JPH08127105A - Building interior panel - Google Patents

Abstract

PURPOSE: To prevent the levitation of a three-layered sheet and the creasing or wrinkling thereof by making the basis wt. of the paper forming the outside paper layer among two outer paper layers of the three-layered sheet bonded to the rear surface of a base material larger than that of the paper forming the paper layer on the side bonded to the base material. CONSTITUTION: A three-layered sheet 20 obtained by forming paper layers 21, 22 on both surfaces of a synthetic resin layer 23 is bonded to an interior panel. The basis wt. of the paper forming the outside paper layer 22 among two paper layers 21, 22 of the three-layered sheet 20 is made larger than that of the paper forming the paper layer 21 on the side bonded to the interior panel. Therefore, the tensile strength of the outside paper layer 22 is made higher than that of the paper layer 21 on the bonding side. As a result, the generation of creasing or wrinkling in the three-layered sheet 20 is prevented and the lowering of commodity value can be prevented.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building interior panel which can be suitably used as, for example, a floor finishing panel for buildings.

[0002]

2. Description of the Related Art Conventionally, architectural interior panels such as flooring materials used for floor finishing are constructed by providing a decorative layer on the surface of a plate-like base material such as plywood. In order to balance the above, it is generally practiced to provide a backing layer on the back surface of the base material, and to impart moisture resistance to the backing layer to prevent water absorption and moisture absorption from the back surface.

To provide moisture resistance, a single layer sheet made of synthetic resin or a two-layer sheet having a synthetic resin layer formed on one side of paper, non-woven fabric or woven fabric is used as the backing layer. However, since the synthetic resin is inferior in adhesiveness to a wood material, when a synthetic resin single layer sheet is used, there arises a problem in adhesiveness to a base material and adhesiveness to a floor base during construction. When the layered sheet is used, there is a problem in the adhesiveness with the base material or the adhesiveness with the floor base.

Therefore, for the backing layer of the interior panel, it is preferable to use a three-layer sheet in which a paper layer and a non-woven fabric layer are formed on both sides of the synthetic resin layer, but the non-woven fabric is more expensive than paper. Therefore, a three-layer sheet in which paper layers are formed on both sides of a synthetic resin layer, for example, polysand paper in which polyethylene is sanded from both sides by kraft paper, is preferably used.

[0005]

However, as shown in FIG.
As shown in (a), since the three-layer sheet (3) used as a conventional interior panel backing layer is attached to the back surface of the base material (2) with an adhesive, the three-layer sheet (3) Of the paper layers (3a) and (3b) on both sides, the paper layer (3a) on the base material side is
It absorbs moisture from the adhesive and becomes partially stretched.
Therefore, the base material side paper layer (3a) is partially lifted at the panel middle portion and the end portion, and the synthetic resin layer (3c) and the outer paper layer (3b) are also lifted by being pushed by the base material side paper layer (3a) and the raised portion ( 4) is formed.

Then, in that state, in the next step, when a large number of panels are overlapped and pressed, the raised portion (4) of the three-layer sheet (3) is crushed as shown in FIG. 2 (b). As a result, bends and wrinkles (5) are formed. The bending and wrinkles (5) cause breakage and peeling,
It may reduce the waterproofness of the panel.

On the other hand, a three-layer sheet (3) on the back side of the panel
Since it is hidden after construction, the bending and wrinkles (5) of the three-layer sheet (3) do not adversely affect the aesthetic appearance after construction, but even if the panel product is carried in or during construction. Even if it is on the back side, if a bend or wrinkle (5) is visible, it may cause anxiety or cause a decrease in commercial value, which is not preferable.

The present invention solves the above-mentioned problems of the prior art, prevents the three-layer sheet from rising on the back surface of the panel, prevents bending and wrinkles, and reduces the waterproof and moisture-proof properties and the commercial value. An object is to provide an interior panel for construction that can prevent

<Analysis of Conventional Product> The present inventor has focused on the paper layers (3a) and (3b) on both sides of the three-layer sheet (3) in the conventional interior panel for building, and We investigated in detail the mechanism of lifting.

