JP4996126B2 - Wooden counter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wooden counter which suppresses the occurrence of warping due to temperature change and humidity change, and suppresses the occurrence of cracking due to the heat. <P>SOLUTION: A fancy veneer 1 is integrally laminated on the surface of a substrate 3 made of a wooden plywood, and a single panel 2 is arranged on the side end surface. The fancy veneer 1 and the single panel 2 are the waterproof treated wooden counter, and the waterproof treatment is treated by (1) impregnated curing of uncured permeation type hydrophobic resin to the fancy veneer 1 and the single panel 2 and (2) coating impregnation and curing of a uncured permeation type UV (ultraviolet light) cured resin from the surface side afterward. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT

Description

  The present invention relates to a wooden counter. It is especially about wooden counters used in kitchens.

Conventionally, a resin-mixed surface decorative board such as a resin injection treatment material or artificial marble has been laminated and integrated on the upper surface of a wood base material through an intermediate wood board in which wood fibers and wood pieces are hardened with a thermosetting resin. There is known a counter material in which a counter material main body is formed and an end face decorative edge material made of the same material as the resin-mixed surface decorative board is adhered and integrated on at least one side end surface of the counter material main body (for example, , See Patent Document 1).
No. 6-24200

  Although this counter material improves the dimensional stability by reducing the moisture absorption of the wooden base material, it still remains as a problem to further suppress the occurrence of warpage against temperature change and humidity change. By the way, it is conceivable to use a rubber base material in order to suppress moisture absorption of the wooden base material. However, when the counter material using this rubber base material is used as a kitchen counter, there is a problem that cracks occur in the counter material due to a temperature rise due to the use of a stove.

  Then, this invention makes it a subject to provide the wooden counter which suppressed generation | occurrence | production of the curvature with respect to a temperature change and a humidity change, and also suppressed generation | occurrence | production of the crack of the counter by heat | fever from the background as mentioned above.

The present invention, as to solve the above problems, the first, plate against a surface of a base material made of wood plywood is laminated and integrated, and veneer is arranged on its side end surface, the veneer and the veneer is a wood counter the water treatment is performed, the water treatment (1) veneer and to veneer impregnation curing and subsequent uncured penetration type hydrophobic resin, ( 2) Coating impregnation and curing of an uncured penetrating UV (ultraviolet) curable resin from the surface side , and the impregnated cured layer of the penetrating UV (ultraviolet) curable resin by applying the water-resistant treatment. However, it is formed on the surface side in the veneer plate and the surface side in the single plate where the osmotic hydrophobic resin is impregnated and hardened .

The second, veneer on the surface of a base material made of wood plywood via a thermosetting resin-impregnated sheet is laminated and integrated, and veneer is arranged on its side end surface, said veneer and the veneer is a wood counter the water treatment is performed, the water treatment (1) veneer and to veneer impregnation curing and subsequent uncured penetration type hydrophobic resin, (2) It is a coating impregnation and curing of an uncured penetrating UV (ultraviolet) curable resin from the surface side , and the impregnated cured layer of the penetrating UV (ultraviolet) curable resin is subjected to the water-resistant treatment, The penetrating hydrophobic resin is formed on the surface side in the veneer plate which is impregnated and cured and on the surface side in the single plate .

Third, the penetrating hydrophobic resin is an oil-modified polyol, and fourth, the penetrating UV curable resin is a polyester acrylate. To do. Fifth, the molecular weight of the penetrating hydrophobic resin is in the range of 100 to 1,000, and sixth, the molecular weight of the penetrating UV curable resin is in the range of 100 to 1,000. It is characterized by.

  According to the first aspect, the veneer is laminated and integrated on the surface of the base material made of the wood plywood, and the veneer and the veneer are subjected to water-resistant treatment. The water-resistant treatment is performed by (1) impregnating and curing the uncured penetrating hydrophobic resin on the veneer and the veneer and then (2) uncured penetrating UV from the surface side. By applying and impregnating (ultraviolet rays) curable resin and curing, it is possible to suppress the occurrence of warpage against temperature change and humidity change, and it is possible to suppress the occurrence of cracks in the counter due to heat.

  According to the second aspect of the invention, the veneer is laminated and integrated on the surface of the base material made of wood plywood via the thermosetting resin impregnated sheet, so that the surface hardness of the wooden counter is further enhanced and strengthened. be able to. Moreover, by heating and pressing using a thermosetting resin impregnated sheet in a semi-cured state at the time of production, curing and adhesion can be performed at the same time without performing pretreatment such as adhesive application, and further suppressing the occurrence of warpage. be able to.

