JP6775973B2 - Interior sheet and manufacturing method of interior sheet - Google Patents

Description

The present invention relates to an interior sheet to be installed on a wall surface such as a waist wall or a ceiling surface.

Conventionally, wallpaper made of resin sheet, paper, etc., and interior sheet such as waist wall sheet are known. Since such an interior sheet is thin and flexible, it can be rolled up and stored / transported. Further, since such an interior sheet follows the unevenness of the wall surface or the like without causing a step, it can be easily attached with an adhesive or the like and has excellent workability.
By the way, an interior sheet in which a woven fabric is provided on the surface has been proposed for the purpose of imparting design. Since the surface of such an interior sheet is a woven fabric, it has a high-class feeling, and various patterns can be expressed by setting the threads and the weaving structure of the woven fabric.
For example, Patent Document 1 discloses an interior sheet (woven fabric wallpaper) in which a non-woven fabric is adhered as a backing material to the back surface of a woven fabric composed of two or more intersecting threads in the weaving direction. In such an interior sheet, the back surface of the backing material is attached to a gypsum board via an adhesive.

Conventionally used interior sheets such as wallpaper and waist wall sheets are made of resin sheets and paper, so that the adhesive does not or hardly exudes to the surface during construction, but the woven fabric as in Patent Document 1 When the interior sheet provided on the surface is attached using an adhesive, the adhesive may seep out from the gaps between the threads constituting the woven fabric, and a separate step of wiping off the exuded adhesive is required. Become.
Further, in the interior sheet provided with the non-woven fabric on the back surface of the woven fabric, the woven fabric shrinks with time, but the non-woven fabric does not shrink easily, and the edge of the sheet may warp. In particular, in a woven fabric using a thermoplastic resin thread, such deformation in the thickness direction tends to be large.
As described above, the interior sheet on which the woven fabric is provided on the surface has various problems, and there is no interior sheet that can be stored and transported in the same manner as the conventional wallpaper or the waist wall sheet and can be constructed.

Japanese Unexamined Patent Publication No. 2012-77411

A first object of the present invention is to provide an interior sheet and a method for producing the same, which can prevent the adhesive from seeping out and maintain the texture of the woven fabric even after construction.
A second object of the present invention is to provide an interior sheet having excellent dimensional stability and a method for producing the same.

The interior sheet of the present invention has a woven fabric composed of warp and weft threads having a thermoplastic resin containing a vinyl chloride resin as a main component on the thread surface, and a support layer provided on the back surface of the woven fabric. The back surface has a convex portion protruding toward the support layer side and a concave portion relatively recessed with the convex portion due to the weaving of the warp and weft threads, and the support layer is made of a vinyl chloride resin. It is contained as a main component, and the gap between the warp and weft of the woven fabric is closed by the support layer, the back surface of the support layer forms the innermost back surface, and the back surface of the support layer is some of the convex portions. The lowermost end of the convex portion is visible as dots from the back surface of the support layer, and the support layer is present on the lowermost end side of the remaining convex portion, and the surface is flat as a whole. Has flexibility.

The preferred interior sheet of the present invention includes a gap where the gap closed by the support layer intersects the warp and weft .
In the preferred interior sheet of the present invention, the thickness of the threads constituting the woven fabric is 500d to 5000d.

According to another aspect of the present invention, there is provided a method for manufacturing an interior sheet.
The method for producing an interior sheet of the present invention is any of the above methods for producing an interior sheet, and the surface of the release sheet is coated with a resin material containing a thermoplastic resin so that the release sheet is not covered. It includes a step of forming a cured resin layer, a step of laminating a woven fabric made of a thread having a thermoplastic resin on the surface of the thread on the surface of the uncured resin layer, and a step of curing the uncured resin layer.

The interior sheet of the present invention can prevent the adhesive from seeping out, can maintain the texture of the woven fabric even after construction, and is excellent in dimensional stability.
Further, according to the manufacturing method of the present invention, the interior sheet can be easily manufactured.

Top view of the interior sheet of the present invention. FIG. 2 is a schematic cross-sectional view taken along the line II-II of FIG. An enlarged plan view of a part of the surface of the interior sheet. An enlarged plan view of a part of the back surface of the interior sheet. An enlarged cross-sectional view taken along the line VV of FIG. A reference perspective view showing a first example of a thread used for a woven fabric. The reference perspective view which shows the 2nd example of the thread used for a woven fabric. Sectional view of release sheet. The schematic diagram which shows typically the manufacturing process of an interior sheet. An enlarged cross-sectional view showing a state when a woven fabric is laminated on an uncured resin layer. Schematic cross-sectional view of an interior sheet with a release sheet.

Hereinafter, the present invention will be described with reference to the drawings as appropriate.
In the present specification, the "front surface" of a layer or member refers to the surface far from the construction surface on which the interior sheet is applied, and the "back surface" is the opposite side (the side closer to the construction surface on which the interior sheet is applied). Refers to the face of.
In the present specification, the numerical range represented by "~" means a numerical range including the numerical values before and after "~" as the lower limit value and the upper limit value.
Also, please note that the dimensions such as thickness and size in each figure are different from the actual ones.

