KR102400565B1 - Reinforcing bar using Precast Concrete Panels and Construction Method for this same - Google Patents

Abstract

The present invention relates to a rebar network using a precast concrete panel and a construction method thereof, wherein a rebar network (basic rebar network) is manufactured in a factory, a precast concrete member is manufactured in the factory, and a rebar network is formed on the precast concrete member to manufacture the precast concrete member so as to construct the rebar network just by transporting and placing a rebar network assembly to the site, thereby providing excellent quality management, and minimizing on-site work. According to the present invention, the rebar network using the precast concrete panel comprises: the precast concrete panel (10); a rebar network (20) surrounding the precast concrete panel; a connection rebar (14) buried in the precast concrete panel and bonded with the rebar network; and a settlement unit (12) formed on a bottom unit of the precast concrete panel by protruding downward with a certain distance from the precast concrete panel, and securing a space for placing concrete as the bottom unit of the rebar network is buried in the bottom unit of the precast concrete panel. Accordingly, the precast concrete panel, the rebar network, and the on-site concrete are synthesized.

Description

Reinforcing bar using Precast Concrete Panels and Construction Method for this same}

The present invention relates to a precast concrete structure, and more particularly, to a reinforcing bar network using a precast concrete panel that has excellent quality control and minimizes on-site work by assembling a PC and rebar mesh in a factory, and a method for constructing the same .

This section provides background information related to the content of the present application and is not necessarily prior art.

A general reinforced concrete structure is constructed through a curing process after reinforcing reinforcement, installing a formwork, and pouring concrete into the formwork.

The construction methods of such reinforced concrete structures include the cast-in-place method and the precast concrete method. Classification by type is divided into Ramen structures (culverts, underpasses, storage tanks, Ramen bridges, etc.) and cantilever structures (retaining walls, bridges, soundproof wall foundations, etc.). can be distinguished.

Reinforced concrete structures include a lower foundation regardless of their shape, and the lower foundation is also divided into cast-in-place and precast concrete types. Since the construction period is long and uniform quality control is difficult, it is also difficult for the upper structure (wall) to stand on its own. Therefore, it is difficult to maintain strong connection strength with the upper structure.

As a patent document that can confirm the background technology of the present invention, Registered Patent No. 10-1301076 is a wall structure construction method using precast front and back walls. As the construction of the base plate concrete requires the work of reinforcing numerous reinforcing bars and installing the formwork at the site, there is a problem in that the construction period is long and the construction cost is increased. Even if it does, it is difficult for the wall to stand on its own safely, and due to the on-site situation divided into professional manpower for each construction (reinforcing reinforcement, formwork installation, wall installation, etc.), a professional manpower for each construction is required. This may result in large losses in labor costs.

Registered Patent No. 10-1301076

The present invention is to solve the above-mentioned problems, and a rebar network (basic reinforcing bar network) is produced in a factory, but a precast concrete member is manufactured at the factory, and the reinforcing bar network is formed in the precast concrete member. The purpose of this is to provide a reinforcing bar network using precast concrete panels and a construction method thereof that can be constructed only by transporting the rebar mesh assembly to the site and then placing it on the site, so that the quality control is excellent and the on-site work is minimized.

A reinforcing bar network using a precast concrete panel according to the present invention, a precast concrete panel; a reinforcing bar network surrounding the precast concrete panel; a connecting reinforcing bar embedded in the precast concrete panel and bound to the reinforcing bar network; The precast including a seating part protruding downward at a certain distance from each other at the bottom of the precast concrete panel to secure a space in which the concrete is poured while the bottom of the rebar mesh is reinforced at the bottom of the precast concrete panel It is characterized in that concrete panels, reinforcing bars, and cast-in-place concrete are synthesized.