  According to the third aspect of the present invention, the hydrophobic effect can be further exhibited by the oil-modified polyol of the osmotic hydrophobic resin.

  According to the fourth aspect of the present invention, a wooden counter having a higher surface hardness can be realized when the penetrating UV curable resin is a polyester acrylate.

  The invention of the present application has the features as described above. Embodiments will be described below with reference to the drawings.

  FIG. 1 shows an example of an embodiment of a wooden counter of the present invention. In the wooden counter of the present invention, as shown in FIG. 1, a veneer 1 is laminated and integrated on the surface of a base material 3 made of wood plywood by an adhesive, hot melt or the like. A plate 2 is provided. The veneer 1 and the veneer 2 are subjected to water resistance treatment. That is, the veneer 1 and the single plate 2 are impregnated with uncured penetrating hydrophobic resin, and the penetrating hydrophobic resin is cured inside the veneer 1 and the single plate 2. Further, the veneer 1 and the single plate 2 are coated and impregnated with an uncured penetrating UV (ultraviolet) curable resin from the surface side, and the penetrating UV curable resin is cured by UV irradiation. As a result, a cured layer A of penetrating UV curable resin is formed on the upper portion of the surface side of the veneer 1 or veneer 2. The cured layer A is not only a layer of a penetrating UV curable resin that has penetrated and cured the veneer 1 and the veneer 2 by coating and impregnation of the penetrating UV curable resin, but also the veneer 1 or veneer by coating. 2 also includes a coating layer of a penetrating UV curable resin formed by curing on the surface of No. 2.

  As described above, the present invention reinforces the strength of the veneer 1 and the veneer 2 by impregnating the veneer 1 and the veneer 2 with a penetrating hydrophobic resin and curing it. And even when the cured layer A of the penetrating UV curable resin formed on the veneer 1 and the veneer 2 is damaged and lost, the penetration of water is prevented by the function of the penetrating hydrophobic resin. be able to. This permeation type hydrophobic resin is a resin having a low molecular weight and capable of permeating into the veneer 1 and the veneer 2 and exhibiting hydrophobic properties, and examples thereof include oil-modified polyol and silicone-modified polyol. In particular, an oil-modified polyol is preferable because it has a high permeability to the veneer 1 and the veneer 2 and can exhibit a hydrophobic effect by a long-chain alkyl group that is an oil-modified site. The molecular weight of the osmotic hydrophobic resin is preferably about 100 to 1,000. If it is less than 100, even if it penetrates into the veneer 1 or the single plate 2, it is difficult to form a network thereafter, and it may not be possible to exhibit sufficient physical properties. When it exceeds 1000, since it may become difficult to permeate the veneer 1 or the single plate 2, it is not preferable. Further, in the present invention, isocyanates may be used in combination. By this, it can combine with the hydroxyl group which the cellulose of the wood component of the veneer 1 and the veneer 2 has, and can improve adhesiveness. In this case, it is considered that the blending ratio of the osmotic hydrophobic resin and the isocyanate is about 1/1 to 4/1 (permeable hydrophobic resin / isocyanate) by weight. If the amount of isocyanate is too small, the reaction takes time, which is not preferable. If the amount is too large, the crosslink density is too high, which may hinder adhesion, which is not preferable. Examples of the type of isocyanate include tolylene diisocyanate (TDI), diphenylmethane diisocyanate (MDI), and hexamethylene diisocyanate (HDI). Among them, it is preferable to use an HDI system in order to prevent yellowing due to ultraviolet rays, which is a problem in building material applications.

  The penetrating UV curable resin is a light curable resin having a low molecular weight and easily penetrating into the veneer 1 or the single plate 2 and cured by ultraviolet irradiation. For example, polyester, polyether, urethane, or epoxy Various acrylates such as the system can be mentioned. In particular, it is preferable to use a polyester-based acrylate in consideration of the surface hardness after curing, easy availability, and handleability. The molecular weight of the penetrating UV curable resin is preferably about 100 to 1,000. If it is less than 100, even if it penetrates into the veneer 1 or the single plate 2, it is difficult to form a network thereafter, and it may not be possible to exhibit sufficient physical properties. When it exceeds 1000, since it may become difficult to permeate the veneer 1 or the single plate 2, it is not preferable. Further, in the present invention, isocyanates may be used in combination. Thereby, the adhesiveness with the veneer 1 and the single plate 2 can be improved. In this case, it is considered that the blending ratio of the penetrating UV curable resin and the isocyanate is about 2/1 to 10/1 by weight ratio (penetrating UV curable resin / isocyanate). If the amount of isocyanate is too small, the crosslinking density of the penetrating UV curable resin will increase too much, and the adhesion and toughness of the coating film may be lost, and the coating film may be cracked or peeled off due to impact. Therefore, it is not preferable. If the amount is too large, the coating film becomes soft and it may not be possible to obtain sufficient hardness, which is not preferable. Examples of the type of isocyanate include tolylene diisocyanate (TDI), diphenylmethane diisocyanate (MDI), and hexamethylene diisocyanate (HDI). Among them, it is preferable to use an HDI system in order to prevent yellowing due to ultraviolet rays, which is a problem in building material applications.

