JP2019010366A - Toilet roll for shower toilet - Google Patents

Abstract

To provide a toilet roll for shower toilet which is excellent in water absorption, and which requires low exchange frequency, and which has good quality.SOLUTION: There is provided a toilet roll 1 which is laminated in a two-ply manner, and formed by winding toilet paper 1x on which an embossment pattern is applied, into a roll state in which the embossment pattern is a double embossment pattern provided on each of the two-ply manner, a basis weight for one sheet of the toilet paper 1x is 13 g/mor more and 19 g/mor less, paper thickness is 1.2 mm/10 sheets or more 1.9 mm/10 sheets or less, wound length is 20 m or more and 40 m or less, a wound diameter DR is 104 mm or more and 120 mm or less, and a roll density is 0.52 m/cmor more and 0.92 m/cmor less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a toilet roll for a shower toilet in which toilet paper laminated on two plies is wound into a roll.

  In recent years, shower toilets have become popular in Japan, and toilet rolls for shower toilets are also on the market. Toilet rolls for shower toilets are required to have a property that they absorb more water and are not easily torn compared to normal toilet rolls. Therefore, in a toilet roll for a shower toilet, a method of increasing the water absorption of the toilet roll by creating an air layer between sheets by so-called double embossing, which is separately embossed on each base paper of two plies. It is used for.

Regardless of whether it is for a shower toilet, in order to ensure texture, ease of wiping, absorbability, etc., a toilet roll that has been subjected to double embossing has been studied. For example, Patent Document 1 discloses a toilet roll having a double embossing process and having two or more layers, and a winding density of 0.820 m / cm ² or more and 0.970 m / cm ² or less. It is disclosed. Patent Document 2 discloses a two-ply structure in which a pair of paper sheets having the same embossed pattern are joined and integrated so that the embossed convex surfaces of each paper sheet face each other close to each other. The above toilet roll is disclosed. Further, in Patent Document 3, in a toilet roll in which two or more thin papers are stacked, at least one thin paper has an emboss, and an adhesive applied to the top of the convex part of the emboss is attached to the adjacent thin paper. A toilet roll characterized in that the adhesive used for bonding the thin papers is an aqueous adhesive base colored with an aqueous colorant is disclosed.

Japanese Patent Laid-Open No. 2003-199687 Japanese Patent Laid-Open No. 2003-116741 JP 2009-178454 A

  However, in a toilet roll that has been subjected to double embossing, the roll must be gently wound so that the embossing is not crushed and the paper thickness is reduced. In some cases, it exceeded 120 mm and could not fit in a household toilet paper holder. Therefore, the toilet roll for shower toilets has a problem that the winding length is short and the frequency of roll replacement is high compared to a normal toilet roll. Therefore, this invention is made | formed in view of the above subject, and it aims at providing the toilet roll for shower toilets which is strong, is excellent in water absorption, and has a low replacement frequency.

  The inventors of the present invention have intensively studied to solve the above problems. As a result, the inventors have found that the above problems can be solved by adjusting the specific parameters, the composition of raw materials, and the embossing depth, and have completed the present invention. Specifically, the present invention provides the following.

(1) A first aspect of the present invention is a toilet roll in which toilet paper laminated on two plies and provided with an emboss pattern is wound into a roll shape, and the emboss pattern is provided on each of the two plies. Double embossed pattern, the basis weight per sheet of toilet paper is 13 g / m ² or more and 19 g / m ² or less, and the paper thickness is 1.2 mm / 10 sheets or more and 1.9 mm / 10 sheets or less. , winding length is more than 20 m 40 m or less, the winding diameter of less 120mm or 104 mm, the winding density of 0.52 m / cm ² or more 0.92 m / cm ² or less, it is a shower toilet toilet rolls.

  (2) A second aspect of the present invention is a toilet roll for a shower toilet according to (1), wherein the toilet paper has a longitudinal tensile strength DMDT of 400 gf / d in the drying direction based on JIS P 8113. The tensile strength DCDT in the transverse direction at the time of drying is 90 gf / 25 mm or more and 230 gf / 25 mm or less.

