JP3235731U - Building materials - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a building material having an excellent appearance.
SOLUTION: A base material 20 formed of a metal material, a first surface uneven layer 26 formed on the surface side of the base material 20 and having fine irregularities on the surface of the layer due to fine particles inside the layer, and a first surface uneven layer 26. The second surface uneven layer 28 is provided on the surface side of the surface uneven layer 26 and is formed in a color different from that of the first surface uneven layer 26, and exhibits fine irregularities on the layer surface due to fine particles inside the layer. A second surface uneven layer 28 is provided on top of the first surface uneven layer 26 so that the first surface uneven layer 26 is exposed on the surface.
[Selection diagram] Fig. 3

Description

The present invention relates to building materials, and more particularly to building materials that can be suitably used for outdoor structures such as greenhouses and carports and indoor structures such as indoor greenhouses.

For simple outdoor structures such as greenhouses for growing and growing plants such as greenhouses and carports that protect vehicles such as automobiles and bicycles from wind and rain, appropriate surfaces such as rust prevention treatment A treated metal building material is suitably used as a skeleton material (see Patent Document 1 and Patent Document 2). Further, such metal building materials are adopted not only for outdoor structures but also for indoor structures such as indoor greenhouses.

Utility Model Registration No. 3193288 Utility Model Registration No. 3211447

By the way, the outer surface of building materials used for outdoor structures and indoor structures is coated by electrodeposition coating or spray coating to improve rust prevention performance and antifouling performance, and to extend the service life outdoors. Improvements are being made. However, most of the building materials used for structures with simple structures are painted with a single color and have an inorganic appearance, and structures using the building materials as skeleton materials are used as structures. Even if it could exert its full function, it tended to have a similar appearance and its texture was poor.

Therefore, it is an object of the present invention to provide a building material having an excellent appearance.

In order to overcome the problems and achieve the intended purpose, the first device of the present application is
A base material made of metal and
A first surface uneven layer formed on the surface side of the base material and exhibiting fine irregularities on the surface of the layer due to fine particles inside the layer.
A second surface uneven layer provided on the surface side of the first surface uneven layer and formed in a color different from that of the first surface uneven layer, and the inside of the layer exhibits fine irregularities on the layer surface due to fine particles. The gist is that it has.
In this way, by providing the first surface unevenness layer on the surface of the base material, which exhibits minute irregularities on the surface of the layer, it is possible to enhance the design of the appearance of the building material. In addition, while ensuring the functions required for building materials such as rigidity with the base material, the surface is given a rough texture due to the minute irregularities on the layer surface, giving it an antique-like appearance with a rusty texture due to aging. Can be done. In addition, the surface gloss is suppressed by the diffused reflection effect of light due to the minute irregularities on the layer surface, and a satin-like matte appearance can be realized.

The second idea is
On the surface side of the first surface unevenness layer, a second surface unevenness layer that exhibits fine irregularities on the layer surface due to fine particles inside the layer is formed in a color different from that of the first surface unevenness layer. The gist is that the second surface uneven layer is provided on top of the first surface uneven layer so that the first surface uneven layer is exposed on the surface.
In this way, on the surface of the first surface unevenness layer exhibiting minute irregularities on the layer surface, a second surface unevenness layer exhibiting minute irregularities on the layer surface is provided in different colors, and the first surface unevenness layer and the first surface unevenness layer are provided. By exposing both of the two surface uneven layers to the surface, it is possible to further enhance the design of the appearance of the building material and realize an antique-like appearance with a rusty texture.

The third idea is
The base material is formed in a long columnar shape and has a long columnar shape.
The first surface uneven layer is provided over the entire width of at least one surface of the base material, and the second surface uneven layer is provided on the surface of the first surface uneven layer in the width direction of the base material. The gist is that it is provided so as to be biased toward.
In this way, by providing the second surface uneven layer on the surface of the first surface uneven layer so as to be biased in the width direction of the base material, a non-homogeneous appearance can be obtained, and a more antique-like texture can be obtained. It is possible to achieve a high appearance.

The fourth idea is
It is a gist that the formation area of the second surface uneven layer per unit area is gradually reduced from one side to the other side in the width direction of the base material.
In this way, by gradually reducing the formation area of the second surface uneven layer, it is possible to enhance the inhomogeneity of the appearance and realize a more antique-like appearance.

