track-shaped tube shape in a state surrounding the vertical reinforcement structure 20, and when the cross-sectional shape of the half outer concrete wall 30 is a semi-hexagonal shape, a pair of half outer concrete walls 30 is a vertical reinforcement ball Water (20) is a hexagonal tube shape in the wrapping condition.

It is preferable that straight protrusions 31 having a length in the longitudinal direction are provided on the inner surface of the half outer concrete wall 30. It is preferable that the cross section of the straight projection 31 is uniform in the longitudinal direction. The straight protrusions 31 are preferably formed at intervals in the transverse direction of the half outer concrete wall 30. When the straight protrusions 31 are formed on the inner surface of the half outer concrete wall 30, the band reinforcing bars 22 of the vertical reinforcing structure 20 are supported in contact with the straight protrusions 31, and the bar reinforcing bars 22 are formed. In addition to maintaining a gap between the inner surfaces of the half outer concrete wall 30, the concrete is poured into the inside of the half outer concrete wall 30 to increase the contact area in a cured state.

It is preferable to place the vertical reinforcing structure 20 with a pair of half outer concrete walls 30 and seal with a sealant on the two surfaces where the pair of half outer concrete walls 30 contact each other.

Step (S4) of positioning a pair of half outer concrete walls 30 to surround the vertical reinforcing structure 20 and then fastening the pair of half outer concrete walls 30 in the horizontal direction with a fastening unit 40 Proceed (see FIG. 11D). As an example of the fastening unit 40, the fastening unit 40 is provided with a male screw thread portion having male threads formed at both ends thereof, a stud bolt 41 penetrating through the pair of half outer concrete wall 30, and the stud bolt It includes fixing nuts 42 that are fastened to both ends of the (41). The pair of half outer concrete walls 30 are provided with through holes, respectively, and the pair of half outer concrete walls 30 have a stud bolt 41 penetrated in the horizontal direction through a pair of half By fastening the fixing bolts 42 to the male threaded portions provided at both ends of the stud bolts 41 protruding outside the through-holes of the outer concrete wall 30, the pair of half outer concrete walls 30 are joined so that they do not open. .

Step (S5) is performed by fastening the concrete to the inner space formed by the pair of half outer concrete walls 30 after fastening the pair of half outer concrete walls 30 with the fastening unit 40. The concrete filled in the inner space of the pair of outer half concrete walls 30 is cured to form the concrete core 50. The concrete core 50 is integrally formed with a pair of half outer concrete walls 30, and a vertical reinforcing structure 20 is located inside the concrete core 50.

12 is a flowchart illustrating a second embodiment of a method for constructing a vertical concrete structure according to the present invention. 13A to 13D are front views sequentially showing a construction process for a second embodiment of a method for constructing a vertical concrete structure according to the present invention.

The second embodiment of the method for constructing a vertical concrete structure according to the present invention proceeds in the first embodiment when the height of the pair of half outer concrete walls 30 is lower than the set height of the vertical concrete structure.

As shown in FIG. 12, in the second embodiment of the method for constructing a vertical concrete structure according to the present invention, first, a step (S11) of constructing a concrete foundation 10 proceeds (see FIG. 13A). These steps are the same as those performed in the first embodiment.

After the concrete foundation 10 is constructed, the step S12 of installing the vertical reinforcement structure 20 by reinforcing the reinforcement in the vertical direction to the concrete foundation 10 is performed (see FIG. 13B). These steps are the same as those performed in the first embodiment.

After the vertical reinforcement structure 20 is installed, a step (S13) of positioning a pair of half outer concrete walls 30 to surround the vertical reinforcement structure 20 on the concrete foundation 10 is performed (see FIG. 13C). . These steps are the same as those performed in the first embodiment.

Positioning the pair of half outer concrete walls 30 to surround the vertical reinforcing structure 20 and then fastening the pair of half outer concrete walls 30 in the horizontal direction with the fastening unit 40 (S14). Proceeds (see FIG. 13C). These steps are the same as those performed in the first embodiment.

