JP2016113722A - Foamed wall paper - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foamed wall paper capable of effectively adsorbing formaldehyde in the atmosphere.SOLUTION: There is provided a foamed wall paper, in which the wall paper comprises a foamed resin layer on a base material sheet and further comprises any one or more of the following layers: a coat layer, a pattern layer, and a surface protective layer on the foamed resin layer in this order. The foamed wall paper comprises the foamed resin layer including a formaldehyde adsorbent. The formaldehyde adsorbent includes any one or more organic substances of urea, ethylene urea, a hydrazide compound, an alcohol amine compound, an azole compound and an azine compound.SELECTED DRAWING: Figure 1

Description

  The present invention relates to wallpaper. In particular, the present invention relates to a foam wallpaper having a function of adsorbing formaldehyde.

  In recent years, the price of timber has been rising due to the depletion of natural timber, and forest protection activities related to global environmental problems have been increasing. Various woody base materials obtained by artificially processing natural wood, such as wood, particle board, hard board, and medium density fiber plate (MDF), are increasingly used.

  These artificial wood materials are highly uniform in terms of performance, stable in dimensional accuracy and strength, and excellent in workability, so they support industrial production of houses such as prefabricated houses. It can be said that.

  Such a wood-based base material is made by cutting or decomposing wood into thin plates, small pieces, or fibers, and connecting them using an adhesive to reconstruct them. Therefore, it is attractive that it is relatively inexpensive and stable in terms of price. Further, as an adhesive, an adhesive containing formaldehyde such as urea or phenol is often used from the standpoints of adhesive strength to wood fibers, adhesion workability, and cost.

  However, in actual production, there are many cases where formaldehyde is excessively added for the purpose of improving the bonding strength and bonding speed, and the formaldehyde is volatilized out of the adhesive by the heat treatment for curing the adhesive. In some cases, it may remain in wood fibers or wood pieces, and it is natural that it is naturally expected that formaldehyde remains in the woody base material.

  The building materials and furniture manufactured in this way are considered harmful to the human body, and formaldehyde gas, which has a special unpleasant odor called formalin odor, is diffused. It has been pointed out that there is a risk of not only allergic symptoms but also health problems. Formaldehyde is one of the causes of the so-called sick house syndrome, which has been attracting attention in recent years.

  As a solution to this problem, for example, in Patent Document 1, wood grain is printed on paper impregnated with formaldehyde adsorbent and pasted on the surface of the wood base material, thereby adsorbing and removing the diffused formaldehyde of the wood base material. Although a method has been proposed, it has only been used for decorative plywood.

  Alternatively, Patent Document 2 proposes to provide a resin layer containing a formaldehyde adsorbent on a base sheet, but the design is limited and the effect is limited to the range where the surface resin layer contacts. It was.

  Under such circumstances, interior materials that can efficiently adsorb formaldehyde without impairing design properties and surface properties, particularly wallpaper that can be used in large areas such as walls and ceilings, have been demanded. It was.

Japanese Patent Publication No.52-134 Japanese Patent Laid-Open No. 10-258495

  In view of such a situation, it is an object of the present invention to provide a foam wallpaper that can effectively adsorb formaldehyde in an atmosphere.

  As means for solving the above-mentioned problems, the invention according to claim 1 has a foamed resin layer on a base sheet, and further any one of a coat layer, a picture layer, and a surface protective layer. A foamed wallpaper having one or more in this order, wherein the foamed resin layer contains a formaldehyde adsorbent.

  The invention described in claim 2 contains any one or more organic substances of urea, ethylene urea, hydrazide compound, alcohol amine compound, azole compound, and azine compound as the formaldehyde adsorbent. The foamed wallpaper according to claim 1.

  In the invention according to claim 3, the foamed resin layer is made of one or more inorganic substances selected from natural zeolite, acidic clay, diatomaceous earth, synthetic zeolite, artificial zeolite, activated carbon, titanium oxide, and phosphate. The foamed wallpaper according to claim 1 or 2, wherein the foamed wallpaper is contained.

