JP3836239B2 - Decorative plate manufacturing method - Google Patents

Description

【００２９】
上記表からも明らかなように、比較例で得た床材の木質繊維製板材にはキャスターの摺動荷重によって層間剥離が生じると共に角欠けも発生し易く、また、硬度も床材として不足しているが、実施例で得た床材においてはその木質繊維製板材には層間剥離が生じていなく、その上、角欠けもなく、床材としての充分な強度を有するものである。なお、耐圧試験は直径10mmの鋼球を１／π(mm)食い込ませるのに必要な荷重を測定（ブリネル強度試験）によって行い、耐キャスター試験は床材の平行方向と直行方向に80Kgの荷重を有する車輪４個を備えたキャスターを最大10万回、往復走行させることによって行った。
【図面の簡単な説明】
【図１】化粧板の製造工程を示す簡略工程図。
【符号の説明】
１ 木質基板
２ 木質繊維製板材
2' 強化木質繊維製板材
５ 合成樹脂含浸
７ 化粧層
A1 複合板
Ａ 化粧板[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing a wood-based decorative board suitable for use as an interior material of a building or a furniture material, particularly as a flooring material.
[0002]
[Prior art]
Conventionally, a makeup made by applying a surface decorative layer by sticking a decorative sheet such as a veneer or a synthetic resin decorative sheet or printing paper to the surface of a substrate made of a woody material such as plywood, or by painting or the like. A board is widely used as a flooring material, a building material or a furniture material of a building such as a house. However, for example, when a general decorative board is applied as a floor covering after sticking a veneer on the surface of a plywood, defective parts such as small holes, gaps and joints on the wooden board Appearance on the surface, and also the absorption of moisture, the expansion and contraction of the plywood due to the diffusion, the surface veneer may cause fine cracks (dry cracks), which will significantly impair the cosmetics, in addition, flooring If the load is applied as a heavy load on the surface of the furniture, such as a heavy furniture leg or a falling object, the surface of the decorative board may be damaged by a dent or a sliding load caused by a wagon with casters. There are problems.
[0003]
For this reason, a composite board is formed by adhering a relatively hard wood fiber board made of medium specific gravity wood fiber board (MDF) to the surface of a board made of wood material such as plywood, and this composite board wood fiber board material Attempts have been made to use a decorative board formed by attaching a decorative sheet such as a veneer, a synthetic resin decorative sheet or printing paper on the surface of the sheet, or forming a surface decorative layer by painting or the like.
[0004]
The medium specific gravity wood fiber board forming the wood fiber board is obtained by adding a thermosetting resin adhesive to the wood fiber and press-molding under heating, so that it directly contacts the heating surface. The front and back layer portions are formed with a high density, and the inside is formed with a relatively low density. Therefore, when the above-mentioned surface decorative layer is applied to the surface of the composite board obtained by laminating and bonding this medium specific gravity wood fiber board to a substrate such as plywood, the surface is dense, hard and smooth, and the directionality is The small medium specific gravity wood fiber board makes it difficult to cause defects such as dry cracks in the surface decorative layer.
[0005]
[Problems to be solved by the invention]
However, the thickness of the medium specific gravity wood fiber board is usually 2.5 mm or more. Therefore, when the wood fiber plate made of medium specific gravity wood fiber board having such a thickness is bonded to the surface (one side) of a wood substrate such as plywood. The contraction force of the wood fiber plate material is too large compared to the wood substrate, and a concave warp occurs in the longitudinal direction on the decorative board. The occurrence of such a concave warp remains even when it is formed on a decorative board.When this decorative board is applied to a flooring or the like, both end sides are lifted upward with respect to the central portion in the longitudinal direction. There is a problem that not only the fixing work by the nail or the adhesive to the both end portions is accompanied by difficulty, but also a step or an improper fixing occurs at the abutting end portion of the adjacent flooring material.
[0006]
Furthermore, when using a wood fiber plate made of medium specific gravity wood fiber as described above, the ratio of the thickness of the internal low density layer is larger than that of the high density front and back layer parts, so such medium specific gravity wood When the above decorative board with fiberboard is applied to the flooring of a dining room, when subjected to a dynamic load such as a wagon with casters, delamination occurs in the low-density layer of the wood fiber board and the strength decreases and the surface Will damage the appearance.
[0007]
In order to prevent the occurrence of the warp, it is conceivable to use a thin medium specific gravity wood fiber board. However, in order to obtain a medium specific gravity wood fiber board having a thickness of less than 2 mm, the current manufacturing method has a high productivity. There is a problem that it is very bad and expensive. Moreover, if it is made thin, medium specific gravity wood fiberboard has a harder and more brittle nature than plywood, so there is a risk of corner breakage during construction and transportation. In addition, when used as a flooring, even if it is thin, if a local load is applied to the surface due to heavy furniture legs or fallen objects, etc. There is a problem that delamination occurs in the fiber plate material.
