JPH0236735B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for manufacturing a construction board having a pseudo-mortar ricin coating surface suitable for interior and exterior construction materials.

Recently, for architectural boards, inner and outer wall materials have been commercially available that have improved the cracking defects of mortar ricin walls. However, it has a distinctly different feel from the mortar ricin-like painted surface and lacks a natural feel, and an improvement has been desired. As examples of countermeasures, techniques have been proposed such as ○A uniformly dispersing silica sand, ○B increasing the particle size of silica sand, and ○ forming an uneven pattern on the base coat itself. However, even if the above-mentioned techniques ○I to ○C were simply adopted, a product that was satisfactory in terms of work efficiency, cost, appearance, etc. could not be obtained.

In order to eliminate these drawbacks, the present invention forms an uneven pattern on the thin metal plate itself that is not diminished by the coating film, and also applies a thin base coat that also serves as an adhesive. 1
By spreading the particles evenly so that there are 20 to 100 particles per square centimeter, and applying an overcoat over the entire decorative surface with a spray gun so as not to reduce the unevenness, the granules become uneven. The convex pattern on the surface is distributed more densely from the top surface, and then both coats are dried and baked to prevent the granules from peeling off from the decorative surface, and to create a synergistic effect between the uneven pattern of the metal sheet and the undulations of the unevenly distributed granules. To provide a method for manufacturing a construction board that produces a mortar lysine coated surface that has an effect close to natural appearance.

An embodiment of the method for manufacturing a construction board having a pseudo-mortar ricin coating surface according to the present invention will be described in detail below using drawings. FIG. 1 is an enlarged partial cross-sectional view showing an example of the construction board described above. Yes, 1 consists of a fixed length body cut to an arbitrary length from a thin metal plate,
A concavo-convex pattern 2 of an arbitrary size and a height difference of 0.4 to 1 mm or less is formed on a portion of the thin metal plate 1 that becomes the decorative surface (outer surface). As the metal thin plate 1, one type of surface-treated steel plate such as galvanized iron plate, colored steel plate, vinyl chloride steel plate, aluminum plate, or stainless steel plate is used, and the plate thickness is mainly about 0.27 to 1.6 mm. It is something. To explain further, specific examples of the uneven pattern 2 include crater-like, citron-like, cast-like, trabatine-like, stucco-like, stipple-like, commonly known as dolome, and arbitrary patterns that cannot be called, and those whose heads are pressed with a trowel. It consists of one type of shape. Incidentally, the height difference between the concave portions 2a and the convex portions 2b of the uneven pattern 2 is set to be approximately 0.4 to 1 mm or less. This is due to the workability of the thin metal plate 1 (limit to clarifying distortion and twisting patterns), maintenance of stability as a base, and function as a natural-looking fabric. Reference numeral 3 denotes a base coat, which is made of a type of paint made of synthetic resin, for example, and its thickness is approximately 5 to 100 mm (dry state) in the above case. This is metal thin plate 1
This is to prevent the uneven pattern 2 formed on the surface from being diminished by the coating film. 4 is a granular material and the above base coat 3
It is sprinkled on top to create a pseudo-mortar ricin feel. As the granules 4, at least one of silica sand, ceramic grains, and glass grains is used.
The size of this granular material 4 depends on the relative relationship with the areas of the concave portions 2a and convex portions 2b (areas shown by hatching) of the uneven pattern 2 described above in FIG. 2, but for example, in FIG. As shown in the figure, the particle diameter is about 0.5 to 1.7 mm when the scale is 1/1, and this mixed particle 4 is preferable for creating the texture of mortar ricin. Also,
The distribution amount of the particulate matter 4 is 20 to 100 pieces/cm ² , and most of these particulate matter 4 protrude from the top surface of the convex portion 2b. Reference numeral 5 denotes an overcoat, which is made of, for example, a type of paint made of synthetic resin, and is applied to the entire decorative surface of the uneven pattern 2 and the granular material 4 to a thickness that does not diminish the contours of these, and is coated with a spray gun. By coating, the particulate matter 4 formed on the convex part 2b is concentrated on the inclined surface other than the top surface of the convex part 2b due to the synergistic effect with the natural falling of the particulate matter 4, and the particulate matter 4 formed on the convex part 2b is is only slightly present. The physical properties of this paint include, for example, a viscosity of 0.5 to 2.0 poise, a surface tension of 15 to 30 dynes/cm, and a working temperature of 15 to 30°C, preferably around 25°C.