  The impregnation of the above-described penetrating hydrophobic resin and penetrating UV curable resin into the veneer 1 and the single plate 2 is realized by applying, for example, a current coating facility such as a spray coater or a roll coater. Can do.

  In the present invention, an uncured penetrating hydrophobic resin is applied and impregnated from the surface side of the veneer 1 or veneer 2 and cured, and then the surface of the veneer 1 or veneer 2 is uncured penetrating UV curable resin. It is important to cure by coating and impregnating.

  For example, when the osmotic UV curable resin is applied and impregnated before the osmotic hydrophobic resin is applied and impregnated, the osmotic UV curable resin penetrates into the lower portion of the veneer or the single plate. When the penetration type UV curable resin is to be cured by UV irradiation, UV (ultraviolet rays) may reach and be cured to a depth of about 0.2 mm from the surface of the veneer 1 or the single plate 2. However, UV does not reach at a depth exceeding that, and the penetrating UV curable resin cannot be cured. Accordingly, not only the penetrating UV curable resin is wasted, but also the cured layer A formed with respect to the amount of the penetrating UV curable resin impregnated with application is small, and the performance of the cured layer A is fully exhibited. I can't. The above becomes a problem particularly when a veneer 1 or a single plate 2 having a thickness exceeding 0.2 mm is used.

  Next, water resistance treatment of the veneer, that is, formation of a cured layer of a penetrating UV curable resin on the veneer will be described with reference to FIG. First, (1) the inside of the veneer 1 is reinforced by applying and impregnating an uncured penetrating hydrophobic resin from the surface side of the veneer 1 (FIG. 2 (a)) (FIG. 2 (b)). Thereby, even when an uncured penetrating UV curable resin is subsequently applied and impregnated from the surface of the veneer 2, the presence of the penetrating hydrophobic resin cured inside the veneer 1 reaches the lower layer of the veneer 1. It becomes difficult to penetrate. That is, the penetrating UV curable resin penetrates to the vicinity of the upper layer portion of the veneer 1 but hardly penetrates to a deeper position. In addition, since UV reaches even near the upper layer part of the veneer 1, the penetration type UV curable resin coated and impregnated by UV irradiation can be effectively cured. Therefore, after the treatment of the above step (1), (2) by applying and impregnating an uncured penetrating UV (ultraviolet) curable resin from the surface side of the veneer 1 and curing it, A cured layer A of a penetrating UV curable resin is formed on the upper portion (FIG. 2C). The above water-resistant treatment can be applied even if the thickness of the veneer 1 exceeds 0.2 mm.

  The veneer 1 in the present invention can be generally obtained by slicing and cutting wood with a knife or cutting a log with a rotary race. At this time, the obtained veneer 1 is cracked by a knife on its cutting surface. In this invention, it is preferable to arrange | position so that the cutting surface (back crack surface) in which this back crack has generate | occur | produced may be the surface side of the wooden counter finally obtained. Thereby, the permeable hydrophobic resin and the permeable UV curable resin can be effectively impregnated. The thickness of the veneer 1 is not particularly limited, and the thickness may exceed 0.2 mm as described above.

  The water-resistant treatment of the veneer 1 may be performed after being laminated and integrated with the base material 3, or may be laminated and integrated with the base material 3 after the water-proof treatment is performed on the veneer 1 in advance.

  In the present invention, a decorative coating may be applied to the surface of the veneer 1. The decorative coating may be performed with a top coating used for a general plate material, and examples thereof include a top coating urethane coating. This decorative coating can be held without impairing the wood texture of the veneer 1 surface.

  Although the veneer 1 has been described above, the single plate 2 disposed on the side end surface of the wooden counter of the present invention is the same as the veneer 1 described above, and the description thereof is omitted. The single plate 2 according to the present invention is disposed on the side end surface of the base material 3 by being bonded with a hot-melt adhesive or the like.

  As described above, the wooden counter of the present invention has the veneer 1 and the veneer 2 that have been subjected to water resistance treatment disposed on the base 3, so that water absorption into the base 3 is suppressed. Furthermore, the occurrence of warpage due to temperature change and humidity change is also suppressed.