  (3) A third aspect of the present invention is the toilet roll for a shower toilet according to (1) or (2), characterized by containing 20% by mass or more and 60% by mass or less of softwood bleached kraft pulp. To do.

  (4) A fourth aspect of the present invention is the toilet roll for a shower toilet according to any one of (1) to (3), wherein an emboss pattern has a depth of 100 μm or more and 300 μm or less. It is what.

(5) A fifth aspect of the present invention is the toilet roll for a shower toilet according to any one of (1) to (4), wherein the softness TS7 by the tissue softness measuring device TSA for toilet paper is 11 dBV. ² rms or more and 25 dBV ² rms or less, smoothness TS750 is 16 dBV ² rms or more and 40 dBV ² rms or less, and rigidity D is 2.2 mm / N or more and 3.4 mm / N or less.

  According to the present invention, it is possible to provide a high-quality toilet roll for a shower toilet that is strong, excellent in water absorption, and low in replacement frequency.

It is a perspective view which shows the external appearance of the toilet roll for shower toilets of this invention. It is a figure which shows the picked-up image of the embossing pattern on the roll surface. It is a figure which shows the measuring method of the depth of an embossing pattern. It is a figure which shows the measuring method of the depth of an embossing pattern. It is a figure which shows the measuring method of the depth of an embossing pattern. It is a figure which shows the measuring method of the depth of an embossing pattern. It is a figure which shows the picked-up image of the inferior goods which the inner winding side of the roll protruded in the axial direction. It is a figure which shows typically a mode that arbitrary 10 embossing is selected when measuring the depth of an embossing pattern. It is a figure which shows the process of an embossing process.

  Hereinafter, embodiments of the present invention will be described in detail. However, the following embodiments are presented for illustrative purposes, and the present invention is not limited to the embodiments described below.

<Toilet roll for shower toilet>
A toilet roll 1 for a shower toilet according to the present invention is a toilet roll in which toilet paper 1x laminated on two plies and provided with an embossing pattern is wound into a roll shape as shown in FIGS. The pattern is a double embossed pattern provided on each of two plies, the basis weight per sheet of toilet paper 1x is 13 g / m ² or more and 19 g / m ² or less, and the paper thickness is 1.2 mm / 10 sheets or 1.9 mm / is 10 sheets or less, the winding length of 20m or more 40m or less, the winding diameter DR is 104mm or more 120mm or less, the winding density of 0.52 m / cm ² or more 0.92 m / cm ² or less, it is.

  Of the surface of the toilet paper 1x, the surface directed toward the roll outer side is referred to as a roll surface 1a (the surface of the toilet paper 1x), and the surface directed toward the roll center is referred to as a roll back surface 1b (the back surface of the toilet paper 1x). .

[Wind length]
When the roll length of the toilet roll 1 for a shower toilet is 20 m or more and 40 m or less, the replacement frequency of the toilet roll 1 for a shower toilet can be lowered. Moreover, in order to make the replacement frequency of the toilet roll for shower toilets lower, the winding length is preferably 27 m or more and 40 m or less, and more preferably 30 m or more and 40 m or less.

[Winding diameter]
Since the roll diameter DR of the toilet roll 1 for the shower toilet is 104 mm or more and 120 mm or less, the toilet roll 1 for the shower toilet can be easily attached to the toilet paper holder while maintaining the roll length of the toilet roll 1 for the shower toilet within a suitable range. It will be housed in. In addition, by making the winding diameter DR within the above range, a high-quality appearance can be obtained. Further, the winding diameter DR is preferably 108 mm or more and 120 mm or less, and more preferably 112 mm or more and 120 mm or less.

[Winding density]
In the present invention, the winding density of the shower toilet toilet rolls 1 is 0.52 m / cm ² or more 0.92 m / cm ² or less. Here, if the roll is wound too hard, an excessive press is applied to the inner roll toilet paper 1x, and the embossing provided on the inner roll toilet paper 1x is crushed, resulting in a decrease in cosmetic properties during use. On the other hand, if the roll is wound too weakly, the emboss is not crushed, but the roll diameter DR becomes large, making it difficult to attach the toilet roll 1 for the shower toilet to the toilet paper holder, and the winding force of the inner roll is weak. Thus, as shown in the photograph of FIG. 7, the inner winding side of the roll protrudes in the axial direction, resulting in a defective product. For this reason, in this specification, the winding density is defined as a factor for expressing the winding strength of the roll.

