JP2018155790A - Voucher base-paper and manufacturing method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to appropriately use as a voucher base-paper for manufacturing a voucher having texture of Japanese paper.SOLUTION: A voucher base-paper 10 has: a principal surface 11 that is re-moisturized adhesive property; and a second principal surface 12 located opposite the first principal surface 11 and on which a printing layer is stacked. The voucher base-paper 10 comprises: a base material layer 13; a decorative fiber layer 14; and a synthetic resin film layer 15 in which a base material layer 13 and a decorative fiber layer 14 are boned together. The base material layer 13 has: a base-material fiber layer containing wood pulp; and acrylic resin with which the base-material fiber layer is impregnated. The decorative fiber layer 14 comprises: non-wood fiber of at least one of bast fiber and vein fiber; and recycled fiber. The first principal surface 11 of the voucher base-paper 10 is formed from a re-moisturized adhesive layer 16 stack on the base-material layer 13. The second principal surface 12 of the voucher base-paper 10 is formed from the decorative fiber layer 14.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a voucher base paper used for manufacturing a voucher such as a stamp, and a manufacturing method thereof.

  For example, a voucher base paper used to produce a voucher such as a stamp, a stamp, a revenue voucher, etc. is a first main surface having rewet adhesiveness and an opposite side of the first main surface, and a printing layer is laminated. And a second main surface. Patent Document 1 discloses a voucher base paper having a base material made of paper or coated paper made of wood pulp and a rewet adhesive layer.

JP 2000-170098 A

  When a voucher such as a stamp, a stamp, or a revenue voucher has a texture of Japanese paper, it is conceivable that the base material of the voucher base paper is composed of fibers having a relatively long fiber length. However, a base material having a texture of Japanese paper has a more porous structure than a base material made from conventional wood pulp. For this reason, when the rewet adhesive layer is laminated on the base material, the rewet adhesive penetrates to the main surface opposite to the main surface to which the rewet adhesive is applied. Is difficult to obtain.

  In view of this, for the purpose of preventing permeation of the rewet adhesive into the base material having a texture of Japanese paper, a prototype paper having a synthetic resin film provided between the base material and the rewet adhesive layer was prototyped. However, with this voucher base paper, the texture of the Japanese paper is maintained, but when the printing layers are laminated, curls that are largely curved with the rewet adhesive layer side inside are generated.

As described above, when the voucher base paper has a texture of Japanese paper, the performance for using it as a voucher base paper cannot be obtained.
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a voucher base paper that can be suitably used to obtain a voucher having a texture of Japanese paper and a method for manufacturing the voucher base paper. .

  A base paper for a voucher that solves the above-mentioned problems is for a voucher having a first main surface having rewet adhesiveness and a second main surface that is located on the opposite side of the first main surface and on which a printing layer is laminated. A base paper, which is a base paper having a base fiber layer containing wood pulp and an acrylic resin impregnated in the base fiber layer, and recycled with at least one of bast fibers and vein fibers A decorative fiber layer containing fibers, and a synthetic resin film layer on which the base material layer and the decorative fiber layer are bonded together, wherein the first main surface is a rehumidified layer laminated on the base material layer. It is comprised by the contact bonding layer, and the said 2nd main surface is comprised by the said decorative fiber layer.

  In the above-mentioned certificate base paper, the content of softwood pulp in the fibers constituting the base fiber layer is 90% by mass or more, and the content of the non-wood fibers in the fibers constituting the decorative fiber layer is: The range of 70% by mass or more and 95% by mass or less, the content of the regenerated fiber is in the range of 5% by mass or more and 30% by mass or less, and the thickness of the synthetic resin film layer is 10 μm or more, It is preferable that it is 30 micrometers or less.

  The voucher base paper manufacturing method includes a sand laminating step of sandwiching a molten synthetic resin between a laminated sheet in which the base material layer and the rewet adhesive layer are laminated, and a decorative fiber sheet serving as the decorative fiber layer. It is preferable to form the synthetic resin film layer between the base material layer and the decorative fiber layer in the sand laminating step.

  According to the present invention, it can be suitably used as a voucher base paper for obtaining a voucher having a Japanese paper texture.

It is the schematic which shows the laminated structure of the base paper for vouchers. It is the schematic which shows an example of the manufacturing method of the base paper for vouchers.