[Interior sheet]
1 is a plan view of the interior sheet of one embodiment, FIG. 2 is a cross-sectional view of the interior sheet, and FIGS. 3 and 4 are partially enlarged plan views of the front surface and the back surface of the interior sheet. FIG. 5 is an enlarged cross-sectional view of the interior sheet. The cross-sectional view of FIG. 2 is a schematic view that does not show the details of the woven fabric and the support layer.
As shown in FIG. 1, the interior sheet 1 is formed, for example, in the shape of a long strip in a plan view. In the present specification, the long strip shape is a rectangular shape whose length in the length direction is sufficiently longer than the length in the width direction (the width direction is orthogonal to the length direction), for example. The length in the length direction is twice or more, preferably four times or more the length in the width direction.
The long strip-shaped interior sheet 1 is usually used by cutting it into a desired shape at a construction site.
As specific dimensions of the interior sheet 1, the length in the width direction is, for example, 500 mm to 4000 mm, and the length in the length direction is 10 m or more.
However, the interior sheet 1 may be formed in a single-wafer shape such as a substantially square shape in a plan view.

As shown in FIGS. 1 to 5, the interior sheet 1 of the present invention has a woven fabric 2 and a support layer 3 provided on the back surface of the woven fabric 2. The gap between the threads of the woven fabric 2 is closed by the support layer 3. In the present invention, the fact that the gap between the threads of the woven fabric is closed by the support layer means that the gap is substantially closed. The term "substantially closed" includes that the gap is closed by the support layer to the extent that the adhesive does not seep out from the gap between the threads of the woven fabric during the construction of the interior sheet.
The interior sheet 1 has flexibility. As for the degree of flexibility of the interior sheet 1, for example, it can be wound in a roll shape around a winding core having a diameter of 10 cm.
The total thickness of the interior sheet 1 is not particularly limited, and is, for example, 0.5 mm to 5 mm, preferably 1 mm to 2 mm.
Hereinafter, a specific description will be given.

<Woven fabric>
The woven fabric 2 is composed of a yarn 4 having a thermoplastic resin on the yarn surface. Woven fabric 2 has flexibility.
The woven fabric 2 is usually a sheet-like material obtained by weaving a yarn 4 including a warp yarn 41 extending in the vertical direction and a weft yarn 42 extending in the horizontal direction. As the warp yarn 41 and the weft yarn 42, the same yarn may be used, or different yarns may be used, provided that both are yarns 4 having a thermoplastic resin on the yarn surface. When the warp 41 and the weft 42 are different, they are all yarns having a thermoplastic resin on the yarn surface, (a) different in thickness, (b) different in color or pattern, and (c) one in monofilament. , The other is a multifilament, (d) different materials, (e) one is twisted and the other is untwisted, (f) at least two cases selected from (a) to (e) above. Etc. can be exemplified.
The weaving method of the woven fabric 2 is not particularly limited, and examples thereof include plain weave, twill weave, and satin weave.
The thickness of the woven fabric 2 is not particularly limited, and is, for example, 0.5 mm to 3 mm, preferably 0.8 mm to 2.5 mm. However, since the woven fabric 2 has irregularities on the front and back surfaces due to the weaving of the warp threads 41 and the weft threads 42, the thickness 2H of the woven fabric 2 is the maximum of the convex portions protruding toward the front surface side, as shown in FIG. It refers to the length from the upper end X to the lowermost end Y of the convex portion protruding toward the back surface side.

The yarn 4 constituting the woven fabric 2 has a thermoplastic resin on the surface of the yarn. That is, the surface portion of the thread 4 including its surface is made of at least a thermoplastic resin. Such a thread 4 has a core material and a coating layer covering the core material, and the coating layer is made of a thermoplastic resin, or the entire thread 4 is made of a thermoplastic resin. There are some.
The outer shape of the thread 4 in cross-sectional view is not particularly limited, and may have a circular shape, an elliptical shape, or a different shape such as a star shape.
Further, the outer shape of the core material in cross-sectional view is not particularly limited, and may have a different shape such as a star shape as well as a circular shape or an elliptical shape.

The thermoplastic resin on the surface of the thread (when the thread 4 is composed of a core material and a coating layer, the thermoplastic resin of the coating layer) is not particularly limited, and is not particularly limited as a vinyl chloride resin; an olefin resin; an ethylene-vinyl acetate. Examples thereof include vinyl acetate resins such as copolymers; acrylic resins such as ethylene-methacrylate resins; amide resins; polyester resins; various elastomers such as olefin elastomers and styrene elastomers. Since the yarn 4 has excellent mechanical strength and workability, can form a yarn that is difficult to unravel, and is relatively inexpensive, the yarn 4 has at least a surface portion made of a resin containing a vinyl chloride resin as a main component. Is preferable.
In the present specification, the main component means the most abundant component (mass ratio) among the resin components (however, excluding additives) constituting the layer. The amount of the main component resin exceeds 50% by mass, preferably 70% by mass or more, and more preferably 80% by mass or more, when the total amount of the resin components constituting the layer is 100% by mass. .. The upper limit of the amount of the main component resin is 100% by mass. When the amount of the main component resin is less than 100% by mass, a known resin component can be used as the resin other than the main component resin contained in the layer.

