JP6876472B2 - Repainting method - Google Patents

Description

The present disclosure relates to a repainting method, a perforator used in this repainting method, and a building repainted by the repainting method.

Conventionally, in an existing building, when the coating film of an existing building material such as an outer wall or a roof deteriorates over time, it is known that the deterioration of appearance quality can be suppressed by repainting the top coating on the old coating film. (See, for example, Patent Document 1).
Further, as a paint used for a building material of such a building, a paint having both moisture permeability and waterproofness is known (for example, Patent Document 2). This coating material contains a silicon resin emulsion and a synthetic resin emulsion other than the silicon resin. For example, an acrylic silicon resin emulsion, a silicon resin emulsion, a dispersant, a defoaming agent, and a film forming aid. , A color pigment, an extender pigment, and a pH adjuster are blended.

Japanese Unexamined Patent Publication No. 2000-84480 Japanese Unexamined Patent Publication No. 2003-55600

However, in the conventional recoating, since a new topcoat is simply applied on the old coating film to form a new coating film, the following problems may occur.
At the time of painting, a slight void portion may be formed under the coating film. Such voids may occur depending on the work quality, but are particularly likely to occur during stucco coating in which the paint contains aggregate to make the coated surface uneven.
When the void portion exists under the coating film in this way, dew condensation occurs in the void portion due to the temperature difference of the outside air, and when the temperature of this portion rises due to sunlight or the like, the air and moisture in the void expand. , There was a risk that the coating film would swell outward and the appearance quality would deteriorate.

Further, by using a moisture-permeable paint such as the paint described in Patent Document 2 as the paint, air and moisture (water vapor) expanded in the above-mentioned void portion pass through the coating film and are released to the outside. Therefore, it is possible to suppress the problem that the coating film is bulged.

However, even if the paint used for the top coating has moisture permeability, when a plurality of coating films are overlapped by repainting as described in Patent Document 1, the thickness of the coating film increases. Only the moisture permeability and breathability are reduced. Therefore, when the air and moisture in the voids expand, the coating film cannot pass through the gap, and the coating film may swell as described above.

An object of the present disclosure is to provide a repainting method capable of improving the appearance quality of an existing building material after repainting, a perforating tool used in the repainting method, and a building provided with a new coating film by the repainting method. And.

The repainting method of the present disclosure is a repainting method of repainting from the old coating film of an existing building material.
The recoating method is characterized in that after a plurality of holes are formed in the old coating film, the old coating film is overcoated to form a new coating film.

The building material may be a metal material.
Further, it is preferable that the paint used for the topcoat coating has moisture permeability.
Further, when a plurality of holes are formed in the old coating film, the plurality of needles may be pierced into the old coating film to pierce the holes by using a hole-drilling tool in which a plurality of needles are provided. preferable.

The perforating tool of the present invention includes a grip portion, a cylindrical rotating body rotatably supported by the grip portion, and a plurality of needles projecting from the outer circumference of the rotating body in the outer diameter direction. It is a drilling tool characterized by being provided with.
Further, the building of the present invention is characterized in that the building material forming the outer surface of the building is provided with a new coating film which is overcoated on the old coating film by the above repainting method.

In the building material repainted by the repainting method of the present disclosure, when the air and moisture in the voids generated under the old coating film expand, the air and vaporized moisture (water vapor) are transferred to the old coating portion. Can pass through the hole. Therefore, when the new coating film is overlaid on the old coating film, the air and water vapor pass through more easily than the air and water vapor pass through the entire thickness of both coating films, and the new coated surface becomes easier. It is possible to suppress swelling. Therefore, the appearance quality after repainting can be improved.

Further, when the building material is a metal material, the temperature of the building material tends to be high due to sunlight or the like, and the air and moisture in the voids are likely to expand. The improvement effect becomes more remarkable.
Further, when a moisture-permeable paint is used as the paint used for the top coating, the air and water vapor in the above voids easily pass through the new coating film, and the effect of suppressing the swelling of the new coated surface and the effect of improving the appearance quality due to the effect. Can be surely obtained.
Further, when a hole-drilling tool is used when making a plurality of holes in the old coating film, a plurality of holes can be provided at the same time, and the hole-drilling workability is excellent.

The hole-drilling tool of the present invention is excellent in workability because it can make a plurality of holes in the old coating film simply by gripping the gripping portion and moving the rotating body along the old coating film while rolling it.
Further, the building of the present invention can improve the appearance quality after repainting the building material forming the outer surface of the building.