Hereinafter, embodiments of a voucher base paper and a manufacturing method thereof according to the present invention will be described with reference to the drawings. In the drawings, the thickness of each layer of the voucher paper is exaggerated.
As shown in FIG. 1, a voucher base paper 10 has a first main surface 11 having rewet adhesiveness and a second main surface 12 on the opposite side of the first main surface 11 and on which a printing layer is laminated. And have.

  The voucher base paper 10 includes a base material layer 13, a decorative fiber layer 14, and a synthetic resin film layer 15 in which the base material layer 13 and the decorative layer are bonded together. The first main surface 11 of the voucher base paper 10 is constituted by a rewet adhesive layer 16 laminated on the base material layer 13. The second main surface 12 of the voucher base paper 10 is constituted by a decorative fiber layer 14.

<Base material layer 13>
The base material layer 13 has a base fiber layer containing wood pulp and an acrylic resin impregnated in the base fiber layer. Examples of the wood pulp include softwood pulp (N-BKP) and hardwood pulp (L-BKP). The wood pulp may be a recycled wood pulp obtained by recycling used paper. The base fiber layer may contain a kind of wood pulp or may contain a plurality of kinds of wood pulp.

  The beating degree of the wood pulp is preferably in the range of 10 ° SR or more and 50 ° SR or less in the shopper-regula freeness specified in JIS P8121-1 (2012).

  The base fiber layer may contain fibers other than non-wood pulp and wood pulp. The wood pulp content in the fibers of the base fiber layer is preferably 90% by mass or more, and the softwood pulp content is more preferably 90% by mass or more. The base fiber layer can also contain additives such as fillers and paper strength improvers used for ordinary paper.

The basis weight of the base fiber layer is preferably in the range of 20 g / m ² or more and 40 g / m ² or less.
The acrylic resin is used as a sealing agent that enters between wood pulp fibers constituting the base fiber layer. As acrylic resin, acrylic ester resin, methacrylic ester resin, and styrene-acryl copolymer resin are mentioned, for example. As the acrylic resin, for example, a solvent-type or emulsion-type acrylic resin can be used. The impregnation amount of the acrylic resin is preferably in the range of 5 g / m ² or more and 15 g / m ² or less.

<Decorative fiber layer 14>
The decorative fiber layer 14 has a texture of Japanese paper. The decorative fiber layer 14 contains at least one non-wood fiber of a bast fiber and a vein fiber and a regenerated fiber. Examples of the bast fiber include flax, trichome, and cocoon. Examples of leaf vein fibers include Manila hemp and sisal hemp. The beating degree of the non-wood fiber is preferably in the range of 10 ° SR or more and 30 ° SR or less in the shopper-regula freeness specified by JIS P8121-1 (2012). When the non-wood fiber has a shopper / regula freeness of 10 ° SR or more, the smoothness of the outer surface of the decorative fiber layer 14 is increased, thereby further improving the printability. When the non-wood fiber shopper / regula freeness is 30 ° SR or less, the texture of Japanese paper can be improved.

  Examples of the regenerated fiber include rayon, polynosic, and cupra. The fineness of the regenerated fiber is preferably in the range of 0.1 dtx to 2 dtx. The average fiber length of the regenerated fiber is preferably in the range of 2 mm or more and 20 mm or less.

The non-wood fibers constituting the decorative fiber layer 14 preferably include leaf vein fibers. The non-wood fiber constituting the decorative fiber layer 14 preferably contains rayon.
The content of the non-wood fiber in the fibers constituting the decorative fiber layer 14 is preferably in the range of 70% by mass or more and 95% by mass or less, and the content of the leaf vein fiber is 70% by mass or more and 95% by mass. More preferably, it is in the range of% or less. The texture of Japanese paper improves as the content of the non-wood fiber in the fibers constituting the decorative fiber layer 14 increases.

The content of the regenerated fiber in the fibers constituting the decorative fiber layer 14 is preferably in the range of 5% by mass to 30% by mass, and the rayon content is 5% by mass to 30% by mass. A range is more preferable. The higher the content of recycled fiber in the fibers constituting the decorative fiber layer 14, the more flexible the decorative fiber layer 14 and the easier to handle the voucher base paper 10. In addition, the decorative fiber layer 14 can also contain, for example, wood pulp as long as the texture of the Japanese paper is not significantly impaired. The basis weight of the decorative fiber layer 14 is preferably in the range of 20 g / m ² or more and 40 g / m ² or less.

