JP6911297B2 - Building exterior wall repair method - Google Patents

Description

The present invention relates to an outer wall repair method for a building, in which tiled construction is performed on an existing outer wall.

The outer wall of a building deteriorates over time and loses its aesthetic appearance. Further, depending on the material used for the outer wall material, floating or peeling from the structure may occur, and not only the aesthetic deterioration but also the deterioration of the basic function as a building such as the decrease in strength and the inundation of rainwater or the like becomes a problem. Exterior wall repair work will be carried out for the purpose of repairing such aesthetic deterioration and functional deterioration.

In the repair work when the outer wall is finished with mortar such as lath mortar or the siding board is pasted, the deteriorated existing mortar and siding are peeled off, new mortar is applied, and a new siding board is pasted. Construction may be done. However, in most cases, the entire outer wall is not deteriorated, but only a part of it is deteriorated. The disadvantage is great. On the other hand, repainting and repainting only the deteriorated part takes time, but there is a difference in appearance between the existing outer wall part and the new outer wall part, which is not suitable for clear painting, and the entire color painting is possible. You will need it. In addition, when it is desired to carry out full-scale tile construction, it is not possible to repaint or re-cover only the deteriorated part.
Furthermore, although the existing outer wall is not particularly deteriorated, there is a need to change the outer wall to a tiled appearance.
That is, regardless of whether or not the existing outer wall has deteriorated and the degree of deterioration, there is an increasing demand for renovating the outer wall into a beautiful and luxurious tiled structure at a simple and low cost.

In response to the market demand for such exterior wall repair, a construction method has been proposed in which tiles are installed on the existing outer wall without peeling off the existing outer wall.
In Patent Document 1, in the method of tile the outer wall, the net is overlapped on the outer wall, the net is fastened to the outer wall by screwing the countersunk screw into the outer wall via a washer, and the adhesive is applied to the outer wall from above the net. Then, the method of tiled construction is disclosed. The feature of Patent Document 1 is that the fitting portion of the washer with the screw is tapered so that the head of the screw does not protrude from the washer and the thickness of the screw protruding from the outer surface of the net is suppressed to the thickness of the washer. This makes the construction work easier.

In Patent Document 2, in the method of constructing an outer wall material for attaching an outer wall material to an existing wall surface, a net material is stretched on the existing wall surface, a base adjusting material is applied from above, and subsequently, adhesiveness to the base adjusting material is applied. A construction method of attaching an outer wall material to an adhesive after applying an excellent adhesive to the siding is disclosed. The feature of Patent Document 2 is that by applying an adhesive having excellent adhesiveness to the base adjusting material, it is not necessary to apply a primer on the base adjusting material, so that the construction work can be reduced. The point is that the construction method and the outer wall can be provided.

In Patent Document 3, in the method of repairing a wall surface in which an existing wall surface is tiled and repaired, an organic adhesive is applied to the existing wall surface and then cured to form a base with an adhesive, and an organic base is formed on the base. A refurbishment method of attaching tiles with an adhesive is disclosed. The feature of Patent Document 3 is that after forming an organic adhesive-based base, the base is fixed to the skeleton with fixing metal fittings, and tiles are attached on the base with a colored organic adhesive to form an existing wall surface. The point is that it can be easily renovated into a beautiful tiled wall surface with excellent waterproofness.

Japanese Unexamined Patent Publication No. 2005-133493 Japanese Unexamined Patent Publication No. 2003-239500 Japanese Unexamined Patent Publication No. 2003-56157

However, since it is essential to stretch the net material on the outer wall in each of the construction methods of Patent Documents 1 and 2, it cannot be said that it is a simple outer wall repair method. In addition, in the base material that requires a net material for holding on the existing outer wall, the holding force on the existing outer wall is not sufficient, and the net exists inside the net with a relatively large occupancy, so that the viscoelastic property is exhibited. Is non-uniform, and there is a concern that the resistance to deformation will decrease significantly over time.
In the construction method of Patent Document 3, the holding force of the base against the existing outer wall is reinforced by driving fixing metal fittings such as pins and nails from above the base, but the applied base material is cured to harden the base. Due to the weight of the base material before it is formed, the adhesion to the existing outer wall may be insufficient. Further, after the base is formed, defective parts such as peeling of the existing outer wall become unclear, so that effective fixing metal fittings cannot be driven, and the outer wall after repair may be insufficiently reinforced.