It is sectional drawing which shows the outer wall material which is the object of repainting by the repainting method of Embodiment 1 of this invention. It is sectional drawing which shows the state of the existing building material after carrying out the drilling process by the repainting method of Embodiment 1. FIG. It is sectional drawing which shows the state which supercoated the new coating film on the repainting film of the existing building material by the repainting method of Embodiment 1. FIG. It is a front view which shows the drilling tool of Embodiment 1. FIG. It is a side view which shows the drilling tool of Embodiment 1. FIG. It is sectional drawing which shows the comparative example with the repainting method of Embodiment 1. FIG.

Hereinafter, a mode for carrying out the repainting method of the present disclosure will be described with reference to the drawings.
(Embodiment 1)
Hereinafter, the repainting method of the first embodiment, the perforating tool used in the repainting method, and the unit building repainted by the repainting method will be described with reference to the drawings.

FIG. 1 is a cross-sectional view showing an outer wall material 10 as an existing building material to be repainted by the repainting method of the first embodiment.
In the first embodiment, the outer wall material 10 is made of a metal material (for example, aluminum).

Further, the outer wall material 10 is used for the unit building, and is covered with the factory coating film 30 painted at the factory at the time of manufacturing the building unit for constructing the unit building. The factory coating film 30 is formed by stucco ball blowing coating, and is formed by overcoating the factory coating film 30 on the undercoat layer 20 having the aggregate 21. As the aggregate 21, marble, sand, or the like can be used.

Further, the existing outer wall material 10 has been repainted once after the construction of the unit building, and the repainting film 40 is provided on the factory coating film 30.
A moisture-permeable paint is used for the recoating film 40 and the factory coating film 30. As the paint having such moisture permeability, for example, silicon-based, fluorine-based, polyamide-based, and acrylic-based polyurethane-based paints can be used. Specifically, the paints described in Patent Document 2, Japanese Patent Application Laid-Open No. 63-43976, Japanese Patent Application Laid-Open No. 1-281180, Japanese Patent Application Laid-Open No. 2-150475, Japanese Patent Application Laid-Open No. 10-110136, Japanese Patent Application Laid-Open No. 11 The paints described in JP-A-92708, JP-A-2002-226763, JP-A-2002-332425, and the like can be used, but the present invention is not limited thereto.

Further, in the factory coating film 30 formed by the stucco ball blowing coating described above, voids 100 are formed due to the uneven shape of the aggregate 21.
The void 100 contains moisture in addition to air due to dew condensation due to a temperature difference. When the void 100 becomes hot due to sunlight or the like, the air and moisture in the void 100 may expand.

In this case, since the factory coating film 30 and the repainting film 40 have moisture permeability and breathability, the expanded air and moisture become water vapor 110 and are released into the outside air as shown by arrows in FIG. To. Therefore, the coating film strength has a relationship that exceeds the swelling strength of the void 100 (coating film strength> swelling strength), and both coating films 30 and 40 do not cause large swelling or breakage. Since the outer wall material 10 is made of a metal material, the void 100 tends to have a higher temperature, and the air and moisture inside the void 100 tend to expand more easily.

Next, a procedure for repainting the outer wall material 10 as the existing building material shown in FIG. 1 from the second time onward by the repainting method according to the first embodiment will be described.
In this repainting method, a drilling step is performed before painting.
FIG. 2 is a cross-sectional view showing an outer wall material 10 (painting target) which is an existing building material after the drilling step is performed. In the hole-drilling step, at least a plurality of holes 41 are formed through the repaint film 40. In this case, the holes 41 may be opened so as to reach the factory coating film 30, or even if the holes 41 do not completely penetrate the repainting film 40, the effects described below can be obtained.

Here, the drilling tool 200 used in this drilling step will be described with reference to FIGS. 4A and 4B.
The hole punching tool 200 includes a grip portion 210, a roller (rotating body) 220, and a needle 221.
The grip portion 210 includes a grip pipe 211 and a roller support portion 212.
The gripping pipe 211 is a metal or resin pipe having a thickness that makes it easy to grip.

As shown in the drawing, the roller support portion 212 has a substantially inverted U shape by a pair of support pieces 212a, 212a and a support portion 212b that supports the pair of support pieces 212a, 212a in a state of being separated and facing each other. Has been formed.
One end of the gripping pipe 211 is connected to the support portion 212b in a state of standing upright from the support portion 212b at a substantially right angle.

The roller 220 is formed in a cylindrical shape, and both ends in the axial direction are closed by a lid member 222. The lid members 222 at both ends are rotatably supported by a pair of support pieces 212a and 212a around the roller support shaft 213.