<Synthetic resin film layer 15>
The synthetic resin film layer 15 is disposed between the base material layer 13 and the decorative fiber layer 14. Examples of the synthetic resin of the synthetic resin film layer 15 include polyolefin, polyester, and polyamide. Examples of the polyolefin include low density polyethylene (LDPE), high density polyethylene (HDPE), linear low density polyethylene (LLDPE), and polypropylene (PP). Examples of the polyester include polyethylene terephthalate (PET). Examples of the polyamide include polyamide 6 and polyamide 66. The synthetic resin film layer 15 may have a single layer structure or a multilayer structure. The synthetic resin of the synthetic resin film layer 15 is preferably a polyolefin. The thickness of the synthetic resin film layer 15 is preferably in the range of 10 μm or more and 30 μm or less. The basis weight of the synthetic resin film layer 15 is preferably in the range of 9.1 g / m ² to 27 g / m ² .

<Rewetting adhesive layer 16>
The rewet adhesive layer 16 is laminated on the outer surface of the base material layer 13 opposite to the synthetic resin film layer 15. The rewet adhesive layer 16 can be formed by applying a known rewet adhesive. The rewet adhesive layer 16 contains, for example, polyvinyl alcohol (PVA) and polyvinyl acetate (PVAc) as adhesive components. The rewet adhesive layer 16 may contain an additive such as sorbit, for example. The application amount of the rewet adhesive layer 16 is preferably in the range of 5 g / m ² or more and 22 g / m ² or less, more preferably in the range of 5 g / m ² or more and 20 g / m ² or less in terms of dry mass. is there.

<Base paper for certificate 10>
The basis weight of the voucher base paper 10 configured as described above is preferably 60 g / m ² or more and 120 g / m ² or less. In the case where the basis weight of the voucher base paper 10 is 60 g / m ² or more, the paper strength is increased, whereby the voucher can be easily manufactured. When the basis weight of the voucher base paper 10 is 120 g / m ² or less, the transport efficiency of the voucher base paper 10 (voucher) can be increased. The voucher base paper 10 can be stored and transported in a roll-up state.

  The second main surface 12 of the voucher base paper 10 is a surface on which patterns, characters, and the like are printed. A printing layer is laminated on the second main surface 12 of the voucher base paper 10 by printing. A voucher is obtained by subjecting the voucher base paper 10 on which the printed layer is laminated to a process such as perforation as necessary. Examples of the printing method include intaglio printing such as gravure printing and offset printing. The printing process can be continuously performed by feeding the voucher base paper 10 wound up in a roll shape. A well-known comb punching device or a rotary punching device can be used for perforating the voucher base paper 10. Examples of the voucher include stamps, stamps, and income stamps.

The voucher base paper 10 preferably has, for example, the following physical property values from the viewpoint of excellent Japanese paper texture.
The Beck smoothness (JIS P8119 (1998)) of the voucher base paper 10 is preferably 100 seconds or less. The glossiness (JIS P8142 (2005)) of the voucher base paper 10 is preferably 25% or less. The ISO whiteness (JIS P8148 (2001)) of the voucher base paper 10 is preferably 70% or less. The arithmetic average surface roughness (JIS B0601 (2013)) of the voucher base paper 10 is preferably 5 or more for both MD and CD.

<Manufacturing Method of Certificate Base Paper 10>
Next, a method for manufacturing the voucher base paper 10 will be described.
In order to produce the voucher base paper 10, first, a laminated sheet in which the base material layer 13 and the rewet adhesive layer 16 are laminated and a decorative fiber sheet to be the decorative fiber layer 14 are prepared.

  The laminated sheet is obtained by laminating the rehumidifying adhesive layer 16 on the base material sheet to be the base material layer 13. The base sheet is obtained by impregnating an acrylic resin into a base fiber sheet to be a base fiber layer according to a conventional method.

