KR101316717B1 - Size variable pc wall and construction metohd therewith - Google Patents

Abstract

PURPOSE: A size adjustable pc wall and a manufacturing and constructing method thereof are provided to be installed even when the size of an opening does not agree with the size of a PC wall, and to ensure constructability and workability. CONSTITUTION: A size adjustable pc wall is formed by integrating a size adjusting device with a PC wall (100). The size adjusting device comprises an inner cylinder, an outer cylinder, and a top plate (220) which is integrated on the top of the inner cylinder. The outer cylinder is laid on the top of the PC wall so that the top of the cylinder can be exposed. The inner cylinder can move along the inside of the outer cylinder. The PC wall has reinforcing bar assembly (110) in the inside thereof, and a vertical reinforcing bar (111) of the reinforcing bar assembly penetrates the bottom of the outer cylinder to be placed inside the inner cylinder. The inner cylinder is exposed upwards of the outer cylinder as the top plate ascends or descends. [Reference numerals] (AA) Integration; (BB) Front side; (CC) Rear side

Description

Resizable PC wall, construction and construction method {SIZE VARIABLE PC WALL AND CONSTRUCTION METOHD THEREWITH}

The present invention relates to a PC wall that can be adjusted in size, a method of manufacturing and constructing the same. More specifically, in installing the PC wall (precast reinforced concrete wall) in the opening formed by dismantling the constructed wing wall of the building, the PC wall and the opening space having a predetermined size can be secured while securing the bonding performance with the existing structure. The present invention relates to a resizable PC wall that can be installed while easily adjusting the size of the PC wall even if they do not coincide with each other, and a method of manufacturing and constructing the same.

1 illustrates a construction of a conventional opening, for example, a wing wall of a building. In other words, it can be seen that in the building such as the apartment, the outer wall 6 and the inner wall 1 are constructed, and the wing wall 8, the wall, is constructed at the boundary between the inner chamber 2 and the veranda.

At this time, a window (9, window system) is installed on the side of the wing wall 8, the waist wall 10 is installed in the lower window.

Therefore, there is a need to remove and replace the wing wall (8) by the construction, such as replacing the window (9),

Since the wing wall is a reinforced concrete member, openings are formed as much as the space occupied by the wing wall.

These openings are surrounded by windows including bottom plates, columns, beams, and waist walls that make up the existing structure. By installing the final PC wall, it is possible to replace the demolition wing wall.

At this time, the wing wall may be constructed by cast-in-place concrete, but since construction and formwork are required, the construction is inevitably low.

In particular, high floors from the ground will cause many difficulties in installing formwork and clubs.

Thus, a PC wall in which the wall is precast can be manufactured in a factory at a predetermined size, and a method of installing the wall in the opening can be considered.

However, when installing the PC wall in the opening of the site, even if the size of the opening and the size of the PC wall slightly different, there is a problem that the installation is difficult.

This problem is because it is not easy to accurately predict the size of the opening when dismantling the wing wall during the formation of the opening, and even if the size of the PC wall is all made the same, a manufacturing error occurs.

In addition, since the finish of the demolished surface of the existing structure is not smoothly formed after the wing wall is removed, there is a problem that it is not easy to secure the joining performance.

Therefore, there is a lot of inconvenience in installing the PC wall in the opening in the field, and there are cases where defects such as damage to the existing structure and the PC wall may occur when standing in the air.

In addition, the weather may be affected, but if the temperature is high or low, the size of the opening is changed, which makes it difficult to install the PC wall in the opening.

Thus, there is a method of filling an adhesive such as an epoxy resin between the PC wall and the existing structure, but there is a limit in that the filling material such as the adhesive cannot sufficiently secure the bonding performance.

In the present invention, in the PC wall is installed in the opening formed by the removal of the existing structure, such as wing wall,

Even when the size of the PC wall and the size of the opening do not coincide with each other, it is possible to adjust the size of the PC wall so that the PC wall can be installed more easily. It is a technical problem to solve the provision of the adjustable size PC wall, its manufacturing and construction method.

To this end,

The base plate is installed along the inner surface of the opening in the state in which the opening of the building is formed.

The base plate may be installed using a channel member, etc., and the inner surface of the opening according to the demolition of the existing concrete structure is fixed by finishing the inner side of the opening with the base plate in advance because the finishing surface is uneven.

Accordingly, the PC wall, which is a precast wall, is installed on the base plate. Even if the base plate is installed, the size of the base plate may be slightly different for each opening.

