KR20060032118A - Column and foundation reinforcement method - Google Patents

Abstract

As a preliminary work on the reinforcement of cracks or old surfaces to be repaired for pillars or foundations, after breaking the base surface and cleaning, apply primer and surface reinforcement on the old surface which broke the base surface as the main work of this method. Spacer and transverse rebar are installed at predetermined intervals in the transverse direction of the column or foundation, and then wire mesh is installed on the spacer and transverse rebar and transverse rebar or longitudinal reinforcement is installed on the wire mesh. After installing the reinforcing bars at predetermined intervals, the reinforcing mortar is filled to have a predetermined thickness to be plastered and finished so that the reinforcing mortar is confined and filled in the wire mesh in the circular shape of the column or foundation with respect to the reinforcing part. Of course, it prevents cracking of the reinforcement part, and transverse rebars and longitudinal rebars are structurally Thereby to be disposed in a position to increase the strength was adjusted to improve the quality.

Meanwhile, after the wire mesh is installed on the spacer and the transverse rebar, the reinforcing member configured to install the transverse rebar or the longitudinal rebar at predetermined intervals on the wire mesh is installed at the factory instead of directly in the field. In order to be used in place of the article manufactured as a standard in order to improve the workability and quality in addition to the above effects.

Description

Column and foundation reinforcement

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram in which reinforcement of the present method is applied to an old surface or crack portion of a conventional column or foundation.

2 is an enlarged cross sectional view of the first preferred embodiment of the present invention with respect to FIG.

3 is a cross-sectional view according to the section B-B of FIG. 2.

4 is an enlarged cross sectional view of a second preferred embodiment of the present invention with respect to FIG.

FIG. 5 is a cross sectional view taken along the line C-C in FIG. 4; FIG.

6 is a schematic view of the overlapping portion of the wire mesh bound.

Figure 7 is a schematic diagram of the reinforcing bar is bound on the wire mesh.

8 is a schematic view of the overlapping portion of the reinforcing bars bound.

※ Explanation of code for main part of drawing

1 column or foundation 3 reinforcement

5: old surface 7: cracks

9: primer and surface reinforcing agent 11: spacer material and transverse reinforcing bar

13: wire mesh 15: transverse rebar

17: longitudinal rebar 19: reinforcement mortar

21: Binding line 23, 23 ': overlapping part

The present invention relates to an improved pillar and foundation reinforcement method for the purpose of improving the quality of reinforcement of cracks or old surfaces of pillars or foundations.

In general, in the conventional method of repairing or reinforcing a column or foundation in which cracks are generated or aged, repairing by adding a mortar or applying resin to repair a steel reinforcing material is not inserted. In the case of the method of inserting only reinforcing bars and finishing with mortar without a spacer as a reinforcing material, a predetermined reinforcing effect can be expected, while mortar flows in the process of plastering with reinforcing mortar. As well as difficulty in restoring the shape as well as difficult to prevent the occurrence of cracks of mortar, there was a problem that the reinforcing effect is reduced compared to the reinforcement when using only the wire mesh in the state without the spacer as a reinforcing material.

The present invention was conceived to correct the above conventional problems, but can be applied regardless of the shape of the pillar or foundation, but was configured as follows by taking an example of a circular shape as an example.

As a preliminary work on the cracks or old surfaces to be repaired on pillars or foundations, clean them after breaking the ground surface.                         

After this preliminary work, the primer and surface reinforcement are applied on the old surface of which the base surface is broken as the main work of the present method, and the spacer and the transverse reinforcing bar are installed at predetermined intervals in the transverse direction of the column or foundation. After that, wire mesh is installed on the spacer and transverse rebar, and transverse rebar or longitudinal rebar are installed at predetermined intervals on the wire mesh, and the reinforcing mortar is filled to have a predetermined thickness. It is easy to make the reinforcing mortar confined in the wire mesh in the circular shape of the column or foundation with respect to the reinforcing part, and prevents cracking of the reinforcing part, and the transverse reinforcing bar and the longitudinal reinforcing bar are constructed. In terms of engineering, it is placed in an advantageous position to increase the strength to improve the quality.

Meanwhile, after the wire mesh is installed on the spacer and the transverse rebar, the reinforcing member configured to install the transverse rebar or the longitudinal rebar at predetermined intervals on the wire mesh is installed at the factory instead of directly in the field. In order to be used in place of the article manufactured as a standard in order to improve the workability and quality in addition to the above effects.

The configuration and operation of the present invention will be described in detail with reference to the accompanying drawings in detail.

As a preliminary work on the cracks (7) or the old surface (5) for the reinforcement (3) of the column or foundation (1), the ground breaking work is carried out using ordinary chisels and hammers or breakers, unless otherwise indicated in the drawings. After this, clean the base surface.

