JP2016141922A - Wall paper-backing nonwoven fabric - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wall paper-backing nonwoven fabric excellent in dimension stability, having a peel characteristic, and also having printability or coating suitability.SOLUTION: There is provided a wall paper-backing nonwoven fabric having a two-layer structure. In the wall paper-backing nonwoven fabric, the first layer includes pulp fibers and a fibrous binder, and the second layer includes pulp fibers, a cotton linter and a fibrous binder.SELECTED DRAWING: None

Description

  The present invention relates to a nonwoven fabric for wallpaper backing having a two-layer structure.

  Conventionally, it has a low price and has various processing aptitudes such as printing, foaming, embossing, etc., so vinyl wallpaper etc. with abundant design and color patterns are used as interior decoration materials for interior decoration. Widely used.

  When installing the wallpaper on the wall, apply water-soluble glue such as starch, vinyl acetate emulsion or methylcellulose on the back of the wallpaper with a roll coater, fold the glued wallpaper with the glue side inside, and leave it for a while until it is put on the wall. After that, affixing work to the wall surface is performed. In the state left from the pasting to the construction, the wallpaper backing paper made of only pulp fibers is curled or stretched by the water-soluble glue. In addition, when the paste is completely dried several days after being attached to a wall surface such as gypsum board or concrete, a phenomenon of contracting conversely occurs. Therefore, the backing paper for wallpaper is required to have a small dimensional change between a dry state and a wet state. As countermeasures, wallpaper (for example, see Patent Document 1) coated with polyalkylene glycol, wallpaper (for example, see Patent Document 2) impregnated with a mixed solution composed of a guanidine sulfamate derivative, a surface sizing agent, and a binder is disclosed. Yes. In addition, as an interior material having a small dimensional change, an interior material such as wallpaper having an underwater elongation of less than 1% for the purpose of mold prevention is proposed by adding a synthetic fiber or an inorganic material to a paper base material ( For example, see Patent Document 3).

  In recent years, the living space has been upgraded and diversified, and accordingly, there has been an increasing demand for wallpaper replacement by remodeling existing houses compared to newly built houses. The problem when renovating is the workability when removing the wallpaper from the wall. Accordingly, there is a need for a wallpaper that has a low peel strength when peeling the wallpaper from the wall surface and that is excellent in so-called peel characteristics. As wallpaper having excellent peel characteristics, wallpaper using methylcellulose as the glue is disclosed (for example, see Patent Document 4). Furthermore, the wallpaper is coated with a foamed polyvinyl chloride resin to enhance the design and design and to increase the volume, and a surface layer is provided. Therefore, printing aptitude and coating aptitude are required on the side on which the wallpaper backing paper is printed or the polyvinyl chloride resin coating is applied.

  However, wallpaper backing paper consisting only of pulp fibers, wallpaper backing paper in which a synthetic fiber or inorganic material is simply added to the paper base, peels between the layers of the wallpaper because the interlayer strength is weak, and the wall paper There was a problem that not only a part remained at random, but the workability was lowered, and the finished product after the replacement was uneven. In addition, there is a problem in that printing suitability and coating suitability are insufficient due to fuzz.

  In order to solve these problems, in the laminated nonwoven fabric for wallpaper backing having a two-layer structure, the first layer includes pulp fibers and a fibrous binder, and the second layer includes organic fibers, pulp fibers, and a fibrous binder. A laminated nonwoven fabric for wallpaper backing, which is characterized in that it is included (see, for example, Patent Document 5).

  In addition, in order to improve printability, a decorative sheet made of cotton linter pulp and synthetic fiber, a wall covering in which a mixed paper made of cotton fiber (cotton linter or cotton pulp) and synthetic fiber and a backing paper for wallpaper are laminated, A wall covering or the like in which a first mixed paper made of cotton fibers and synthetic fibers, a second mixed paper made of paper pulp fibers and synthetic fibers, and a backing paper for wallpaper have been proposed. However, it did not satisfy the peel characteristics (see, for example, Patent Documents 6 to 8).

  In recent years, gravure printing, which is an intaglio printing method, has become mainstream because the printing finish is clear and beautiful. In gravure printing, the portion of the plate that is the pattern is concave, and the concave portion is filled with ink for printing. The printed material by this method is powerful because it can be thickened with ink more than the printed material by the relief printing method or the lithographic printing method. However, in order to obtain a clear printed matter by gravure printing, it is required to instantaneously suck up ink in the concave portion of the plate during printing. Similarly, screen printing, ink jet printing, and the like are required to suck up ink instantaneously. With respect to the ability to suck up this ink, there is room for improvement in the conventional nonwoven fabric for wallpaper backing.