According to the present invention, the degree of freedom in the exterior design of building materials is increased, and it is possible to realize a texture having excellent design such as antique style.

It is a schematic diagram which shows the greenhouse formed by using the building material of this invention. It is an enlarged view of the part A of FIG. It is a schematic diagram which shows a part of the X-ray cross section of FIG.

Next, the building material according to the present invention will be described below with reference to the accompanying drawings with reference to suitable examples.

FIG. 1 shows a greenhouse 10 composed of a building material according to the present invention as a skeleton forming material. In FIG. 1, the building material 12 according to the present invention is used as the skeleton forming material that forms the outer contour of the greenhouse 10, but all the skeletons of the greenhouse 10 are formed by the building material 12 according to the present invention. You may try to do it. Further, in FIG. 1, reference numeral 14 is a wall panel made of a transparent resin material such as a glass plate or an acrylic plate that closes the gap, and reference numeral 16 indicates a door that can open and close the doorway connected to the internal space of the greenhouse 10. ing.

Here, as shown in FIGS. 1 to 3, the building material 12 is a metal material having a metal material as a base material 20, and a surface layer 22 is formed on the surface of the base material 20. Then, in the surface layer 22, the undercoat layer 24 is formed on the surface of the base material 20, and the first surface uneven layer 26 having an uneven surface is formed so as to overlap the surface side of the undercoat layer 24. At the same time, a second surface uneven layer 28 having an uneven surface is formed so as to overlap the surface side of the first surface uneven layer 26. Here, the material of the base material 20 constituting the building material 12 is not particularly limited, and conventionally known materials such as aluminum, stainless steel, steel, and various alloy materials that can be used as building materials for outdoor buildings are used. Can be adopted. Further, as the base material 20, a conventionally known metal material such as electrodeposition coating or spray coating can be adopted, and in this embodiment, the base material 20 is provided with weather resistance by electrodeposition coating. The raised aluminum material is adopted.

The first surface uneven layer 26 is a layer formed by applying a paint having a predetermined color containing fine particles to the surface of the base material 20 and drying and curing the paint. That is, the first surface uneven layer 26 exhibits fine irregularities on the surface of the layer due to the fine particles contained inside the layer made of the coating film formed by the paint. Note that FIG. 3 schematically shows the unevenness that appears on the layer surface of the first surface unevenness layer 26 due to the fine particles. Here, the average particle diameter of the fine particles contained in the first surface uneven layer 26 is not particularly limited. By making the fine irregularities appear on the layer surface of the first surface uneven layer 26 by the fine particles, it is possible to realize a satin-like texture having a matte appearance in which the surface gloss is suppressed by the diffused reflection effect of light. ..

Similarly, the second surface uneven layer 28 is a layer formed by applying a paint having a predetermined color containing fine particles to the surface of the first surface uneven layer 26 and drying and curing it. That is, the second surface uneven layer 28 exhibits fine irregularities on the surface of the layer due to the fine particles contained inside the layer made of the coating film formed by the paint. Here, the average particle diameter of the fine particles contained in the second surface uneven layer 28 is not particularly limited. By making the fine irregularities appear on the layer surface of the first surface uneven layer 26 by the fine particles, it is possible to realize a satin-like texture having a matte appearance in which the surface gloss is suppressed by the diffused reflection effect of light. ..

Here, the fine particles contained in the first surface uneven layer 26 and the second surface uneven layer 28 may be resin powder such as acrylic resin or polyethylene resin, or metal powder such as aluminum is adopted. It is also possible to do.

In this way, on the surface of the first surface unevenness layer 26 which exhibits minute irregularities on the layer surface, the second surface unevenness layer 28 which exhibits minute irregularities on the layer surface is provided in different colors, and the first surface unevenness layer is provided. By exposing both the 26 and the second surface uneven layer 28 to the surface, the design of the appearance of the building material 12 can be enhanced. In addition, while ensuring the functions required for the building material 12 such as rigidity by the base material 20, the surface is given a rough texture due to the minute irregularities on the layer surface, giving an antique-like appearance with a rusty texture due to aging. can do.