Vinyl chloride-based resins are synthesized by addition polymerization of vinyl chloride monomers. Examples of the vinyl chloride-based resin include resins produced by an emulsion polymerization method, a suspension polymerization method, a solution polymerization method, a bulk polymerization method, or the like. A vinyl chloride resin obtained by an emulsion polymerization method or a suspension polymerization method is preferable because it is easy to process and handle. These vinyl chloride resins may be used alone or in combination of two or more.
When the thread 4 or the coating layer of the woven fabric 2 contains a vinyl chloride resin as a main component, a paste vinyl chloride resin and / or a suspension vinyl chloride resin can be used as the vinyl chloride resin. In particular, the thread 4 of the woven fabric 2 preferably contains a suspension vinyl chloride resin as a main component as the thermoplastic resin.

The suspension vinyl chloride resin is, for example, a polyvinyl chloride resin obtained by a suspension polymerization method. The suspension vinyl chloride resin is a fine powder having a particle size of preferably 20 μm to 100 μm. However, the particle size is the median diameter (D50) in the volume-based particle size distribution. The average degree of polymerization of the suspension vinyl chloride resin is preferably about 700 to 1500, more preferably about 700 to 1100, and even more preferably about 700 to 1000. However, the particle size is the median diameter (D50) in the volume-based particle size distribution.
The suspension vinyl chloride resin preferably has a K value of about 50 to 90, and more preferably 55 to 75.
Further, the thread 4 or the coating layer of the woven fabric 2 may contain a known additive in addition to a thermoplastic resin such as a vinyl chloride resin. Conventionally known additives can be used, and examples thereof include plasticizers, fillers, flame retardants, stabilizers, hygroscopic agents, antioxidants, lubricants, colorants, fungicides, and ultraviolet absorbers. ..
The thread 4 or the coating layer of the woven fabric 2 is a cured product of a resin containing a thermoplastic resin and additives added as needed.

When the yarn 4 has a core material and a coating layer, the coating layer covers the core material and constitutes the yarn surface.
The coating layer may be coated with a substantially uniform thickness around the core material, or may be coated with a non-uniform thickness.
The wall thickness of the coating layer is not particularly limited, and is, for example, about 0.2 times the diameter of the core material to 1.3 times the diameter of the core material, based on the case where the core material has a circular shape in cross section. is there. However, since the outer shape of the core material is not limited to the circular shape in cross section, the diameter of the core material when the core material has a deformed shape other than the circular shape in cross section has the same area as the area of the deformed shape. Assuming a circle, it corresponds to the diameter of the assumed circle. If the coating layer has a non-uniform thickness, the wall thickness of the coating layer corresponds to the maximum thickness thereof.
The core material may be composed of a monofilament (single fiber), or may be composed of a plurality of single fibers arranged together or a plurality of single fibers twisted together. The cross-sectional outer shape of the core material is not particularly limited, and may have a different shape such as a star shape as well as a circular shape or an elliptical shape.
As the core material, synthetic fibers made of polyester resins such as polyethylene terephthalate, olefin resins such as polypropylene, and thermoplastic resins such as amide resins such as polyamide; natural fibers such as cellulose and wool; semi-synthetic fibers such as rayon. Etc. can be used. Preferably, a synthetic fiber such as a polyester resin is used as the core material.

Further, the thread 4 constituting the woven fabric 2 may be a monofilament (single fiber) or a multifilament (a plurality of single fibers are twisted into one thread 4). When the yarn 4 made of a multifilament is used, all of the plurality of single fibers constituting the multifilament have a thermoplastic resin on the yarn surface.
The thread 4 constituting the woven fabric 2 is preferably a monofilament from the viewpoint that the interior sheet 1 having excellent dimensional stability can be formed.
The thread 4 may be twisted around its axis, or may be untwisted and linear. When the yarn 4 is twisted, it may be twisted to the right or left. The number of twists is not particularly limited, but is, for example, 50 T / m to 500 T / m.
The thickness of the thread 4 constituting the woven fabric 2 is not particularly limited, but if it is too thin, the thread 4 may be worn out when a foreign substance hits the surface of the woven fabric 2, and if it is too thick, the thread 4 itself is too conspicuous. .. From this point of view, the thickness of the yarn 4 constituting the woven fabric 2 is preferably 500d (denier) to 5000d, and more preferably 1500d to 3000d.

FIG. 6 shows a first example of threads constituting the woven fabric 2. The thread 4a is composed of a core material 51 made of a single fiber of a polyester resin and a coating layer 52 made of a vinyl chloride resin. The core material 51 and the thread 4a are monofilaments, respectively. Further, the thread 4a has a circular shape in cross section and is twisted around an axis.
FIG. 7 shows a second example of the yarn constituting the woven fabric 2. The thread 4b is different from the first example in that the coating layer 52 is color-coded into two colors. That is, in the coating layer 52 of the second example, the circumferential half 521 is colored in the first color and the other half 522 is colored in the second color different from the first color in the cross-sectional view.
The thread 4 composed of the core material 51 and the coating layer 52 can be obtained by a conventionally known method such as feeding out the fibers to be the core material 51 and coating the periphery thereof with a thermoplastic resin to be the coating layer 52.
The woven fabric 2 is obtained by weaving threads 4 colored in an arbitrary color in a desired weaving method. Various patterns are expressed on the woven fabric 2.

Since the woven fabric 2 is made by weaving threads 4, it has innumerable gaps between the threads. For example, the woven fabric 2 has a gap between the intersecting warp 41 and the weft 42, between the adjacent weft 42 and the weft 42, and / and between the adjacent warp 41 and the warp 41. In particular, the woven fabric 2 has a relatively large gap between the intersecting warp threads 41 and the weft threads 42.
Such a gap is visible when the woven fabric 2 is held in light and observed, and is at least a gap through which a liquid substance such as air or an adhesive can pass.
As will be described later, in the interior sheet 1 of the present invention, since the gap between the woven fabrics 2 is closed by the support layer 3, the construction adhesive does not seep out to the surface of the woven fabric 2.

