JP4482221B2 - Decorative plate manufacturing method and decorative plate - Google Patents

Description

【００４５】
【表２】

【００４６】
【表３】

【００４７】
【表４】

【００４８】
【表５】

【００４９】
表１に示されるように、各実施例で得られた化粧板は、塗膜層が電子線硬化型クリヤーからなる層であるとともに、膨張抑制性を有しているから、鉛筆硬度試験で７Ｈという高い結果が得られているとともに、耐擦傷性、耐熱性、耐熱水性にも優れていることがわかる。
また、表２、３に示されるように、耐汚損性、耐薬品性にも非常に優れていることがわかる。
さらに、表４、５に示されるように、塗膜層に抗菌剤を添加することで高い抗菌性をも付与できることがわかる。
【００５０】
【発明の効果】
本発明によれば、塗膜層形成工程により電子線硬化型クリヤーを硬化させて塗膜層を形成しているから、高密度で硬度が高く、耐擦過性、防汚性、耐薬品性に優れた鏡面性の高い塗膜層を得ることができ、結果として化粧板自体にもこれらの特性を付与することができる。
また、原板製造工程により、基材の一方の面に膨張抑制層を形成して塗装原板を得ているから、基材の表裏における温度、湿度等の環境条件の違いや、水滴の付着等による反りの発生を防止することができる。
さらに、電子線を用いて塗膜層を形成しているから、非常に短時間で塗膜層を形成することができ、化粧板の生産性を向上することができる。
【図面の簡単な説明】
【図１】本発明の第１実施形態に係る化粧板を示す部分断面図である。
【図２】本発明の第２実施形態に係る化粧板を示す部分断面図である。
【符号の説明】
１、３ 化粧板
２ 塗装原板
４ 絵柄層
１０ 基材
１１ 膨張抑制シート（膨張抑制層）
１２ チタン強化紙（強化紙）
１３ 目止め層
１４ 塗膜層[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a decorative plate manufacturing method and a decorative plate, and can be suitably used for, for example, kitchen counters, wash cabinets, flooring materials, interior / exterior materials, and the like.
[0002]
[Background]
Conventionally, wood, MDF (medium specific gravity board), particle board, wood plywood, etc. have been adopted as base materials used for kitchen counters, doors of storage parts of wash cabinets, flooring, etc. It is used as a decorative board by attaching a top plate or laminating a decorative sheet.
[0003]
[Problems to be solved by the invention]
However, the decorative plate obtained by attaching the base material and the decorative material has a problem that the base material and the decorative material are easily peeled off.
In addition, for the decorative plates for kitchens and toilets, it is necessary to deal with the adhesion of dirt due to oil, seasonings, etc., and resistance to chemicals such as detergents. It was not always enough.
[0004]
Further, there is a problem that warpage occurs when environmental conditions such as temperature and humidity are different between the front and back of the decorative board, or when water droplets adhere.
Moreover, in order to improve the mirror surface property of the decorative board surface, it is necessary to repeat the process of coating and polishing the top coat. In this case, since the bonding property between the decorative plate surface and the top coat is weak, there has been a new problem that sufficient chemical resistance, stain resistance, and scratch resistance cannot be obtained.
[0005]
An object of the present invention is to provide a method for producing a decorative board, which has a mirror surface on the surface, and is excellent in antifouling properties, chemical resistance, and weather resistance, and a decorative board.
[0006]
[Means for Solving the Problems]
Specifically, in the method for producing a decorative board according to the present invention, an expansion suppressing layer that suppresses expansion of the base material is formed on one surface of the base material, and a reinforcing paper is pasted on the other surface of the base material. Thereafter, the surface of the reinforced paper is subjected to a sealer treatment with a sealer and a sealing treatment with a sealing paint to form a sealing layer to obtain a coating original plate, and the coating original plate obtained in the original plate manufacturing step. The surface of the sealing layer is polished, and an electron beam curable clear is applied onto the sealing layer, and then irradiated with an electron beam in an inert gas atmosphere to cure the electron beam curable clear to form a coating layer. And a coating film layer forming step to be formed.
[0007]
The substrate in the present invention is not particularly limited, but since it forms an expansion suppression layer, warpage occurs due to differences in external environmental conditions such as temperature and humidity on the front and back of the substrate, adhesion of water droplets to the substrate, etc. It is ideal to use materials that may occur, for example, wood, MDF, particle board, wood plywood, ceramic board and the like.
Here, as the expansion suppression layer, in the case of a base material that may be warped due to differences in external environmental conditions such as temperature and humidity on the front and back surfaces of the base material, it is preferable to employ an expansion suppression sheet. As the expansion suppression sheet, for example, urethane-coated paper can be employed.
[0008]
In addition, there is no risk of warping due to changes in environmental conditions such as temperature, but in the case of a base material that may warp due to water absorption due to adhesion of water droplets, a layer formed by applying a waterproof paint is adopted. It is preferable.
Here, as the waterproof paint, for example, an acrylic resin paint, an acrylic urethane resin paint, an epoxy resin paint or the like can be employed.
In addition, when employ | adopting the base material which does not warp by external environments, such as temperature, as an exterior decorative board, it is preferable to form an expansion | swelling suppression layer by coating.