According to the reinforcing bar network using the precast concrete panel and the construction method thereof according to the present invention, the precast concrete panel is manufactured in a factory and the rebar network is bound to the precast concrete panel in the factory, and the assembly is transported to the construction site and then mounted. Because construction is possible with simple work, product quality control is very easy, and the structure can be built solidly by maintaining uniform quality. Significantly shortens the period (conventional site casting takes 2 months, the present invention expects to take 1/2 month), thereby reducing construction costs.

In addition, since there is no need for carpenters, scaffolding, etc. due to the simplification of on-site work, site management is easy, and there is an effect of reducing safety accidents as the number of workers is reduced.

In addition, since materials such as formwork and scaffolding are not used, there is an effect of reducing waste of these materials, reducing waste treatment costs and reducing environmental pollution.

1 to 3 are a side view, a plan view, and a bottom view of a reinforcing bar network using a precast concrete panel according to the present invention, respectively.
4 and 5 are plan views showing an example of a precast concrete panel applied to a reinforcing bar network using a precast concrete panel according to the present invention, respectively.
6 to 9 are respectively a perspective view, a side view, a plan view, and a bottom view showing an example of a precast concrete panel applied to a reinforcing bar network using a precast concrete panel according to the present invention.
10 and 11 are respectively a front view and a side view showing an example in which a precast wall is connected to a reinforcing bar network using a precast concrete panel according to the present invention.
12 to 15 are construction process diagrams of a ramen structure using a reinforcing bar network using a precast concrete panel according to the present invention.
16 is a cross-sectional view of a cantilever structure using a reinforcing bar network using a precast concrete panel according to the present invention.
17 to 20 are each a modified example of a reinforcing bar network using a precast concrete panel according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

1 to 3, the reinforcing bar network 100 using the precast concrete panel according to the present invention is largely a precast concrete panel 10 (hereinafter abbreviated as 'precast panel') and a reinforcing bar network ( 20) is made.

The precast panel 10 is a reinforced concrete (or concrete) structure, and its shape is a shape provided with one or more holes penetrating vertically or a grid type that forms one or more holes when connected to each other, and the holes are cast-in-place concrete is a space to be poured, FIG. 4 is an example composed of a combination of two transverse members and three longitudinal members, and FIG. 5 is an exemplary view composed of a combination of one transverse member and three longitudinal members .

As shown in FIGS. 6 to 9 , the precast panel 10 is based on a precast body 11 , and here a seating portion 12 , a PC fixing frame 13 , and a connecting reinforcing bar 14 . ) is included.

The precast body 11 is formed in a lattice shape forming one or more holes through a combination of the transverse member 11-1 and the longitudinal member 11-2, and in this case, the transverse member 11-1 ) and the longitudinal member 11-2, each end is more protruding, and precast concrete (reinforcing bars) are manufactured in a factory with the same thickness (height) or different thicknesses (height) as a whole.

The seating portion 12 is for securing a pouring space at the bottom of the precast body 11 , and is preferably an integral type projecting downwardly from the bottom of the precast body 11 .

The seating portion 12 is spaced apart from each other at a certain distance to form a space between neighboring ones, and is formed at the intersection of the lateral member 11-1 and the longitudinal member 11-2, which has greater rigidity than other places. to position

The height of the seating portion 12 is such that the reinforcing bar network 20 does not touch the discarded base portion 1 to be described later.

The seating part 12 is also possible in another way (different material / assembly type of the same material) to perform the above-mentioned function.

In the present invention, both the lower foundation and the upper slab can be used in the Ramen structure, and when used as a lower foundation, the seating portion 12 is seated on the discarded foundation, and when used as an upper slab, the seating portion 12 is on the wall. is settled Of course, if there is a hole in the precast panel 10 used as the upper slab, the hole should be blocked so as not to use a separate formwork by using a scaffold at the lower part.

As shown in FIGS. 10 and 11, the PC fixing frame 13 is, for example, a precast wall 200 (hereinafter abbreviated as 'wall', when the structure of the present invention is used as a floor, including the case of a column) ) is connected, for example, it is an I-shaped piece of hardware and is fixed through an anchor bolt embedded in the precast body (11).