After the preliminary work has been carried out, as a main work of the present method, a primer and surface hardener (using a conventional brush or roller not shown separately in the drawing) on the cracked part 7 or the old surface 5 having broken the base surface ( 9) Apply.

The spacer and the transverse reinforcing bar 11 are installed on the outer surface of the column or the foundation 1 at predetermined intervals in the transverse direction on the coated surface of the primer and the surface reinforcing agent 9, but the spacer and the transverse reinforcing bar 11 are installed. The overlapping portion 23 'of () is fixed using a conventional binding line (21).

The wire mesh 13 is installed on the spacer and the transverse reinforcing bar 11, but a normal binding line 21 is used at a predetermined interval between the spacer and the transverse rebar 11 and the wire mesh 13 at a predetermined interval. And the overlapping portions 23 of the wire mesh 13 and the wire mesh 13 are fixed by using a normal binding line 21 at predetermined intervals. Here, the metal mesh or perforated plate also includes the metal mesh or perforated plate in the scope of application, but in terms of quality including strength reinforcement, the metal lath or perforated plate has a disadvantageous side than the wire mesh 13 to be described in the preferred embodiment. Is omitted.

On the wire mesh 13, as one preferred embodiment for strength reinforcement, transverse reinforcing bars 15 are installed at predetermined intervals, but between the reinforcing bar 15 and the wire mesh 13 at regular intervals. Fixing is made using the phosphorus bundling line 21, and the overlapping portion 23 'of the transverse reinforcing bar 15 and the lateral reinforcing bar 15 is fixed using a normal bundling line 21 at predetermined intervals. do.                     

In addition, on the wire mesh 13 as a further preferred embodiment for strength reinforcement to install a longitudinal reinforcing bar 17 at a predetermined interval, a predetermined distance between the longitudinal reinforcing bar 17 and the wire mesh 13 It is fixed using a normal binding line 21 at intervals of, and the overlapping portion 23 ′ of the longitudinal reinforcing bar 17 and the longitudinal reinforcing bar 17 is fixed at a predetermined interval. Use to fix it.

After the transverse rebar 15 or the longitudinal rebar 17 is installed, a conventional trowel is used on the transverse rebar 15 or the longitudinal rebar 17 not otherwise indicated in the drawings. The reinforcing mortar 19 is filled with the reinforcing mortar 19 in the wire mesh 13 in the circular shape of the column or the foundation 1 with respect to the reinforcing part 3 by filling the reinforcing mortar 19 so as to have a thickness of. In addition, the cracking of the reinforcement part 3 is prevented, and the transverse reinforcing bar 15 or the longitudinal reinforcing bar 17 is disposed at an advantageous position in terms of structural engineering to increase the strength. To improve.

On the other hand, after the wire mesh 13 is installed on the spacer and the transverse reinforcing bar 11 using a conventional binding line 21 at a predetermined interval, the wire mesh 13 is mounted on the spacer mesh. The reinforcement, which is configured to install the transverse rebar 15 or the longitudinal rebar 17 in a manner of fixing by using a normal tie line 21 at predetermined intervals, may be installed as a standard product at the factory instead of directly installing in the field. In addition to the above effects by making it possible to use the manufactured article to improve the workability and quality.

As described above, the present invention reinforces the wire mesh, the transverse rebar and the longitudinal rebar in structural engineering by arranging the inner transverse reinforcing bars installed on the circumference of the column or the foundation as a spacer. The reinforcing effect is increased by placing the tension side by the diameter of the transverse reinforcing bar from the neutral axis of the mortar.

In addition, the wire mesh is installed in a shape similar to the shape of a column or foundation, and has a honeycomb structure in which the reinforcing mortar does not flow while being easily filled between the gaps of the wire mesh when the reinforcing mortar is filled. In addition to improving the workability, it is expected that the effect of improving the quality by preventing cracking of the reinforcing mortar.

On the other hand, the reinforcing material is expected to be effective in improving the workability and quality in addition to the above effects by allowing the use of the product manufactured as a standard product in the factory instead of installing in the field.

Claims (2)

In reinforcement of crack or old surface of pillar or foundation, After applying the primer and surface reinforcement on the old surface or crack to be reinforced, the spacer and the transverse rebar are installed, and the wire mesh is fixed and installed on the spacer and the transverse rebar. A pillar and foundation reinforcing method characterized in that the reinforcing reinforcement or longitudinal reinforcing bars are fixed to and installed in the reinforcement mortar filled with a predetermined thickness from the transverse reinforcing bars or longitudinal reinforcing bars. 2. The column according to claim 1, wherein the pillar is composed of a reinforcing material, the wire mesh being fixed and installed on the spacer and the transverse rebar, and then the transverse rebar or longitudinal rebar is fixed on the wire mesh. Foundation reinforcement.

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