First, the paper layers (3a) (3) of the three-layer sheet (3)
Since b) is composed of paper entangled with wood fibers, it is an unavoidable fact that elongation due to absorption of water is unavoidable. However, although the outer paper layer (3b) is formed of the same quality paper as the above, the adhesive water content on the outer paper layer (3b) is increased by the synthetic resin layer (3c) between both paper layers (3a) and (3b). Is prevented, so that the outer paper layer (3b) does not stretch due to absorption of adhesive moisture. Therefore, when the base material side paper layer (3a) stretches and tries to float, stress is generated in the compression direction in the outer side paper layer (3b), and the base material side paper layer (3a).
The force for suppressing the lifting of a) acts. Nevertheless, since the same paper is used as both paper layers (3a) and (3b), there is no difference in physical properties between both paper layers (3a) and (3b), and the paper layer (3)
It was clarified that the lifting force of the outer paper layer (3b) was not sufficiently obtained with respect to the lifting force of a).

[0011]

Further, as a result of continuing intensive studies, the present inventor has found that the bending deformability of the outer paper layer is smaller than that of the base material side paper layer or the rigidity of the outer paper layer. It has been found that the outer paper layer can suppress the lifting of the inner paper layer and prevent the lifting of the three-layer sheet at a higher level than that of the base material side paper layer.

By the way, in a normal material, when a bending load is applied, a compressive stress is generated on the load surface (inner surface),
Tensile stress is generated on the opposite surface (outer surface). At this time, the larger the tensile breaking load, the smaller the amount of bending deformation for a specific bending load, so even for paper, if the basis weight is increased and the thickness is increased, the tensile breaking load can be increased and the bending deformation can be increased. The amount can be reduced.

Therefore, in the first invention of the present application, as shown in FIG. 1, the paper layers (21) and (22) are formed on both sides of the synthetic resin layer (23).
The three-layer sheet (20) on which is formed is the plate-shaped substrate (10).
In order to achieve the above-mentioned object, in the interior panel for construction stuck to the back surface of the above, the outer paper layer (22) is formed of the two paper layers (21) and (22) of the three-layer sheet (20). The gist is that the paper to be used is composed of a paper having a relatively large basis weight (g / m ² ) relative to the paper forming the paper layer (21) on the side of adhering the base material.

That is, in the three-layer sheet (20) adhered to the back surface of the plate-shaped substrate (10) with an adhesive, the density (g / g) of the outer paper layer (22) with respect to the substrate-side paper layer (21).
cm ² ) is equal (about 0.7 to 1.3 times) or more, the tensile strength (kg / cm ² ) is equal (0.
(About 75 times to 1.25 times) or more, the basis weight of the outer side paper layer (22) is set to be larger than that of the base material side paper layer (21).

At this time, the basis weight of the outer side paper layer (22) is larger than the basis weight of the base material side paper layer (21) by 40% or more (1.
3 layer sheet (20) by setting 4 times or more)
It is possible to reliably obtain the effect of preventing the floating.

In the present invention, for example, the base material side paper layer (2
As 1), a paper having a basis weight of 20 (g / m ² ) to 50 (g / m ² ) can be used, and preferably 25 (g / m ² ) to 3
Paper having a basis weight of 5 (g / m ² ) can be preferably used. Further, as the outer paper layer (22), it is preferable to use paper having a basis weight of 40% or more larger than that of the paper constituting the substrate side paper layer (21) as described above. If a paper having a grammage smaller than the specified value is used as the outer paper layer (22), it is 3
The layer sheet (20) may not be reliably prevented from rising.

In the first aspect of the invention, the basis weight of the outer paper layer (22) is relatively the base paper layer (21).
It is sufficient if it is set larger than the basis weight of each paper layer (2
The basis weights of 1) and (22) are not particularly limited.

On the other hand, as described above, it is possible to prevent the three-layer sheet (20) from rising by increasing the rigidity of the outer paper layer (22).

In this case, since the bending Young's modulus is well known as an index showing the rigidity of an arbitrary material, if the bending Young's modulus of the outer paper layer (22) is larger than that of the base material side paper layer (21), It can be judged that the lifting of the three-layer sheet (20) can be prevented.

However, a sheet-like material such as paper constituting the paper layers (21) and (22) cannot be subjected to a bending test, and it is impossible to actually measure the bending Young's modulus.

However, in the case of a material of the same quality as paper, such as wood or a hardboard mainly formed by entanglement of wood fibers, the bending Young's modulus and the tensile strength are
There is data that can be evaluated as having a positive correlation ("Wood Engineering Dictionary" Kogyo Publishing, published May 20, 1982 <77.
Pages 3 to 774, "Physical Properties of Hard Boards">, "Wood Industry Handbook" Maruzen, June 1976 2
2nd printing, 0th day <page 234, Table 2.101, “Wood properties”
Column>). Therefore, it can be judged that even a paper having a large tensile strength has a large bending Young's modulus and a high rigidity.