The PC fixing frame 13 includes an upper flange fastening hole 13a for connection of the PC wall 200 . As shown in FIG. 10 according to the present invention, the PC wall 200 includes a plate 210 , and the upper flange and plate 210 of the PC fixing frame 13 are preferably two or more fasteners 220 . (For example, bolts and nuts) are connected through the fastening. At this time, the bolt of the fastener 220 may be buried during the precast manufacturing of the wall 200 . In addition, the main reinforcing bar of the PC wall 200 may protrude to the bottom and be fastened to the fastening hole 13a of the PC fixing frame 13 .

The PC fixing frame 13 includes a through hole 13b as a reinforcement portion to which the reinforcement reinforcement 21 of the reinforcement network 20 is reinforced.

The through hole 13b is a configuration of the reinforcing bar connection part connected to the reinforcing bar network 20, that is, the PC fixing frame 13 has two functions: the connection of the PC wall 200 and the connection of the reinforcing bar network 20. will be.

Therefore, the reinforcing bar connection part is not limited to the through hole 13b of the PC fixing frame 13, but is provided with a groove into which the reinforcing bar network 20 (at least one of the reinforcement reinforcing bar 21 and the main reinforcing bar 22) is inserted. As a bracket, it is also possible to be fixed to the precast panel 10 by anchoring or the like.

The reinforcement part is not limited to the through-hole 13b of the hole through which the main reinforcing bar 21 is penetrated back and forth, and a form having an open part at the periphery is also possible.

The PC fixing frame 13 is formed at the intersection of the transverse member 11-1 and the longitudinal member 11-2, that is, preferably at the upper position of the mounting part 12, provided that the position is not limited.

The PC fixing frame 13 is an example of a wall fixing part for fixing the PC wall 200 to the reinforcing bar network 100 using the precast concrete panel according to the present invention, and the shape is the structure shown in the drawing. It is not limited and includes all configurations capable of fixing the PC wall 200 , and it is also possible to be integrally formed with the precast panel 10 .

The precast concrete structure of the present invention is applied to both Ramen structures (culverts, underpasses, storage tanks, Ramen bridges, etc.) and cantilever structures (retaining walls, bridges, soundproof wall foundations, etc.), and in the case of Ramen structures, the PC fixing frame 13 is It is arranged symmetrically on both sides, and in the case of a cantilever structure, the PC fixing frame 13 is arranged on only one side.

The connecting reinforcing bar 14 is used for binding the precast panel 10 and the reinforcing bar network 20 and for synthesis with cast-in-place concrete, and the transverse member 11-1 and the longitudinal member of the precast body 11 (11-2), it is buried so as to protrude in various places such as the periphery of the seating part 12 and is connected while supporting the reinforcing bar network 20 from the top, bottom and sides, and the shape and direction are limited to the shape shown in the drawings and can be configured in various forms.

The reinforcing bar network 20 is made of a combination of reinforcement reinforcing bars (longitudinal reinforcing bars) 21 and main reinforcing bars (transverse reinforcing bars) 22 and stirrup reinforcing bars 23 .

Reinforcement reinforcing bars 21 are reinforcing reinforcing bars arranged in the longitudinal direction at a predetermined distance from each other at the upper and lower portions of the precast panel 10, wherein the reinforcing reinforcing bars 21 disposed under the precast panel 10 is connected to the precast panel 10 at the factory (refer to FIG. 3), but some or all of the reinforcement reinforcement 21 disposed on the upper part may be assembled on site (FIG. 2 shows the state without the reinforcement reinforcement 21 at the top) is shown as an example). It is difficult to reinforcing the lower reinforcement reinforcement 21 on the site due to the structure of the precast panel 10 and the installation structure at the site, but it is easy to reinforce the upper reinforcement reinforcement 21 on the site and the work time is short, so construction is possible.

In addition, the main reinforcing bar 22 is a main reinforcing bar disposed in the transverse direction at a predetermined interval between the upper and lower portions of the precast panel 10 .