JP 2001-81700 A Japanese Patent Laid-Open No. 10-273896 JP 2001-303491 A JP 2005-154968 A JP 2009-179900 A JP 2007-92260 A JP 2003-127317 A JP 2003-155699 A

  An object of the present invention is to provide a nonwoven fabric for wallpaper backing which has good dimensional stability, has peel properties, and has printability and coating suitability in printing such as intaglio printing.

  As a result of research to solve this problem, the following nonwoven fabric for wallpaper backing was found.

(1) A two-layered wallpaper backing nonwoven fabric, wherein the first layer includes pulp fibers and a fibrous binder, and the second layer includes pulp fibers, cotton linters, and a fibrous binder. Nonwoven fabric.

(2) The wallpaper backing nonwoven fabric according to the above (1), wherein a part or all of the fibrous binder of the second layer is a polyvinyl alcohol fiber.

(3) The nonwoven fabric for wallpaper backing according to the above (1) or (2), wherein a pigment is applied to the surface of the second layer.

  According to the present invention, the nonwoven fabric for wallpaper backing used as a wallpaper after being subjected to processing such as foaming polyvinyl chloride resin coating or printing, the second layer is formed by functionally separating the first layer from the second layer. Suppresses printing flaws in printing such as intaglio printing and fuzz which is a drawback during coating, has coating suitability, gives the peel characteristics when the first layer peels wallpaper from the wall surface, and further provides dimensional stability in both layers A non-woven fabric for wallpaper backing that is well prepared can be provided.

It is an electron micrograph of the fiber of cotton linter which is not beaten. It is an electron micrograph of the pulp fiber which consists of conifers which are not beaten.

  Hereinafter, the present invention will be described in detail. The nonwoven fabric for wallpaper backing of the present invention having a two-layer structure is affixed to the wall surface by a glue applied to the wall surface made of gypsum board or concrete or the first layer surface of the nonwoven fabric for wallpaper backing. The 1st layer of the nonwoven fabric for wallpaper backings of this invention is adjusted to hydrophilicity by including a pulp fiber, even if it contains the fibrous binder. Moreover, by using the pulp fiber beaten moderately, it has a fixed space | gap part between fibers and the water absorption is adjusted. The beating degree of the pulp fiber is preferably 300 mlCSF or more, and more preferably 400 mlCSF or more. When the beating degree is less than 300 ml CSF, the gap portion may decrease and the water absorption may decrease, and the paste may become difficult to enter and immediately dry, which may reduce workability.

  The pulp fiber includes wood pulp such as conifer pulp, hardwood pulp, wood pulp such as straw pulp, bamboo pulp, kenaf pulp, and herb as plant fibers. These fibers may be fibrillated as long as they do not impair the performance of the present invention. Further, pulp fibers obtained from waste paper, waste paper, etc. may be used. The ratio of the pulp fibers blended in the first layer of the nonwoven fabric for wallpaper backing of the present invention is preferably 50 to 97% by mass, more preferably 60 to 95% by mass, and 70 to 93% by mass with respect to the entire first layer. % Is more preferable. When the amount is less than 50% by mass, strength maintenance and dimensional stability are good, but the voids increase and the required amount of glue may increase. On the other hand, if it exceeds 97% by mass, it may be difficult to maintain the strength in a wet state, and delamination may occur during reattachment. Furthermore, dimensional stability may not be obtained.

  Unlike the pulp fiber having a flat cross section, the fibrous binder blended in the first layer has a perfect circle shape or a shape close to a perfect circle shape, and increases the voids by being present between the pulp fibers. It works to maintain strength even in wet conditions by adhering poorly water-resistant pulp fibers together, and suppresses dimensional changes such as elongation when glue is applied and shrinkage after being applied and dried. There is. In addition, when removing the wallpaper constructed on the wall such as gypsum board or concrete at the time of renovation, it is important to peel it off with the glue layer existing between the wall and the wallpaper, but the pulp fiber does not contain a fibrous binder In the case of only the case, or in the case of only the synthetic fiber that does not have the binder performance with the pulp fiber, the interlayer strength is weak, so it peels off between the layers of the wallpaper, and a part of the wallpaper remains randomly on the wall surface. Not only will it be lowered, but it will also have irregularities in the finish after replacement. In the present invention, it is possible to suppress delamination of the wallpaper by blending the fibrous binder in the first layer. In this invention, 3-50 mass% is preferable with respect to the whole 1st layer, as for the ratio of the fibrous binder mix | blended with a 1st layer, 5-40 mass% is more preferable, and 7-30 mass% is further. preferable. When the amount is less than 3% by mass, not only is it difficult to maintain strength in a wet state, but delamination may occur at the time of replacement. In addition, dimensional stability may not be obtained. On the other hand, if it exceeds 50% by mass, the strength maintenance and dimensional stability are good, but the voids increase and the required amount of glue may increase.

