KR102325088B1 - Manufacturing method for half pc slab - Google Patents

Abstract

The present invention presents a method for manufacturing a half PC slab which comprises: a reinforcing bar assembly preparation step of preparing a reinforcing bar assembly (100) having an upper reinforcing bar (110) and a lower reinforcing bar (120) installed to be vertically spaced apart, and a space maintaining reinforcing bar (130) installed between the upper reinforcing bar (110) and the lower reinforcing bar (120); a reinforcing bar assembly installation step of installing the reinforcing bar assembly (100) in a formwork (200); a preceding load loading step of loading a preceding load to the upper reinforcing bar (110) of the reinforcing bar assembly (100) so that deflection occurs in the reinforcing bar assembly (100); a concrete pouring step of forming a slab (20) by pouring concrete into the formwork (200) so that the lower reinforcing bar (120) of the rebar assembly (100) is buried and the upper reinforcing bar (110) of the reinforcing bar assembly (100) is exposed; and a preceding load removing step of removing the preceding load after the concrete is cured, thereby suppressing cracks in a lower part of the slab even when a working load, a concrete floor plate load, a live load, etc. are applied thereto.

Description

Manufacturing method of half PC slab

The present invention relates to the field of construction, and more particularly, to a method of manufacturing a half PC slab.

Half PC slab is a precast slab 20 in which the lower part of the reinforcing bar assembly 10 is embedded, manufactured in a factory, transported, mounted on the girder of the site, and then constructed by pouring concrete on the floor plate thereon. (Fig. 1, 2)

The reinforcing bar assembly 10 is composed of an upper reinforcing bar 11 and a lower reinforcing bar 12 installed to be vertically spaced apart, and a spacing reinforcing bar 13 installed between the upper reinforcing bar 11 and the lower reinforcing bar 12. , the lower reinforcing bar 12 and the lower end of the spacing reinforcing bar 13 are buried in the slab 20. (FIG. 1)

The half PC slab is subjected to working load, load of concrete floor plate, live load, etc. during construction, and this has led to a problem that cracks due to tensile stress occur in the lower part of the conventional half PC slab.

Reference numerals in the prior art are limited only to the description of the prior art.

The present invention was derived to solve the above problems, and it proposes a method of manufacturing a half PC slab that suppresses cracks from occurring in the lower part of the slab even when working load, load of concrete floor plate, live load, etc. are applied. for that purpose

In order to solve the above problems, the present invention provides an upper reinforcing bar 110 and a lower reinforcing bar 120 installed so as to be spaced up and down, and a spacing reinforcing bar 130 installed between the upper reinforcing bar 110 and the lower reinforcing bar 120. A rebar assembly preparation step of preparing the reinforcing bar assembly 100 provided with; Reinforcing bar assembly installation step of installing the reinforcing bar assembly 100 in the formwork (200); a preceding load loading step of applying a preceding load to the upper reinforcing bar 110 of the reinforcing bar assembly 100 to cause sagging in the reinforcing bar assembly 100; The slab 20 is formed by pouring concrete into the formwork 200 so that the lower reinforcing bar 120 of the reinforcing bar assembly 100 is buried and the upper reinforcing bar 110 of the reinforcing bar assembly 100 is exposed. concrete pouring step; After the concrete is cured, a preceding load removing step of removing the preceding load is provided.

Preferably, the step of preparing the reinforcing bar assembly further includes a step of bending the reinforcing bar assembly 100 so that a bulge occurs in the central part.

In the step of installing the reinforcing bar assembly, the front and rear of the lower reinforcing bar 120 of the reinforcing bar assembly 100 with respect to the insertion groove 201 formed in the front wall 210 and the rear wall 220 of the formwork 200 . It is preferable to further include; a lower reinforcing bar inserting step for inserting each stage.

A plurality of lower reinforcing bars 120 of the reinforcing bar assembly 100 are installed to be spaced apart from one another to the left and right, and between the rebar assembly installation step and the preceding load loading step, the plurality of lower reinforcing bars by the loading of the preceding load It is preferable to further include; a lower reinforcing bar supporting step of installing the gap maintaining member 140 so that the gap between the 120 is not widened.

The gap maintaining member 140 is preferably provided with ring portions 141 at both ends so that the plurality of reinforcing bars are hung and supported at both ends.