[0008]
The present invention has been made in view of such problems. The object of the present invention is to have excellent cosmetic properties and use of a wood fiberboard, but in the longitudinal concave warp and delamination. It is an object of the present invention to provide a production method capable of efficiently producing a decorative board exhibiting good dimensional stability by suppressing the occurrence of the above and having excellent strength.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a method for producing a decorative board of the present invention comprises a wood fiber board having a thickness of 2.5 to 4 mm, a specific gravity of 0.6 to 1.0, and a density of front and back layers larger than that of the core layer. After producing a wood fiber plate material having a density gradient in which one surface side is formed into a high density layer and the other surface side is formed into a low density layer by dividing into two from the central portion in the thickness direction, this wood fiber plate material is A composite board is formed by sticking and integrating to the surface of the wood substrate with the density layer side facing up. Further, after grinding the surface of the low density layer of the wood fiber plate material on the surface of the composite board, the composite board A synthetic resin liquid is applied to and impregnated on the surface of the wood fiber plate material to form a reinforced wood fiber plate material, and then a decorative layer is provided on the surface of the reinforced wood fiber plate material.
[0010]
In the method for manufacturing the decorative board, the surface of the wood fiber sheet material adhered to the surface of the wood substrate is ground by sanding as described in claim 2, and the surface layer portion of the wood fiber sheet material is formed. It is desirable to grind at least 0.2 mm thick from the surface.
[0011]
[Action and effect]
Wood fiber sheet material to adhere to the wood substrate surface, front and back layers are low density layer wood fiberboard 0.6-1.0 specific gravity in a high density a thickness that the core layer is formed on the low-density 2.5 to 4 mm Therefore, it is possible to efficiently and reliably obtain a thin wood fiber board material from a commercially available wood fiber board and to remove the wood fiber board from the center part in the thickness direction. Since it divides | segments, the two thin wood fiber board | plate materials can be obtained economically and an inexpensive product can be provided.
[0012]
Furthermore, after forming the composite board by laminating and bonding the wood fiber plate material to the surface of the wood substrate with the low density layer side facing up, the surface of the wood fiber plate material is ground. Since the fiber board is integrated with the wood substrate to form a thick composite board, the surface can be easily ground and the soft low density layer side of the wood fiber board is ground. Grinding work can be performed efficiently. In addition, the surface of the low-density layer of the wood fiber plate material is a divided surface of the thick wood fiber board as described above, and there are fine irregularities when divided on the surface. It can be removed by grinding to form a smooth surface.
[0013]
Further, since the low-density layer side of the wood fiber board is ground as described above, it becomes an extremely thin and high-density wood fiber board as a whole, and therefore the shrinkage of the wood fiber board The rate and direction have little influence on the wood substrate, and the delamination of the wood fiber board is less likely to occur, and the shrinkage rate and direction of the wood fiber board have little influence on the wood board. A decorative board in which upward concave warpage hardly occurs from the central portion in the length direction toward both ends can be obtained.
[0014]
Furthermore, after the above-mentioned wood fiber plate material is bonded to the surface of the wood substrate to form a composite plate, a synthetic resin solution is applied to and impregnated on the surface of the wood fiber plate material of this composite plate. It is harder and more rigid due to the synthetic resin impregnated with wood fibers, making it harder and more rigid, improving moisture resistance, water resistance and dimensional stability, and reliably preventing corner chipping and delamination. Moreover, it is possible to manufacture a decorative board in which the surface decorative layer is hardly damaged even when it is repeatedly subjected to a sliding load by a wagon with casters.
[0015]
In addition, despite the fact that the wood fiber plate is extremely thin, it is possible to secure the necessary hardness for the flooring as described above, and even if there are defects such as nodes and small holes on the surface of the wooden substrate, the defects are It is possible to suppress the phenomenon of subtle shadows and color changes from the surface decorative layer, and to impregnate the synthetic resin solution into a thin wood fiber board. It is possible to reduce the occurrence of the above-described concave warp that is likely to occur due to impregnation, and therefore, to form a floor structure that can easily and accurately perform floor construction by nail attachment or the like and that has an excellent appearance without causing a step or the like. Can do.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Next, a specific embodiment of the present invention will be described in detail with reference to the drawings. First, from a wooden fiberboard having a thickness of 0.5 to 2 mm and a specific gravity of 0.6 to 1.0 on the surface of a wooden substrate 1 having a desired thickness. The wood fiber plate material 2 to be formed is bonded together with an adhesive 3 to form a composite plate A1 as shown in FIG. The wooden board 1 is a wooden board such as plywood, particle board, OSB (orientated strand board), LVL (laminated veneer lumbar), and the wooden board 1 is used when forming a flooring. The thickness is usually 2.3 to 25 mm.