The present invention is to be formed in advance on the PC wall size adjustment device to adjust the height of the PC wall,

Fix the PC wall formed with the resizing device to the base plate and then integrate the PC wall to the base plate through the necessary size adjustment, and the resizing device is fixed to the final position to complete the installation of the final PC wall in the opening. .

Filling space (non-contraction concrete / mortar) is filled in the space between base plate and PC wall.

According to the present invention, even when the size of the opening and the size of the PC wall do not match each other, it is possible to install the PC wall more easily, thereby ensuring the workability and workability, it is more economical,

Since the PC wall is installed on the existing concrete structure by using the base plate, it becomes possible to provide a PC wall which can be adjusted in size and its fabrication and construction method to ensure sufficient bonding performance.

1 is a perspective view of a building having a conventional wing wall,
Figure 2a and Figure 2b is an exploded perspective view and an excerpt detail of the PC wall is formed size control apparatus according to the present invention,
Figure 3a and Figure 3b is a perspective view of the action of the PC wall is formed size adjustment apparatus according to the present invention,
Figure 4a and 4b is a flow chart of the manufacturing and construction of the PC wall formed with the size adjusting apparatus according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

[Adjustable PC Wall (100)]

The resizable PC wall 100 is formed with a resizing device 200. For example, the resizing device 200 functions by adjusting the height of the PC wall 100.

First, the PC wall 100 is a reinforced concrete wall manufactured by precasting (PRECAST) at the factory on the basis of replacing the wing wall which is a concrete structure (existing structure) of the existing building. It is made of a wall of rectangular parallelepiped shape with a certain thickness.

In this case, the reinforcing bar assembly 110 may be manufactured to satisfy reinforcing bar details. For example, in consideration of the size (thickness and width) of the PC wall, according to FIG. It can be produced to include a stirrup reinforcing bar 112 to horizontally wrap.

Furthermore, the reinforcing assembly 110 has a lower end fixed to the bottom plate 121, which also functions as a formwork, by welding, and the side plate 122 is set in a vertical plate shape on both sides of the reinforcing assembly 110. Able to know.

The back and front of the reinforcing bar assembly 110 is to set the front and rear plates not shown to be able to pour concrete. Only the front and rear plates are dismantled upon completion of the PC wall 100 to enable reuse.

The final PC wall 100 can be seen that the front and back is finished in concrete and both sides and bottom are finished in a U-shape as a whole as the side plate plate 122 and the bottom plate 121.

At this time, the cylinder 210 constituting the size adjusting device 200 is fixed to the upper end of the vertical reinforcement 111 as shown in FIG.

The cylinder 210 has a cylindrical outer cylinder 211 through which the vertical reinforcement 111 penetrates the center of the bottom; and a cylindrical inner cylinder 212 inserted into the outer cylinder 211 to move up and down. It is formed as.

It can be seen that the inner cylinder 212 is installed so as to penetrate the outer cylinder 211, the vertical reinforcement 111 extending upwardly to be positioned inside (the upper end of the vertical reinforcement is located inside the inner cylinder).

Accordingly, the gasket 213 is installed on the bottom surface of the outer cylinder 211 so that the opening is not formed in accordance with the penetration of the vertical rebar 111 installed to penetrate the gasket 213.

The gasket 213 has a central through hole formed so that the vertical rebar passes through the outer cylinder, and has a function to prevent the concrete from flowing into the concrete when the concrete for the PC wall is placed.

In addition, an injection hole 214 is formed in the inner cylinder 212 to allow an injection material such as epoxy to be injected therein.

In addition, when the upper plate 220 is integrated on the upper surface of the inner cylinder 212 to raise the upper plate 220 upward, the integrated inner cylinder 212 also moves upward together.

Accordingly, the height of the upper plate 220 may be adjusted as much as the height of the inner cylinder 212 and the descending height.

As a result, the upper plate 220 may be installed to be in contact with each other but not connected to the upper surfaces of both side plate 122.

To this end, the reinforcing bar assembly 110 is embedded by placing concrete in the inner space S formed by installing the front and rear plates on the bottom plate 121 and both side plate plates 122, and then placing the concrete C. The height is to be formed up to the height of the upper surface of the outer cylinder (211).

The outer cylinder 211 is embedded in the poured concrete, the position is constrained, but since the inner cylinder 212 is separated from the concrete (C) to raise and lower the inner cylinder 212 together with the upper plate 220 up and down It can be seen that.

The rise and fall of the top plate 220 provides variability with respect to the height of the PC wall provided with the top plate.