The spacing reinforcing bar 130 of the reinforcing bar assembly 100 is installed in a truss structure having a left and right symmetric structure, and the lower vertex portion 130b of the spacing reinforcing bar 130 of the truss structure has a recessed portion 131 of a recessed structure. ) is formed, and the ring portions 141 at both ends of the spacing member 140 are preferably coupled to the recessed portions 131, respectively.

In the preceding load loading step, the formwork is positioned to be spaced apart from the upper portion of the upper reinforcing bar 110 of the reinforcing bar assembly 100 and the vertical distance between the bottom portion 230 of the formwork 200 is maintained. Installing the support member 240 on the upper portion of the (200); installing a preceding load loading device 300 with respect to the support member 240 and the upper reinforcing bar 110 of the reinforcing bar assembly 100; It is preferable to include; by the preceding load loading device 300, applying a preceding load to the upper reinforcing bar 110 of the reinforcing bar assembly 100 so that deflection occurs in the reinforcing bar assembly 100. do.

The preload loading device 300 includes an upper cover 310 having an installation groove 311 to cover and install the upper reinforcing bar 110; A lower cover ( 320); It is preferable to include a; is coupled to the support member 240 and the upper cover 310, and is installed to widen or narrow the gap between the support member 240 and the upper cover 310; do.

The spacing reinforcing bar 130 of the reinforcing bar assembly 100 is installed in a truss structure, and the preceding load loading step is performed on top of the upper vertex portion 130a of the spacing reinforcing bar 130 of the truss structure. It is desirable to load the load.

The spacing reinforcing bars 130 of the reinforcing bar assembly 100 are installed in a truss structure, and the reinforcing bar assembly 100 has vertical reinforcing bars coupled to the upper and lower reinforcing bars 110 and the lower reinforcing bars 120, respectively. 132) is further provided, and the upper end of the vertical reinforcing bar 132 is coupled between the upper vertex portion 130a of the spacing reinforcing bar 130 of the truss structure and the adjacent upper vertex portion 130a, and the vertical The lower end of the reinforcing bar 132 is coupled to the lower vertex portion 130b of the spacing reinforcing bar 130 of the truss structure, and the preceding load loading step is to apply the preceding load to the upper portion of the vertical reinforcing bar 132. it is preferable

The step of installing the reinforcing bar assembly includes a step of opening and installing a plurality of the reinforcing rebar assemblies 100 in the form 200 along the width direction, wherein the preloading step includes, the plurality of rebar assemblies (100) Compared to the reinforcing bar assembly 100a installed at the center, it is preferable to apply the greater preceding load to the reinforcing bar assembly 100b installed at the edge.

The present invention proposes a method for manufacturing a half PC slab that suppresses cracking in the lower part of the slab even when working load, load of concrete floor plate, live load, etc. are applied.

1 to 3 are process diagrams of a conventional half PC slab construction method.
4 shows an embodiment of a method for manufacturing a half PC slab according to the present invention,
Figure 4 is a process diagram of the first embodiment of the preceding load loading step.
Figure 5 is a process diagram of the second embodiment of the loading step of the preceding load.
Figure 6 is a process diagram of the third embodiment of the preceding load loading step.
7 is a process diagram of the fourth embodiment of the preceding load loading step.
8 to 10 are process diagrams of the lower reinforcing bar support step.
11 to 15 are process diagrams of the fifth embodiment of the preload loading step.
16 is a process diagram of the sixth embodiment of the preload loading step.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 or less, the manufacturing method of the half PC slab according to the present invention is made by the following process.

Prepare a reinforcing bar assembly 100 having an upper reinforcing bar 110 and a lower reinforcing bar 120 installed to be vertically spaced apart, and a space maintaining reinforcing bar 130 installed between the upper reinforcing bar 110 and the lower reinforcing bar 120 .(Rebar assembly preparation stage) (Fig. 7)

Install the reinforcing bar assembly 100 in the formwork 200. (Reinforcing bar assembly installation step) (Fig. 4)

A preceding load is applied to the upper reinforcing bar 110 of the reinforcing bar assembly 100 so that deflection occurs in the reinforcing bar assembly 100. (Pre-load loading step) (FIG. 4.5)

In this state, the lower reinforcing bar 120 of the rebar assembly 100 is buried and the slab 20 is formed by pouring concrete into the formwork 200 so that the upper reinforcing bar 110 of the rebar assembly 100 is exposed. After the concrete is cured, the preceding load is removed. (Concrete pouring and preceding load removal step) (Fig. 6)

This has the following effects.