  The winding density is expressed by (winding length × number of plies) ÷ (cross-sectional area of roll). The cross-sectional area of the roll is represented by {the cross-sectional area of the outer diameter (rolling diameter DR) portion of the roll}-(the cross-sectional area of the core outer diameter DI portion). The core outer diameter DI is the diameter of the center hole of the roll.

For example, in the case of a winding length of 36 m, 2 plies, a winding diameter of DR 116 mm, and an outer diameter of the core of 39 mm, the winding density = (36 m × 2) ÷ {3.14 × (116 mm ÷ 2 ÷ 10) ² −3.14 × (39 mm ÷ 2 ÷ 10) ² } = 0.77 m / cm ² . When the toilet roll 1 has no core, the diameter of the center hole is the core outer diameter DI.

By winding density is 0.52 m / cm ² or more 0.92 m / cm ² or less, is maintained winding diameter DR is in an appropriate range, shower toilet toilet rolls 1, easily fits into toilet paper holder etc. At the same time, the winding force of the inner winding becomes appropriate, the inner winding side of the roll protrudes in the axial direction (poor shape retention of the roll is inferior), does not become a defective product, and the softness of the sheet is also suitably maintained. In addition, the embossing provided on the toilet paper 1x is not crushed, the cosmetics at the time of use is maintained, and the satisfaction is improved. Winding density is preferably at 0.60 m / cm ² or more 0.87 m / cm ² or less, and more preferably 0.70 m / cm ² or more 0.82 / cm ² or less.

[Basis weight]
The basis weight per sheet of toilet paper 1x is 13 g / m ² or more and 19 g / m ² or less, and the paper thickness at this time is 1.2 mm / 10 or more and 1.9 mm / 10 or less. When the basis weight and the paper thickness are within the above ranges, the winding length, the winding diameter DR, and the winding density can be easily adjusted to the above ranges. As a method of adjusting the basis weight and paper thickness per 1 sheet of toilet paper to the above range, the calender conditions of the base paper web (paper thickness and specific volume after calendering, paper thickness difference before and after calendering) and embossing conditions Can be mentioned.

The basis weight and paper thickness per sheet of toilet paper 1x are within the above ranges, so that the strength and feeling of use (bulkiness) of toilet paper 1x are suitably maintained and the toilet paper 1x The winding diameter DR is also maintained in an appropriate range, so that it is easy to fit in the toilet paper holder. Moreover, the toilet paper 1x and the toilet roll 1 for shower toilets which have a volume feeling and are not very stiff can be obtained. The basis weight per sheet of toilet paper 1x is preferably 14 g / m ² or more and 18 g / m ² or less, and more preferably 15 g / m ² or more and 17 g / m ² or less. The toilet paper 1x has a paper thickness of preferably 1.3 mm / 10 or more and 1.8 mm / 10 or less, and more preferably 1.4 mm / 10 or more and 1.7 mm / 10 or less.

[Emboss pattern]
The toilet roll 1 (toilet paper 1x) for the shower toilet of the present invention is embossed and has an emboss pattern. The embossing pattern according to the present invention is a so-called double ply, in which each sheet on the front and back sides of the toilet paper 1x is embossed, and then the embossed surfaces of each sheet are plyed up to make two plies. Embossed. By making such an emboss pattern into such a double emboss pattern, an air layer can be formed between sheets, the water absorption of the toilet roll can be increased, and a toilet roll suitable for a shower toilet can be obtained. In addition, when two-ply lamination is performed, ply bond glue (glue) or knurling (edge embossing) can be used, but it is preferable to use ply bond glue from the viewpoint of difficulty in crushing the emboss.

  In the toilet roll 1 for a shower toilet according to the present invention, the depth of the embossed pattern is preferably 100 μm or more and 300 μm or less. Since the depth of the embossed pattern is within the above range, the embossed pattern is not easily crushed even if the roll is wound hard, the degree of unevenness of the embossed pattern is suitably maintained, and the volume of the toilet paper 1x is moderate. Thus, the softness of the sheet can be suitably maintained, and the toilet roll 1 for the shower toilet can be easily attached to the toilet paper holder. The depth of the emboss pattern is more preferably 120 μm or more and 280 μm or less, and further preferably 150 μm or more and 250 μm or less.