[0009]
Further, the reinforcing paper is not particularly limited as long as it has a concealing property and prevents color unevenness of the decorative board due to the color of the base material. For example, titanium paper, impregnated paper, reinforced paper, neutral paper Titanium reinforced paper or the like can be used.
In addition, the design property can also be provided to the decorative board by printing these reinforced papers in advance.
[0010]
Moreover, as a sealer, as long as it has a role of firmly adhering the reinforcing paper and the sealing paint while being impregnated between the paper, the sealer made of any material can be adopted, for example, Acrylic resin paint, acrylic urethane resin paint, epoxy resin paint, and the like can be employed.
Furthermore, as the sealing paint, any paint can be employed as long as it serves as a base for imparting a mirror surface to the surface and gives a depth to the reinforced paper.
[0011]
As the electron beam curable clear in the present invention, a resin having a polymerizable unsaturated bond in the molecule can be employed, and for example, an acrylic resin paint or the like can be used.
Moreover, arbitrary gas can be employ | adopted as an inert gas, for example, nitrogen gas etc. can be employ | adopted.
[0012]
According to the present invention, since the coating layer is formed by curing the electron beam curable clear in the coating layer forming step, it has a high density and high hardness, and has excellent scratch resistance, antifouling properties and chemical resistance. An excellent coating layer having high specularity can be obtained, and as a result, these characteristics can be imparted to the decorative board itself.
In addition, because of the original plate manufacturing process, an expansion suppression layer is formed on one side of the substrate to obtain a coated original plate, which may be due to differences in environmental conditions such as temperature and humidity on the front and back of the substrate, adhesion of water droplets, etc. Generation of warpage can be prevented.
Furthermore, since the coating film layer is formed using the electron beam, the coating film layer can be formed in a very short time, and the productivity of the decorative board can be improved.
[0013]
In the above, the pattern layer formation process which forms a pattern layer on the sealing layer of a coating original sheet further can be provided between an original plate manufacturing process and a coating-film layer formation process.
Here, the pattern layer means a layer patterned or colored by transfer.
At this time, as a method for transferring the pattern layer, any method can be adopted as long as transfer is possible. For example, a thermal transfer method, a roll transfer method, etc. can be adopted. It is preferable to adopt a method in which a transfer base coat is applied and dried, and then a transfer film is thermally transferred onto the transfer base coat.
[0014]
Here, as the transfer base coat, for example, an acrylic resin that is an ionizing radiation curable resin can be employed.
Moreover, as a transfer film, what is comprised from an ink and a base film is employable, for example. As the ink, for example, an ink composed of an acrylic resin, a urethane resin or a fluororesin, and a pigment can be employed. On the other hand, as the base film, for example, a polyethylene terephthalate film, a polyolefin resin film, paper or the like can be employed.
[0015]
Thus, since the method which has a pattern layer formation process is employ | adopted, a pattern can be piled up and the decorative board which has a deep high design property can be obtained.
In addition, if a weather-resistant ink is used for the transfer ink, a decorative board that can withstand use in the exterior can be obtained.
[0016]
The decorative board according to the present invention is obtained by the above-described method for manufacturing a decorative board.
According to the present invention, since it is a decorative board obtained by the above production method, it has a coating layer of high density, high hardness, and high specularity, and has excellent scratch resistance, antifouling properties, and chemical resistance. An excellent decorative board can be obtained.
[0017]
Further, since the expansion suppressing layer is provided on one surface of the base material, it is possible to prevent the occurrence of warpage due to differences in environmental conditions such as temperature and humidity on the front and back surfaces of the base material and adhesion of water droplets.
It is also possible to add functions such as antibacterial properties by mixing a silver-based or copper-based inorganic antibacterial agent into the coating layer.