Next, a method for manufacturing a construction board having a pseudo-mortar lysine coated surface according to the present invention will be described. For example, a line configuration as shown in FIG. 3 is used. Third
In the figure, 30 is a metal sheet feeding device, and 31 is a base coat coating device, such as a flow coater, a sprayer, etc., which is also equipped with a temperature control and circulation mechanism. Reference numeral 32 denotes a granular material supply device, which is composed of a hopper 33 for storing the granular material 4, a roller 34, and a wire mesh 35 for dispersion, and supplies a set amount of silica sand, for example, per square centimeter.
It is capable of uniformly dispersing 100 to 20 pieces. 36
is an overcoat application device consisting of a spray gun, and has a mechanism similar to, for example, the base coat application device described above. The amount of coating is, for example, to form a coating layer of about 5 to 50 microns (wet). 37
is a drying oven, for example, at 90 to 110℃ for 8 minutes.
After that, it can be heated to about 190 to 230°C for 1 minute. Reference numeral 38 denotes a conveyor, which is a conveyor that is appropriately combined with a roller conveyor, a belt conveyor, etc., and whose line speed is set according to its function. In other words, if we divide the entire process into sections A to D, section A is 90 to 120 m/min, and sections B and C are 50 m/min.
It is a device that can be set to ~60m/min, and section D to 1~10m/min. Therefore, to explain in detail the manufacturing method according to the present invention, first, for example, a color steel plate (thickness 0.27 mm) is embossed with a concavo-convex pattern as shown in FIG. 2a to a depth of 0.8 mm. Cut the thin metal plate to a fixed length and feed the metal sheet 30
A curtain flow coater type base coat application device 3 applies the base coat one layer at a time.
1 intermittently supplied at a speed of, for example, 100 m/min,
It is allowed to pass. Next, when the thin metal plate 1 passes through this base coat applicator 31, a base coat 3 of, for example, about 20 to 50 microns (wet) is applied to the decorative surface thereof. The coating thickness of this base coat 3 is such that the uneven pattern 2 formed on the thin metal plate 1 is not diminished. Further, the viscosity of the paint for base coat 3 is approximately 20 poise at 25°C. Next, when this base coat 3 does not dry,
Preferably, it reaches the bottom of the particulate feeder 32 almost immediately after the base coat is applied. Therefore, 20 to 100 pieces/cm ² of silica sand 4 with a particle size of about 0.5 to 1.7 mm are added.
It is mixed and scattered as if it were present. The scattered silica sand 4 is present with almost a gap between them, and it appears that it is adhered to the base coat 3 only on the surface that is in contact with the thin metal plate 1 visually. Further, an overcoat 5 is applied onto the dispersed silica sand 4 from an overcoat application device 36 consisting of a spray gun. In this case, the base coat 3 is uncured, and the overcoat 5 is made of the same paint as the base coat 3. In addition, in this case, the base coat 3 is not dried,
In addition, in the case of a paint made of the same material as the base coat 3, if an overcoat is applied a few seconds after the silica sand is spread, both paints become more integrated. In addition, the adhesion status of silica sand 4 after applying overcoat 5 is as follows.
The state was as shown in Figure a, and the dispersion state was such that there was little silica sand 4 on the convex portions 2b of the uneven pattern 2, and most of it was dispersed on the slope portions of the convex portions 2b and the concave portions 2b. As will be described later, the appearance after drying exhibits a texture in which only the protrusions 2b show more of the background (coating surface). Next, this is dried in a drying oven 37.
(or its equipment), and is dried and then baked into the shape shown in FIG. 4b to produce a finished product. Therefore, the unevenness formed by the silica sand 4 and its uneven distribution are further enlarged and become clearer, and the synergistic effect with the embossing of the thin metal plate 1 gives it an unimaginably natural feel. This gives a finished appearance. The effect of the fixed structure of the silica sand 4 becomes even more pronounced when the viscosity of the granules 4, the clay of the base coat 3 and overcoat 5, the temperature, and the coating thickness are set to a certain degree. The silica sand 4 did not fall off at all due to the anchoring effect of the tight and thin adhesive layer.

As described above, according to the method of manufacturing a construction board having a pseudo-mortar lysine coated surface according to the present invention, a base coat, granules, and an overcoat are laminated in this order on the uneven pattern formed using the physical properties of a thin metal sheet. At the same time, a base coat and an overcoat are applied so that the uneven pattern of the uneven pattern and the shape of the particulates are not diminished. death,
In addition, we specified the depth of the uneven pattern, the size of the granules, and the thickness of the base coat and overcoat.
It is characterized by the ability to continuously produce architectural boards with a more natural appearance. Furthermore, this kind of architectural board has the advantage that it can be produced in large quantities in a short time and has a substantially homogeneous pseudo-mortar lysin coated surface.

[Brief explanation of drawings]

FIG. 1 is an enlarged longitudinal cross-sectional schematic view showing a part of a construction board manufactured by the method of manufacturing a construction board having a pseudo-mortar lysine coated surface according to the present invention, and FIGS. 2a and b are An explanatory diagram showing an example of an uneven pattern on a thin metal sheet, which is the material of the board, FIG. It is an explanatory view showing a fixed state of particulate matter. 1... Metal thin plate, 2... uneven pattern, 3... base coat, 4... granular material, 5... overcoat.

Claims (1)

[Claims] 1. On the entire decorative surface of a thin metal plate formed with an uneven pattern with a height difference of 0.4 to 1 mm or less and cut to a regular length, a base coat is applied with a wet coating of about 5 to 100 microns that does not reduce the unevenness, and the base coat is applied. The particle size is 0.5 to 1.7 mm on the coat while it is not cured.
Mix and distribute 20 to 100 φ particles per square centimeter, and apply an overcoat to the decorative surface using a spray gun to a thickness that does not reduce the granules and uneven pattern. Production of a construction board having a pseudo-mortar lysin coated surface, characterized in that the above-mentioned granules are distributed in a concave pattern with a higher density than the top surface of the convex pattern, and then both the above-mentioned coats are dried and fired. Method.