[0017]
On the other hand, as shown in FIG. 1 (a), the wood fiber sheet material 2 laminated and adhered to the wood substrate 1 has a thickness of 2.5 to 4 mm, a specific gravity of 0.6 to 1.0, and a density of the front and back layers of the core layer. A wood fiber board having a density larger than that of the density is divided into two parts by using a cutter blade 4 from the central portion in the thickness direction as shown in the same figure (b), and as shown in FIG. A high-density layer in which the other surface side is a low-density layer is used. Thus, since the wood fiber board of thickness normally marketed is divided into 2 from the center part of the thickness direction, the thin wood fiber board | plate material 2 which is difficult to obtain can be produced easily.
[0018]
As shown in FIG. 1 (D), the wood fiber plate 2 is bonded and integrated on the surface of the wood substrate 1 with the adhesive 3 as described above with the low density layer side facing up (upward). After forming the composite board A1, the surface of the wood fiber board material 2 is ground by sanding to obtain a wood fiber board material 2 having a thickness of 0.5 mm or more and less than 2 mm. If the thickness of this wood fiber plate 2 is less than 0.5 mm, it will become too thin and the physical properties such as hardness will decrease, and if it becomes 2 mm or more, the difference in shrinkage from the wood substrate 1 will increase. Since the concave warp as described above is likely to occur in the decorative decorative plate A, a thickness of 0.5 mm or more and less than 2 mm, preferably 0.7 to 1.6 mm is used. In this way, after the wood fiber board 2 is adhered to the surface of the wood substrate 1 and the composite board A1 is manufactured, the surface of the wood fiber board is sanded. Compared with sanding to a predetermined thickness, the grinding process can be performed stably, accurately and with good workability.
[0019]
In addition, in order to obtain the above-mentioned wood fiber sheet material 2 having a thickness of 0.5 mm or more and less than 2 mm, the wood fiber board of 4 mm or more can be produced by dividing into two from the central portion in the thickness direction and then sanding. However, in this case, the amount of sanding is excessively increased, so that the processing effort and the yield are deteriorated. On the other hand, if the specific gravity of the wood fiber plate material 2 is less than 0.6, the hardness is insufficient, while if it exceeds 1.0, the rigidity becomes too high and the above-described concave warpage occurs or the tactile sensation as a wood material becomes poor. A wood fiber plate 2 adjusted to a range of ˜1.0, preferably 0.65 to 0.90 is used.
[0020]
Examples of the adhesive 3 for bonding the wood fiber plate material 2 onto the wood substrate 1 include, for example, urea-formalin resin, urea-melamine-formalin resin, melamine-phenol-formalin resin, alkylphenol formalin resin, urethane resin, epoxy resin, Aqueous vinyl urethane resin, vinyl acetate-urea aqueous resin, acrylic-melamine aqueous emulsion, poval-isocyanate aqueous emulsion, vinyl acetate, urea resin, melamine resin, phenolic, urethane, epoxy adhesive Can be used.
[0021]
Next, the synthetic resin liquid 5 is applied and impregnated on the surface of the wood fiber plate member 2 in the composite board A1 using an impregnation roll 6 as shown in FIG. By impregnating and curing the synthetic resin liquid 5, the surface layer of the wood fiber plate 2 is reinforced, resulting in a reinforced wood fiber plate 2 'in which corner chipping and delamination are unlikely to occur, and the thickness of the wood fiber plate 2 is thin. Nevertheless, the hardness necessary for the flooring can be secured. The amount of the synthetic resin solution applied and impregnated on the wood fiber plate material 2 is preferably about 3 to 30% in terms of solid content with respect to the weight of the wood fiber plate material 2. If it is less than 3% by weight, the strength such as hardness and rigidity is insufficient. On the other hand, if it exceeds 30% by weight, the strength hardly increases and becomes uneconomical.
[0022]
Examples of the synthetic resin to be applied and impregnated on the wood fiber plate 2 include, for example, urea resins, melamine resins, phenol resins, isocyanate resins, polyester resins, urethane resins, and epoxy resins as thermosetting synthetic resins. A vinyl acetate resin, a vinyl chloride resin, etc. can be used as a thermoplastic synthetic resin. Also, a mixed resin of a thermosetting synthetic resin and a thermoplastic synthetic resin can be used, and an example of such a mixed resin is SBR-melamine resin.