  The invention according to claim 4 is characterized in that the foamed resin layer contains 0.1 to 10 parts by weight of a formaldehyde adsorbent with respect to 100 parts by weight of the resin. Item 4. The foamed wallpaper according to any one of Items 3 above.

  The invention according to claim 5 is the foam wallpaper according to any one of claims 1 to 4, wherein a through-hole reaching the base sheet from the outermost surface layer is provided.

  The invention according to claim 6 is the foam wallpaper according to claim 5, wherein the diameter of the through hole is in the range of 10 μm to 1000 μm.

  According to the present invention, it is possible to provide a foam wallpaper that can effectively adsorb formaldehyde in the atmosphere.

  According to invention of Claim 2, the foam wallpaper which can adsorb | suck formaldehyde more effectively can be obtained.

  According to invention of Claim 3, the foaming wallpaper which can raise adsorption | suction of formaldehyde in a foamed resin layer further, and can make it easy to adsorb | suck can be obtained.

  According to invention of Claim 4, the foaming wallpaper which can adsorb | suck formaldehyde more effectively can be obtained.

  According to the invention described in claim 5, it is possible to obtain a foam wallpaper that can more effectively adsorb formaldehyde through the through-holes.

  According to the invention described in claim 6, it is possible to obtain a foamed wallpaper capable of effectively adsorbing formaldehyde without impairing surface physical properties, design properties and workability.

FIG. 1 is an example of an embodiment of the foam wallpaper according to the present invention, and is a partial cross-sectional schematic view showing a state where the foamed wallpaper is bonded to a gypsum board as a base plate.

  Hereinafter, a detailed description of the embodiment for carrying out the present invention will be given with reference to FIG.

  FIG. 1 is a partial cross-sectional schematic view of an embodiment of the foam wallpaper according to the present invention in a state where it is bonded to a gypsum board as a base plate.

  The foamed wallpaper (10) is provided with a foamed resin layer (2) on a base sheet (1), and further a coat layer (3), a picture layer (4) and a surface protective layer (5). In FIG. 1, the coating layer (3) and the pattern layer (4) are also shown as a surface protective layer (5), but when not necessary, the coating layer (3), the pattern layer (4) and the surface protective layer (5) Any one layer or a plurality of layers may be omitted.

  In addition, the foamed resin layer can be provided with the three-dimensional design of the wallpaper by heating and foaming after providing the above layers in (2) and imparting irregularities from the surface using an embossed plate or the like.

  A through hole (7) reaching the base sheet (1) is provided from the surface of the foam wallpaper (10), and the formaldehyde (6) in the surrounding atmosphere is effectively formed in the foam resin layer (2) by the through hole. While being captured and adsorbed by the formaldehyde adsorbent contained in the substrate, it passes through the through hole (7) as indicated by the arrow of formaldehyde (6) in the figure, and passes through the base sheet, adhesive layer (11). And reaches the gypsum board (12) which is a base plate.

  When this gypsum board (12) has a formaldehyde adhesion function, formaldehyde is also captured and adsorbed here. Thus, not only the surface of the wallpaper but also the adsorption of formaldehyde is more effectively performed through the through hole (7).

  The present invention relates to foamed wallpaper, and in addition to gypsum board as a base plate, natural wood such as plywood, laminated wood, particle board, hard board, medium density fiber plate (MDF) is artificially processed. Various woody base materials obtained in this way can be used as the base plate. It is also possible to install it directly on the wall or ceiling surface at the construction site.

The elements constituting the wallpaper according to the present invention will be further described below. In addition to a general paper substrate, wallpaper base paper can be used for the substrate sheet. Wallpaper base paper may be suitably selected from those sold as wallpaper base paper from paper manufacturers not particularly limited, it can be used having a basis weight of ^{30g / m 2 ~150g / m 2} .