Further, in the present invention, by optimizing the coating amount of the resin forming the support layer in the coating process at the time of manufacturing described later, even if the gap between the threads of the woven fabric 2 is large, the material for forming the support layer can be used. It is possible to prevent a certain resin material from being exposed from the gap.
The gap between the threads of the woven fabric 2 can be adjusted mainly by appropriately setting the density and thickness of the threads 4.
For example, a woven fabric 2 in which warp threads 41 are driven at a density of 35 threads / inch to 55 threads / inch and weft threads 42 are driven at a density of 5 threads / inch to 20 threads / inch using threads 4 having a thickness of 500 d to 5000 d can be mentioned. .. However, the densities of the warp 41 and the weft 42 of the woven fabric 2 of the present invention are not particularly limited to this. The book / inch refers to the number of warp threads 41 or weft threads 42 driven per inch (2.54 cm) in the vertical direction or the horizontal direction.

<Support layer>
The support layer 3 is provided on the back surface of the woven fabric 2 to support the woven fabric 2 and close the gap between the threads of the woven fabric 2.
The support layer 3 contains a thermoplastic resin.
The thermoplastic resin of the support layer 3 is not particularly limited, and is a vinyl chloride resin; an olefin resin; a vinyl acetate resin such as an ethylene-vinyl acetate copolymer; an acrylic resin such as an ethylene-methacrylate resin; an amide resin. Resins; polyester-based resins; various elastomers such as olefin-based elastomers and styrene-based elastomers can be mentioned. From the viewpoint of having excellent flexibility, the support layer 3 is preferably composed of a resin containing a vinyl chloride resin as a main component. In particular, when the woven fabric 2 is composed of a yarn 4 having a resin containing a vinyl chloride resin as a main component on the yarn surface, the support layer 3 is composed of a resin containing a vinyl chloride resin as a main component. Is preferable. By using vinyl chloride resin as the main component resin for both the support layer 3 and the woven fabric 2, it is possible to form an interior sheet 1 having more flexibility, and the shrinkage behavior of the support layer 3 and the woven fabric 2 due to heat is similar. As a result, the interior sheet 1 that is not easily deformed in the thickness direction with time can be formed.

Vinyl chloride-based resins are synthesized by addition polymerization of vinyl chloride monomers. Examples of the vinyl chloride-based resin include resins produced by an emulsion polymerization method, a suspension polymerization method, a solution polymerization method, a bulk polymerization method, or the like. A vinyl chloride resin obtained by an emulsion polymerization method or a suspension polymerization method is preferable because it is easy to process and handle. These vinyl chloride resins may be used alone or in combination of two or more.
When the support layer 3 contains a vinyl chloride resin as a main component, a paste vinyl chloride resin and / or a suspension vinyl chloride resin can be used as the vinyl chloride resin. In particular, since it is excellent in flexibility, it is preferable that the support layer 3 contains a paste vinyl chloride resin as a main component as a thermoplastic resin.

The paste vinyl chloride resin is, for example, a paste-like polyvinyl chloride resin obtained by an emulsion polymerization method, and its viscosity can be appropriately adjusted with a plasticizer. The paste vinyl chloride resin is a fine powder having a particle diameter of 0.1 to 10 μm, preferably 1 to 3 μm, which is composed of a large number of fine particle aggregates, and preferably the surface of the fine powder is coated with a surfactant. There is. However, the particle size is the median diameter (D50) in the volume-based particle size distribution.
The paste vinyl chloride resin preferably has a K value of about 60 to 95, and more preferably 65 to 80.
The support layer 3 may contain a known additive in addition to a thermoplastic resin such as a vinyl chloride resin. Examples of the additive include the above.
The support layer 3 is a cured product of a resin containing a thermoplastic resin and additives added as needed.

The support layer 3 is laminated on the entire back surface of the woven fabric 2. The back surface of the support layer 3 is a smooth flat surface.
The back surface of the woven fabric 2 is uneven due to the weaving of the warp 41 and the weft 42. That is, the back surface of the woven fabric 2 has a convex portion 61 protruding toward the support layer 3 side and a concave portion 62 that is relatively recessed from the convex portion 61, and the convex portion 61 and the concave portion 62 are warp threads 41. And it is caused by the weft 42.
The support layer 3 penetrates deeply in the concave portion 62 on the back surface of the woven fabric 2 and becomes shallow in the convex portion 61, and forms a layer over the entire back surface of the woven fabric 2. Therefore, the surface of the support layer 3 has irregular irregularities with undulations in the surface direction, and the thickness of the support layer 3 is not uniform. For example, the thickness of the support layer 3 is large in the concave portion 62 on the back surface of the woven fabric 2, and the thickness of the support layer 3 is small in the convex portion 61 of the woven fabric 2. The thickness of the support layer 3 is not particularly limited, but if it is too large, the flexibility will decrease. From this point of view, the maximum thickness 3Hmax of the support layer 3 (thickness of the support layer 3 in the portion corresponding to the recess 62 of the woven fabric 2) is, for example, 1 mm to 1.5 mm, and the minimum thickness of the support layer 3 is 3 Hmin (woven fabric 2). The thickness of the support layer 3 in the portion corresponding to the convex portion 61 of the above is more than zero and 0.2 mm or less.
As shown in FIG. 5, there is a portion where the lowermost end Y of the convex portion 61 of the woven fabric 2 substantially coincides with the back surface of the support layer 3. Since the thickness of the support layer 3 in such a portion is almost zero, the minimum thickness 3Hmin of the support layer 3 is set to "exceed zero". As shown in FIG. 4, such a portion is visible or thin as a part of the thread 4 which is the lowermost end Y of the convex portion 61 of the woven fabric 2 when viewed from the back surface of the interior sheet 1. It may be visible through.