First, when the preceding load is removed after curing the concrete, tensile stress is generated in the upper reinforcing bar 110 of the reinforcing bar assembly 100, and compressive stress is generated in the lower reinforcing bar 120 and the slab 20, which In the case of mounting on the upper part, even if the working load, the load of the concrete floor plate, the live load, etc. act on the upper part, the stress caused by the preceding load is offset, and thus cracks in the lower part of the slab can be suppressed.

Second, since this results in increasing the tensile strength of the slab 20 as a compressive force is introduced into the slab 20, the diameter of the lower reinforcing bar 120 used in the reinforcing bar assembly 100 can be reduced.

Hereinafter, specific examples for each process of the method for manufacturing a half PC slab according to the present invention will be described.

When a preceding load is applied to the reinforcing bar assembly 100 constituting a horizontal structure to cause deflection, the lower reinforcing bar 120 against the slab 20 due to the central portion of the lower reinforcing bar 120 sagging and the edge bulging phenomenon. There may be a problem in that the coating thickness of the

In the rebar assembly preparation step, the rebar assembly 100 is bent in advance so that a soaring occurs in the central part (FIG. 7), and a preceding load is applied thereto so that deflection occurs in the rebar assembly 100. , in this case, the above problem can be solved because the reinforcing bar assembly 100 in the state where the preceding load is loaded forms a horizontal structure by offsetting the rise and deflection. (FIG. 4)

When a preceding load is applied to the reinforcing bar assembly 100 , buckling may occur in the lower reinforcing bar 120 of the reinforcing bar assembly 100 installed in the formwork 200 .

In the above rebar assembly installation step, with respect to the insertion groove 201 formed in the front wall 210 and the rear wall 220 of the formwork 200, the front and rear ends of the lower reinforcing bar 120 of the reinforcing bar assembly 100 are If they are inserted separately, the occurrence of gastric buckling can be reduced.

The reinforcing bar assembly 100 includes an upper reinforcing bar 110 and a lower reinforcing bar 120 installed to be vertically spaced apart, and a spacing reinforcing bar 130 installed between the upper reinforcing bar 110 and the lower reinforcing bar 120, and the The cross-section may be implemented in various shapes, such as a triangle, a rhombus, and a rectangle.

When a plurality of the lower reinforcing bars 120 of the reinforcing bar assembly 100 are installed to be spaced apart from one another to the left and right, when a preceding load is applied, the central portions of the plurality of lower reinforcing bars 120 are respectively spread outward (opposite directions) Deformation ( buckling) occurs.

In order to prevent this, between the rebar assembly installation step and the preceding load loading step, the gap maintaining member 140 is installed so that the gap between the central portions of the plurality of lower reinforcing bars 120 is not widened by the loading of the preceding load. It is preferable to further include a lower reinforcing bar support step. (FIGS. 8 to 10)

The spacing member 140 may be implemented by members such as reinforcing bars, specifically, a method of welding both ends of the reinforcing bars between the central portions of the plurality of lower reinforcing bars 120, and ring portions 141 at both ends of the reinforcing bars, respectively. ), and a method in which a plurality of reinforcing reinforcing bars are hung and supported on the ring portions 141 at both ends can be applied.

The former has the advantage of forming a solid bonding structure, while the disadvantage is that it is inconvenient to work, and the latter has advantages and disadvantages opposite to this.

When the spacing reinforcing bar 130 of the reinforcing bar assembly 100 is installed in a truss structure having a left-right symmetry structure, the lower vertex portion 130b of the spacing reinforcing bar 130 of the truss structure has a recessed portion 131 of a recessed structure. is formed, when the ring portions 141 at both ends of the spacing member 140 each take a structure coupled to the recessed portion 131, while taking the advantages (ease of operation) of the latter embodiment above, the disadvantages (solid It has the effect of complementing the coupling structure). (FIGS. 9 and 10)

Since the compressive stress introduced into the slab 20 by the loading of the preceding load is proportional to the amount of restoration of the lower reinforcing bar 120 of the rebar assembly 100, the central portion is more It is preferable to introduce a large compressive stress.

Therefore, it is preferable that the loading point of the preceding load is the central part of the reinforcing bar assembly 100, and the loading point may be one or plural (Figs. 4,5).