  The fineness of the fibrous binder is preferably from 0.1 to 5.6 dtex, more preferably from 0.6 to 3.3 dtex, and even more preferably from 1.1 to 2.2 dtex. If it is less than 0.1 dtex, the nonwoven fabric may become dense and thin. On the other hand, when it exceeds 5.6 dtex, not only the contact with the pulp fiber is reduced, it may be difficult to maintain the strength under wet conditions, but a uniform texture may not be obtained. 1-20 mm is preferable, as for the fiber length of a fibrous binder, 2-15 mm is more preferable, and 3-10 mm is further more preferable. If it is less than 1 mm, it may fall out of the papermaking wire during papermaking, and sufficient strength may not be obtained. On the other hand, when it exceeds 20 mm, it may cause tangles when dispersed in water, and a uniform texture may not be obtained.

  Examples of the fibrous binder include single fibers composed of a single component, and composite fibers such as core-sheath fibers (core-shell type), parallel fibers (side-by-side type), and radially divided fibers. Since the composite fiber is difficult to form a film, it is possible to improve the water resistance strength while retaining the voids of the nonwoven fabric. Examples of the fibrous binder include polypropylene short fibers, polyester short fibers, a combination of polypropylene (core) and polyethylene (sheath), a combination of polypropylene (core) and ethylene vinyl alcohol (sheath), and a high melting point polyester (core). And a combination of low melting point polyester (sheath). In addition, a single fiber (full melt type) composed only of a low melting point resin such as polyethylene or a fibrous binder such as polyvinyl alcohol (PVA) fiber can also be used. In particular, the core-sheath fiber is preferred because it has both a void portion and strength development.

  In the present invention, in addition to the pulp fiber and the fibrous binder, the first layer can be blended with fibers other than the pulp fiber having no binder performance, if necessary, within a range not impairing the performance. As a result, the gap can be further increased. Examples of such fibers include regenerated fibers such as rayon, cupra, and lyocell fibers, semi-synthetic fibers such as acetate, triacetate, and promix, polyolefin, polyamide, polyacryl, vinylon, vinylidene, polyvinyl chloride, and polyester. Synthetic fibers such as fibers such as fibers, benzoate, polyclar, and phenol, and inorganic fibers such as metal fibers, glass fibers, and rock fibers.

  The second layer of the nonwoven fabric for wallpaper backing of the present invention contains cotton linters, pulp fibers, and fibrous binders. Since the surface of the second layer is a surface on which foaming polyvinyl chloride resin or the like is coated or printed, the second layer is maintained with dimensional stability with a fibrous binder, and is made with a cotton linter. While maintaining an appropriate void portion, the printing aptitude in printing such as intaglio printing is enhanced, and the fibers are filled with pulp fibers to suppress excessive permeation during coating and printing, thereby maintaining good flatness. Furthermore, by using a part of the fibrous binder as PVA fiber, a flat surface with less fuzz is obtained, and thus the surface after coating and printing becomes smooth.

  In the second layer, when the total amount of pulp fiber, fibrous binder, and cotton linter is 100 mass%, the ratio of the fibrous binder is 2-40 mass%, preferably 4-35 mass%, more preferably. Is 10-30 mass%. If it is less than 2% by mass, the dimensional stability is poor, and if it exceeds 40% by mass, there may be a problem that the amount of permeation becomes excessive during coating or printing.

  Cotton linters have fibril-like fine fibers with a diameter of nanometers generated from the fiber surface. These fine fibers instantly absorb water-based and oil-based inks and move the ink to the cotton linter trunk. Therefore, printability in gravure printing, screen printing, ink jet printing and the like is improved. FIG. 1 is a photograph of cotton linter fibers that have not been beaten, taken with an electron microscope at a magnification of 7000. It can be seen that fibrils having a nanometer diameter are generated without beating the cotton linter. FIG. 2 is a photograph of a pulp fiber made of softwood that has not been beaten, taken with an electron microscope at a magnification of 7000 times. It can be seen that fibrils having a nanometer diameter are not generated from the pulp fiber surface.

  Cotton linters can be used without beating. However, a mild beating process may be performed to improve the texture. In this case, the beating degree is preferably 300 mlCSF or more, more preferably 400 mlCSF or more.

  The ratio of the cotton linter is 3 to 50% by mass, preferably 6 to 45% by mass, more preferably 10 to 10% by mass when the total amount of pulp fiber, fibrous binder, and cotton linter is 100% by mass. 40% by mass. If it is less than 3% by mass, the effect of improving the printability in printing such as intaglio printing may be reduced. On the other hand, if it exceeds 50% by mass, the strength may be difficult to obtain or the dimensional stability may be reduced. is there.