As the resin used for the foamed resin layer (2), a vinyl chloride resin, an ethylene vinyl acetate copolymer (EVA) resin, an acrylic resin, a polyolefin resin, or the like can be used. For the formation of the resin layer, a suitable one can be selected from a coating method, a method using an extruder, a method using a calendar machine, and the like.

  For example, if an emulsion type resin of vinyl chloride sol, acrylic, or ethylene vinyl acetate copolymer is used, coating can be performed using a coating machine such as a die coater or a comma coater.

  Recently, there are growing voices of concern about the impact on the global environment, but when considering these, it is possible to use ethylene vinyl acetate copolymer resins, acrylic resins, polyolefin resins, etc. other than vinyl chloride resins. desirable.

  A formaldehyde adsorbent is blended in the foamed resin layer (2). The formaldehyde adsorbent needs to contain any one or more organic substances of urea, ethylene urea, hydrazide compound, alcohol amine compound, azole compound, and azine compound.

  The blending amount of the formaldehyde adsorbent is 0.1 to 10 parts by weight of the adsorbent with respect to 100 parts by weight of the resin of the foamed resin layer. The effect of formaldehyde adsorption is preferably expressed without impairing the properties.

  The foamed resin layer (2) can contain any one or more inorganic materials selected from natural zeolite, acid clay, diatomaceous earth, synthetic zeolite, artificial zeolite, activated carbon, titanium oxide, and phosphate. These inorganic materials can further promote the adsorption of formaldehyde.

  For example, zeolite has silicon oxide and aluminum oxide as its main components and has a porous structure, so that it not only has its own adsorption function, but also helps to adsorb the adsorbent of formaldehyde adsorbent of compounded organic compounds. . The same applies to acid clay, diatomaceous earth, activated carbon and the like, and can be appropriately selected in consideration of adsorption performance and price.

  If necessary, a pattern layer (4) can be provided on the surface of the foamed resin layer (2) for the purpose of improving the design. The picture layer (4) can be provided by a known printing method, and although not particularly limited, for example, a gravure printing method or the like can be used.

  Printing is performed before the heat foaming after forming the foamed resin layer (2), providing the coating layer (3) and the surface protective layer (5) as required in addition to the pattern layer (4). The ink used for printing is not particularly limited, but can be appropriately selected according to the printing method and considering the ink adhesion and light resistance.

  The coat layer (3) has the purpose of strengthening the adhesion of the ink between the foamed resin layer (2) and the picture layer (4) or the adhesion between the foamed resin layer (2) and the surface protective layer (5). It is provided for the purpose of strengthening. Therefore, when it is not necessary to provide the pattern layer (4) and the surface protective layer (5), they may be omitted.

  The surface protective layer (5) is provided for the purpose of protecting the wallpaper surface, such as improving the stain resistance, but an appropriate layer may be used depending on the required quality. For example, the surface protective layer (5) may be used for improving the peel resistance and the surface hardness. In some cases, the type of coating agent can be appropriately selected according to the purpose, and the formulation can be designed.

By providing the through hole (7) that reaches the base sheet from the outermost surface layer, it is possible to effectively introduce formaldehyde in the atmosphere into the foamed wallpaper, and the efficiency of adsorption of formaldehyde is increased. Formaldehyde contained in the atmosphere easily reaches the formaldehyde adsorbent in the foamed resin layer (2) through the through hole (7), and the through hole (as shown by the arrow of formaldehyde (6) in FIG. 7) Passes through the base sheet and the adhesive layer (11) and reaches the gypsum board (12) which is the base plate.

  When this gypsum board (12) has a formaldehyde adhesion function, formaldehyde is also captured and adsorbed here. Thus, not only the surface of the wallpaper but also the adsorption of formaldehyde is more effectively performed through the through hole (7).

  If the diameter of the through-hole is large, the efficiency of capturing and adsorbing formaldehyde increases, but it is also important not to impair the design properties, and considering the range that does not impair the contamination resistance of the surface, it is in the range of 10 μm to 1000 μm. It is preferable. Moreover, when this is exceeded, there exists a possibility that the adhesive loss from a through-hole may generate | occur | produce at the time of wallpaper construction.

  Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples.

<Example 1>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 0.1% by weight of a formaldehyde adsorbent was laminated on a base sheet WK685 (manufactured by KJ Special Paper), and a texture-like pattern layer was provided thereon and heated and foamed. Subsequently, using a needle having a diameter of 15 μm from the pattern layer side, a 10 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Example 2>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 5% by weight of a formaldehyde adsorbent was laminated on a substrate sheet WK685 (manufactured by KJ Special Paper), and a texture-like pattern layer was provided thereon and heated and foamed. Subsequently, using a needle having a diameter of 15 μm from the pattern layer side, a 10 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Example 3>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 10% by weight of a formaldehyde adsorbent was laminated on a substrate sheet WK685 (manufactured by KJ special paper), and a texture-like pattern layer was provided thereon and foamed by heating. Subsequently, using a needle having a diameter of 15 μm from the pattern layer side, a 10 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Example 4>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 5% by weight of a formaldehyde adsorbent was laminated on a substrate sheet WK685 (manufactured by KJ Special Paper), and a texture-like pattern layer was provided thereon and heated and foamed. Subsequently, using a needle having a diameter of 300 μm from the pattern layer side, a 300 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Comparative Example 1>
Samples were prepared with the following material composition and procedure.
EVA that does not contain formaldehyde adsorbent on the base sheet WK685 (KJ Special Paper)
A series foamed resin was laminated, and a texture-like pattern layer was provided thereon and foamed by heating. Subsequently, using a needle having a diameter of 15 μm from the pattern layer side, a 10 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Example 5>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 15% by weight of a formaldehyde adsorbent was laminated on a base sheet WK685 (manufactured by KJ Special Paper), and a texture-like pattern layer was provided thereon and foamed by heating. Subsequently, using a needle having a diameter of 15 μm from the pattern layer side, a 10 μm through hole reaching the base material sheet was provided to obtain a foamed wallpaper.

<Example 6>
Samples were prepared with the following material composition and procedure.
An EVA-based foamed resin containing 5% by weight of a formaldehyde adsorbent was laminated on a substrate sheet WK685 (manufactured by KJ Special Paper), and a texture-like pattern layer was provided thereon and heated and foamed. Subsequently, using a needle having a diameter of 1500 μm from the pattern layer side, a 1500 μm through hole reaching the base sheet was provided to obtain a foam wallpaper.

  The foam wallpaper samples obtained in Examples 1 to 6 and Comparative Example 1 were evaluated using the following test items, evaluation methods, and evaluation criteria.

<Formaldehyde adsorption test>
Evaluation method:
(1) An unglazed plate with a hole is disposed in a constricted portion of a desiccator (inner diameter: 24 cm) having a volume of 1.6 l.
(2) A glass container containing 300 ml of distilled water is placed under the unglazed plate.
(3) A 15 cm × 15 cm sample is placed on the unglazed plate, and a polyethylene container in which a formaldehyde generation source (solution) is placed is placed thereon.
At this time, the concentration of the formaldehyde generation source is 0.38 mg / ml, and the solution amount is 25 ml.
(4) Collect distilled water after 24 hours.
(5) The formaldehyde concentration of distilled water is measured according to the method of JIS A6921. Distilled water collected from a desiccator containing only a formaldehyde source is 1.5 mg / ml.
The concentration of distilled water collected from the desiccator containing the test piece was measured and evaluated according to the following evaluation criteria.
Evaluation criteria:
0.0 to 0.2 mg / ml: ○
0.3 to 0.5 mg / ml: Δ
0.6 to 1.5 mg / ml: x
It was.