[0023]
Next, as shown in FIG. 1 (f), a decorative board A is prepared by providing a decorative layer 7 on the surface of the reinforcing wood fiber plate 2 '. As the decorative layer 7, the surface of the reinforcing wood fiber board 2 'is coated with printing paper and then applied with a clear coating, or the veneer is pasted and then applied with a clear coating or the like. Or, after applying a direct print and applying a clear coating, etc., a decorative layer formed by attaching a decorative sheet, or applying a clear coating after applying a WPC treated veneer, etc. Can be adopted. Next, specific examples and comparative examples of the present invention will be shown.
[0024]
〔Example〕
A medium specific gravity wood fiberboard with a thickness of 2.7mm and an overall specific gravity of 0.74 and a high specific gravity of the front and back layers compared to the specific gravity of the core layer. By dividing into two parts from top to bottom, a wood fiber plate material having a thickness of about 1.35 mm and a rough divided surface was obtained. This wood fiber board is stacked on the surface of a 5-ply plywood board with a thickness of 10.5mm so that the split surface of the wood fiber board is on the surface side, and the water-based vinyl urethane resin applied to the stack The composite plate was obtained by bonding with cold pressure through an adhesive.
[0025]
Next, after sanding the surface of the wood fiber board material in this composite board to make the thickness of the wood fiber board material 1.0 mm, 0.5% of aluminum chloride as a hardener is internally added to the surface of the wood fiber board material. The melamine resin solution is applied using a sponge roll and pressed to impregnate 6% by weight of the resin solution in terms of solid content with respect to the wood fiber plate material. The above-mentioned melamine resin, in which an impregnated polyester resin impregnated veneer (WPC board) with a thickness of 0.43mm is placed via a vinyl urethane resin adhesive, and heated and pressed by a hot press to apply and impregnate the wood fiber board The liquid was cured and the veneer was bonded together. Then, the decorative board was formed by apply | coating a polyester-type clear coating material on the surface of a veneer.
[0026]
[Comparative Example]
In the above examples, a decorative board was obtained in the same manner as in the materials and treatment conditions except that a melamine resin solution containing 0.5% aluminum chloride was applied and impregnated onto the wood fiber board. That is, after sticking a wood fiber board with a thickness of 1mm to a 5-ply plywood substrate and adjusting the thickness to 1.0 mm, the surface of the wood fiber board is not impregnated with a synthetic resin solution. A veneer with an impregnated polyester resin impregnated with a thickness of 0.43 mm is bonded by heating and pressurizing via a vinyl urethane resin adhesive, and a polyester-based clear paint is applied to the surface of the veneer to obtain a decorative board It was.
[0027]
A decorative board as a flooring material having a width of 240 mm, a length of 750 mm, and a thickness of 12 mm was produced by the manufacturing methods shown in the above examples and comparative examples, and a pressure resistance test, a caster resistance test, and a corner chipping test of these floor materials. The results are shown in the following table.
[0028]
[Table 1]

[0029]
As is clear from the above table, the wood fiber board material of the floor material obtained in the comparative example is likely to cause delamination and corner breakage due to the sliding load of the casters, and the hardness is insufficient as the floor material. However, in the flooring materials obtained in the examples, delamination does not occur in the wood fiber plate material, and furthermore, there is no corner chipping and the flooring material has sufficient strength as a flooring material. The pressure test is performed by measuring the load required to bite a steel ball with a diameter of 10 mm (1 / B) (Brinell strength test). The caster test is a load of 80 kg in the parallel and perpendicular directions of the flooring. This was carried out by reciprocating a caster equipped with four wheels having a maximum of 100,000 times.
[Brief description of the drawings]
FIG. 1 is a simplified process diagram illustrating a manufacturing process of a decorative board.
[Explanation of symbols]
1 Wood substrate 2 Wood fiber board
2 'Reinforced wood fiber board 5 Synthetic resin impregnation 7 Cosmetic layer
A1 Composite board A decorative board

Claims (2)

A wood fiberboard having a thickness of 2.5 to 4 mm, a specific gravity of 0.6 to 1.0, and a density of the front and back layers larger than that of the core layer is divided into two from the central portion in the thickness direction, and one surface side has a high density. After producing a wood fiber board having a density gradient in which the other surface side is formed as a low density layer, the wood fiber board is bonded and integrated to the surface of the wood substrate with the low density layer side facing up. To form a composite board, and after grinding the surface of the low-density layer of the wood fiber board on the surface of the composite board, a synthetic resin solution is applied to the wood fiber board surface of the composite board and impregnated to strengthen A method for producing a decorative board, comprising: forming a wood fiber board, and then providing a decorative layer on the surface of the reinforced wood fiber board. 2. The method for manufacturing a decorative board according to claim 1, wherein the surface of the wood fiber plate material adhered to the surface of the wood substrate is ground by sanding and is ground to a thickness of at least 0.2 mm.

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