  The ratio of pulp fibers is preferably 20 to 95 mass%, more preferably 30 to 90 mass%, and more preferably 30 to 80 mass% when the total amount of pulp fiber, fibrous binder and cotton linter is 100 mass%. % Is more preferable. If it is less than 20% by mass, there are too many voids, so that the amount of permeation may be excessive during the coating of polyvinyl chloride. On the other hand, if it exceeds 95% by mass, the dimensional stability may be deteriorated.

  In the present invention, as the pulp fibers used in the second layer, the pulp fibers used in the first layer can be used. Moreover, as the fibrous binder used in the second layer, the fibrous binder used in the first layer can be used. Moreover, a core-sheath fiber can be used preferably. Furthermore, it is more preferable to use the PVA fiber alone or in combination with the core-sheath fiber. The PVA fiber is a fiber manufactured under appropriate conditions using an appropriate raw material PVA, and maintains the fiber form while hardly dissolving in normal temperature water, but the surface of the second layer is in contact with the Yankee dryer surface after paper making. When it is heated, it begins to dissolve easily, and at that moment, it is pressed with equipment such as a touch roll to form a fibrous binder that straddles the fibers, and then re-solidifies by dehydration and drying. A smooth surface with little fluffing is obtained. Moreover, it becomes a strong paper layer constituting fiber which cannot be easily separated unless it is in high temperature water.

  Although various influences on the adhesive strength of the PVA fiber can be considered, it can be roughly classified into three points: an underwater softening point, a fineness, and a fiber length. First, the underwater softening point will be described. In the case of actual papermaking, the softening point in water generally indicates a temperature at which the wet paper receives heat from the dryer and the fibrous binder starts to melt and exhibits an adhesive function. The more the PVA fiber with a lower softening point in water is used, the easier the dissolution of the fibrous binder, which is a precondition for adhesion, and the greater the adhesion effect. A lower underwater softening point is better from the viewpoint of the adhesion effect, but adhesion to the dryer tends to occur. In order for the PVA fiber to dissolve, the wet paper temperature needs to be higher than the softening point in water. Therefore, the higher the drying temperature, the greater the adhesion effect and the higher the strength. When the water temperature in the wet paper is below the underwater softening point of the PVA fiber, the fibrous binder does not dissolve, and therefore the binder effect is completely lost. In the case of a Yankee dryer, the steam temperature of the dryer is about 100-160 ° C, and the temperature of the wet paper contacting this is considered to be 60-90 ° C. A sufficient adhesive force can be obtained by selecting.

  Next, as for the fineness, the strength increases as it becomes thinner. This is because, when added at the same mass ratio, if thin fibers are used, the number of additions increases and the number of adhesion points increases, so that the adhesive force increases. However, if the fineness is too small, the nonwoven fabric may be too dense. The fineness of the PVA fiber is not particularly limited, but is preferably 0.1 to 5.6 dtex, more preferably 0.3 to 3.3 dtex, and still more preferably 0.6 to 2.2 dtex. Finally, the fiber length of the PVA fiber is preferably 1 to 20 mm, more preferably 2 to 15 mm, and still more preferably 3 to 10 mm. If it is less than 1 mm, it may fall out of the papermaking wire during papermaking, and sufficient strength may not be obtained. On the other hand, if it exceeds 20 mm, it may cause entanglement when dispersed in water and a uniform texture may not be obtained.

  In the present invention, in addition to pulp fiber, linter pulp, and fibrous binder, the second layer is blended with fibers that do not have binder performance other than pulp fiber and cotton linter, if necessary, as long as the performance is not impaired. As a result, the gap can be further increased. Examples of such fibers include regenerated fibers such as rayon, cupra, and lyocell fibers, semi-synthetic fibers such as acetate, triacetate, and promix, polyolefin, polyamide, polyacryl, vinylon, vinylidene, polyvinyl chloride, and polyester. Examples thereof include synthetic fibers such as fibers such as benzoate, polyclar, and phenol, and inorganic fibers such as metal fibers, glass fibers, and rock fibers.

Although the basic weight of the nonwoven fabric for wallpaper backings of this invention is not specifically limited, 15 g / m < ² > or more is preferable and 60 g / m < ² > or more is more preferable. If it is less than 15 g / m ^2, there is a problem in tensile strength and hardness, and there is a risk of curling or paper breakage during coating or printing. On the other hand, the curling and paper-breaking suppressing effect hardly changes in a region where the basis weight exceeds 200 g / m ^2, and thus the basis weight is preferably 200 g / m ² or less, and may be 150 g / m ² or less. .