  The base fiber sheet used as the base fiber layer and the decorative fiber sheet used as the decorative fiber layer 14 can be manufactured by a wet papermaking method. From the viewpoint of reducing the anisotropy between the physical properties in the flow direction (MD) and the physical properties in the width direction (CD) and suppressing curling of the voucher base paper 10 as a paper machine used in the wet papermaking method, At least one selected from a net paper machine, a long paper machine, an inclined paper machine, and a circular paper machine can be suitably used. The strength ratio of the tensile strength S2 in the flow direction (MD) to the tensile strength S1 in the width direction (CD) of the base fiber sheet and the decorative fiber sheet (strength ratio = S2 / S1) is 1 or more and 3 or less. preferable.

  The rewet adhesive layer 16 can be formed by applying a rewet adhesive to the base sheet. A well-known coater can be used for application of the rewet adhesive. Examples of the coater used for applying the rewet adhesive include a blade coater, a roll coater, an air knife coater, and a gravure coater.

  In the manufacturing method of the voucher base paper 10, the laminated sheet and the decorative fiber sheet prepared as described above are bonded together by the synthetic resin film layer 15. The adhesion between the laminated sheet and the synthetic resin film layer 15 and the adhesion between the decorative fiber sheet and the synthetic resin film layer 15 can use, for example, a dry lamination method or an extrusion lamination method. For the adhesion between the laminated sheet and the synthetic resin film layer 15 and the adhesion between the decorative fiber sheet and the synthetic resin film layer 15, the extrusion lamination method is used from the viewpoint of giving the base paper 10 for voucher appropriate flexibility. It is preferable to use it. That is, the laminated sheet and the decorative fiber sheet are preferably bonded together by a sand laminating method using a melted synthetic resin.

  FIG. 2 shows an example of the sand laminating process. The sand laminating step is a step of sandwiching the molten synthetic resin M between the laminated sheet 17 and the decorative fiber sheet 18. Specifically, in the sand laminating step, the laminated sheet 17 and the decorative fiber sheet 18 are conveyed at a constant speed, and melted from the T die between the base material layer 13 and the decorative fiber sheet 18 constituting the laminated sheet 17. The synthetic resin M is extruded. Next, the laminated sheet 17, the molten synthetic resin M, and the decorative fiber sheet 18 are sandwiched by rollers not shown, and the molten synthetic resin M is cooled. In this sand laminating step, the synthetic resin film layer 15 is formed between the base material layer 13 and the decorative fiber layer 14, whereby the voucher base paper 10 is obtained.

According to the embodiment described in detail above, the following operational effects are exhibited.
(1) Since the decorative fiber layer 14 of the voucher base paper 10 of the present embodiment contains at least one of non-wood fibers and regenerated fibers of bast fibers and vein fibers, it has a texture of Japanese paper. The voucher base paper 10 has a base material layer 13 containing wood pulp and a synthetic resin film layer 15 in addition to the decorative fiber layer 14. As a result, the curling of the voucher base paper 10 can be suppressed. In addition, the base material layer 13 of the voucher base paper 10 has an acrylic resin impregnated in the base fiber layer, and a rehumidifying adhesive layer 16 is laminated on the base material layer 13. For this reason, when the rewet adhesive layer 16 is wetted with water, the rewet adhesive layer 16 (component of the rewet adhesive) can be prevented from penetrating into the base material layer 13.

  That is, the performance of the rewet adhesive layer 16 is easily exhibited on the first main surface 11 of the voucher base paper 10. Further, the second main surface 12 of the voucher base paper 10 exhibits the texture of Japanese paper and suppresses the occurrence of curling in the printing process for forming the print layer on the second main surface 12. Therefore, it can be suitably used as the voucher base paper 10 for obtaining a voucher having a texture of Japanese paper.

  (2) The method for producing the voucher base paper 10 preferably includes a sand laminating step of sandwiching the molten synthetic resin M between the laminated sheet 17 and the decorative fiber sheet 18. In this sand laminating step, a synthetic resin film layer 15 is formed between the base material layer 13 and the decorative fiber layer 14. In this case, the curling of the voucher base paper 10 can be further suppressed. Therefore, it can be more suitably used as a voucher base paper 10 for obtaining a voucher having a Japanese paper texture.