A pair of half outer concrete walls 30 are fastened with a fastening unit 40 and then a pair of half outer concrete walls 30 are wrapped around the pair of half outer concrete walls 30. ) And the step (S15) of repeating the installation of the unit wall to be fastened with the fastening unit 40 to a set height is performed (see FIG. 13D). That is, another pair of second half outer concrete walls 30 is placed on the pair of first half outer concrete walls 30 placed on the concrete base 10, and the pair of second half outer concrete walls 30 ) Is fastened to the fastening unit 40, and another pair of third half outer concrete walls 30 is placed on the pair of second half outer concrete walls 30 and a pair of third half outer concrete walls. The process of fastening the wall 30 with the fastening unit 40 is repeated to a set height.

After repeating the installation of the unit wall to a set height, a step (S16) of pouring and curing concrete in the inner space of the chuck layer in which the pair of half outer concrete walls 30 are stacked in the vertical direction is performed. The concrete cured by being poured into the interior space of the laminate constitutes the concrete core 50. The concrete core 50 is formed integrally with the laminate, and the vertical reinforcing structure 20 is located inside the concrete core 50.

Hereinafter, the action and effect of the vertical concrete structure and its construction method according to the present invention.

The present invention installs a pair of half outer concrete walls 30 to surround the vertical reinforcement structure 20 on the concrete foundation 10, and horizontally couples the pair of half outer concrete walls 30 to the fastening unit 40. Since it is fastened in the direction and the concrete is poured into the inner space formed inside the pair of outer half concrete walls 30, the construction is simple and easy to shorten the construction period.

In addition, in the present invention, a pair of half outer concrete walls 30 are fastened with a fastening unit 40 while a pair of half outer concrete walls 30 are positioned to surround the vertical reinforcing structure 20. The concrete core 50 filled in the inner space of the half outer concrete wall 30 is integrally formed with the pair of half outer concrete walls 30 so that the structure is solid.

10; Concrete foundation 20; Vertical reinforcement structure
30; A pair of outer half concrete walls 40; Fastening unit
50; Concrete core

Claims (7)

Concrete foundation;
A vertical reinforcing bar structure in which reinforcing bars are vertically reinforced to the concrete foundation;
A pair of outer half concrete walls surrounding the vertical reinforcement structure;
A fastening unit for fastening the pair of outer half concrete walls in a horizontal direction;
Vertical concrete structure comprising a; concrete core filled in the pair of half outer concrete wall. The vertical concrete structure according to claim 1, wherein the cross-sectional shape of the half-sided concrete wall is one of a dice shape, a semicircle shape with a uniform thickness, a semi-ellipse shape with a uniform thickness, or a half hexagonal shape. According to claim 1, The fastening unit is provided with a male screw thread portion is formed on each end of each male thread, and includes a pair of stud bolts passing through the outer half of the concrete wall, and fixing nuts respectively fastened to both ends of the stud bolt Vertical concrete structure. Constructing a concrete foundation;
Reinforcing the reinforcement in the vertical direction on the concrete foundation to install a vertical reinforcement structure;
Positioning a pair of half outer concrete walls to surround the vertical reinforcement structure on the concrete foundation;
Fastening the pair of outer half concrete walls in a horizontal direction with a fastening unit;
A method of constructing a vertical concrete structure comprising; pouring concrete into an inner space formed by the pair of half outer concrete walls and curing the concrete. Constructing a concrete foundation;
Reinforcing the reinforcement in the vertical direction on the concrete foundation to install a vertical reinforcement structure;
Positioning a pair of half outer concrete walls to surround the vertical reinforcement structure on the concrete foundation;
Fastening the pair of outer half concrete walls in a horizontal direction with a fastening unit;
Placing a pair of half outer concrete walls on the pair of half outer concrete walls to surround the vertical reinforcing structure and repeating the installation of a unit wall fastened with a fastening unit to a set height;
A method of constructing a vertical concrete structure, including; pouring and curing concrete in the inner space of the chuck layer in which the pair of outer half concrete walls are stacked in the vertical direction. The method according to claim 4 or 5, wherein the half-sided concrete wall has a cross-sectional shape that is one of a de-shape shape, a semi-circular shape with a uniform thickness, a semi-elliptical shape with a uniform thickness, or a half-hexagonal shape. How to construct a vertical concrete structure. According to claim 4 or claim 5, wherein the fastening unit is provided with a male thread portion formed with male threads on both ends, a stud bolt penetrating through a pair of half outer concrete walls, and fixed to each end of the stud bolt Method for constructing a vertical concrete structure including nuts.

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