If the position of the top plate 220 is fixed, the height (H) of the PC wall 100 is fixed and can not be changed, but if the height can be adjusted as in the present invention, the height of the PC wall is variable within a certain limit (△ H )

Accordingly, the present invention refers to the cylinder 210 and the top plate 220 in particular in the sense that the size change by the height adjustment of the PC wall 100 is called the size control device 200 of the PC wall.

[Operation of PC wall 100 that can be resized]

3A and 3B illustrate the operation of a resizable PC wall 100 of the present invention.

First, the opening A is surrounded by a window including a bottom plate, a column, a beam, and a waist wall constituting the existing structure while removing the wing wall based on the wing wall of the building. By installing), it is possible to replace the demolition wing wall.

That is, the base plate 300 is first installed in the opening A. This opening (A) is a space due to the removal of the wing wall located on the side of the window and the lower wall of the lower part of the window in the building, this space is ultimately in the bottom plate (A1), column (A2), beam (A3) and window (A4) It is surrounded by.

For example, in order to construct a new wing wall as a PC wall, it is necessary to solve the problem of joining a PC wall with an existing structure such as a floor plate A1, a pillar A2, a beam A3, and a window A4.

Therefore, the present invention is to install the base plate 300, such as a channel member to the inner surface of the existing structure using an anchor bolt, etc. in order to solve this bonding problem.

The base plate 300 is first installed, and the base plate 300 is fixed to the PC wall 100 on which the size adjusting device 200 of the present invention is formed.

As a result, by additionally installing the PC wall 100 having the size adjusting device 200 formed on the inner surface of the base plate 300 fixed to the existing structure of the opening, the problem of securing the joint performance by directly connecting the conventional opening and the PC wall is solved. Will be solved.

At this time, the size of the opening based on the inner surface of the base plate 300 is not always constant.

That is, the base plate 300 may use various members depending on the site, and the opening size by the inner surface of the opening is not always constant.

Thus, once the PC wall 100 of the present invention is set on the base plate 300 and its inner surface, the bottom surface of the base plate and the bottom surface of the PC wall are set to be in contact with each other, so there is no problem in installation, and the width of the PC wall is different. Can be installed without significant error because it is manufactured to the expected inner width of the baseplate.

The upper plate 220 constituting the size adjusting device 200 can be seen that is set to be somewhat spaced apart from the upper inner surface of the base plate.

Accordingly, the present invention sets the size adjusting device 200 to raise the top plate 220 so that the top plate 220 and the base plate 300 are in contact with each other.

As a result, the inner plate 212 integrated with the upper plate 220 is also raised to inject the injection material (B1, epoxy resin) into the injection hole 214 of the exposed inner cylinder 212, thereby filling the injection material inside the inner cylinder. If it is, the vertical reinforcing bar 111 installed to penetrate the inner cylinder is embedded by the injection material.

In this embedding process, the inner cylinder 212 may be integrated with the vertical reinforcement 111, and thus, the position of the upper plate plate 220 integrated with the inner cylinder 212 may be fixed together.

Next, filling the space between the top plate 220 and the PC wall 100, such as non-contraction mortar (B2) filling the area where the base plate and the PC wall contact each other, the position of the top plate first Restraint is possible.

[Method of manufacturing and constructing PC wall which can adjust the size of the present invention]

Figures 4a and 4b shows a flow chart of the manufacturing and construction method of resizable PC wall of the present invention.

First, as shown in FIG. 4a, in the existing structure (D) in which the wing wall is formed, the wing wall normally constructed by masonry is demolished.

By this demolition, the opening A, which is an empty space, is exposed and the final wing wall must be restored.

In order to install the PC wall 100 in which the size adjusting device 200 described above is formed in the opening A surrounded by the bottom plate A1, the pillar A2, the beam A3 and the window A4 of the existing structure. do.

PC wall 100 having such a size adjusting device 200 is closed and exposed to the bottom plate 111 and both side plates 112 except for the front and rear, embedded in the concrete (C) of the PC wall It can be seen that the upper plate 220 is integrated in the inner cylinder 212 disposed to allow the lift and the lower from the outer cylinder 211.

PC wall 100 is formed in such a size adjusting device 200 is prepared in advance in the factory to be brought into the site to be installed.

As a result, the base plate 300 described above is first fixed to the opening A using an anchor bolt.