The basis weight of the first layer is preferably 5 g / m ² or more, and more preferably 20 g / m ² or more. When the amount is less than 5 g / m ² , when water-soluble glue is applied to the surface of the first layer, the glue reaches the second layer and may not play the role of the first layer. On the other hand, since the effect of suppressing the penetration of the glue hardly changes in the region where the basis weight exceeds 100 g / m ² , the basis weight of the first layer is preferably 100 g / m ² or less, and is preferably 80 g / m ^2. It is good also as follows.

The basis weight of the second layer is preferably 10 g / m ² or more, and more preferably 30 g / m ² or more. When it is less than 10 g / m ² , it is difficult to obtain a uniform texture, and there is a risk of fuzzing. On the other hand, in the region exceeding 150 g / m ² , the fuzz suppression effect is hardly changed, so the basis weight of the second layer is preferably 150 g / m ² or less, and may be 120 g / m ² or less.

  The nonwoven fabric for wallpaper backing of the present invention can be mixed with a sizing agent as necessary. As the sizing agent, any reinforced rosin sizing agent, rosin emulsion sizing agent, petroleum resin sizing agent, synthetic sizing agent, neutral rosin sizing agent, alkyl ketene dimer (AKD) may be used as long as the desired effect of the present invention is not impaired. Any of known sizing agents such as) can be used.

  In addition, various anionic, nonionic, cationic, or amphoteric yield improvers, drainage agents, dispersants, paper strength improvers that have been used in the past, as long as the desired effects of the present invention are not impaired. And a sticky agent are appropriately selected and used as necessary. In addition, it is also possible to appropriately add internal additives for papermaking such as a pH adjuster, an antifoaming agent, a pitch control agent, and a slime control agent depending on the purpose.

  If necessary, fillers such as clay, kaolin, calcined kaolin, talc, calcium carbonate, titanium dioxide, fillers having self-extinguishing properties such as aluminum hydroxide and magnesium hydroxide, and the like can be blended. In particular, titanium dioxide is useful for enhancing the concealability and opacity so that the wall surface of concrete or gypsum board cannot be seen through. The addition amount of these fillers is 5 to 30% by mass with respect to 100% by mass of the nonwoven fabric for wallpaper backing in consideration of concealability, flame retardancy, strength of the nonwoven fabric, and the like.

  The first layer of the nonwoven fabric for wallpaper backing of the present invention is a surface that is bonded to a wall surface such as gypsum board or concrete, and the second layer is a surface that is printed or coated with a foamed polyvinyl chloride resin. . The basis weight ratio is not particularly limited, but it is preferable to make the basis weight of the second layer larger than that of the first layer in consideration of providing printability, coating suitability, and volume feeling as wallpaper.

  The manufacturing method of the nonwoven fabric for wallpaper backings in this invention can be performed as follows, for example. In the second layer, pulp fibers after being beaten in water, fibrous binder, cotton linter, sizing agent and the like are mixed and dispersed, and then sent to a storage tank as pulp slurry, and a certain amount of paper is made for the second layer. The paper is fed to the machine and the second layer is made first so as to achieve the target basis weight. Next, after mixing and dispersing pulp fibers after being beaten in water, fibrous binder, and sizing agent as necessary, the first layer is sent to a storage tank, and this slurry is made into a certain amount of paper for the first layer. The paper is fed to the machine, and the second layer made in advance is combined with the first layer so as to have the target basis weight. Further, after the combined sheet is pressed, it is dried so that the second layer surface is in contact with the Yankee dryer surface, and a non-woven fabric for wallpaper backing can be obtained.

  A pigment can be further applied to the surface of the second layer of the wallpaper-backing nonwoven fabric obtained in the present invention for the purposes of foaming polyvinyl chloride resin, printing sealing, and suppression of fuzz. The pigment can be applied by impregnating or coating the surface of the second layer with a coating liquid containing a pigment and a binder. As the pigment, clay, kaolin, calcined kaolin, talc, calcium carbonate, titanium dioxide or the like that can be added as a filler in the papermaking process can be used. In particular, titanium dioxide is useful for enhancing the concealability and opacity so that the wall surface of concrete or gypsum board cannot be seen through. Moreover, in order to give self-extinguishing property, aluminum hydroxide, magnesium hydroxide, etc. can be used. The ratio of the pigment to be applied is preferably 3 to 50% by mass, more preferably 5 to 40% by mass, and further preferably 7 to 30% by mass with respect to 100% by mass of the nonwoven fabric for wallpaper backing.