Therefore, according to the present invention, it is possible to repair the outer wall without peeling off the existing outer wall without carrying out the net stretching work on the existing outer wall, and it is possible to tile the existing outer wall with excellent resistance to deformation. The challenge is to provide a simple exterior wall repair method.

As a result of diligent studies to solve the above problems, the present inventors have used a base material having specific physical properties and an adhesive applied on a base on which the base material has been cured, and have specified. We have developed a new exterior wall repair method for screwing by the method, and have completed the present invention.

That is, according to the present invention, a step a of driving a screw into the outer wall of a building via a washer, and after step a, a B-type viscometer according to JIS K 6833 at a rotation speed of 1 rpm at 23 ° C. A step b in which the base material having a measured viscosity of 1000 to 6000 Pa · s is applied onto the outer wall so that the head of the screw is embedded inside the base material, and after the step b, the base material is formed. It has a step c of applying an adhesive on a cured base and a step d of sticking a tile on the adhesive after the step c, and tensilely adheres the base to the surfaces of screws and washers. A method for repairing the outer wall of a building having a strength of 0.30 N / mm ^{2 or more is provided.}
Preferably, the outer wall is lath mortar or siding, and the bis provides a method of repairing the outer wall of the building, which is driven into the columns holding the outer wall and the studs through the outer wall.

More preferably, there is provided an outer wall repair method in which the screw striking interval in the left-right direction of the screw is 150 to 600 mm and the outer diameter of the washer is 10 to 40 mm.

In the outer wall repair method of the present invention, a base material having specific physical properties and an adhesive are combined, and screwing is used as a specific method. Therefore, even if a net is not attached to the existing outer wall, the existing outer wall is not required. It is possible to repair the outer wall without peeling off. Furthermore, the appearance can be improved to a beautiful tiled structure with excellent resistance to deformation by a simple method compared to the conventional construction method.

It is a perspective view which shows the outline of the outer wall repair which concerns on one Embodiment of this invention. It is a cross-sectional view in the left-right direction of the screw driving portion after the completion of the outer wall repair construction which concerns on one Embodiment of this invention. It is the schematic explaining the surface part and the outer peripheral part of a screw and a washer. It is the schematic which shows the screwing interval which concerns on one Embodiment of this invention.

Hereinafter, the present invention will be described in more detail.
The outer wall of the building to which the outer wall repair method of the present invention can be applied is not particularly limited, and may be any of mortar such as lath mortar, siding, tile, ALC (Autoclaved Lightweight aerated Concrete) panel, and reinforced concrete. It is preferable to apply it to an outer wall finished with lath mortar or siding in that the effects of the present invention can be more exhibited.

The screws and washers used in the step a of the present invention are not particularly limited, and are used as metal fittings for fixing a building. Can be driven into the existing outer wall through the screw through hole of the washer. Alternatively, a washer may be used in which the washer is fixed to the head of the screw and integrated. As the washer, a circular object in a plan view is used as shown in FIG.
If the existing outer wall is lath mortar or siding, it is preferable that the screws be driven into the presence of columns and / or studs installed inside these outer walls at predetermined intervals to reach these columns. .. Further, when the furring strip is installed, it may be driven into the furring strip existing portion.

The spacing between screwing in the step a is preferably 150 to 600 mm in both the vertical and horizontal directions, and the outer diameter of the washer is preferably 10 to 40 mm. For screwing in the left-right direction, set the screwing interval in accordance with the installation interval of columns and / or studs. Further, it is more preferable that the relationship between the average of the screwing intervals in the left-right direction, the average of the screwing intervals in the vertical direction, and the outer diameter of the washer in the entire outer wall satisfies the following equation (1). This is because by setting the average screwing interval in the left-right direction and the up-down direction with respect to the outer diameter of the washer in this way, the base holding effect described later becomes better.
π (outer diameter / 2) ² / (left-right spacing x top-bottom spacing) ≧ 3410 (1)
In equation (1), π, outer diameter, left-right spacing, and top-bottom spacing have the following meanings.
π; Pi outer diameter; Washer outer diameter (mm)
Left-right spacing; average screwing spacing in the left-right direction (m)
Vertical interval; Average vertical interval for screwing (m)

It is preferable that the outer wall as a whole is screwed evenly and at well-balanced intervals. However, the screwing interval may be adjusted as appropriate depending on the shape of the existing outer wall, and when there is a deteriorated portion such as floating of the existing outer wall, it is preferable to give priority to screwing to the portion. This is because it contributes to the reinforcement of the deteriorated part.
On the other hand, in the case of an outer wall such as a reinforced concrete wall in which columns and studs are not installed, it may be adjusted at intervals of 150 to 600 mm as desired and screwed.