Next, as shown in Figure 4b to set the PC wall 100, the size adjusting device 200 is formed on the base plate 300, the bottom plate 121 is in contact with the bottom plate of the base plate 300. The two side plates 122 are slightly spaced apart from both side inner surfaces of the base plate, and are simply spaced apart from the bottom surface of the upper plate 220 and the upper plate of the base plate 300 by the size adjusting device 200. It is possible to set the PC wall 100 is formed on the base plate 300.

After such setting, the PC wall 100 having the size adjusting device 200 is fixed to the base plate 300 by using fixed welding or anchor bolts to fix the position.

Next, the upper surface of the upper plate 220 is raised to be in contact with the bottom of the upper plate of the base plate 300, the injection material such as epoxy is injected into the injection hole of the inner cylinder 212 exposed by the upper plate is raised to the final interior It will constrain the position of the cylinder.

The filler is injected and hardened between the bottom of the final upper plate 220 and the concrete of the upper surface of the PC wall 100. As a result, the PC wall 100 can be fixedly installed on the base plate 300.

Thus, the present invention can be seen that there is no problem in the installation of openings according to the manufacturing error of the PC wall, and the construction and workability is very excellent, and the PC plate can be fixed to the existing structure using a base plate to sufficiently secure the joining performance. It becomes possible.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: PC wall
110: rebar assembly
111: vertical rebar
112: Stirrup reinforcement
121: base plate
122: both side plate
200: resizing device
210: cylinder
211: outer cylinder
212: inner cylinder
213: gasket
214: injection hole
220: top plate
300: baseplate
A: opening
B1: injection material
B2: Filling Material
C: concrete

Claims (6)

A cylinder embedded in the upper portion of the PC wall, the outer cylinder being embedded and fixed to expose the upper surface of the cylinder on the upper surface of the PC wall; and an inner cylinder installed to be movable along the inside of the outer cylinder; And an upper plate plate integrated on the upper surface of the inner cylinder;
As the reinforcing bar assembly is formed therein, the vertical reinforcing bar of the reinforcing bar assembly is formed integrally with the PC wall disposed to penetrate the bottom of the outer cylinder to be located inside the inner cylinder.
Resizable PC wall, characterized in that the inner cylinder is exposed above the outer cylinder by raising or lowering the top plate. The method of claim 1,
The PC wall is
Bottom plate;
Both side plates formed in the form of a vertical plate on both side ends of the bottom plate;
Reinforcing bar assembly including; a vertical reinforcing bar is fixed to the bottom plate; and a stirrup reinforcing the vertical reinforcing bar;
It includes; and the concrete placed in the interior space (S) formed by the bottom plate, both side plates and poured to bury the reinforced assembly;
The concrete (C) is adjustable to the PC wall size, characterized in that the outer cylinder is placed up to the height of the upper surface of the outer cylinder is exposed to the upper surface of the PC wall. 3. The method according to claim 1 or 2,
The bottom surface of the outer cylinder is finished with a gasket and extends so that the vertical rebar penetrates the gasket and is positioned inside the inner cylinder via the outer cylinder.
Resizable PC wall, characterized in that by injecting the injection material formed in the exposed inner cylinder to the inner cylinder and the vertical reinforcement to be integrated with each other, the position of the top plate is fixed. The method of claim 3, wherein
In the state that the position of the top plate is fixed, the space between the upper surface of the PC wall and the top plate is filled with a filler further characterized in that to further fix the position of the top plate plate. Openings in existing structures,
The base plate is fixedly installed along the inner surface of the opening,
An outer cylinder embedded in the upper surface of the PC wall, the outer cylinder being embedded and fixed to expose the upper surface to the upper surface of the PC wall; A cylinder including; an inner cylinder installed to be movable along the inside of the outer cylinder; And an upper plate plate integrated on the upper surface of the inner cylinder; a reinforcement assembly is formed therein as a reinforcement concrete member, and vertical reinforcement of the reinforcing assembly penetrates the bottom of the outer cylinder to extend inside the inner cylinder. Set the PC wall arranged so as to the inner side of the base plate,
The top plate is in contact with the base plate by adjusting the installation position of the top plate of the size adjusting device according to the size of the inner side of the base plate,
Injecting the injection material into the injection hole of the inner cylinder exposed by the raised top plate to integrate the vertical reinforcement and the inner cylinder,
And a filling method in the spaced space between the raised upper plate and the upper surface of the PC wall. 5. The method of claim 5,
The base plate is a frame structure made of a channel or a shaped steel member,
The filler material is a resin,
The filler is a sizeable PC wall manufacturing and construction method characterized in that the non-condensed concrete or mortar.

Images