(Example of change)
The base layer 13 of the voucher base paper 10 has a base fiber layer and an acrylic resin impregnated in the base fiber layer, but is further laminated on the base fiber layer. It may have a layer. The acrylic resin layer is disposed between the synthetic resin film layer 15 and the base fiber layer or between the base fiber layer and the rewet adhesive layer 16 in the voucher base paper 10. The acrylic resin layer is preferably disposed between the base fiber layer and the rewet adhesive layer 16. As acrylic resin which comprises an acrylic resin layer, acrylic ester resin, methacrylic ester resin, and styrene-acryl copolymer resin are mentioned, for example. As the acrylic resin, for example, a solvent-type or emulsion-type acrylic resin can be used. The application amount of the acrylic resin is preferably in the range of 1 g / m ² or more and 10 g / m ² or less.

  The voucher base paper 10 can be used for manufacturing a seal-type voucher. When used for manufacturing a seal-type voucher, an adhesive layer and a release sheet may be sequentially laminated on the first main surface 11 (rewetting adhesive layer 16) of the voucher base paper 10. The seal-type voucher configured as described above can be peeled off from the sticking target because the rewet adhesive layer 16 is softened by being immersed in water after being stuck to the sticking target. Thus, the rewet adhesive layer 16 becomes a layer for peeling off the voucher. Since the performance of the rewet adhesive layer 16 is easily exhibited as in the above-described embodiment, the voucher is easily peeled off from the object to be pasted. Therefore, the voucher base paper 10 of the above embodiment can be suitably used as a voucher base paper 10 for obtaining a seal-type voucher.

  The method for producing the voucher base paper 10 preferably includes a sand laminating step of sandwiching the molten synthetic resin M between the laminated sheet 17 and the decorative fiber sheet 18 as shown in FIG. Can be changed as follows. For example, the sand laminating step is changed to a sand laminating step in which the molten synthetic resin M is sandwiched between the base material sheet on which the rewet adhesive layer 16 is not laminated and the decorative fiber sheet 18. The voucher base paper 10 may be manufactured by laminating the rewet adhesive layer 16 on the sheet.

Example 1
<Decorative fiber sheet>
The decorative fiber sheet was produced by making paper using a short net paper machine using Manila hemp (15 ° SR) and rayon (1.7 dtx, average fiber length 5 mm) as raw materials. The fiber composition of the decorative fiber sheet is 85% by mass of Manila hemp and 15% by mass of rayon. Table 1 shows the basis weight of the decorative fiber layer (decorative fiber sheet).

<Laminated sheet>
A base fiber sheet having a fiber composition of N-BKP of 100% by mass was produced by making paper using a short net paper machine using N-BKP (15 ° SR) as a raw material. A base sheet was produced by impregnating the base fiber sheet with an acrylic resin (NW-400, manufactured by Toagosei Co., Ltd.). Next, the laminated sheet was produced by apply | coating a rehumidification adhesive agent to a base material sheet using a roll coater. The rewet adhesive was prepared by mixing polyvinyl alcohol (manufactured by Nippon Synthetic Chemical Industry Co., Ltd., trade name: Gohsenol GL-05) and polyvinyl acetate (manufactured by Seiden Chemical Co., Ltd., trade name: Cybinol RM3). . The rewet adhesive contains 46.5% by mass of polyvinyl alcohol and 53.5% by mass of polyvinyl acetate in terms of solid content. Table 1 shows the basis weight of the base fiber layer (base fiber sheet), the impregnation amount of the acrylic resin, and the coating amount of the rewet adhesive layer (rewet adhesive).

<Base paper for certificate>
By performing a sand laminating step (indicated by “A” in the sand laminating step column in Table 1) for sandwiching the molten synthetic resin between the laminated sheet and the decorative fiber sheet, a voucher base paper was produced. LDPE was used as the molten synthetic resin. Table 1 shows the thickness of the synthetic resin film layer and the basis weight of the voucher base paper.