Therefore, in the second invention of the present application, the paper layers (21) and (22) are formed on both sides of the synthetic resin layer (23).
In the interior panel for construction, where the layer sheet (20) is attached to the back surface of the plate-shaped substrate (10), in order to achieve the same purpose, two paper layers (21) of the three-layer sheet (20) are provided.
Of the (22), the paper forming the outer paper layer (22) is
The gist is that a paper having a relatively high tensile strength (kg / 15 mm) is used with respect to the paper forming the paper layer (21) on the side where the base material is attached.

That is, in the three-layer sheet (20) attached to the back surface of the plate-shaped substrate (10) with an adhesive, the density (g / g) of the outer paper layer (22) with respect to the substrate-side paper layer (21).
cm ² ) is equivalent (about 0.7 to 1.3 times) or more, the tensile strength of the outer paper layer (22) is set to be larger than that of the base material side paper layer (21). It is a thing.

At this time, the tensile strength of the outer paper layer (22) is set to 55% or more (1.55 times or more) higher than the tensile strength of the base material side paper layer (21). The effect of preventing the three-layer sheet (20) from rising can be reliably obtained.

Here, in the present invention, "tensile strength (kg
/ 15mm) "means a width of 15mm and a length of 150m
The maximum load (kg) when applying tension to a test piece of m to 200 mm and cutting it.

In the second aspect of the present invention, the tensile strength of the outer paper layer (22) may be set to be relatively larger than the tensile strength of the base material side paper layer (21). Two
The tensile strengths of 1) and 22) are not particularly limited.

In the present invention, the synergistic effect can be exhibited by satisfying both the constitution of the first invention and the constitution of the second invention. For example, the tensile strength of the outer paper layer (22) is 55 with respect to the tensile strength of the base material side paper layer (21).
%, And further, by setting the basis weight of the outer side paper layer (22) to be 40% or more larger than the basis weight of the base material side paper layer (21), the three-layer sheet (20) rises. The prevention effect can be obtained more reliably.

On the other hand, in the present invention, the base paper layer (2
By using a material having a low water absorption elongation rate as 1), the above effects can be more reliably obtained. For example, as the substrate side paper layer (21), the water absorption elongation is
It is preferable to use those of 3% or less.

In the present invention, as the paper constituting the paper layers (21) and (22) of the three-layer sheet (20), kraft paper, recycled paper, waste paper containing paper, pure white roll paper, printing paper, paperboard, etc. are used. Among them, the outer paper layer (22) made of kraft paper and the base material side paper layer (21) made of pure white roll paper can be preferably used.

The paper forming the paper layers (21) and (22) may have any papermaking direction.
For example, the papermaking direction may be set in the panel length direction or may be set in the panel width direction. Further, the papermaking directions of the paper layers (21) and (22) may be the same or different from each other.

In the three-layer sheet (20), the synthetic resin layer (23) may be made of any material as long as it can block moisture and humidity. For example, those made of a heat-melting resin such as polyethylene, polypropylene, or polyvinyl chloride, a heat-deformable resin, a thermoplastic resin can be preferably used.

Further, the synthetic resin layer (23) has a thickness of 1
It is set to 0 μm to 100 μm, preferably 15 μm to 50 μm. As this thickness becomes thinner,
When the adhesiveness between the synthetic resin layer (23) and both paper layers (21) and (22) deteriorates and becomes less than 10 μm, both paper layers (2
1) (22) may be easily peeled off and sufficient stability may not be obtained as a three-layer sheet, and moreover, many pinholes are formed in the synthetic resin layer (23), resulting in sufficient waterproofness and moisture resistance. It is not preferable because the property may not be obtained. Further, the thickness of the synthetic resin layer (23) is 100 μm.
Even if it exceeds m, the effect corresponding to it cannot be obtained, which is uneconomical, which is not preferable. However, the synthetic resin layer (2
As the thickness of 3) increases, the rigidity increases, so 3
The effect of suppressing the lifting of the layered sheet is improved.