  As a method for applying the pigment, impregnation or coating equipment such as a two-roll size press, a gate roll coater, an air knife coater, a blade coater, a comma coater, a bar coater, a gravure coater, and a kiss coater installed in the middle of the paper making process. However, the present invention is not limited to this. Further, impregnation or coating with an off-machine apparatus is possible after papermaking.

  Hereinafter, the present invention will be described in more detail by way of examples. However, the present invention is not limited to these examples. In addition, the number of parts and percentage in an Example are based on mass.

Example 1
NBKP (pulp fiber) beaten to 500 ml CSF in water in a pulper dispersion tank, core-sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex × 5 mm), unbeaten cotton linter 80:10: After 10 minutes of mixing and mixing and dispersing for 10 minutes, it is sent to the first storage tank and sent to the first papermaking head by a certain amount for the second layer, and the second layer is adjusted so that the basis weight is 70 g / m ^2. Paper was made first.

NBKP (pulp fiber) beaten in 500 ml CSF and core-sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex x 5 mm) in a ratio of 97: 3 Then, after mixing and dispersing for 10 minutes, the mixture is sent to the second storage tank, and sent to the second paper making head by a certain amount for the first layer, and is made to have a basis weight of 30 g / m ² . Previously performed press the second layer and the first layer and papermaking after the combined Extract in the state of wet paper web, the second layer surface and dried so as to strike the Yankee dryer surface, wallpaper backing having a basis weight of 100 g / m ² A nonwoven fabric was obtained.

(Example 2)
A wallpaper-backing nonwoven fabric was obtained in the same manner as in Example 1 except that the pulp fibers and the core-sheath fibrous binder of Example 1 were changed to a ratio of 90:10.

(Example 3)
A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 1 except that the pulp fibers and the core-sheath fibrous binder of Example 1 were changed to a ratio of 70:30.

Example 4
A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 1 except that the pulp fiber and the core-sheath fibrous binder of Example 1 were changed to a ratio of 50:50.

(Example 5)
A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 1 except that the pulp fibers and the core-sheath fibrous binder of Example 1 were changed to a ratio of 40:60.

(Comparative Example 1)
A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 1 except that the pulp fibers and the core-sheath fibrous binder of Example 1 were changed to a ratio of 100: 0.

(Comparative Example 2)
Instead of the core-sheath fibrous binder of the first layer of Example 1, polyester fiber (1.7 decitex × 5 mm, organic fiber having no binder performance) manufactured by Teijin Ltd. was used to make pulp fibers and organic fibers 70: A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 1 except that the ratio was changed to 30.

(Example 6)
NBKP (pulp fiber) beaten to 500 ml CSF in water in a pulper dispersion tank, core-sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex × 5 mm), unbeaten cotton linter, fibrous binder ( (Product name: VPB107, manufactured by Kuraray Co., Ltd., 1.1 decitex × 3 mm, PVA fiber) is added at a ratio of 70: 5: 20: 5, mixed and dispersed for 10 minutes, then sent to the first storage tank, and the second layer For this purpose, a certain amount was sent to the first papermaking head, and the second layer was first made so as to have a basis weight of 80 g / m ² .

Next, NBKP (pulp fiber) beaten in 500 ml CSF in water in another pulper dispersion tank, core-sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex × 5 mm) is 80:20 After mixing at a ratio and mixing and dispersing for 10 minutes, the mixture is sent to the second storage tank and sent to the second papermaking head by a certain amount for the first layer, and is made to have a basis weight of 20 g / m ² . The second layer and the first layer, which have been made in advance, are made in a wet paper state, pressed, dried so that the second layer surface is in contact with the Yankee dryer surface, and a nonwoven fabric for wallpaper backing with a basis weight of 100 g / m ² Got.

(Example 7)
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 70: 0: 20: 10. Got.

(Example 8)
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 45: 10: 40: 5. Got.

Example 9
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 79: 10: 6: 5. Got.

(Example 10)
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 82: 10: 3: 5. Got.

(Comparative Example 3)
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 85: 10: 0: 5. Got.

(Comparative Example 4)
75: 10: 20: 5 of pulp fiber, core-sheath fibrous binder, polyester fiber manufactured by Teijin Ltd. (1.7 decitex × 5 mm, organic fiber having no binder performance), PVA fiber of Example 6 A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 6 except that the ratio was changed.

(Comparative Example 5)
Non-woven fabric for wallpaper backing in the same manner as in Example 6 except that the pulp fiber, core-sheath fibrous binder, cotton linter, and PVA fiber of Example 6 were changed to a ratio of 80: 0: 20: 0. Got.