Since the decorative board described above does not easily warp, it can be suitably used for a kitchen counter, a door of a storage part of a wash cabinet, and the like. Moreover, since the surface hardness is high, it can be suitably used as a decorative board that requires rubbing properties such as flooring and exterior materials.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
FIG. 1 shows a decorative board 1 according to a first embodiment of the present invention.
The decorative board 1 includes a base material 10 made of MDF, an expansion suppression sheet 11 made of urethane-coated paper, which is an expansion suppression layer laminated on one surface of the base material 10, and the other surface of the base material 10. A coating layer 14 is formed on the sealing layer 13 of the coating original plate 2 composed of the titanium reinforced paper 12 which is a laminated reinforced paper and the sealing layer 13 formed on the titanium reinforced paper 12. It is made.
[0019]
Here, the sealing layer 13 is a layer formed by a base treatment using a sealer made of an acrylic urethane resin paint and a sealing treatment made of an ultraviolet curable resin.
The coating layer 14 is a layer formed from an acrylic resin coating that is an electron beam curable clear.
[0020]
The decorative board 1 configured as described above is manufactured by the following method.
First, the expansion suppression sheet 11 is attached to one surface of the substrate 10 with an adhesive. Subsequently, the titanium reinforced paper 12 is attached to the other surface of the substrate 10 with an adhesive. A sealer made of an acrylic urethane resin paint is applied to the surface of the titanium reinforced paper 12 that has been pasted, and a base treatment is performed. After an ultraviolet curable resin that is a seal paint is applied, ultraviolet rays are irradiated to form a seal layer 13. Form.
The surface of the formed sealing layer 13 is further polished to smooth the surface, and the coated original plate 2 is obtained (original plate manufacturing process).
[0021]
An acrylic resin paint, which is an electron beam curable clear, is applied to the sealing layer 13 of the obtained coating original plate 2 by a curtain coater, and then irradiated with an electron beam in a nitrogen gas atmosphere having an oxygen concentration of 0 to 20%. To cure the acrylic resin-based paint (coating layer forming step) to obtain the decorative board 1.
In addition, the acceleration voltage of the electron beam to irradiate is 100-500 kV, Preferably it is 100-250 kV. If it exceeds 500 kV, the cost increases and is not practical.
[0022]
According to the first embodiment as described above, the following effects can be obtained.
(1) Since the coating layer 14 is formed by curing the electron beam curable clear in the coating layer forming step, it has high density and high hardness, and is excellent in scratch resistance, antifouling properties, and chemical resistance. The coating layer 13 can be obtained, and as a result, these characteristics can be imparted to the decorative board 1 itself.
(2) Since the base plate 10 is formed by laminating the expansion suppression sheet 11 on one surface of the base plate 10 to obtain the coating base plate 2, differences in environmental conditions such as temperature and humidity on the front and back of the base plate 10 Further, it is possible to prevent the occurrence of warpage due to adhesion of water droplets.
[0023]
(3) Since the coating film layer 14 is formed using an electron beam, the coating film layer 14 can be formed in a very short time, and the productivity of the decorative board 1 can be improved.
(4) Since the titanium reinforced paper 12 is impregnated with the sealer, the gap between the papers can be strengthened and the adhesion to the sealing layer 13 can be improved.
(5) If a pattern is printed on the titanium reinforced paper 12 in advance, the decorative property can be imparted to the decorative board 1, and the pattern can be easily changed by using the titanium reinforced paper 12 having a different pattern. It can also be done.
[0024]
[Second Embodiment]
In the following description, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted or simplified.
FIG. 2 shows a decorative board 3 according to a second embodiment of the present invention.
The decorative board 3 includes a transfer base coat 21 made of an acrylic resin paint and a transfer film 22 transferred onto the transfer base coat 21 between the sealing layer 13 and the coating layer 14. It comprises the pattern layer 4 which becomes.
[0025]
Here, the transfer base coat layer 21 is formed by applying and curing an acrylic resin paint.
The transfer film 22 is composed of a polyethylene terephthalate base film and ink.
[0026]
The decorative board 3 configured as described above is manufactured by the following method.
The coating original plate 2 is obtained by the method described in the first embodiment. A transfer base coat 21 is formed by applying and drying an acrylic resin paint on the sealing layer 13 of the obtained coating original plate 2.