The three-layer sheet (20) may be formed by laminating the sheets constituting the layers (21), (23) and (22), followed by thermocompression and heat fusion, or by heat fusion. The synthetic resin in the state is discharged in the form of a sheet or film, and the paper layer (21) (2
It is possible to adopt a method in which the papers constituting 2) are superposed and laminated by cold pressing with a deaeration roll or a compression roll.

As the base material (10), plywood, medium quality fiberboard (MDF), particle board, inorganic board and the like can be used. Among them, the medium-quality fiberboard is made of wood fibers, has a uniform material, and has no directivity, and thus can be suitably used as a base material for a decorative panel such as a flooring material.

Adhesives for sticking the three-layer sheet (20) to the base material (10) include urea type, urea melanin type,
Known adhesives such as vinyl acetate-based, ethylene vinyl acetate-based, urea vinyl acetate-based, phenol-based, vinyl chloride-based, water-based vinyl urethane-based and urethane-based adhesives can be preferably used.

On the other hand, in the first or second invention,
In both cases, it is preferable to adopt a configuration in which the decorative layer (30) of the base material (10) is provided.

The decorative layer (30) can be formed by sticking a known decorative sheet such as a veneer, a resin sheet, or a printing paper, or can be formed by applying a known cosmetic paint. Is.

[0038]

In the first aspect of the present invention, of the two paper layers on both sides of the three-layer sheet attached to the back surface of the base material, the paper forming the outer paper layer is the paper layer on the base material attachment side. For the paper to be formed,
Since the outer paper layer has a relatively large basis weight, the amount of bending deformation of the outer paper layer is smaller than that of the base paper layer. Therefore, even if the base material side paper layer is stretched due to the absorption of the adhesive moisture and tries to be partially lifted, the outer paper layer suppresses the lifting, so that the lifting of the three-layer sheet is prevented.

In the second invention of the present application, of the two paper layers on both sides of the three-layer sheet attached to the back surface of the base material, the paper forming the outer paper layer is the paper layer on the base material attachment side. Since the paper to be formed is made of a material having a relatively high tensile strength, the rigidity of the outer paper layer is higher than that of the base material side paper layer. Therefore, even if the base material side paper layer is stretched due to the absorption of the adhesive moisture and tries to be partially lifted, the outer paper layer suppresses the lifting, so that the lifting of the three-layer sheet is prevented.

In the first or second invention of the present application, when the constitution in which the decorative layer is provided on the surface of the base material is adopted, it can be used as it is as a panel product such as a decorative flooring material.

[0041]

EXAMPLES Examples related to the present invention and comparative examples for deriving the effects thereof will be described below.

<Example 1>

[Table 1] As shown in Table 1 above, the thickness of polyethylene is 15μ
On both sides of the synthetic resin layer of m, the base material side paper layer made of paper having a basis weight of 30 (g / m ² ) and a thickness of 46 μm and a basis weight of 50 (g / m 2)
² ), a three-layer sheet having a basis weight of 95 (g / m ² ) and a thickness of 117 μm on which an outer paper layer made of a paper having a thickness of 75 μm was formed, and a three-layer sheet made of a medium quality fiberboard (MDF). 5 (mm)
Then, a urea vinyl acetate-based adhesive was applied to the back surface of the base material to prepare a flooring substrate.

In this Example 1 and each of the following Examples and Comparative Examples, the paper constituting the paper layer has a density of 0.65 (g / cm ² ) to 0.85 (g / cm ² ).
² ).

Example 2 As shown in Table 1, both sides of the polyethylene layer had a basis weight of 50 (g / m ² ) and a thickness of 75 μm.
a base material side paper layer made of m paper, and a basis weight of 71 (g / m ² ),
A three-layer sheet having a basis weight of 135 (g / m ² ) and a thickness of 155 μm, on which an outer paper layer made of paper having a thickness of 90 μm was formed,
The same adhesive as above was used to adhere to the back surface of the MDF base material to produce a flooring substrate.

Example 3 As shown in Table 1, both sides of the polyethylene layer had a basis weight of 30 (g / m ² ) and a thickness of 46 μm.
a base material side paper layer made of m paper, and a basis weight of 71 (g / m ² ),
A three-layer sheet having a basis weight of 116 (g / m ² ) and a thickness of 131 μm, on which an outer paper layer made of paper having a thickness of 90 μm was formed,
The same adhesive as above was used to adhere to the back surface of the MDF base material to produce a flooring substrate.