(Comparative Example 6)
NBKP (pulp fiber) beaten in 500 ml CSF is added to the water in the pulper dispersion tank, mixed and dispersed for 10 minutes, then sent to the first storage tank, and sent to the first papermaking head by a certain amount for the first layer. The first layer was first formed so as to have an amount of 20 g / m ² .

Unbeaten cotton linter and core / sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex × 5 mm) are added at a ratio of 95: 5 to the water in another pulper dispersion tank and mixed for 10 minutes. After being dispersed, it is sent to the second storage tank, sent to the second paper making head by a certain amount for the second layer, and made to have a basis weight of 80 g / m ² . The first layer and the second layer that have been made in advance are made in the form of wet paper and then pressed to dry the surface so that the surface of the first layer is in contact with the Yankee dryer surface. For backing the wallpaper with a basis weight of 100 g / m ² A nonwoven fabric was obtained.

(Comparative Example 7)
Unbeaten cotton linter and core-sheath fibrous binder (trade name: Melty 4080, manufactured by Unitika Ltd., 2.2 decitex × 5 mm) were added at a ratio of 95: 5 to the water in the pulper dispersion tank and mixed and dispersed for 10 minutes. Then, it sent to the 1st storage tank, sent to the 1st paper-making head for a 3rd layer by a fixed quantity at a time, and made the 3rd layer previously so that it might become 40 g / m < ² > of basic weight.

NBKP (pulp fiber) beaten in 500 ml CSF and polyethylene fiber with a fiber length of 1.2 mm are added in a ratio of 90:10 to water in another pulper dispersion tank, mixed and dispersed for 10 minutes, and then sent to the second storage tank. Then, for the second layer, a certain amount is sent to the second paper making head, and the paper is made to have a basis weight of 40 g / m ² . The third layer and the second layer that were made in advance were made in the form of a wet paper and then pressed, and dried so that the surface of the third layer was in contact with the Yankee dryer surface, and two layers with a basis weight of 80 g / m ² were obtained. A nonwoven fabric was obtained.

On the second layer surface of this two-layer nonwoven fabric, a paper having a basis weight of 20 g / m ² made only with NBKP (pulp fiber) beaten in 500 ml CSF as the first layer was bonded with an ethylene-vinyl acetate emulsion adhesive (trade name: Bond SP800). , Manufactured by Konishi Co., Ltd.) to obtain a nonwoven fabric for wallpaper backing having a basis weight of 100 g / m ² .

(Example 11)
Titanium dioxide (trade name: W-10, manufactured by Ishihara Sangyo Co., Ltd.) as the pigment, acrylic emulsion (trade name: Boncoat (registered trademark) MAT-200-E, manufactured by DIC) and polyvinyl alcohol (trade name: PVA-) as the binder 110, manufactured by Kuraray Co., Ltd.) were each dispersed and mixed in water at a ratio of 100: 20: 5 to prepare a pigment coating solution. This coating liquid is coated on the second layer surface of the nonwoven fabric for wallpaper backing of Example 6 with an air knife coating device, dried at a dry weight of 25 g / m ^{2 and} dried, and the second layer surface is coated with a pigment. A nonwoven fabric was obtained.

(Example 12)
A non-woven fabric for wallpaper backing was obtained in the same manner as in Example 11 except that the pigment was changed to kaolin (trade name: New Clay, manufactured by Engelhard).

(Pulp beating degree)
The Canadian standard freeness of the pulp was measured according to JIS P 8121.

Test 1 (Dimensional stability)
The non-woven fabric for wallpaper backing is conditioned for at least 24 hours in an environment of temperature 20 ° C. and humidity 65% RH, and the length (original size) in the lateral direction of the sample is accurately measured. After immersing this sample in water at a temperature of 23 ° C. for 5 minutes, the length of the sample was quickly measured to determine the elongation relative to the original size. The closer to 0, the better the dimensional stability. From the conventional rule of thumb, the elongation is preferably 0.6% or less, and at least 1.0% or less is required. These results are shown in Table 1.