  The depth of the emboss pattern can be controlled by appropriately adjusting the nip width of the rubber roll 4 facing the emboss roll 3 in the step of embossing as shown in FIG. The nip width varies depending on the roll characteristics, but is preferably 20 mm to 50 mm, more preferably 25 mm to 45 mm, and still more preferably 30 mm to 40 mm. By making the nip width within the above range, the difference between the front and back of the embossed pattern is properly maintained, the paper thickness is suitably maintained, the roll winding diameter DR is appropriate, and the softness of the sheet Is also preferably maintained. The nip width can be measured using carbon paper. As a measuring method, first, the nip of the embossing roll 3 is released, and carbon paper and general copy paper are stacked and set. Next, a nip is put on the embossing roll 3. Then, let the nip escape and remove the carbon paper and copy paper. Since the color of the carbon paper where the nip was applied by the embossing roll 3 is transferred to the copy paper, the nip width can be measured. In addition, it is preferable that the material of the embossing roll 3 is a metal.

  The depth of the embossing pattern can be adjusted by narrowing the nip width if the embossing rolls are deep, and increasing the nip width if the embossing rolls are shallow. Further, the strength of winding the roll can be adjusted so as to ensure the depth of the embossed pattern. For example, when the depth of the emboss pattern is increased, the emboss pattern is easily crushed when the roll is wound. Therefore, the depth of the emboss pattern can be adjusted by reducing the strength of winding the roll.

  The depth of the emboss pattern is obtained by measuring the height difference of the emboss pattern using a microscope. In addition, it measures from each of roll surface 1a and roll back surface 1b, and let the value of the surface with a larger measured value be the depth of the final emboss pattern.

  As the microscope, the product name “One-shot 3D measurement macroscope VR-3100” manufactured by KEYENCE can be used. As the microscope image observation / measurement / image analysis software, the product name “VR-H1A” can be used. Measurement is performed under the conditions of a magnification of 12 times and a visual field area of 24 mm × 18 mm. In addition, you may change a measurement magnification and a visual field area suitably according to the magnitude | size of the embossing pattern calculated | required.

  First, as shown in FIG. 3, the longest part a of the peripheral fr of the emboss pattern is obtained. FIG. 4A shows a height profile on the XY plane by a microscope, and it can be seen that the height of the surface of the toilet paper 1x is expressed by shading. 4A shows individual emboss patterns, and the longest part a of one emboss pattern can be distinguished from FIG. 4A. When a line segment A-B crossing the longest portion a is drawn, a height (measured cross-section curve) profile of the emboss pattern is obtained as shown in FIG. Here, since the convex portion (non-embossed portion) and the concave portion of the embossed pattern can be recognized by the color density of the XY plane image, the line segment AB is crossed so that the convex portion and the concave portion are adjacent to each other. Just decide.

  Here, the height profile in FIG. 4 (b) is a (measurement) cross-sectional curve T representing the unevenness of the sample surface of the actual toilet paper 1x, but noise (a fiber lump is present on the surface of the toilet paper 1x, The fiber also includes a beard-like shape or a steep peak due to a portion having no fiber), and it is necessary to remove such a noise peak when calculating the level difference of the unevenness. Therefore, as shown in FIG. 5, a “contour curve” U is calculated from the cross-sectional curve T of the height profile, and two inflection points P1 and P2 that are convex upward in the contour curve U, and the inflection The minimum value sandwiched between the points P1 and P2 is obtained and set as the minimum value Min of the depth. Further, the average value of the depth values of the inflection points P1 and P2 is set as the maximum value Max.