  The base material 3 made of a wood plywood in the present invention constitutes a main part of a wooden counter. By using a woody plywood as the base material 3, the generation of cracks due to heat is prevented. That is, when the wooden counter of the present invention is used as a kitchen counter, the temperature rises by using the stove near the stove. At this time, when a rubber base material such as a rubber laminated material was used as the base material 3, cracks were generated due to a temperature rise, but in the wooden counter of the present invention, cracks were caused by using a wood plywood as the base material 3. This prevents the occurrence of

  FIG. 3 is an example of another embodiment of the wooden counter of the present invention. In this figure, a thermosetting resin impregnated sheet 4 is disposed between the veneer 1 and the substrate 3.

  The thermosetting resin-impregnated sheet 4 is obtained by impregnating a sheet base material such as paper, woven fabric, and non-woven fabric with a thermosetting resin varnish into a semi-cured state. The veneer 1 and the substrate 3 may be bonded together, or the cured thermosetting resin impregnated sheet 4 and the veneer 1 are bonded to each other using an adhesive or the like, as in the examples described later. The surface material may be bonded by hot pressing to form a surface material, and the surface material and the substrate 1 may be bonded together. Or you may laminate | stack in order with the base material 3, the thermosetting resin impregnation sheet | seat 4, and the veneer | plate 1 in the semi-hardened state, and may heat-press and bond this. In this case, since the curing and the adhesion can be performed simultaneously without performing a pretreatment such as application of an adhesive, it can be easily manufactured. Furthermore, at the time of heating and pressurizing, the thermosetting resin melts and penetrates into the veneer 1 and the base material 3 to be cured, so that the adhesive is more firmly bonded, and the warpage of the wooden counter is suppressed. be able to.

  Since the thermosetting resin impregnated sheet 4 is cured and disposed, the surface weight of the wooden counter can be further enhanced and strengthened, such as supporting a local load and reducing a dent against the load. Can do.

  Examples of the thermosetting resin of the thermosetting resin impregnated sheet 4 include diallyl phthalate resin, epoxy resin, melamine resin, urea resin, phenol resin, unsaturated polyester resin, and the like. Among these, a phenol resin is preferably used in consideration of adhesiveness to the veneer 1 and the base material 3 and dimensional stability.

  Hereinafter, examples will be shown and described in more detail. Of course, the invention is not limited by the following examples.

<Example 1>
A 1800 mm long, 600 mm wide, 0.5 mm thick veneer and a 0.8 mm thick hardened phenolic resin impregnated sheet placed so that the back crack surface is on top using an emulsion adhesive. The surface material was obtained by pressing and bonding. This surface material is pasted on both sides of a lauan plywood as a 37.4 mm thick base material using a cold press using an emulsion adhesive, and a 3 mm thick single plate (solid material) around its periphery (side end surface) ) Was bonded by hot melt to produce a wooden counter plate having a thickness of 40 mm. A urethane-based paint was applied to the back surface of the wooden counter plate with a spray coater and cured for 1 hour.

Next, a resin (solid content 20%) in which a weight ratio of 2: 1 is blended with an oil-modified polyester polyol (molecular weight: about 800) and an isocyanate (HDI) on the surface material and the single side plate of the wooden counter plate. ) Was impregnated at 12 g / scale ² with a spray coater and cured at room temperature for 5 hours. Further, a resin (solid content 35%) in which a polyester acrylate (molecular weight: about 600) and an isocyanate (HDI type) were blended at a weight ratio of 4: 1 was applied and impregnated with a spray coater at 12 g / scale ^{2 for} 1 hour. After setting, the penetrating UV curable resin was cured by UV irradiation.

Thereafter, the surface was polished with # 320 abrasive and urethane-coated, and then cured for 3 days to obtain a wooden counter having the structure shown in FIG.
<Example 2>
In Example 1, except that the veneer, the cured phenol resin impregnated sheet, and the lauan plywood were bonded together without using an adhesive and hot-pressed using an uncured phenol resin impregnated sheet to obtain a surface material Obtained a wooden counter in the same manner as in Example 1.
<Example 3>
In Example 1, a wooden counter was used in the same manner as in Example 1 except that the cured phenol resin-impregnated sheet was not used and the thickness of the lauan material was 39 mm in order to make the thickness of the wooden counter plate 40 mm. Got.
<Comparative Example 1>
In the same manner as in Example 3, a wooden counter plate material without using a phenol resin-impregnated sheet was prepared, and urethane coating was performed on the front and back surfaces thereof. Sanding sealer (solid content 30%) is coated on the back side with 6g / scale ² and cured for 1 hour, then sanding sealer (solid content 30%) is coated on the surface with 10g / scale ² and cured for 5 hours, polishing # 320 Polishing with an agent was performed. Thereafter, 5 g / scale ^{2 of} urethane paint for top coating (solid content 20%) was applied and cured for 3 days to obtain a wooden counter.
<Comparative example 2>
A wooden counter was obtained in the same manner as in Example 1 except that rubber laminated material was used as the base material.