(Example 2)
In Example 2, a voucher base paper was produced in the same manner as in Example 1 except that the configuration of the laminated sheet was changed. In Example 2, base fiber sheets differing only in basis weight were produced in the same manner as in Example 1. This base fiber sheet was impregnated with an acrylic resin in the same manner as in Example 1. Furthermore, the base material sheet was produced by laminating | stacking an acrylic resin layer (Chubu Seiden Co., Ltd., brand name: Bunster SC290) on one main surface of this base fiber sheet. The acrylic resin layer was formed by applying an acrylic resin (manufactured by DIC Corporation, trade name: Boncoat 3380E) to the base sheet using a roll coater. Table 1 shows the coating amount of the acrylic resin layer. Next, in this base fiber sheet, a rewet adhesive layer was laminated on the other main surface opposite to the acrylic resin layer in the same manner as in Example 1 to produce a laminated sheet.

(Example 3)
In Example 3, the sand laminating process of Example 1 is replaced with a sand laminating process (indicated by “B” in the sand laminating process column in Table 1) in which the molten synthetic resin is sandwiched between the base sheet and the decorative fiber sheet. changed. After this sand laminating step, a voucher base paper was produced in the same manner as in Example 1 except that a rewet adhesive layer was laminated on the base sheet.

(Comparative Example 1)
In Comparative Example 1, a voucher base paper was prepared in the same manner as in Example 1 except that the acrylic resin impregnated in the base fiber sheet was omitted.

(Comparative Example 2)
In Comparative Example 2, a voucher base paper was produced in the same manner as in Example 1 except that the base sheet was omitted. The base paper for the voucher of Comparative Example 2 is obtained by laminating a synthetic resin film layer on the decorative fiber sheet using LDPE as a molten synthetic resin by an extrusion laminating method, and then laminating a rewet adhesive layer on the synthetic resin film layer. is there.

(Comparative Example 3)
In Comparative Example 3, a voucher base paper was produced in the same manner as in Comparative Example 2, except that the basis weight of the decorative fiber sheet was changed.

(Comparative Example 4)
In Comparative Example 4, a voucher base paper was produced in the same manner as in Example 1 except that the base sheet and the synthetic resin film layer were omitted. The voucher base paper of Comparative Example 4 is obtained by laminating a rewet adhesive layer on a decorative fiber sheet.

(Comparative Example 5)
Comparative Example 5 is the current certificate base paper. The voucher base paper of Comparative Example 5 contains a first main surface formed by laminating a rewet adhesive layer on a base material of wood pulp (basis weight 66 g / m ² , L-BKP 100%), and a pigment. And a second main surface formed by applying a coating liquid.

(Evaluation of curl suppression)
The following curl tests were performed using samples of the voucher base paper of each example.
In the curl test, first, a sample paper for a voucher cut to A4 size (longitudinal direction of the sample: MD) was conditioned for 2 hours or more in an atmosphere of 23 ° C. and 50% RH, and then the sample was heated with hot air of 40 ° C. Heated in the dryer for 1 minute. The heated sample was placed in an atmosphere of 23 ° C. and 50% RH so that the second main surface was superposed on a flat table, and left as it was for 5 minutes.

The curled state of the sample after the curl test was first classified into the following curls A and curls B.
Curl A: A state in which the long sides opposite to the sample are displaced upward. Curl B: A state in which the short sides opposite to the sample are displaced upward. For the sample of curl A, the grounding length of one short side and the flat table, and When the contact length between the other short side and the flat table was 14 cm or more, the evaluation point was 1 point, and when it was less than 14 cm, the evaluation point was 0 point. For the curl A sample, if the height from the flat table at both ends of one long side and the height from the flat table at both ends of the other long side are both 2 cm or less, an evaluation score is given. If it is 1 point and exceeds 2 cm, the evaluation point is 0 point.

  For the sample of curl B, if the contact length between one long side and the flat table and the contact length between the other long side and the flat table are both 20 cm or more, the evaluation point is one point and less than 20 cm In this case, the evaluation score was 0. For the curl B sample, if both the height from the flat table at both ends of one short side and the height from the flat plate at both ends of the other short side are both 2 cm or less, the evaluation points If it is 1 point and exceeds 2 cm, the evaluation point is 0 point.