  In this way, the depth of the embossed pattern = maximum value Max−minimum value Min, and the distance (length) on the XY plane of the inflection points P1 and P2 is defined as the length of the longest portion a. The “contour curve” is λc: 800 μm from the sectional curve T (where λc is a “filter that defines the boundary between the roughness component and the swell component” described in JIS-B0601 “3.1.1.2”). ) A curve obtained by removing a surface roughness component having a shorter wavelength by a low-pass filter. Note that if λc is set to be equal to or larger than the interval P1 between adjacent emboss patterns (this is referred to as an emboss pitch), the peak may be recognized as noise, so λc is set to be less than the emboss pitch. For example, when the emboss pitch is 800 μm or less, for example, λc is set to 250 μm. The P1 interval between adjacent embossed patterns is similarly determined as P1 and P2 for the next embossed pattern connected to the left or right in FIG. 5, and two P1s when adjacent embossed patterns are aligned with P1, P2, and P1. Is the interval.

  Similarly, the depth of the emboss pattern is measured for the longest portion b in the direction perpendicular to the longest portion a in FIG. 4A, and the larger one of the depths of the emboss patterns of the longest portions a and b. Is adopted as the depth of the embossed pattern. The above measurement is performed on any ten embossed patterns 2 (see FIG. 8) on the roll surface 1a and the roll back surface 1b of the toilet paper 1x, and the average value is calculated as the depth of the emboss pattern on each of the roll surface 1a and the roll back surface 1b. Finally, as described above, the emboss pattern depth is defined as the value of the surface having the larger measured value of the roll surface 1a and the roll back surface 1b. For the longest part a and the longest part b, values obtained by averaging the values of individual a and b for the ten embossed patterns 2 of the toilet paper 1x described above are used. However, as shown in FIG. 6, when the embossed pattern is connected in the flow direction (MD direction), the longest part a becomes the same as the winding length, the height difference is not obtained, and the depth of the recess is measured. Can not. Therefore, the line segment A-B can be drawn across the emboss pattern in the width W direction orthogonal to the direction in which the emboss pattern is connected (MD direction), and the depth of the recess can be measured. Similarly, when the emboss pattern is connected in the width W direction (CD direction), a line segment A-B is drawn across the emboss pattern in the flow direction (MD direction), and the depth of the recess is measured.

  The shape of the emboss pattern is not particularly limited, such as a rectangle, a square, a round shape, or a long round shape. In addition, the winding diameter DR and the winding density can be adjusted by appropriately adjusting the size of the embossing pattern and the area ratio (number) of the embossing pattern described above.

  Further, when determining the depth of the embossed pattern, when selecting any ten embossed patterns 2, as shown in FIG. 8, the edge of the outermost roll of toilet paper 1x of the toilet roll 1 for a shower toilet From 1e, any ten emboss patterns 2 at a predetermined position M1 corresponding to a roll length 20% of the toilet roll 1 for a shower toilet are selected. At this time, it is not necessary that the center of the embossed pattern 2 passes through the position M1, and the embossed pattern 2 on the position M1 may be placed in the field of view of the above-described microscope to determine the longest portions a and b.

  When there are less than 10 embossing patterns 2 on the position M1, the group 2F of the embossing pattern 2 on the outer winding side adjacent to the embossing pattern 2 on the position M1 or the inner side adjacent to the embossing pattern 2 on the position M1. An insufficient number of embosses may be selected from the group 2E of the emboss pattern 2 on the winding side. When the position M1 is a perforation, measurement is performed on a group of embossed patterns 2 on the outer winding side adjacent to the perforation.

[Core outer diameter]
Further, the core outer diameter DI, which is the outer diameter of the core of the toilet roll 1 for shower toilets of the present invention, is preferably 25 mm or more and 48 mm or less, more preferably 35 mm or more and 46 mm or less, and 37 mm or more and 43 mm or less. More preferably. When the core outer diameter DI is within the above range, the toilet roll 1 for the shower toilet can be easily stored in the toilet paper holder while suitably maintaining the winding density of the toilet roll 1 for the shower toilet. In addition, the handleability of the toilet roll 1 for a shower toilet at the time of manufacture is also improved. Further, the weight of the core of the toilet roll 1 for a shower toilet is preferably 2.8 to 5.5 g, more preferably 3.5 to 5.0 g, and 4.0 to 4.6 g. More preferably. By setting the core mass within the above range, it is possible to realize good core strength and core cost suitable for the long toilet roll 1 for a shower toilet as in the present application. The mass of the core is a mass having a roll width of 114 mm, and the mass of the core other than 114 mm can be calculated by proportional calculation.