  About the obtained wooden counter, the surface hardness, the presence or absence of generation of cracks due to heat, and the warpage due to temperature and humidity changes were evaluated.

  The surface hardness was determined by dropping a 1 kg egg weight from a height of 60 cm toward the wooden counter surface, and measuring the depth of the dent on the decorative board surface after the egg weight was dropped.

  The presence or absence of the occurrence of cracks due to heat was determined based on the gas equipment abnormal combustion test, JIS S2093.

  Warpage due to temperature / humidity changes was evaluated by leaving a wooden counter in a large temperature-controlled room with a temperature of 40 ° C. The cycle was 16 hours at 30% humidity and 8 hours at 90% humidity, and this was repeated 4.5 cycles. After that, the amount of warpage was measured. Table 1 shows the magnitude of warpage with respect to the counter longitudinal direction of 500 mm.

  The results are shown in Table 1.

表１の結果より、木質合板からなる基材の表面に突き板が積層一体化され、その側端面には単板が配設されており、突き板および単板は耐水処理が施されている木製カウンターは、表面の凹みが小さく、熱によるクラックの発生が無いことが確認された。さらに、温度・湿度変化による反りが小さいことも確認された。また、フェノール樹脂含浸シートを配設することで、さらに乾湿繰り返しでの反りが小さくなることも確認された。

From the results in Table 1, a veneer is laminated and integrated on the surface of a base material made of wood plywood, and a veneer is disposed on the side end surface thereof, and the veneer and the veneer are subjected to water resistance treatment. It was confirmed that the wooden counter had a small surface dent and no cracking due to heat. Furthermore, it was confirmed that the warpage due to temperature and humidity changes was small. Moreover, it was confirmed that the warpage due to repeated wet and dry cycles was reduced by arranging the phenol resin impregnated sheet.

It is sectional drawing which showed an example of embodiment of the wooden counter of this invention. It is a schematic diagram for demonstrating the water-proof process of a veneer. It is sectional drawing which showed an example of another embodiment of the wooden counter of this invention.

Explanation of symbols

1 Veneer 2 Single plate 3 Base material 4 Thermosetting resin impregnated sheet A Cured layer

Claims (6)

  A veneer is laminated and integrated on the surface of a base material made of wood plywood, and a veneer is disposed on a side end surface thereof, and the veneer and the veneer are wooden counters subjected to water resistance treatment. The water-resistant treatment is performed by (1) impregnating and curing an uncured penetrating hydrophobic resin on a veneer and a single plate, and then (2) an uncured penetrating UV (ultraviolet) curable resin from the surface side. The impregnated hardened layer of the penetrating UV (ultraviolet) curable resin is impregnated and hardened by the penetrating hydrophobic resin by applying the water-resistant treatment. A wooden counter, characterized in that it is formed on the surface side and the surface side in the veneer.   A veneer is laminated and integrated on the surface of a base material made of wood plywood via a thermosetting resin impregnated sheet, and a veneer is disposed on the side end surface thereof, and the veneer and the veneer are treated with water resistance. The water-resistant treatment is performed by (1) impregnating and curing the uncured penetrating hydrophobic resin on the veneer and the veneer and then (2) uncured from the surface side. Applying impregnation and curing of a penetrating UV (ultraviolet) curable resin, the impregnated hardened layer of the penetrating UV (ultraviolet) curable resin is impregnated with the penetrating hydrophobic resin by applying the water-resistant treatment. A wooden counter, which is formed on the hardened surface side of the veneer and the surface side of the veneer.   The wooden counter according to claim 1 or 2, wherein the osmotic hydrophobic resin is an oil-modified polyol.   The wooden counter according to any one of claims 1 to 3, wherein the penetrating UV curable resin is a polyester acrylate. The wooden counter according to any one of claims 1 to 4, wherein the molecular weight of the osmotic hydrophobic resin is in the range of 100 to 1,000. The wooden counter according to any one of claims 1 to 4, wherein the molecular weight of the penetrating UV curable resin is in the range of 100 to 1,000.

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