The support layer 3 is firmly adhered to the threads 4 on the back surface of the woven fabric 2, and therefore, the gaps between the threads of the woven fabric 2 are closed by the resin constituting the support layer 3.
The air permeability of the interior sheet 1 in which the support layer 3 is laminated on the woven fabric 2 is zero.
Further, the resin constituting the support layer 3 is not exposed on the surface of the woven fabric 2. In other words, in the interior sheet 1, the surface of the woven fabric 2 does not have the thermoplastic resin constituting the support layer 3.
Whether or not the thermoplastic resin constituting the support layer 3 is exposed is determined by arbitrarily extracting a range of 10 cm × 10 cm from the surface of the woven fabric 2 of the interior sheet 1 and visually observing the surface of the woven fabric 2 in that range. It can be judged by observing.

[Manufacturing method of interior sheet]
Next, a method for manufacturing the interior sheet 1 of the present invention will be described.
However, the interior sheet 1 of the present invention is not limited to the one manufactured by the following manufacturing method, and may be manufactured by another manufacturing method.

The method for producing an interior sheet of the present invention is a step of preparing a woven fabric 2 composed of a release sheet, a resin material containing a thermoplastic resin (a material for forming a support layer 3), and a thread 4 having a thermoplastic resin on the thread surface. , A step of forming an uncured resin layer on the release sheet by applying the resin material to the surface of the release sheet, a step of laminating the woven fabric 2 on the surface of the uncured resin layer, the above. It has a step of curing the uncured resin layer, and may have another step if necessary.

Each of these steps may be carried out in series on one production line, or one or more steps selected from the above steps may be carried out on one line, and the remaining steps may be carried out on the other one or more. You may go on two or more lines. In addition, one performer may perform all of the steps, or one performer may perform one or more steps selected from the steps, and the remaining steps may be performed by another. May be done by a person.
Hereinafter, a specific description will be given with reference to the drawings as appropriate.

<Preparation process>
Prepare a long strip-shaped release sheet.
The release sheet is composed of a sheet having a surface having a small wettability.
For example, as shown in FIG. 8, the release sheet 7 has a base material 71 and a release layer 72 laminated on the entire surface of the base material 71. The release layer 72 is formed in a solid shape on the entire surface of the base material 71. In the present specification, when a certain layer is solid, it means that the materials constituting the layer extend in the plane direction to form one continuous layer. The surface (release surface) of the release layer 72 is the surface of the release sheet 7. The surface of the release sheet 7 is smooth.
The release layer 72 can be typically formed by a method such as applying a release agent containing a silicone resin or the like to the surface of the base material 71.

The base material 71 is not particularly limited, and is, for example, a synthetic resin sheet such as polyester or polystyrene; a laminated resin sheet in which a plurality of different or similar resin layers are laminated; synthetic paper; paper such as plain paper or high-quality paper; Examples thereof include a laminated sheet in which two or more types of sheets selected from the above are laminated. Preferably, the base material 71 is hard to stretch with respect to tension. Examples of such a hard-to-stretch base material 71 include paper or a laminated sheet of paper and an arbitrary sheet. The basis weight of the paper, for ^example, a ^{100g / m 2 ~300g / m 2} , ^{preferably, 130g / m 2 ~200g / m} 2.
The tensile strength of the base material 71 made of paper or the like is not particularly limited, but for example, the tensile strength in the vertical direction is 5 kN / m or more, preferably 9 kN / m or more, and the tensile strength in the horizontal direction is It is 3 kN / m or more, preferably 5 kN / m or more.
The vertical direction is the length direction of the release sheet, and the horizontal direction is the direction orthogonal to the length direction. Further, the tensile strength can be measured according to JIS P 8113.
The thickness of the base material 71 made of the paper or the like is not particularly limited, and is, for example, 0.05 mm to 1 mm, preferably 0.1 mm to 0.3 mm. The thickness of the release layer 72 is not particularly limited, and is, for example, about 0.1 μm to 3 μm.
When the base material 71 having low wettability is used, the release layer 72 may be omitted.

As for the woven fabric 2A, a long strip-shaped woven fabric is prepared in the same manner as the release sheet 7. The width of the woven fabric 2A may be the same as the width of the release sheet 7, or may be slightly smaller or larger than that.
Since the specific configuration of the woven fabric 2A has been described above, it will be omitted here. Preferably, the woven fabric 2A is subjected to a heat setting treatment. The heat setting process is a process of applying heat of a predetermined temperature to the woven fabric 2A to stabilize the shape and dimensions of the woven fabric 2A. The heat setting process may be dry heat or wet heat. The predetermined temperature is preferably 120 ° C to 160 ° C.
The long strip-shaped release sheet 7 and the woven fabric 2A are stored and transported in a rolled state, respectively.