As the needle 221, for example, a metal such as iron or stainless steel can be used, and in the first embodiment, a rolled steel material for general structure (SS) is used. The needle 221 is formed so as to protrude from the outer circumference of the roller 220 in the outer diameter direction and have a pointed tip, and has a total length of 5 to 30 mm and a radius of about 0.5 to 3 mm. , A plurality of them are provided at regular intervals along the axial direction, and a plurality of rows are provided in the circumferential direction. Further, as shown in the drawing, the needles 221 are arranged alternately in the circumferential direction in adjacent rows with different positions in the axial direction.

Further, in the first embodiment, the needle 221 has a shape in which the conical portion 221b is raised from the tip surface of the columnar root portion 221a. The root portion 221a is formed in a size in a range of about 0 to 10 mm in length and about 1 to 3 mm in radius. In addition, the length 0 means that the one which does not form the root portion 221a is also included.
The conical portion 221b is formed to have a length of about 5 to 30 mm and a radius of about 0.5 to 2 mm.

The roller 220 preferably has a diameter of about 30 to 100 mm and a width of about 100 to 200 mm. Further, it is preferable to provide about 100 to 500 needles 221 for example.

As described above, in the hole-drilling step, the hole 41 penetrating the repaint film 40 is made by using the hole-drilling tool 200 shown in FIGS. 4A and 4B.
Specifically, the operator grips the gripping pipe 211 of the gripping portion 210 and rolls the roller 220 along the repainting film 40. As a result, the needle 221 can pierce the repainted film 40 at a substantially right angle to form a plurality of holes 41 penetrating the repainted film 40.

After performing this drilling step, as shown in FIG. 3, a paint is overcoated on the recoat film 40 to form a new coating film 50. The new coating film 50 also uses a moisture-permeable paint. Further, as this paint, the above-mentioned silicon-based or fluorine-based paint can be used.

(Action of Embodiment 1)
Next, the operation of the first embodiment will be described.
Before explaining the operation of the first embodiment, a case where the new coating film 50 is formed on the recoating film 40 without performing the drilling step will be described with reference to FIG.

As described with reference to FIG. 1, when a gap 100 (see FIG. 1) is formed under the factory coating film 30, when the outer wall material 10 becomes hot due to sunlight or the like, the air and moisture in the gap 100 expand. To do. In particular, when the outer wall material 10 is made of metal, the temperature tends to be higher, and the air and moisture in the gap 100 are likely to expand.

In this way, when the air or moisture in the void 100 expands, as shown in FIG. 5, when the coating film overlaps with the factory coating film 30, the repainting film 40, and the new coating film 50, the thickness of the coating film increases. Even if each of the coating films 30, 40, and 50 has moisture permeability, the overall moisture permeability and breathability are lowered.
Therefore, as shown in FIG. 5, when the inside of the gap 100 expands, air and water vapor 110 cannot pass through the triple coating films 30, 40, and 50, and are not discharged to the outside. For this reason, an air reservoir 120 as shown in FIG. 5 is generated under each of the coating films 30, 40, 50, and a phenomenon occurs in which the factory coating film 30, the repainting film 40, and the new coating film 50 swell, resulting in appearance quality. Decreases. At this time, if the swelling strength exceeds the coating film strength (coating film strength <swelling strength), the factory coating film 30, the repainting film 40, and the new coating film 50 may be damaged.

On the other hand, in the first embodiment, as shown in FIG. 3, when the air or moisture inside the void 100 expands, the air or water vapor 110 easily passes through the hole 41 of the repaint film 40. Then, based on the moisture permeability of the new coating film 50, it passes through the new coating film 50 and is discharged to the outside.
That is, as for the breathability and moisture permeability of the factory coating film 30, the repainting film 40, and the new coating film 50, if they have moisture permeability and breathability that can pass through the factory coating film 30 and the new coating film 50, respectively. Good. Therefore, as shown in FIG. 5, the air and moisture in the void 100 can be easily released to the outside as compared with the one in which the three coating films 30, 40, and 50 are directly overlapped.
Therefore, high appearance quality can be maintained by suppressing the swelling phenomenon and breakage of the coating film.