Specifically, the pre-load loading step is spaced apart from the upper portion of the upper reinforcing bar 110 of the reinforcing bar assembly 100, as well as maintaining the vertical spacing of the bottom portion 230 of the formwork 200, the formwork 200 ) installing the support member 240 on the upper portion; Installing a pre-load loading device 300 for the support member 240 and the upper reinforcing bar 110 of the reinforcing bar assembly 100; The step of applying a preceding load to the upper reinforcing bar 110 of the reinforcing bar assembly 100 by the pre-load loading device 300 to cause sagging in the reinforcing bar assembly 100; may be configured to include. (FIGS. 11 to 15)

The preceding load loading device 300 specifically includes: an upper cover 310 in which an installation groove 311 is formed so as to cover and install the upper reinforcing bar 110; A lower cover 320 installed in the lower portion of the upper cover 310 so as to close the opening of the installation groove 311 in a state in which the upper reinforcing bar 110 is inserted into the installation groove 311 of the upper cover 310; It is coupled to the support member 240 and the upper cover 310, the gap adjustment unit 330 installed to widen or narrow the gap between the support member 240 and the upper cover 310; may be configured to include. (FIGS. 11 to 14)

Since the upper cover 310 is installed to cover the upper reinforcing bar 110 by the installation groove 311, the effect of enabling the stable coupling of the upper reinforcing bar 110 and the preceding load loading device 300 when a preceding load is applied is effective. have.

The gap adjusting unit 330 may be implemented by a screw drive structure by a high tension bolt, a hydraulic structure, or the like.

When the spacing reinforcing bar 130 of the reinforcing bar assembly 100 is installed in a truss structure, the application of the preceding load is preferably made with respect to the upper portion of the upper vertex portion 130a of the spacing reinforcing bar 130 of the truss structure. .(Fig. 4)

However, if the upper vertex 130a does not correspond to the effective loading point of the preceding load, it is preferable to apply the preceding load to the upper portion of the vertical reinforcing bar 132 separately installed in the reinforcing bar assembly 100 .

The upper and lower ends of the vertical reinforcing bars 132 are coupled to the upper reinforcing bars 110 and the lower reinforcing bars 120, respectively, and the upper end of the vertical reinforcing bar 132 is adjacent to the upper vertex portion 130a of the spacing reinforcing bar 130 of the truss structure. Coupled between the upper vertex portions (130a), the lower end of the vertical reinforcing bar 132 is coupled to the lower vertex portion 130b of the spacing reinforcing bar 130 of the truss structure.

On the other hand, the half PC slab manufactured by the manufacturing method according to the present invention is installed on a plurality of girders by opening a plurality of half PC slabs along the width direction. A large deflection occurs.

In order to prevent this, a plurality of reinforcing rebar assemblies 100 are opened and installed in the form 200 along the width direction, compared to the reinforcing rebar assembly 100a installed at the center of the plurality of reinforcing rebar assemblies 100 . , it is preferable to apply a larger preceding load to the reinforcing bar assembly 100b installed at the edge. (FIG. 16)

Since the half PC slab manufactured by this manufacturing method has a larger bulge in the edge portion than in the central portion thereof, it is possible to solve the problem of deflection described above.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as noted, should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

20: slab 100: rebar assembly
110: upper reinforcing bar 120: lower reinforcing bar
130: spacing reinforcing bar 131: depression
132: vertical reinforcing bar 140: gap maintaining member
141: ring part 200: formwork
201: insertion groove 210: front wall
220: rear wall 230: bottom
240: support member 300: preceding load loading device
310: upper cover 311: installation groove
320: lower cover 330: gap adjustment part

Claims (11)