A resin material containing a thermoplastic resin is prepared as a material for forming the support layer 3. Such a resin material has a fluidity that can be applied.
When forming the support layer 3 containing a vinyl chloride resin as a main component, a resin containing a vinyl chloride resin as a main component and a resin material containing various additives as necessary are prepared.
The resin material is adjusted to a viscosity suitable for coating. For example, the viscosity of a resin material containing a paste vinyl chloride resin as a main component can be adjusted by blending an appropriate amount of a plasticizer.
The viscosity of the resin material is, for example, 1000 mPa · s to 6000 mPa · s, preferably 2000 mPa · s to 4000 mPa · s. A resin material having such a viscosity can be satisfactorily applied to the surface of the release sheet 7, and prevents the resin material from appearing on the surface of the woven fabric 2A when the woven fabric 2A is laminated on the uncured resin layer. it can.
The viscosity is the viscosity at 20 ° C., and a BM type viscometer (trade name "B type BM type viscometer" manufactured by Tokyo Keiki Co., Ltd.) is used to obtain a rotor number. It is a value measured at 4 or 6 rpm.

<Coating process>
As shown in FIG. 9, the long strip-shaped release sheet 7 is conveyed from the roll 91 to one side in the length direction. The transport direction of each sheet is indicated by an arrow.
While the release sheet 7 is wound from the roll 91 to the roll 98, the support layer and the woven fabric are laminated. The release sheet 7 is conveyed while being tensioned.
During the transfer, the resin material 92 is coated on the surface (release surface) of the release sheet 7 in a solid shape. The coating method is not particularly limited. For example, the resin material 92 is coated using a conventionally known coater such as a knife coater 93.
By applying the resin material, an uncured resin layer 31 is formed on the surface of the release sheet 7 as shown in FIG. 10A. The thickness of the resin layer 31 is substantially uniform.
The coating amount of the resin material 92 forming the uncured resin layer 31 is appropriately set, but if it is too large, the resin material 92 may be exposed on the surface of the woven fabric 2A, and if it is too small, the yarn of the woven fabric The gap between them may not be sufficiently closed. From this viewpoint, the coating amount of the resin material 92 for forming the resin layer 31 of uncured, for ^example, a ^{150g / m 2 ~500g / m 2} , preferably from ^{200g / m 2 ~450g / m 2} .
The thickness of the uncured resin layer 31 is appropriately set, but from the viewpoint of preventing the appearance of the resin material 92 and closing the gap, the thickness of the uncured resin layer 31 is the thickness of the woven fabric × 1/10. ~ Thickness of woven fabric × 1/4 is preferable, and woven fabric thickness × 1/8 to woven fabric thickness × 1/5 is more preferable. Specifically, the thickness of the uncured resin layer 31 is, for example, 0.15 mm to 0.3 mm.

<Laminating process>
By pulling out the long strip-shaped woven fabric 2A from the roll 94, laminating the back surface of the woven fabric 2A on the surface of the uncured resin layer 31, and passing it between the pressing rollers 95 and 95, the woven fabric 2A / not yet formed in order from the top. A laminated body 10 composed of a cured resin layer 31 / release sheet 7 is formed.
By passing the laminate 10 between the pressing rollers 95 and 95, the woven fabric 2A is pressed against the release sheet 7, and as shown in FIG. 10B, the back surface of the woven fabric 2A is inside the uncured resin layer 31. The resin material 92, which is buried in the fabric and has fluidity, escapes at the convex portion of the woven fabric 2A and flows into the concave portion, and enters the gap of the woven fabric 2A.
As described above, the release sheet 7 is conveyed while tension is applied, but in the laminating step, the release sheet 7 is followed by the transfer so that tension is not substantially applied to the woven fabric 2A. The woven fabric 2A is transported. That is, at the beginning of the laminating process, the downstream end portion (one end portion in the length direction) of the woven fabric 2A is fixed to the surface of the release sheet 7, and the release sheet 7 is pulled in that state, and the release sheet 7 is pulled from the upstream side to the downstream side. Transport to the side (one side in the length direction). Then, the woven fabric 2A is pulled out from the roll 94 in accordance with the movement of the release sheet 7. Since the woven fabric 2A is not directly pulled, tension is not substantially applied to the woven fabric 2A, and the woven fabric 2A can be prevented from being stretched or distorted in the plane direction.

<Curing process>
The uncured resin layer 31 of the laminate 10 is cured. The curing method is appropriately selected according to the resin material of the resin layer 31. For resin materials containing vinyl chloride resin as the main component, the material is cured by heating. The heating may be performed at one time, or may be divided into a plurality of parts and performed in order.
For example, in the case of heating in two steps, the laminate 10 is subjected to a preheating step and then a main heating step. The heating temperature in the preheating step is appropriately set according to the type of the resin material, and for example, the temperature on the surface of the woven fabric 2A is 120 ° C to 160 ° C. The heating temperature in the main heating step is appropriately set according to the type of resin material. For example, based on the case where an oven is used as the main heating means, the air temperature in the oven is 120 ° C to 200 ° C. is there.
The preheating and main heating steps are performed from the front surface side and / or the back surface side of the laminate 10. In the illustrated example, the preheating means 96 is arranged on the front surface side of the laminated body 10, and then the main heating means 97 is arranged on the front and back surfaces of the laminated body 10. As the preheating means 96, for example, a heater can be used, and as the main heating means 97, an oven can be used.
By heating the vinyl chloride resin stepwise in a plurality of times in this way, the gelation of the vinyl chloride resin is promoted, so that the support layer 3 having excellent strength can be formed, and since the heating is not rapid, the laminate can be formed. It is possible to prevent distortion in the thickness direction, and further prevent deterioration of the glossiness of the woven fabric surface.