[Specific volume]
The specific volume of the toilet paper 1x is preferably 7.5 cm ³ / g or more and 12.0 cm ³ / g or less. When the specific volume of the toilet paper 1x is within the above range, the sheet becomes soft, the bulk (bulk height) is suitably maintained, and the moisture absorption is well maintained. The winding diameter DR does not become too large. The specific volume is more preferably 8.1 cm ³ / g or more 11.3cm is ³ / g or less, more preferably 8.7cm ³ / g or more 10.7 cm ³ / g or less.

[DMDT, DCDT]
DMDT (Dry Machine Direction Tensile Strength) is the tensile strength in the vertical direction when drying toilet paper 1x (sheet laminated on 2 plies) according to JIS P 8113, and DCDT (Dry Cross) is the tensile strength in the horizontal direction when drying. DMDT is preferably 400 gf / 25 mm or more and 1000 gf / 25 mm or less, more preferably 500 gf / 25 mm or more and 900 gf / 25 mm or less, and 600 gf / 25 mm or more and 800 gf / 25 mm or less when (Direction Tensile Strength) is used. Is more preferable. The DCDT is preferably 90 gf / 25 mm or more and 230 gf / 25 mm or less, more preferably 110 gf / 25 mm or more and 190 gf / 25 mm or less, and further preferably 130 gf / 25 mm or more and 170 gf / 25 mm or less. When DMDT and DCDT are within the above range, the sheet is hardly torn and the paper is strong when touched. In addition, the measurement of tensile strength is performed on conditions with a tensile speed of 300 mm / min. The tensile strength can be adjusted by a known method.

  In the above description, the flow direction of the toilet paper 1x is referred to as “longitudinal direction”, and the direction perpendicular to the flow direction is referred to as “lateral direction”.

[Softness TS7, Smoothness TS750, Rigidity D]
The intensity (TS7) of the maximum peak of the spectrum including 6500 Hz, which is automatically acquired by software on a tissue softness measuring apparatus TSA (manufactured by emtec; Tissue Softness Analyzer) of toilet paper 1x, is 11 dBV ² rms to 25 dBV ² rms. or less, it is preferably not more than 13dBV ² rms or more 23dBV ² rms, and more preferably 15dBV ² rms or more 21dBV ² rms or less. This TS7 is an index of the softness of the toilet paper 1x. When TS7 is within the above range, the softness of the toilet paper 1x and the toilet roll 1 for shower toilets is maintained in a well-balanced manner.

Furthermore, for the toilet paper 1x, the intensity of the maximum peak (TS750) of the first spectrum from the low frequency side automatically acquired by software on the TSA is 16 dBV ² rms or more and 40 dBV ² rms or less, and 20 dBV ² rms. more 36dBV is preferably ² rms or less, and more preferably less 24dBV ² rms or more 32dBV ² rms. This TS750 is an index of the smoothness of the toilet paper 1x, and when the TS750 is within the above range, the smoothness of the toilet paper 1x and the toilet roll 1 for the shower toilet is maintained in a balanced manner.

  In addition, when the toilet paper 1x is pushed in from the top by the tissue softness measuring device TSA with a pushing pressure of 100 mN and 600 mN without rotating the bladed rotor against the sample of the toilet paper 1x installed on the sample table. The measured value of rigidity D expressed by the vertical displacement amount of the sample between the indentation pressures of 100 mN and 600 mN is 2.2 mm / N or more and 3.4 mm / N or less, and 2.4 mm / N It is preferably 3.2 mm / N or less, more preferably 2.6 mm / N or more and 3.0 mm / N or less. When D is within the above range, the cushioning property of the toilet paper 1x is maintained in a well-balanced manner.

  The measuring method of TS7, TS750 and D using the tissue softness measuring device TSA and the measuring device used therefor are described in detail in, for example, Japanese Patent Application Laid-Open No. 2013-236904. For various measurement methods using the tissue softness measuring device TSA, see the above-mentioned patent document. TS750, TS7 and D are also measured using a sample of toilet paper 1x at a position corresponding to 20% of the roll length of the toilet roll 1 for shower toilets from the edge 1e of the outermost roll of toilet paper 1x. The surface is the same as the surface adopted as the depth of the emboss pattern.