In the present invention, the main purpose of driving the screw into the existing outer wall via the washer is to effectively hold the base formed in the step b after the screw is driven, and to strengthen the existing outer wall and to remove the deteriorated portion such as floating from the structure. It is a reinforcement, not a net retention in the conventional construction method. In the present application, the base material shall be distinguished as a material before curing applied on the existing outer wall for forming the base, and the base material shall be distinguished as a material obtained by curing the base material.

"Effective retention of the base" means preventing the base from peeling off from the existing outer wall for a long period of time without causing deviation or peeling between the existing outer wall and the formed base. The reason why such an effect can be obtained is that the surface of the screw and washer driven into the existing outer wall and the base are adhered to each other with a tensile strength of ^{0.30 N / mm 2 or more, so that the existing outer wall is covered.} This is because the adhesive retention of the base is reinforced. As a result, it is possible to prevent the tiles attached in step d from peeling off from the existing outer wall together with the base of the tiled portion for a long period of time.
Hereinafter, the effect of holding such a base is referred to as a "base holding effect".

By satisfying the requirements of formula (1) related to the outer diameter of the washer and the screwing interval, and the tensile adhesive strength between the base and the surface of the screw and washer is 0.30 N / mm ² or more. The resistance to distortion due to the weight of the base, distortion due to expansion / contraction of other materials constituting the outer wall surface, or distortion of the building caused by an earthquake or the like is extremely high. The surface portion of the screw and the washer is a portion represented by a plan view after the screw is driven through the washer.
The surface portion of the screw and washer related to one feature of the present invention is shown in FIG. Explaining with reference to FIG. 4, it is a part represented by a double circle indicating a screw and a washer.

Although FIGS. 2 and 3 show an example in which the head of the screw is fitted to the washer and does not protrude from the washer, the head of the screw may protrude from the washer.

The step b is a step of applying the base material on the existing outer wall screwed in the step a. When the base material becomes the base material, the process proceeds to step c of the next step.
The base material used in the present invention is a B-type viscometer in accordance with JIS K 6833, and the viscosity measured at a rotation speed of 1 rpm at 23 ° C. is 1000 to 6000 Pa · s. Further, the tensile adhesive strength between the base and the surface portion of the screw and washer is 0.30 N / mm ² or more. The higher the tensile adhesive strength, the better, and there is no particular upper limit, but the upper limit is about ^{5.0 N / mm 2 in terms of performance.} The tensile adhesive strength is a value measured in accordance with JIS A 5557 (6.3.3 Adhesive strength test method). As a testing machine, TENSIRON RTF-2350 manufactured by A & D Co., Ltd. can be exemplified.

When the viscosity of the base material and the tensile adhesive strength between the base and the surface portion of the screw and the washer satisfy the above range, the base exhibits a good base holding effect as described above.

Specific examples of the base material include a urethane-based composition in which a urethane resin or a modified silicone resin is mixed with a filler, a curing agent, or the like, or a modified silicone-based composition.

Step c is a step of applying an adhesive on the base material after the base material is cured.
Specific examples of the adhesive include Tile Ace Pro (manufactured by Cemedine Co., Ltd.) and the like.

Step d is a step of attaching tiles on the adhesive applied in step c. After applying the adhesive, the tiles are attached within the attachable time specified by the adhesive to be used.
The tiles are not particularly limited as long as they can be used for the outer wall of a building, and examples thereof include mosaic tiles, 45 2-chome tiles, small flat tiles, and border tiles.

In the present invention, primers and nets are not essential, but their use is not excluded and may be used if desired. For example, in step a, the primer may be applied before driving the screw into the existing outer wall via a washer, or in step b, before applying the base material. By applying the primer, in addition to strengthening the adhesion between the existing outer wall and the base, there is an advantage that the existing outer wall can be reinforced.
Further, for example, in step a, the net may be stretched on the existing outer wall before screwing. Since the outer wall repair method of the present invention can exhibit an excellent base holding effect, a net is not particularly necessary, and it is better not to use a net from the viewpoint of ease of construction.