<Rolling process>
As described above, as shown in FIG. 11, an interior sheet 11 with a release sheet composed of a woven fabric 2A / a support layer 3 / a release sheet 7 is obtained in this order from the top. As shown in FIG. 9, the release sheet 7 of the interior sheet 11 with the release sheet is peeled off from the interior sheet 1, and only the release sheet 7 is collected on the roll 98 as shown in FIGS. 1 to 5. An interior sheet 1 having a structure is obtained. The interior sheet 1 is wound around a roll 99 and stored / transported as needed.
In the interior sheet 11 with a release sheet, since the back surface of the support layer 3 of the interior sheet 1 is detachably attached to the surface of the release sheet 7, the interior sheet 1 can be easily peeled off from the release sheet 7. Can be done.
The interior sheet 11 with a release sheet may be rolled up, stored and transported, and the release sheet 7 may be peeled off to obtain the interior sheet 1 at the time of construction.

[Use of interior sheet]
The interior sheet 1 of the present invention is applied to a construction surface using an adhesive. Examples of the construction surface on which the interior material is applied include, but are not limited to, a floor surface, a wall surface, and a ceiling surface. In particular, since the interior sheet 1 of the present invention is relatively thin and has excellent flexibility, it can be easily applied to a wall surface or a ceiling surface because it easily follows a non-landing surface and a step is unlikely to appear on the surface. Further, the interior sheet 1 can be suitably used as a waist wall sheet because the woven fabric 2 on the surface is excellent in strength. The interior sheet 1 of the present invention may be installed outdoors as well as indoor or semi-indoor.
At the time of construction, an adhesive may be applied to the back surface of the interior sheet 1 (the back surface of the support layer 3) and attached to the construction surface, or an adhesive may be applied to the construction surface and the back surface of the interior sheet 1 is applied. Or, an adhesive may be applied to the back surface of the interior sheet 1 (the back surface of the support layer 3) and the construction surface, respectively, and the interior sheet 1 may be attached to the construction surface. The adhesive used for construction is not particularly limited, and examples thereof include conventionally known solvent-type adhesives and solvent-free adhesives.

Further, since the interior sheet 1 of the present invention has a woven fabric 2 made of a yarn having a thermoplastic resin on the yarn surface, it has high strength and is not easily torn even if a stretcher, a trolley, a wheelchair, etc. collide with each other after construction. , It is difficult to make holes. Further, even if the yarn 4 constituting the woven fabric 2 is partially damaged or the construction surface is slightly depressed after the construction, the woven fabric 2 having the surface structure in which the yarn is woven gives the overall appearance. It also has the advantage of being almost unchanged.
Further, since the interior sheet 1 has the woven fabric 2 on the surface side, when a plurality of interior sheets 1 are joined and pasted together, the joint portion is inconspicuous, and the construction appearance is as if it were a seamless sheet. Is obtained.
Further, since the interior sheet 1 is thin and flexible, it can be rolled into a roll shape, which is excellent in convenience of storage and transportation.

The interior sheet 1 of the present invention has the texture of a woven fabric because its outermost surface is composed of the surface of the woven fabric 2.
In the interior sheet 1 of the present invention, since the gap between the woven fabric 2 is closed by the support layer 3, the adhesive for construction does not exude to the surface of the woven fabric 2, and the texture peculiar to the woven fabric is maintained even after the construction. it can.
Further, in the interior sheet 1 of the present invention, since the support layer 3 containing the thermoplastic resin is provided on the back surface of the woven fabric 2 made of the yarn 4 having the thermoplastic resin on the yarn surface, the woven fabric 2 and the support layer 3 The shrinkage behavior due to heat shows a similar tendency, and it becomes difficult to deform in the thickness direction over time. In particular, when a vinyl chloride resin is used as the thermoplastic resin of the woven fabric 2 and the support layer 3, the shrinkage behavior of the woven fabric 2 and the support layer 3 due to heat is similar, and the end portion of the interior sheet 1 It is possible to effectively prevent deformation in the thickness direction such as warping.
Further, according to the manufacturing method of the present invention, the woven fabric 2A is laminated on the release sheet 7 without being deformed, and then the uncured resin layer 31 is cured, so that the interior has excellent dimensional stability in the plane direction. Sheet 1 is obtained.

Hereinafter, the present invention will be described in more detail with reference to Examples. However, the present invention is not limited to the following examples.

[Material used]
Paste vinyl chloride resin: K value is 70. The viscosity is 3000 mPa · s. As described above, the viscosity was measured with a BM type viscometer (trade name "B type BM type viscometer" manufactured by Tokyo Keiki Co., Ltd., rotor No. 4, 6 rpm) at 20 ° C.
Release sheet: A paper having a basis weight of 170 g / m ² and a tensile strength of 15 kN / m, on which a release layer made of silicone resin is laminated. A long shape with a length of 200 m or more in the vertical direction and a length of 200 cm in the horizontal direction.
PVC-coated yarn woven fabric: A plain-woven woven fabric in which a monofilament yarn (2500 denier) whose core material is a polyester resin and whose coating layer is a vinyl chloride resin is used and is driven with 45 warp yarns / inch and 15 weft yarns / inch. .. Like the release sheet, it has a long shape with a horizontal length of 200 cm.