Judging from the total score of the above evaluation points, the following criteria were used. The results are shown in Table 1.
Excellent curl suppression effect (◎): When the total score of the above evaluation points is 2 Good curl suppression effect is good (○): When the total score of the above evaluation points is 1 curl suppression effect is not obtained (×) : When the total score of the above evaluation points is 0 (Rewet adhesion evaluation)
After attaching the water to the first main surface of the sample obtained by cutting the voucher base paper of each example into a size of 26 mm × 22 mm using a commercially available stamp wetting device (R-35, manufactured by Open Industry Co., Ltd.), Pasted on copy paper. At this time, the adhesive strengths of the samples of Examples 1 to 3 and Comparative Examples 1 to 4 and the sample of Comparative Example 5 were compared and evaluated according to the following criteria. The results are shown in Table 1.

Good rewet adhesiveness (O): Adhesive strength is almost the same as the sample of Comparative Example 5.
Poor rewet adhesiveness (x): Adhesive force is clearly inferior to the sample of Comparative Example 5.
(Evaluation of suitability for perforation)
After the humidity of the sample sample paper for each example in an atmosphere of 23 ° C. and 50% RH, a commercially available punch (manufactured by Lion Corporation, “Punch 2 hole No. 32”) was used to A through hole was formed from the main surface side. The inner peripheral edge of the through hole was magnified 30 times with a magnifier, and the number of fibers protruding from the inner peripheral edge was counted. The number of fibers was counted using four through holes formed at different positions, and evaluated based on the following criteria based on the total number of fibers. The results are shown in Table 1.

The number of fibers in Comparative Example 5 is represented by A (book), and the number of fibers in each of the other examples is represented by B (book).
Good spotting ability (◯): B ≦ A × 1.2
Slight aptitude is slightly inferior (Δ): A × 1.2 <B ≦ A × 2.0
Poor eye-coating suitability (×): A × 2.0 <B

In the voucher base paper of Comparative Examples 1 and 4, sufficient rewetting adhesion was not obtained. In the voucher base papers of Comparative Examples 2 and 3, curling was greatly curved with the first main surface side being inward. In the voucher base papers of Examples 1 to 3, the curl suppressing effect, the rewet adhesiveness, and the perforation suitability were all good or excellent.

(Comparison of texture)
About the sample of the slip base paper of Examples 1 to 3 and the sample of the slip base paper of Comparative Example 5, Beck smoothness (JIS P8119 (1998)), glossiness (JIS P8142 (2005)), ISO whiteness (JIS) P8148 (2001)) and arithmetic average surface roughness (JIS B0601 (2013)) were measured. Each measurement targets the second main surface. The results are shown in Table 2.

From the measurement results shown in Table 2, it can be seen that the voucher base paper of Examples 1 to 3 has a texture of Japanese paper unlike the voucher base paper of Comparative Example 5.

DESCRIPTION OF SYMBOLS 10 ... Base paper for certificates, 11 ... 1st main surface, 12 ... 2nd main surface, 13 ... Base material layer, 14 ... Decorative fiber layer, 15 ... Synthetic resin film layer, 16 ... Rewetting adhesive layer, 17 ... Laminated sheet , 18 ... decorative fiber sheet, M ... molten synthetic resin.

Claims (3)

A voucher base paper having a first main surface having rewet adhesiveness and a second main surface on the opposite side of the first main surface, on which a printing layer is laminated,
A base material layer having a base fiber layer containing wood pulp and an acrylic resin impregnated in the base fiber layer;
A decorative fiber layer containing non-wood fibers and regenerated fibers of at least one of bast fibers and vein fibers;
A synthetic resin film layer that is bonded to the base material layer and the decorative fiber layer;
The first main surface is constituted by a rewet adhesive layer laminated on the base material layer,
The voucher base paper, wherein the second main surface is constituted by the decorative fiber layer. The content of the softwood pulp in the fibers constituting the base fiber layer is 90% by mass or more,
The content of the non-wood fiber in the fibers constituting the decorative fiber layer is in the range of 70% by mass to 95% by mass, and the content of the regenerated fiber is 5% by mass to 30% by mass. With the following range:
2. The voucher base paper according to claim 1, wherein the synthetic resin film layer has a thickness of 10 μm or more and 30 μm or less. A method for producing the voucher base paper according to claim 1 or 2,
A laminated sheet in which the base material layer and the rewet adhesive layer are laminated, and a sand laminating step of sandwiching a molten synthetic resin between the decorative fiber sheet to be the decorative fiber layer, A synthetic paper film layer is formed between a base material layer and the decorative fiber layer.