Test 2 (fluffing)
The wallpaper backing nonwoven fabric was conditioned at a temperature of 23 ° C. and a humidity of 50% RH for 24 hours, and then cut into a size of 32 cm in the MD direction and 15 cm in the CD direction. In sampling, sufficient care was taken not to rub the paper surface. ^Two high quality papers having a basis weight of 150 g / m ² were laid on a glass plate and fixed with clips. Next, gauze was wrapped around a metal cuboid (weight 400 g) having a width of 250 mm, a length of 130 mm and a thickness of 15 mm, and the fine paper surface was rubbed twice to level the gauze surface. Put a non-woven fabric for wallpaper backing on high-quality paper, with the second layer on the surface coated with polyvinyl chloride facing up, and a metal cuboid wrapped with gauze prepared for the second layer surface. I rubbed. The direction of the nonwoven fabric for wallpaper backing was changed and rubbed once in the opposite direction. A vinyl chloride paste having a coating thickness of 200 μm was applied to the place where the nonwoven fabric for backing the wallpaper was rubbed, and placed in a dryer at 145 ° C. for 1 minute to gel the vinyl chloride paste. A 5 cm × 10 cm cut pattern was placed on the center of the gelled polyvinyl chloride layer surface, and the number of protrusions generated therein was counted. The result was evaluated by the total of the measured values of 4 samples prepared in the same manner (number per 200 cm ² ), and the number of measured protrusions was 25 or less “◎”, 26-50 pieces “◯”, 51 ˜150 were evaluated as “Δ”, and 151 or more were evaluated as “x”. These results are shown in Table 1.

Test 3 (peel characteristics)
Apply a paste solution that has been diluted with water to a concentration of 5% by mass of the powdery paste for methylcellulose-based wallpaper and stirred sufficiently so that the wet coating amount is 150 g / m ² on the first layer surface of the nonwoven fabric for wallpaper backing. And pasted it on a semi-incombustible gypsum board (product name: Tiger Hyclean Board, manufactured by Yoshino Gypsum Co., Ltd.) with a thickness of 12.5 mm, and after 10 days, cut it into a rectangle with a width of 5 cm and a length of 10 cm. The peeled and peeled state was observed. “○” indicates that the first layer surface of the gypsum board and the non-woven fabric for wallpaper lining is peeled cleanly, “△” indicates that a small portion of the first layer surface remains on the gypsum board surface, but the entire surface is peeled off. What peeled or cut | disconnected between the layers of the nonwoven fabric for lining was evaluated as "x". These results are shown in Table 1.

Test 4 (printability)
Using a gravure printing machine, printing was performed on the second layer surface with water-based ink (black), the printing state was observed, and evaluations of ◎ to × were performed. The results are shown in Table 1.
◎: Very good printing condition ○: Good printing condition △: Slight printing omission is observed ×: Many printing omissions cannot be used

Test 5 (opacity)
The opacity of the wallpaper backing nonwoven fabrics of Examples 6, 11 and 12 was measured according to JIS P 8149: 2000, and the hiding property was evaluated. The opacity of the wallpaper backing nonwoven fabric is preferably 84% or more. More preferably, it is 86% or more, and the concealability becomes good. When the opacity is less than 84%, it becomes possible to omit the step of concealing the wallpaper-backing nonwoven fabric again by the wallpaper manufacturer. The results are shown in Table 2.

  As is apparent from the results in Table 1, the nonwoven fabrics for wallpaper backing of Examples 1 to 10 of the present invention are all excellent in dimensional stability, fuzziness, peel properties, and printability, and can be usefully used for wallpaper backing. . Further, Examples 11 and 12 have a high opacity since the pigment is applied to the surface of the second layer, and can prevent the see-through of the wall surface of gypsum board or concrete. In Comparative Examples 1 and 2, since the fibrous binder was not blended in the first layer in contact with the wall surface, the peel characteristics were poor. In Comparative Examples 3 and 4, since the cotton linter was not blended in the second layer, the printability was poor. Since the comparative example 5 did not mix | blend the fibrous binder with the 2nd layer, the fuzz was bad. In Comparative Example 6, the printability was very good because 95% by mass of cotton linter was blended in the second layer, but the peel property was poor because no fibrous binder was blended in the first layer. It was. Comparative Example 7 had a three-layer structure and 95% by weight of cotton linter was blended in the third layer, so the printability was very good, but no fibrous binder was blended in the first layer. The peel characteristics were bad.

  The non-woven fabric for wallpaper backing of Example 5 had good dimensional stability, fuzziness, peel properties, and printability test results, but in Test 3, when the paste solution was applied, the paste solution easily penetrated. A trend was confirmed. When Example 7 and Example 6 were compared, it was confirmed that Example 7 using a large amount of PVA fibers as the fibrous binder has a higher fuzz suppression effect.

  Examples of applications of the present invention include wallpaper having good dimensional stability, peel properties, printability and coating suitability.

Claims (3)

  A nonwoven fabric for wallpaper backing having a two-layer structure, wherein the first layer includes pulp fibers and a fibrous binder, and the second layer includes pulp fibers, cotton linters, and a fibrous binder.   The nonwoven fabric for wallpaper backing according to claim 1, wherein a part or all of the fibrous binder of the second layer is a polyvinyl alcohol fiber.   The nonwoven fabric for wallpaper backing according to claim 1 or 2, wherein a pigment is applied to the surface of the second layer.