<Contamination test>
Evaluation method:
1) It was conducted with reference to the standard “Smudge prevention wallpaper performance regulations” established by the Wall Wholesaler Council.
2) Collect a test piece of A4 size and apply the following contaminants to the test piece.
Aqueous pen, crayon, coffee, soy sauce.
3) After leaving this for 24 hours,
Wipe off coffee and soy sauce with water, and wipe off water-based sign pens and crayons with water or neutral detergent.
4) Visually compare the contaminated part with the uncontaminated part.
Evaluation criteria:
Dirt falls: ○
Dirt is not removed: ×
It was.

<Construction test>
Evaluation method:
A test piece of the same size is applied to a 150 mm square plaster board with construction glue.
Visually observe the presence or absence of glue loss after construction.
Evaluation criteria:
No glue removal from the through hole: ○
There is paste removal from the through hole: ×
It was.

<Coating property>
Evaluation method:
Using an applicator, the foamed resin is applied to the substrate sheet, dried, and then visually observed.
Evaluation criteria:
A uniform film can be formed: ○
Slightly lacking in film uniformity:
Unable to form a uniform film: ×
It was.

<Evaluation results>
The evaluation results are shown in Table 1.

Regarding the formaldehyde adsorption test, Example 4 and Example 6 are evaluated as o, and this seems to have a remarkable effect due to the large diameter of the through hole.
Comparative Example 1 evaluated as x in the formaldehyde adsorption test is caused by the fact that no formaldehyde adsorbent is blended in the foamed resin layer.

  In the anti-contamination test, Example 6 is evaluated as x. This is a result of the penetration of the pollutant to the inside and the difficulty of wiping off due to the large diameter of the through hole.

  In the construction test, Example 6 is evaluated as x, which is a result of the glue for construction coming out to the surface due to the large diameter of the through hole.

  The coating property tends to be worse when the amount of the formaldehyde adsorbent is increased, but the content of the formaldehyde adsorbent is 0.1 to 10 parts by weight with respect to 100 parts by weight of the resin according to the present invention. Is evaluated as ◯ or △ and is practical. Moreover, in Example 5, although containing 15 weight part, it is (triangle | delta) evaluation.

  When the above results were comprehensively evaluated, it was shown that all of Examples 1 to 6 were in the practical range because they all exceeded Δ evaluation in the formaldehyde adsorption test. Comparative example 1 is x evaluation. Moreover, in Example 4, it can be said that it is (circle) evaluation in all the evaluation items, and it is excellent also in other evaluation items.

  From these results, according to the present invention, it was possible to verify that it was possible to provide a foam wallpaper that can effectively adsorb formaldehyde in the atmosphere.

DESCRIPTION OF SYMBOLS 1 ... Base material sheet 2 ... Foamed resin layer 3 ... Coat layer 4 ... Picture layer 5 ... Surface protective layer 6 ... Formaldehyde 7 ... Through-hole 10 ... Foam wallpaper 11 ... Adhesive layer 12 ... Gypsum board

Claims (6)

  A foamed wallpaper having a foamed resin layer on a base sheet, and further having one or more of a coat layer, a pattern layer, and a surface protective layer in this order on the base sheet, the foamed resin layer A foam wallpaper characterized by containing a formaldehyde adsorbent.   2. The foam according to claim 1, wherein the formaldehyde adsorbent contains one or more organic substances of urea, ethylene urea, hydrazide compound, alcohol amine compound, azole compound, and azine compound. wallpaper.   The foamed resin layer contains any one or more inorganic substances of natural zeolite, acidic clay, diatomaceous earth, synthetic zeolite, artificial zeolite, activated carbon, titanium oxide, and phosphate. The foamed wallpaper according to claim 1 or 2.   The foamed wallpaper according to any one of claims 1 to 3, wherein the foamed resin layer contains 0.1 to 10 parts by weight of a formaldehyde adsorbent with respect to 100 parts by weight of the resin.   The foamed wallpaper according to any one of claims 1 to 4, wherein a through-hole reaching the base sheet from an outermost surface layer is provided.   The foamed wallpaper according to claim 5, wherein the diameter of the through hole is in a range of 10 μm to 1000 μm.