The reinforcement reinforcing bars 21 and the main reinforcing bars 22 are each connected while being arranged at various intervals from each other, and are also connected to the connecting reinforcing bars 14 of the precast panel 10 to be integral with the precast panel 10 . It is treated (transported, installed) as

The stirrup reinforcing bar 23 is a reinforcing bar that is fastened with the main reinforcing bars 21 reinforced at the upper and lower portions so that the height and spacing of the main reinforcing bars 21 are maintained.

The formwork panel 30 is disposed at both ends of the reinforcing bar network 20, is connected to the reinforcing bar network 20, functions as a pouring plate for concrete poured on site, and is used permanently and, of course, may be demolded after curing of the on-site concrete. .

The panel 30 for the formwork has a height such that the reinforcing bar network 20 does not protrude out of the site concrete.

The panel 30 for the formwork is installed in the field, and, of course, it may be used after being connected to the reinforcing bar network 20 in the factory and then transported to the field.

The construction method of the reinforcing bar network using the precast concrete panel according to the present invention is as follows.

1. Construction method of ramen structures (culverts, underpasses, storage tanks, ramen bridges, etc.).

go. Cast abandoned concrete (see Fig. 12).

The abandoned concrete is poured at the construction site of the ramen structure to construct the abandoned foundation (1).

me. Rebar mesh installation using precast concrete panels (refer to Fig. 12)

A reinforcing bar network 100 using a precast concrete panel is installed on the discarded foundation (1).

Since the seating portion 12 is seated on the upper surface of the discarded foundation 1, there is a field between the discarded foundation 1 and the precast panel 10, and between the reinforcing bar 20 and the discarded foundation 1 A space for pouring concrete is formed. When the upper reinforcement reinforcement is not assembled at the factory, reinforcement reinforcement is reinforced on the upper part of the reinforcement network 20 to connect the reinforcement reinforcement network 20 to each other.

all. PC wall installation and formwork panel installation (see Fig. 13).

The bottom of the PC wall 200 is raised on the PC fixing frame 13 of the reinforcing bar network 100 using the precast concrete panel, and the fastener 220 is fastened to connect. The PC wall 200 is a double wall having a hollow portion, and the hollow portion is disposed to pass through the PC fixing frame 13 .

In addition, the formwork panel 30 is installed at both ends of the reinforcing bar network 20 .

Next, concrete 40 is poured. Concrete is poured up to the height of the panel 30 for the formwork, and thus, the precast panel 10 and the reinforcing bar network 20 of the precast concrete panel 100 are synthesized through cast-in-place concrete.

Concrete 230 is poured into the hollow part of the PC wall 200 to complete the wall.

la. PC slab installation (see Fig. 14).

Both sides of the PC slab 300 are placed on a pair of PC walls 200 and mounted, and the formwork panel 330 is installed at both ends. The PC slab 330 may be composed of a precast concrete panel 310 and a reinforcing bar network 320 in the same manner as the precast concrete panel 100 of the present invention.

mind. Assembling the main rebar and reinforcement rebar at the right leg part and pouring concrete slab (refer to Fig. 15).

The main reinforcing bar and reinforcement reinforcing bar 340 are reinforced and connected to the right leg portion between the PC wall 200 and the PC slab 300, and the concrete 350 is poured to complete the slab.

16 is an example of a cantilever structure, showing an example in which the reinforcing bar network 100 using the precast concrete panel according to the present invention is used as a basis for the wall 400 of the PC retaining wall, and the precast concrete panel 100 Installation step - The PC retaining wall wall 400 connection step - Formwork panel installation and the concrete pouring step of the precast concrete panel (100).

Hereinafter, modified examples of the present invention will be described.