<Comparative Example 1> As shown in Table 1, on the both sides of a synthetic resin layer made of polyethylene and having a thickness of 15 μm, the side of a base material made of paper having a basis weight of 50 (g / m ² ) and a thickness of 75 μm. Basis weight 114 (g / m ² ), in which a paper layer and an outer paper layer made of paper having a basis weight of 50 (g / m ² ) and a thickness of 75 μm are formed,
A three-layer sheet having a thickness of 142 μm is made of MDF, and the resulting 5.5
The flooring substrate was produced by sticking to the back surface of the base material having a thickness of mm using the same adhesive as above.

<Evaluation 1> For each of the above-mentioned flooring substrates, the generation of wrinkles due to lifting on the back surface side (three-layer sheet side) was observed, and when no wrinkles were observed, "excellent" was selected.
The case where some wrinkles were observed but there was no problem in the product was evaluated as "good", and the case where a large number of wrinkles were observed and the problem in the product was evaluated as "poor" was evaluated in 3 levels. The evaluation results are shown in the same table. For reference, the ratio of the basis weight of the outer paper layer to the base material paper layer is also shown in the same table.

As is clear from the above table, in Examples 1 to 3, a good flooring substrate having almost no wrinkles can be produced, and in Examples 1 and 3 having a large grammage ratio, excellent flooring having no wrinkles. The material substrate could be produced. On the other hand, in Comparative Example 1, only a defective flooring substrate having many wrinkles could be produced.

In Examples 1 to 3 and Comparative Example 1, plywood was used instead of MDF as the base material, and a flooring substrate was prepared and evaluated in the same manner as above, and the same results as above were obtained. Was given.

<Example 4>

[Table 2] As shown in Table 2 above, the thickness of polyethylene is 20μ.
tensile strength of 2.7 (kg / 15) on both sides of the synthetic resin layer of m.
(mm) paper base material side paper layer and tensile strength 5.0 (k
g / 15 mm) and an outer paper layer made of paper 3
The layered sheet was attached to the back surface of a 5.5 mm-thick base material made of MDF using a urea vinyl acetate-based adhesive to produce a flooring substrate.

Example 5 As shown in Table 2, tensile strength of 1.6 (kg / 15 mm) was applied to both sides of the polyethylene layer.
The base material side paper layer made of paper with a tensile strength of 2.7 (kg / 1
A three-layer sheet on which an outer paper layer made of paper (5 mm) was formed was adhered to the back surface of the MDF substrate using the same adhesive as the above to prepare a flooring substrate.

<Example 6> As shown in Table 2, tensile strength of 1.6 (kg / 15 mm) was applied to both sides of the polyethylene layer.
The base side paper layer made of paper with a tensile strength of 5.5 (kg / 1
A three-layer sheet on which an outer paper layer made of paper (5 mm) was formed was adhered to the back surface of the MDF substrate using the same adhesive as the above to prepare a flooring substrate.

<Comparative Example 2> As shown in Table 2 below, a base material side paper layer made of paper having a tensile strength of 5.0 (kg / 15 mm) is provided on both sides of a synthetic resin layer made of polyethylene and having a thickness of 20 μm. And a three-layer sheet on which an outer paper layer made of paper having a tensile strength of 5.0 (kg / 15 mm) is formed, on the back surface of a 5.5 mm thick base material made of MDF, the same adhesive as above. Was used to make a flooring substrate.

<Evaluation 2> The floor material substrates of Examples 4 to 6 and Comparative Example 2 were evaluated in the same manner as above. The result is also shown in 2. For reference, the ratio of the tensile strength of the outer paper layer to the base material side paper layer, the basis weight of each paper layer, and the ratio of the basis weight of the outer side paper layer to the base material side paper layer are also shown in the same table.

As is clear from the above table, in Examples 4 to 6, excellent flooring substrates having no wrinkles could be produced. On the other hand, in Comparative Example 2, only a defective flooring substrate having many wrinkles could be produced.

<Example 7>

[Table 3] As shown in Table 3 above, the thickness of polyethylene is 15μ
The tensile strength of 5.5 (kg / 15
(mm) paper base material side paper layer and tensile strength 8.5 (k
g / 15 mm) and an outer paper layer made of paper 3
The layered sheet was attached to the back surface of a 5.5 mm-thick base material made of plywood using a urea vinyl acetate-based adhesive to produce a flooring substrate.