Subsequently, after the transfer film 22 is transferred onto the transfer base coat 21 by the thermal transfer method to form the pattern layer 4 (pattern layer forming step), the coating layer 14 is formed in the same manner as in the first embodiment. The decorative board 3 is obtained by forming.
[0027]
According to the second embodiment as described above, in addition to the same effects as (1) to (5) of the first embodiment, the following effects can also be obtained.
(6) Since the method having the pattern layer forming step is adopted, it is possible to overlap the patterns, and the decorative board 3 having a deep and high design property can be obtained.
In addition, if a weather-resistant ink is used for the transfer ink, a decorative board that can withstand use in the exterior can be obtained.
[0028]
It should be noted that the present invention is not limited to the above-described embodiment, and modifications and improvements within a scope that can achieve the object of the present invention are included in the present invention. For example, in each of the above embodiments, the substrate 10 is made of MDF, but is not limited thereto, and wood, particle board, wood plywood, ceramic board, or the like can be used.
Moreover, although the expansion | extension suppression sheet | seat 11 made from urethane-coated paper was used as an expansion | swelling suppression layer, it is not restricted to this, You may use the other sheet | seat which has an expansion | swelling suppression function. Further, the expansion suppression layer may be a layer formed of a waterproof paint instead of the expansion suppression sheet 11.
[0029]
In each of the above embodiments, the titanium reinforced paper 12 is used as the reinforced paper. However, the present invention is not limited to this, and any paper may be used as long as it has a concealing property and prevents color unevenness of the decorative board due to the color of the base material. For example, titanium paper, impregnated paper, reinforced paper, neutral paper and the like can be used.
In addition, the sealing layer 13 is formed of a base treatment using a sealer made of acrylic urethane resin paint and an ultraviolet curable resin that is a sealing paint, but is not limited thereto. In other words, the paper is impregnated between papers to reinforce the papers, and serves as a sealer that firmly adheres the reinforced papers and the sealing paints, and to create a groundwork for imparting specularity to the surface. It is sufficient if the sealing layer is formed from a paint that gives depth. As the sealer, urethane resin paint, epoxy resin paint, and the like can also be used.
[0030]
In each of the embodiments described above, a layer formed by irradiating and curing an acrylic resin coating with an electron beam is used as the coating layer 14, but is not limited thereto, and is made of other electron beam curable clear. A coating layer may be used.
In addition, the curtain coater is used to apply the acrylic resin paint, but the present invention is not limited to this, and other application methods such as a spray method, a roll coater method, electrostatic coating, and painting with a brush can also be used. In addition, when a curtain coater is used, better specularity can be easily obtained, and when a spray method is used, it can be easily applied over a wide range, which is preferable.
Furthermore, although electron beam irradiation was performed in nitrogen gas atmosphere, it is not restricted to this, Arbitrary inert gas which does not affect a coating-film layer at the time of electron beam irradiation can be used.
[0031]
In addition, it is also possible to perform a frosting process to a coating-film layer. That is, after applying the electron beam curable clear, the electron beam curable clear is cured by changing the concentration of oxygen contained in the inert gas in multiple stages, for example, in two stages, to irradiate the electron beam. An erase process may be performed. At this time, a matting agent such as extender pigments or beads may be mixed in the electron beam curable clear to improve the matting effect.
[0032]
In the second embodiment, as the pattern layer 4, a layer including the transfer base coat 21 made of an acrylic resin paint and the transfer film 22 transferred onto the transfer base coat 21 is used. However, any layer can be adopted as long as the pattern can be formed.
In addition, the acrylic resin paint is used as the transfer base coat 21, but the present invention is not limited to this, and other ionizing radiation curable resins can also be used. On the other hand, although the base film made from polyethylene terephthalate was used as the transfer film 22, it is not restricted to this, A polyolefin resin film, paper, etc. can also be used.
[0033]
In the second embodiment, the thermal transfer method is used as a method of forming the picture layer 4 by transferring the transfer film 22 to the transfer base coat 21. However, the transfer method is not limited to this, and other transfer methods such as a roll transfer method are used. Can also be used.