[Water absorption]
The water absorption based on the old JIS S 3104 of the toilet paper 1x (sheet laminated on 2 plies) is preferably 7.0 seconds or less, more preferably 5.0 seconds or less, and 3.0 seconds. More preferably, it is as follows. The water absorption is preferably a short time, and the water absorption is favorably maintained by being within the above time range. In addition, when dripping water, it is dripped at the surface side of the toilet paper 1x.

[Ease of loosening]
The ease of loosening based on JIS P 4501 when the toilet paper 1x is peeled on one sheet is preferably 8.0 seconds or more and 60.0 seconds or less, and is 8.0 seconds or more and 45.0 seconds or less. Is more preferable, and it is still more preferable that it is 8.0 second or more and 30.0 second or less. The ease of unraveling is preferably a short time, and by being within the above-mentioned time range, the water disintegration property in the toilet is well maintained, and the water resistance when the toilet paper 1x in the shower toilet gets wet with water is also good. Become good.

<Toilet paper>
Toilet paper 1x may be composed of 100% by weight of wood pulp, and may include waste paper pulp, non-wood pulp, deinked pulp, liquid beverage paper pack waste paper, etc., but is 50% or less from the viewpoint of quality. It is preferable. In order to obtain the target quality, the content of NBKP (conifer bleached kraft pulp) is preferably 20% by mass to 60% by mass, more preferably 30% by mass to 50% by mass, More preferably, it is 35 mass% or more and 45 mass% or less. The content of LBKP (hardwood bleached kraft pulp) is preferably 40% by mass or more and 80% by mass or less, more preferably 50% by mass or more and 70% by mass or less, and 55% by mass or more and 65% by mass or less. More preferably.

  In addition, as said LBKP, the pulp formed from the genus Eucalyptus eucalyptus represented by Eucalyptus genus Grandis and Eucalyptus globulae is preferable.

  In addition, in order to ensure an appropriate strength for the toilet paper 1x, the strength can be adjusted by blending raw materials by ordinary means and performing a pulp fiber beating process. The beating to obtain the target quality is a Canadian standard freeness measured according to JIS P 8121 with respect to commercially available virgin pulp, and the difference in freeness before and after the beating is 0 ml or more and 150 ml or less, more preferably An example of the beating treatment is 10 to 100 ml, more preferably 20 to 70 ml.

  Toilet paper 1x, when virgin raw materials are used for the stock, soft paper kraft pulp and hardwood kraft pulp having a certain range of fiber length and fiber roughness can be blended in a specific range to make paper. Additives to paper stocks include softeners including debonder softeners, bulking agents, dyes, dispersants, dry paper strength enhancers, drainage improvers, pitch control agents, absorbency, depending on the required quality of the final product. An improver or the like can be used. It is preferred not to use a wet paper strength enhancer. Even when the waste paper raw material is used for the stock of the toilet paper 1x, the same process as in the case of the virgin system is performed.

[Toilet paper manufacturing method]
The toilet paper 1x can be manufactured, for example, in the order of (1) papermaking and creping, (2) embossing (see FIG. 9), and (3) roll winding processing. At the time of ply-up, each sheet on the front and back sides of the toilet paper 1x is embossed, and then the ply-up is performed with the embossed convex surfaces of the respective sheets inward to form two plies. When two-ply lamination is performed, ply bond glue (glue) or knurling (edge embossing) can be used.

  It goes without saying that the present invention is not limited to the above-described embodiment, and extends to various modifications and equivalents included in the spirit and scope of the present invention.

  The NBKP and LBKP contents are blended so as to be the numerical values described in Tables 1 and 2, (1) Papermaking and creping, (2) Embossing (see Fig. 9), (3) Roll winding process Through the steps, the toilet paper and shower toilet rolls of Examples 1 to 13 and Comparative Examples 1 to 8 were manufactured.

  The following evaluation was performed.

  Basis weight: measured based on JIS P8124 and converted per sheet.