Further, as shown in FIGS. 1 to 3, in the building material 12 in this embodiment, the first surface uneven layer 26 is provided on the entire surface of the base material 20 with a substantially uniform thickness, and the first surface uneven layer 26 is provided. On the surface of the surface uneven layer 26, a second surface uneven layer 28 is provided so as to be biased in the width direction of the base material 20. That is, as shown in FIG. 3, the thickness of the second surface uneven layer 28 is changed in the width direction of the base material 20. Specifically, the second surface uneven layer 28 is provided so as to be biased toward one side in the width direction of the base material 20 extending in the longitudinal direction, and is provided from one side in the width direction of the base material 20. The coating area of the second surface uneven layer 28 per unit area is formed so as to gradually decrease toward the other side. It should be noted that FIGS. 1 and 2 schematically represent the range in which the second surface uneven layer 28 is formed by minute points.

As the coating area of the second surface uneven layer 28 per unit area is gradually reduced in this way, the surface of the building material 12 is more inhomogeneous due to the first surface uneven layer 26 and the second surface uneven layer 28. It has a gradation-like appearance and enhances the aesthetic appearance of the building material 12. Further, on the surface of the building material 12, the density of fine particles per unit area in the second surface uneven layer 28 is also gradually reduced, so that the texture exhibited by the second surface uneven layer 28 can be enhanced. It is possible to form a surface appearance with a high antique texture.

Next, an example of the manufacturing method of the building material 12 according to the present invention will be briefly described. The surface of the base material 20 which has been appropriately surface-treated by electrodeposition coating is degreased by a conventionally known method to remove dust and oil on the surface of the base material 20. After that, a sealer is applied to the surface of the base material 20 to form the undercoat layer 24. Here, the sealer is not particularly limited, but a paint formed by dissolving a polyurethane resin in a solvent can be preferably adopted. Next, the paint mixed with the fine particles is applied so as to be overlapped on the surface of the undercoat layer 24 and then dried to form the first surface uneven layer 26. Here, the paint for forming the first surface uneven layer 26 is not particularly limited, but a paint in which fine particles are mixed in a solution of a polyurethane resin colored in an appropriate color with a pigment or the like in a solvent is preferably used. be able to.

Further, after the first surface uneven layer 26 is dried, a paint mixed with fine particles is applied so as to be overlapped on the surface of the first surface uneven layer 26, and then dried to obtain the second surface uneven layer 28. Form. Similarly, the paint that forms the second surface uneven layer 28 is not particularly limited, but fine particles are mixed in a solution in which a polyurethane resin colored in a color different from that of the first surface uneven layer 26 with a pigment or the like is dissolved in a solvent. The paint can be preferably used. At this time, it is preferable to apply a paint that forms the second surface uneven layer 28 on the surface of the first surface uneven layer 26 so as to be biased in the width direction of the base material 20, and the second surface uneven layer 28 is applied. It is preferable to apply the coating material to be formed so as to gradually decrease from one side to the other side in the width direction of the base material 20. By unevenly applying the paint forming the second surface uneven layer 28 in this way, the second surface uneven layer 28 is biased in the width direction of the base material 20 on the surface of the first surface uneven layer 26. The area of the second surface uneven layer 28 per unit area can be gradually reduced from one side to the other side in the width direction of the base material 20. The method of applying the paint that forms the base layer, the first surface uneven layer 26, and the second surface uneven layer 28 is not particularly limited, and conventional methods such as brush coating, roller coating, and spray coating with a spray gun are used. A known coating method can be adopted, but spray coating is particularly preferable.

20 base material, 26 first surface uneven layer, 28 second surface uneven layer

Claims (4)

A base material made of metal and
A building material, which is formed on the surface side of the base material and has a first surface uneven layer having fine irregularities on the surface of the layer due to fine particles inside the layer. On the surface side of the first surface uneven layer, a second surface uneven layer exhibiting micro unevenness on the layer surface due to fine particles inside the layer is formed in a color different from that of the first surface uneven layer. The building material according to claim 1, wherein the second surface uneven layer is provided on the first surface uneven layer so that the first surface uneven layer is exposed on the surface. The base material is formed in a long columnar shape and has a long columnar shape.
The first surface uneven layer is provided over the entire width of at least one surface of the base material, and the second surface uneven layer is provided on the surface of the first surface uneven layer in the width direction of the base material. The building material according to claim 2, which is provided so as to be biased toward. The building material according to claim 2 or 3, wherein the formation area of the second surface uneven layer per unit area is formed so as to gradually decrease from one side to the other side in the width direction of the base material.

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