(Effect of Embodiment 1)
The effects of the repainting method of the first embodiment are listed below.
1) The repainting method of the first embodiment is
It is a repainting method of repainting from the factory coating film 30 and the repainting film 40 as the old coating film of the outer wall material 10 as the existing building material.
After forming a plurality of holes 41 in at least the repainted film 40 of the old coating film, the new coating film 50 is formed by performing top coating on the factory coating film 30 and the repainting film 40.
Therefore, when the air and moisture in the void 100 portion under the factory coating film 30 and the repainting film 40 as the old coating film expand, the expanded air and expanded water vapor form holes 41 in the portion of the repainting film 40. Can pass. Therefore, it is possible to suppress the expansion of the new coating film 50 due to the expanded air and the expanded steam, and it is possible to improve the appearance quality after repainting.

2) The repainting method of the first embodiment is
The outer wall material 10 is made of a metal material.
Therefore, when the outer wall material 10 is a metal material, the temperature tends to be high due to sunlight or the like, and the air and moisture in the void 100 tend to expand. Therefore, the effect of suppressing the swelling of the new coating film 50 and the resulting improvement in appearance quality. The effect becomes more pronounced.

3) The repainting method of the first embodiment is
The paint used for painting the new coating film 50 is characterized by having moisture permeability.
Therefore, the expanded air and the expanded water vapor in the void 100 easily pass through the new coating film 50, and the effect of suppressing the swelling of the new coating film 50 and the effect of improving the appearance quality can be surely obtained.

4) The repainting method of the first embodiment is
When a plurality of holes 41 are formed in the factory coating film 30 and the repainting film 40 as the old coating film, the plurality of needles 221 are used as the old coating film by using the hole punching tool 200 in which the plurality of needles 221 are projected. It is characterized in that a hole 41 is formed by piercing the factory coating film 30 and the repainting film 40 of the above.
Therefore, when a plurality of holes 41 are formed in the factory coating film 30 and the repainting film 40, the plurality of holes 41 can be formed at the same time, and the hole drilling workability is excellent.

5) The drilling tool 200 of the first embodiment is
Grip 210 and
A cylindrical roller 220 rotatably supported by the grip 210,
A plurality of needles 221 projecting from the outer circumference of the roller 220 in the outer diameter direction, and
It is characterized by having.
Therefore, in the drilling step, the operator simply grips the grip portion 210 and moves the roller 220 along the factory coating film 30 and the repainting film 40 while rolling the roller 220 to the factory coating film 30 and the repainting film 40. A plurality of holes 41 can be formed, and workability is excellent.

6) The unit building A of the first embodiment is
The outer wall material 10 as a building material forming the outer surface of the building includes a new coating film 50 top-coated on the old coating film by the recoating method of the first embodiment.
Therefore, the appearance quality of the outer wall material 10 forming the outer surface of the building after repainting can be improved.

Although the repainting method of the present disclosure has been described based on the embodiments, the specific configuration is not limited to these embodiments, and the invention according to each claim in the claims is not limited to these embodiments. Design changes and additions are permitted as long as they do not deviate from the gist.

In the embodiment, the repainting shows an example in which the repainting film is further painted on the repainted film once repainted, but the repainting is not limited to this. For example, it can be applied when repainting on the factory coating film shown in the embodiment. Alternatively, it can be applied even when repainting three or more times. At the time of repainting three or more times, if the moisture permeability of each coating film is the same as that of the embodiment, the work is performed so as to surely penetrate at least two layers of the coating film. In that case, adjust by setting the strength of pressurization by the needle and the length of the needle.

Further, in the embodiment, the outer wall is shown as the target of repainting, but the present invention is not limited to this, and can be applied to other existing building materials such as roofs. Further, although a metal material is exemplified as an existing building material, any building material to be painted can be applied to materials other than metal.

Further, in the embodiment, a tool provided with a grip portion, a rotating body, and a needle as a drilling tool is shown, but the present invention is not limited to this, and for example, a tool having a protruding needle is like a flat plate. A non-rotating body in which a plurality of needles are provided may be used. Further, the shape of the needle is not limited to the shape shown in the embodiment as long as it can make a hole in the coating film.

10 Exterior wall material (building material)
30 Factory coating film (former coating film)
40 Repaint film (old paint film)
41 Hole 50 New coating film 100 Void 200 Hole punch 210 Grip part 220 Roller (rotating body)
221 Needle A unit building

Claims (2)

It is a repainting method in which the old coating film with the moisture-permeable paint of the existing building material is repainted with the moisture-permeable paint.
Using a perforating tool in which a plurality of needles are projected into the old coating film , the plurality of needles are pierced into the old coating film to make a plurality of holes, and then a top coat is applied over the old coating film. A repainting method characterized by forming a new coating film by painting. In the repainting method according to claim 1,
A repainting method characterized in that the building material is a metal material.

Images