Example 8 As shown in Table 3, tensile strength of 2.7 (kg / 15 mm) was applied to both sides of the polyethylene layer.
The base side paper layer made of paper with a tensile strength of 5.5 (kg / 1
A three-layer sheet on which an outer paper layer made of paper (5 mm) was formed was attached to the back surface of the plywood base material using the same adhesive as the above to prepare a flooring substrate.

<Comparative Example 3> As shown in Table 3 above, a base material side paper layer made of paper having a tensile strength of 2.7 (kg / 15 mm) is provided on both sides of a synthetic resin layer made of polyethylene and having a thickness of 15 μm. And a three-layer sheet formed with an outer paper layer made of paper having a tensile strength of 2.7 (kg / 15 mm) on the back surface of a 5.5 mm-thick base material made of plywood, the same adhesive as above. Was used to make a flooring substrate.

<Evaluation 3> The floor material substrates of Examples 7 and 8 and Comparative Example 3 were evaluated in the same manner as above. The results are shown in Table 3 below. For reference, the ratio of the tensile strength of the outer paper layer to the base material side paper layer, the basis weight of each paper layer, and the ratio of the basis weight of the outer side paper layer to the base material side paper layer are also shown in the same table.

As is clear from the above table, in Examples 7 and 8, a good flooring substrate having almost no wrinkles could be produced, and in Example 8 in which the ratio of tensile strength was large, there was no wrinkles at all. A flooring substrate could be produced. On the other hand, in Comparative Example 3, only a defective flooring substrate having many wrinkles could be produced.

[0061]

As described above, according to the building interior panel of the first invention of the present application, the outer paper layer is formed out of the two paper layers on both sides of the three-layer sheet attached to the back surface of the base material. The paper
The amount of bending deformation of the outer paper layer is smaller than that of the paper sheet on the base material side because the paper material forming the paper layer on the base material adhering side is made of paper having a relatively large basis weight. For this reason,
Even if the base material side paper layer is stretched due to the absorption of moisture of the adhesive and tries to partially float, the outer paper layer suppresses the floating and prevents the three-layer sheet from floating.
Therefore, it is possible to prevent bending and wrinkles of the three-layer sheet from being formed on the back surface of the panel, and it is possible to obtain the effects of preventing deterioration of waterproofness and moisture resistance and deterioration of commercial value.

According to the building interior panel of the second invention of the present application, the paper forming the outer paper layer of the two paper layers on both sides of the three-layer sheet attached to the back surface of the base material is the base material. The outer paper layer has a higher rigidity than that of the paper layer on the substrate side because it is made of a material having a relatively high tensile strength with respect to the paper forming the paper layer on the attachment side. Therefore, even if the base material side paper layer stretches due to the absorption of the adhesive moisture and tries to partially lift, the outer paper layer suppresses the lifting, and thus the lifting of the three-layer sheet is prevented. Similar effects are obtained.

In the first or second invention of the present application, when the constitution in which the decorative layer is provided on the surface of the base material is adopted, there is an advantage that it can be used as it is as a panel product such as a decorative flooring material.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a decorative flooring to which an architectural interior panel of an example of the present invention is applied.

2A and 2B are cross-sectional views showing a conventional flooring substrate, wherein FIG. 2A is a cross-sectional view showing a state before a pressing process, and FIG. 2B is a cross-sectional view showing a state after the pressing process. Is.

[Explanation of symbols]

 10 ... Base material 20 ... Three-layer sheet 21 ... Base material side paper layer 22 ... Outer paper layer 23 ... Synthetic resin layer 30 ... Decorative layer

Claims (4)

[Claims] 1. A paper layer formed on both sides of a synthetic resin layer.
In a building interior panel in which a layered sheet is attached to the back surface of a plate-shaped base material, in the two paper layers of the three-layered sheet, the paper forming the outer paper layer is the paper on the base material attachment side. An interior panel for construction, characterized in that it is made of a material having a relatively large basis weight with respect to the paper forming the layers. 2. The interior panel for architecture according to claim 1, wherein a decorative layer is provided on the surface of the base material. 3. A paper layer is formed on both sides of a synthetic resin layer.
In a building interior panel in which a layered sheet is attached to the back surface of a plate-shaped base material, in the two paper layers of the three-layered sheet, the paper forming the outer paper layer is the paper on the base material attachment side. An interior panel for construction, characterized in that it is made of a material having a relatively high tensile strength with respect to the paper forming the layers. 4. The interior panel for architecture according to claim 3, wherein a decorative layer is provided on the surface of the base material.