[Example 1]
Pull out the release sheet from the roll, fix the end on one side of the PVC coated yarn woven fabric on the surface of the end on one side in the length direction, and pull the release sheet in the length direction (longitudinal direction). And, along with it, the PVC-coated yarn fabric was prepared to be pulled out from the roll.
This release sheet is conveyed in the length direction (longitudinal direction) on the production line as shown in FIG. 9, and a paste vinyl chloride resin is applied solidly on the release surface at 350 g / m ² to obtain a thickness. An uncured resin layer of about 0.25 mm was formed. On this resin layer, a PVC-coated yarn fabric that was conveyed following the transfer of the release sheet was laminated, and the surface of the PVC-coated yarn fabric was pressed toward the resin layer using a pressing roller. Then, using a heater, the vinyl chloride-coated yarn woven fabric is preheated to a surface temperature of about 150 ° C., and then passed through an oven at 150 ° C. to cure the uncured resin layer. An interior sheet with a release sheet composed of a woven fabric / support layer / release sheet as shown in the above was produced. The transport speed of the release sheet was set to 10 m / min. The interior sheet of Example 1 was obtained by peeling off the release sheet of the interior sheet with the release sheet.

[Example 2]
An interior sheet was obtained in the same manner as in Example 1 except that the coating amount of the paste vinyl chloride resin was changed to 200 g / m ² .

[Example 3]
An interior sheet was obtained in the same manner as in Example 1 except that the coating amount of the paste vinyl chloride resin was changed to 250 g / m ² .

[Example 4]
An interior sheet was obtained in the same manner as in Example 1 except that the coating amount of the paste vinyl chloride resin was changed to 300 g / m ² .

[Example 5]
An interior sheet was obtained in the same manner as in Example 1 except that the coating amount of the paste vinyl chloride resin was changed to 400 g / m ² .

[Example 6]
An interior sheet was obtained in the same manner as in Example 1 except that the coating amount of the paste vinyl chloride resin was changed to 450 g / m ² .

[Checking the surface of the interior sheet]
With respect to the surfaces of the interior sheets of Examples 1 to 6, it was visually observed whether or not the vinyl chloride resin forming the support layer had exuded.
As a result, in the interior sheets of Examples 1 to 5, the vinyl chloride resin forming the support layer from the surface of the woven fabric could not be confirmed. On the other hand, with respect to the interior sheet of Example 6, a slight amount of vinyl chloride-based resin forming a support layer could be confirmed from the surface of the woven fabric when closely watched, but the appearance was not noticeable and there was no problem at all.

[Construction test]
Acrylic resin emulsion adhesive (manufactured by Toli Corporation, product name: Eco AR600) was applied to the wall surface at 300 g / m ² , and the back surface of the interior sheet of Example 1 (the back surface of the support layer) was attached to this wall surface. After that, the surface of the interior sheet was visually observed.
As a result, the adhesive did not exude from the surface of the interior sheet of Example 1.

The construction was carried out in the same manner as described above except that the product name "Wall Textile Mini Basket Weave, Color: Pistachio" manufactured by Chilewich was used instead of the interior sheet of Example 1, and the surface thereof was visually observed (). Comparative test). As a result, the adhesive exuded from the surface.
In addition, this "wall textile mini basket weave" is a vinyl chloride coated yarn fabric (however, this vinyl chloride coated fabric is made of a monofilament whose core material is coated with a vinyl chloride resin, 24 warp yarns / inch, 24 weft yarns. A non-woven fabric is laminated on the back surface of a woven fabric that is driven in by a book / inch.

1 Interior sheet 2, 2A woven fabric 3 Support layer 31 Uncured resin layer 4 Thread

Claims (4)

It has a woven fabric composed of warp and weft yarns having a thermoplastic resin containing a vinyl chloride resin as a main component on the yarn surface, and a support layer provided on the back surface of the woven fabric.
The back surface of the woven fabric has a convex portion protruding toward the support layer side and a concave portion relatively recessed with the convex portion due to the weaving of the warp and weft threads.
The support layer contains a vinyl chloride resin as a main component and contains
The support layer closes the gap between the warp and weft of the woven fabric.
The back surface of the support layer forms the back surface,
The back surface of the support layer can be visually recognized as the lowermost ends of some of the convex portions are pointed from the back surface of the support layer, and the support layer is present on the lowermost end side of the remaining convex portions. In the state, it is said to be a flat surface,
Interior seats that are flexible as a whole. The interior sheet according to claim 1 , wherein the gap closed by the support layer includes a gap at a portion where the warp and weft intersect . The interior sheet according to claim 1 or 2, wherein the thickness of the threads constituting the woven fabric is 500d to 5000d. The method for manufacturing an interior sheet according to any one of claims 1 to 3.
A process of forming an uncured resin layer on a release sheet by applying a resin material containing a thermoplastic resin to the surface of the release sheet.
A step of laminating a woven fabric made of yarn having a thermoplastic resin on the yarn surface on the surface of the uncured resin layer.
A method for producing an interior sheet, which comprises a step of curing the uncured resin layer.

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