In addition, the specific structure, shape, and the like when carrying out the present invention may be other structures and the like as long as the object of the present invention can be achieved.
[0034]
【Example】
Hereinafter, the present invention will be described more specifically with reference to examples.
In each Example, 200 mm × 1000 mm MDF was used as the substrate 10.
[0035]
[Example 1]
A urethane-coated paper, which is an expansion suppression sheet 11, is attached to one surface of the substrate 10 with a cross-linked polyvinyl acetate emulsion adhesive, and a titanium-reinforced paper, which is a reinforced paper, is applied to the other surface of the substrate 10. 12 was pasted with the above adhesive.
In addition, the substrate is treated with an acrylic urethane resin paint as a sealer. Subsequently, an acrylic resin paint that is a sealing paint is applied and cured by ultraviolet irradiation, and then the surface is polished to obtain the coating original plate 2 as a smooth surface.
[0036]
An acrylic resin paint 80 g / m ² , which is an electron beam curable clear, is applied to the obtained coating original plate 2 by a curtain coater, and then irradiated at a feed rate of 20 m / min in a nitrogen gas atmosphere with an oxygen concentration of 1%. The decorative plate 1 was obtained by irradiating an electron beam at an energy of 200 kV to cure the acrylic resin paint to form the coating layer 14.
Note that a silver antibacterial agent was previously added to the acrylic resin paint.
[0037]
[Example 2]
Painted original plate 2 obtained in Example 1, applying a UV-curable resin coating material 40 g / m ^2, cured, to form a transfer base coat 21, further a pattern with an ink containing 60 wt% of the electron beam curing type resin The printed transfer film was thermally transferred to form the pattern layer 4. An acrylic resin paint 60 g / m ² is applied on the formed pattern layer 4 by spraying, and an electron beam is irradiated under the same conditions as in Example 1, thereby forming the coating layer 14 to form the decorative board 3. Obtained.
Note that a silver antibacterial agent was previously added to the acrylic resin paint.
[0038]
The decorative boards 1 and 3 obtained in each of the above examples were immersed in room temperature water for 24 hours, and then it was confirmed whether or not the warp occurred, and no warp was recognized.
The decorative boards 1 and 3 were subjected to a pencil hardness test, an abrasion resistance test, a heat resistance test, and a hot water resistance test. The results are shown in Table 1.
[0039]
Here, the pencil hardness test was measured by a method based on JIS K5400.
The scratch resistance test was performed by placing the test piece in a constant temperature layer at 140 ° C. for 3 hours, and then removing the test piece and visually observing the presence or absence of peeling, swelling and cracking.
The hot water resistance test was measured by a method based on JIS K6902. That is, raise a test piece on a wooden insulation board, spill a small amount of boiling water, leave a flat bottom aluminum container with about 500 ml of boiling water on it for 20 minutes, and then visually check for defects. I went there.
[0040]
Moreover, it tested by the method based on JISK6902 about stain resistance using a seasoning, a favorite article, office supplies, etc. for home use. Specifically, an appropriate amount of each test solution was dropped onto a test piece, covered with a watch glass, allowed to stand for 24 hours, washed with soapy water, cleaned with a dry cloth, and visually observed. The test results are shown in Table 2.
The evaluation criteria are as follows.
◎: Almost no change, ○: Slightly colored, spots are observed, Δ: Clearly colored, spots remain, ×: Significantly colored or dark spots [0041]
Furthermore, the chemical resistance was tested by a method based on JIS A5703. Specifically, 0.2 ml of the reagent was dropped on the surface to be tested, covered with a watch glass, allowed to stand at room temperature for 24 hours, then cleaned with a dry cloth, and the surface condition was visually observed. The results are shown in Table 3.
The evaluation criteria are the same as in Table 2.
[0042]
In addition, Tables 4 and 5 show the results of evaluating the antibacterial performance. Table 4 shows the results of evaluation for Escherichia coli, and Table 5 shows the results of evaluation for Staphylococcus aureus. As a control, a polyethylene film was used.
The antibacterial test method is as follows.
[0043]
Place a coated film in a petri dish, put a test piece cut into 40 x 40 mm on it, drop 0.4 ml of the inoculum bacteria solution in several places on this, then temperature 35 ± 1 ° C, relative humidity It preserve | saved under the conditions of 90% or more.
After 24 hours, 10 ml of SCDLP medium was added to wash out, then 1 ml was taken out, the number of surviving bacteria was measured by the pour plate culture method using a standard agar medium, and converted to the number of surviving bacteria per test piece. .
[0044]
[Table 1]