An upper reinforcing bar 110 and a lower reinforcing bar 120 installed to be vertically spaced apart, and an interval maintaining reinforcing bar 130 installed between the upper reinforcing bar 110 and the lower reinforcing bar 120, the lower reinforcing bar 120 is A reinforcing bar assembly preparation step of preparing a plurality of installed reinforcing bar assemblies 100 to be spaced apart from one another;
Reinforcing bar assembly installation step of installing the reinforcing bar assembly 100 in the formwork (200);
a lower reinforcing bar supporting step of installing a gap maintaining member 140 so that the gap between the plurality of lower reinforcing bars 120 is not widened by the loading of a preceding load;
a preceding load loading step of applying the preceding load to the upper reinforcing bar 110 of the reinforcing bar assembly 100 so that deflection occurs in the reinforcing bar assembly 100;
The slab 20 is formed by pouring concrete into the formwork 200 so that the lower reinforcing bar 120 of the reinforcing bar assembly 100 is buried and the upper reinforcing bar 110 of the reinforcing bar assembly 100 is exposed. concrete pouring step;
After the concrete is cured, the preceding load removing step of removing the preceding load;
A method of manufacturing a half PC slab, comprising: According to claim 1,
The reinforcing bar assembly preparation step is,
The step of bending the reinforcing bar assembly 100 so that a bulge occurs in the central part;
Method of manufacturing a half PC slab, characterized in that it further comprises. According to claim 1,
The reinforcing bar assembly installation step is,
A lower reinforcing bar for inserting the front and rear ends of the lower reinforcing bar 120 of the reinforcing bar assembly 100 into the insertion grooves 201 formed in the front wall 210 and the rear wall 220 of the formwork 200, respectively. insertion step;
Method of manufacturing a half PC slab, characterized in that it further comprises. delete According to claim 1,
The method of manufacturing a half PC slab, characterized in that the gap maintaining member 140 has ring portions 141 formed at both ends so that the plurality of reinforcing reinforcing bars are hung and supported at both ends. 6. The method of claim 5,
The spacing reinforcing bars 130 of the reinforcing bar assembly 100 are installed in a truss structure that is a symmetrical structure,
A recessed part 131 of a recessed structure is formed in the lower vertex part 130b of the spacing reinforcing bar 130 of the truss structure,
A method of manufacturing a half PC slab, characterized in that the ring portions 141 at both ends of the spacing member 140 are coupled to the depression portions 131, respectively. According to claim 1,
The preload loading step is,
Supported on the upper part of the formwork 200 so that it is spaced apart from the upper part of the upper reinforcing bar 110 of the reinforcing bar assembly 100 and the vertical distance between the bottom part 230 of the formwork 200 is maintained. installing member 240;
installing a preceding load loading device 300 for the support member 240 and the upper reinforcing bar 110 of the reinforcing bar assembly 100;
Applying a preceding load to the upper reinforcing bar 110 of the reinforcing bar assembly 100 by the pre-load loading device 300 to cause sagging in the reinforcing bar assembly 100;
A method of manufacturing a half PC slab, comprising: 8. The method of claim 7,
The preceding load loading device 300 is,
an upper cover 310 having an installation groove 311 formed thereon to cover and install the upper reinforcing bar 110;
A lower cover ( 320);
A gap adjusting part 330 coupled to the support member 240 and the upper cover 310 and installed to widen or narrow the gap between the support member 240 and the upper cover 310;
A method of manufacturing a half PC slab, comprising: According to claim 1,
The spacing rebar 130 of the reinforcing bar assembly 100 is installed in a truss structure,
The preload loading step is,
A method of manufacturing a half PC slab, characterized in that the preceding load is applied to the upper portion of the upper vertex portion (130a) of the spacing reinforcing bar (130) of the truss structure. According to claim 1,
The spacing rebar 130 of the reinforcing bar assembly 100 is installed in a truss structure,
The reinforcing bar assembly 100 further includes vertical reinforcing bars 132, the upper and lower ends of which are coupled to the upper reinforcing bars 110 and the lower reinforcing bars 120, respectively,
The upper end of the vertical reinforcing bar 132 is coupled between the upper vertex portion 130a of the spacing reinforcing bar 130 of the truss structure and the adjacent upper vertex portion 130a,
The lower end of the vertical reinforcing bar 132 is coupled to the lower vertex portion 130b of the spacing reinforcing bar 130 of the truss structure,
The preload loading step is,
A method of manufacturing a half PC slab, characterized in that the preceding load is applied to the upper portion of the vertical reinforcing bar (132). According to claim 1,
The reinforcing bar assembly installation step is,
Including; opening and installing a plurality of the reinforcing bar assemblies 100 along the width direction in the formwork 200;
The preload loading step is,
Compared to the reinforcing rebar assembly 100a installed at the core among the plurality of reinforcing bar assemblies 100, the manufacturing of a half PC slab, characterized in that a larger preceding load is applied to the reinforcing bar assembly 100b installed at the edge Way.

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