  Paper thickness: measured using a thickness gauge (a dial thickness gauge “PEACOCK” manufactured by Ozaki Seisakusho). The measurement conditions were a measurement load of 3.7 kPa and a probe diameter of 30 mm. A sample was placed between the probe and the measurement table, and the gauge was read when the probe was lowered at a speed of 1 mm or less per second. Five sets of toilet papers each having a sheet laminated on 2 plies were stacked, and measurement was performed for 10 sheets. The measurement was repeated 10 times and the measurement results were averaged.

  Longitudinal tensile strength during drying DMDT and transverse tensile strength during drying DCDT: Based on JIS P 8113, the maximum load until break was measured in units of gf / 25 mm for toilet paper laminated to 2 plies. . The tensile strength was measured under the condition of a tensile speed of 300 mm / min.

  Roll winding diameter DR, core outer diameter DI: Measured using a Diameter Rule manufactured by Muratec KDS Corporation. The measurement measured 10 rolls and averaged the measurement results.

  The winding density of the roll, the depth of the embossed pattern, the softness TS7, the smoothness TS750, and the rigidity D were measured by the methods described above. In addition, the winding density of the roll measured 10 rolls used for the measurement of the roll diameter DR of the roll, and averaged the measurement results.

  Winding length: About the sheet | seat between the perforation of a toilet roll, the length for 10 sheets was measured. Thereafter, the number of sheets of the roll was measured, and the winding length was obtained by proportional calculation from the length of 10 sheets and the number of sheets. For example, when the length of 10 sheets is 1.14 m and the number of sheets is 316 sheets, 1.14 m × (316/10) = 36 m. When there was no perforation, the winding length was obtained by actual measurement.

Sensory evaluation was performed by 20 monitors. The evaluation standard was a perfect score. If the evaluation criteria is 3 points or more, it is good.
In addition, said measurement was performed after hold | maintaining in an equilibrium state on the temperature / humidity conditions (23 +/- 1 degreeC, 50 +/- 2% RH) prescribed | regulated to JISP8111.

  The obtained results are shown in Tables 1 and 2.

  From the above, the toilet roll for shower toilets of the present invention has less wrinkle feeling, the frequency of changing the roll is low, it is easy to attach to the toilet paper holder, and the feeling of use, volume, luxury, satisfaction, and robustness of paper It can be seen that the thickness, softness, smoothness and cushioning properties are good.

DESCRIPTION OF SYMBOLS 1 Toilet roll for shower toilets 1a Roll surface 1b Roll back surface 1e The outermost edge of toilet paper 1x Toilet paper 2 Emboss pattern 3 Emboss roll 4 Rubber roll

Claims (5)

A toilet roll that is laminated on two plies and wound with a roll of toilet paper with an embossed pattern,
The embossed pattern is a double embossed pattern provided on each of the two plies,
The basis weight per sheet of toilet paper is 13 g / m ² or more and 19 g / m ² or less, the paper thickness is 1.2 mm / 10 or more and 1.9 mm / 10 or less,
Winding length over 20 m 40 m or less, the winding diameter of less 120mm or 104 mm, the winding density of 0.52 m / cm ² or more 0.92 m / cm ² or less, a shower toilet toilet rolls.   Toilet paper based on JIS P 8113, the longitudinal tensile strength DMDT when dried is 400 gf / 25 mm or more and 1000 gf / 25 mm or less, and the transverse tensile strength DCDT when dried is 90 gf / 25 mm or more and 230 gf / 25 mm or less, The toilet roll for shower toilets according to claim 1, wherein   The toilet roll for shower toilets of Claim 1 or 2 which contains 20 to 60 mass% of softwood bleached kraft pulp.   The toilet roll for shower toilets according to any one of claims 1 to 3, wherein an emboss pattern has a depth of 100 µm or more and 300 µm or less. The softness TS7 is 11 dBV ² rms or more and 25 dBV ² rms or less, the smoothness TS750 is 16 dBV ² rms or more and 40 dBV ² rms or less, and the rigidity D is 2.2 mm / N or more and 3.4 mm / N or less, The toilet roll for shower toilets in any one of Claim 1 to 4.