[0045]
[Table 2]

[0046]
[Table 3]

[0047]
[Table 4]

[0048]
[Table 5]

[0049]
As shown in Table 1, the decorative board obtained in each example is a layer made of an electron beam curable clear and has an expansion inhibiting property. It can be seen that the high results are obtained, and the scratch resistance, heat resistance, and hot water resistance are also excellent.
Moreover, as Tables 2 and 3 show, it turns out that it is very excellent also in stain resistance and chemical resistance.
Further, as shown in Tables 4 and 5, it can be seen that high antibacterial properties can be imparted by adding an antibacterial agent to the coating layer.
[0050]
【The invention's effect】
According to the present invention, since the coating layer is formed by curing the electron beam curable clear in the coating layer forming step, it has a high density and high hardness, and has excellent scratch resistance, antifouling properties and chemical resistance. An excellent coating layer having high specularity can be obtained, and as a result, these characteristics can be imparted to the decorative board itself.
In addition, because of the original plate manufacturing process, an expansion suppression layer is formed on one side of the substrate to obtain a coated original plate, which may be due to differences in environmental conditions such as temperature and humidity on the front and back of the substrate, adhesion of water droplets, etc. Generation of warpage can be prevented.
Furthermore, since the coating film layer is formed using the electron beam, the coating film layer can be formed in a very short time, and the productivity of the decorative board can be improved.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view showing a decorative board according to a first embodiment of the present invention.
FIG. 2 is a partial cross-sectional view showing a decorative board according to a second embodiment of the present invention.
[Explanation of symbols]
1, 3 Decorative plate 2 Painted original plate 4 Picture layer 10 Base material 11 Expansion suppression sheet (expansion suppression layer)
12 Titanium reinforced paper (reinforced paper)
13 Sealing layer 14 Coating layer

Claims (6)

An expansion suppressing layer that suppresses expansion of the base material is formed on one surface of the base material, and a reinforced paper is pasted on the other surface of the base material. An original plate manufacturing process for applying a sealing treatment to form a sealing layer and obtaining a coated original plate,
After polishing the sealing layer surface of the coated original plate obtained in the original plate manufacturing process, and applying an electron beam curable clear on the sealing layer, electron beam irradiation is performed in an inert gas atmosphere, and the electron A method for producing a decorative board, comprising: a coating layer forming step of curing a wire curable clear to form a coating layer. In the manufacturing method of the decorative board according to claim 1,
A method for producing a decorative board, further comprising a pattern layer forming step of forming a pattern layer between the original plate manufacturing step and the coating layer forming step. In the manufacturing method of the decorative board according to claim 2,
The pattern layer is formed by applying a transfer base coat on the sealing layer and drying, and then thermally transferring a transfer film onto the transfer base coat. In the manufacturing method of the decorative board in any one of Claims 1-3,
The said expansion | swelling suppression layer is formed from an expansion | swelling suppression sheet | seat, The manufacturing method of the decorative board characterized by the above-mentioned. In the manufacturing method of the decorative board in any one of Claims 1-3,
The said expansion | swelling suppression layer is formed from a waterproof paint, The manufacturing method of the decorative board characterized by the above-mentioned. A decorative board obtained by the method for manufacturing a decorative board according to any one of claims 1 to 5.

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