1. Split type.

The present invention can be divided into two or more under the premise that does not deviate from the scope of the claims, and FIG. 17 shows an example of three divisions, divided into the branch parts 100-1 and 100-2 and the central part 100-3 on both sides. and these (100-1,100-2,100-3) are each manufactured at the factory, assembled at the factory, and then transported to the site, or after each member is transported to the site, they are installed through mounting at the site and bound to each other (facing each other) The reinforcing bar protrudes from the part to be connected, and various methods such as connection are possible). Although not shown in detail in the drawings, all of the split-type members 100-1, 100-2, and 100-3 include a reinforcing bar network 20 and a precast panel 10, and the like.

18 shows an example used as both branch parts of the ramen structure, and the reinforcing bar network 100 using the precast concrete panel of the present invention is installed according to the location of the branch part, and field work (reinforcement reinforcement) between them is performed. construct the foundation Of course, there is field work, but there is no field work as much as the point where the PC wall is connected.

Even in this case, although not shown in detail in the drawings, all of the split-type members 100-1 and 100-2 include the reinforcing bar network 20 and the precast panel 10 and the like.

2. Combination type.

19 and 20 show an example of a combination type, a reinforcing bar network 100 (straight type) using the precast concrete panel of the present invention is installed at both branch parts, and a grid-type precast panel 10 between the branch parts -1) (a form with a reinforcing bar network 20) (one or more is possible, and the drawing shows two examples) is an exemplary view for connecting and attaching, at this time, a precast panel (10-1) In the inter-connection part, connecting reinforcing bars of main reinforcing bars and reinforcement reinforcing bars are required.

19 is a form in which two precast panels 10-1 are directly connected, and FIG. 20 shows an example in which two precast panels 10-1 are spaced apart from each other.

10: precast concrete panel,
11: precast body, 12: seating part
13: PC fixing frame, 14: connecting reinforcing bar
20: reinforcing bar network, 21: reinforcing bar
22: main reinforcing bar, 23: stirrup reinforcing bar
30: panel for formwork, 40: concrete
100: reinforcing bar network using precast concrete panels
200: PC wall, 300: PC slab
400: the wall of the PC retaining wall,

Claims (6)

Precast concrete panels 10 and;
a reinforcing bar network 20 surrounding the precast concrete panel;
a connecting reinforcing bar (14) embedded in the precast concrete panel and bound to the reinforcing bar network;
A seating part 12 is formed to protrude downward at a certain distance from each other at the bottom of the precast concrete panel, and to secure a space for pouring concrete while the bottom of the rebar mesh is reinforced at the bottom of the precast concrete panel. Thus, the precast concrete panel, reinforcing bar mesh, and cast-in-place concrete are synthesized,
Reinforcement network using a precast concrete panel, characterized in that it is assembled or integrally formed on the upper part of the precast concrete panel and includes a PC fixing part to which the precast wall is fixed. delete The reinforcing bar network using a precast concrete panel according to claim 1, wherein the reinforcing bar network is formed on at least one side of the PC fixing part and the precast concrete panel and includes a reinforcing bar connection part to which the reinforcing bar network is connected.

The reinforcing bar network using a precast concrete panel according to claim 1 or 3, which is coupled to the edge of the reinforcing bar network and comprises a formwork panel (30) for pouring the cast-in-place concrete. The method according to claim 1, The reinforcing bar network using the precast concrete panel, the precast concrete panel has a lattice type having one or more holes penetrating up and down, and the seating part is formed at both point portions or only one or more seating parts A reinforcing bar network using a precast concrete panel, characterized in that it is a branch-type block type or a combination type of a reinforcing bar network using a precast concrete panel having two or more seating parts along the longitudinal direction. A first step of assembling a reinforcing bar network using the precast concrete panel according to claim 1 in a factory, transporting it to the site, and installing it on the site;
a second step of erecting and connecting a PC wall to one side of the reinforcing bar network using the precast concrete panel installed in the first step;
A method of constructing a reinforcing bar network using a precast concrete panel, comprising constructing a ramen structure and a cantilever structure, including a third step of pouring concrete into the rebar network using the precast concrete panel at the site.

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