Next, an embodiment of the outer wall repair method for a building according to the present invention will be described with reference to the drawings. However, the present invention is not limited to this embodiment.

(Embodiment)
In this embodiment, the outer wall repair method for the existing outer wall of the siding will be described. Figures 1 and 2 show the overall outline of the repair method. FIG. 1 is a schematic perspective view of exterior wall repair, and some of the components are omitted in order to show the relative relationship of each component such as columns, siding, and base. FIG. 2 shows a left-right cross-sectional view of the screwed portion after the repair is completed.
The existing outer wall 4 of the siding is attached to the pillar 1 and the stud 3 via the furring strip 2. In the present embodiment, an example in which the furring strip 2 is present is shown, but an outer wall without a furring strip may be used.

1. 1. Step a
First, a screw 6 was driven into the existing outer wall 4 via a washer 5 into the existing portions of the pillar 1, the stud 3, and the furring strip 2 (FIGS. 1 and 2). In this embodiment, the screws and washers are all of the same standard. A washer having an outer diameter of 30 mm was used.
As shown in FIG. 4, the screwing interval was 455 mm in both the left-right direction and the up-down direction.

2. Step b
Next, a primer was applied on the existing outer wall (not shown).
After applying the primer, the base material for forming the base 7 shown in FIGS. 1 and 2 was applied to a thickness of 5 mm. The base material used was a B-type viscometer having a viscosity of 2500 Pa · s measured at a rotation speed of 1 rpm at 23 ° C. and a tensile adhesive strength of the base 7 after curing of 1.00 N / mm ² . .. Further, as shown in FIG. 2, the base material was applied so that the washer 5 and the screw 6 were embedded inside the base material (base 7).
The tensile adhesive strength was measured under the following conditions using a sample prepared as follows.
Apply a base material with a thickness of 5 mm on the siding material (length 70 mm x width 70 mm x thickness 14 mm), immediately place a washer (outer diameter 30 mm x thickness 1 mm), and lightly press with your fingers to sufficiently apply the base material. It was brought into close contact with. Then, it was cured in a 23 ° C. and 50% RH environment for 4 weeks.
Using the cured sample, use a testing machine (TENSIRON RTF-2350 manufactured by A & D Co., Ltd.) in accordance with JIS A5557 (6.3.3 Adhesive strength test method) at a tensile speed of 3 mm / min. It was measured.

3. 3. Step c
After the base material was cured to form the base 7, the adhesive 8 was applied onto the base 7.

4. Step d
Immediately after the adhesive 8 was applied, the tile 9 was attached onto the adhesive 8 as shown in FIGS.

With the above outer wall repair method, it was possible to easily repair a tiled outer wall that is beautiful and has excellent resistance to deformation.

1 pillar 2 furring strip 3 stud 4 existing outer wall 5 washer 6 screw 7 base (base material)
8 adhesive 9 tiles

Claims (4)

Step a of driving a screw into the outer wall of a building via a washer,
After step a, a base material having a viscosity of 1000 to 6000 Pa · s measured at a rotation speed of 1 rpm at 23 ° C. with a B-type viscometer in accordance with JIS K 6833 is placed inside the base material. Step b of applying on the outer wall so that the head is embedded,
After the step b, the step c of applying the adhesive on the base on which the base material has been cured,
After the step c, the step d of attaching the tile on the adhesive is provided.
The tensile adhesive strength between the base and the surface of the screw and washer is 0.30 N / mm ² or more.
Do not carry out the net material laying process when repairing the outer wall,
Exterior wall repair method for buildings. The outer wall is lath mortar or siding
The screw is driven into a pillar and a stud holding the outer wall via the outer wall.
The method for repairing the outer wall of a building according to claim 1. The screw striking interval in the left-right direction of the screw is 150 to 600 mm, and the screw striking interval is 150 to 600 mm.
The outer diameter of the washer is 10 to 40 mm.
The method for repairing the outer wall of a building according to claim 1 or 2. The base material contains a urethane resin or a modified silicone resin.
The method for repairing an outer wall of a building according to any one of claims 1 to 3.

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