JP2022006223A - Moisturizing tissue paper - Google Patents

Abstract

To increase functionality of moisturizing tissue paper.SOLUTION: Moisturizing tissue paper includes a sheet containing a moisturizing agent. The amount of the applied moisturizing agent is 25.0[%] or more. In a measurement method in which a spherical probe of a diameter of 16±0.2[mm] is pushed in a center of a circular frame body at a push-in speed of 125±5[mm/min] under a measurement state in which a test piece body obtained by superposing four pieces of the sheet is attached to the circular frame body of an inner diameter of 50[mm], dry burst strength which is the strength when the test piece body is broken through in a superposing direction of the sheet by the dry probe is 1.80[N/4 pieces] or more and is 3.00[N/4 pieces] or less.SELECTED DRAWING: None

Description

The present invention relates to a thin film sanitary paper containing a moisturizing agent, particularly a moisturizing tissue paper.

As one of the sanitary papers, a moisturizing tissue paper made of a sheet containing a moisturizing agent is known. For moisturizing tissue paper, a moisturizing agent is applied to a set of tissue paper with a plurality of sheets.
The above-mentioned moisturizing tissue paper is required to have a better tactile sensation such as being moisturized and softer than the tissue paper to which no moisturizing agent is applied (hereinafter referred to as "dry tissue"). In addition to such additional physical characteristics, it is also required to be resistant to tearing as in the case of dry tissue. According to the moisturizing tissue paper, which has both basic physical properties and additive physical properties, it is possible to satisfy the user's sensuality because it has a good tactile sensation and is not easily torn.

Therefore, a moisturizing tissue paper that improves the functionality by specifying the tensile strength in the CD direction (Cross Direction) and the MD direction (Machine Direction) in the range of the threshold value 1'to the threshold value 2'shown below has been studied. (See Patent Document 1).
-Threshold 1': Lower limit for ensuring basic physical properties-Threshold 2': Upper limit for ensuring additional physical properties

Japanese Unexamined Patent Publication No. 2013-188291

However, since the moisturizing tissue paper can be pulled in various directions, if the tensile strength in the CD direction or the MD direction is specified, the moisturizing tissue paper may be torn when pulled in a direction other than the specified direction of the tensile strength. , There is a risk of breaking through in the thickness direction. If the tensile strength is increased in order to suppress such deterioration of the basic physical properties, there is a possibility that the deterioration of the tactile sensation may lead to the deterioration of the additional physical properties. Therefore, it is difficult to achieve both basic and additional physical properties, and there is room for improvement in enhancing the sensuality.

The moisturizing tissue paper disclosed here was devised in view of the above-mentioned problems, and one of the purposes is to enhance the sensuality of the moisturizing tissue paper. Not limited to this purpose, it is also possible to exert actions and effects derived from each configuration shown in the "mode for carrying out the invention" described later, which cannot be obtained by the conventional technique. It can be positioned as another purpose.

The inventor of the present application has found that the functionality is satisfied by a moisturizing tissue paper having a dry burst strength in a predetermined range. That is, it was found that the functionality of the moisturizing tissue paper is improved by specifying the dry burst strength in the range of the threshold value 1 to the threshold value 2 shown below.
・ Threshold 1: Lower limit for ensuring basic physical properties ・ Threshold 2: Upper limit for ensuring additional physical properties

The specific configuration of the moisturizing tissue paper disclosed here is a test in which a sheet containing a moisturizer is provided, the amount of the moisturizer applied is 25.0 [%] or more, and the four sheets are superposed. Under the measurement state in which the body is attached to a circular frame having an inner diameter of 50 [mm], a spherical stylus having a diameter of 16 ± 0.2 [mm] is pushed in at a speed of 125 ± 5 [mm / min]. In the measuring method of pushing into the center of a circular frame, the dry burst strength, which is the strength when the test piece is pierced in the stacking direction of the sheet by the stylus in a dry state, is 1.80 [N / 4 sheets]. The above is 3.00 [N / 4 sheets] or less.

According to the disclosed moisturizing tissue paper, sensuality can be enhanced.

Hereinafter, a moisturizing tissue paper as an embodiment will be described.
The moisturizing tissue paper of the present embodiment has a burst strength specified in a predetermined range.
"Rupture strength" is the strength measured in accordance with ISO12625-9; 2015, and is measured by a predetermined method under a predetermined condition. The "predetermined state" as used herein means a state in which the test piece on which the sheets forming the moisturizing tissue paper are overlapped is attached to the circular frame body. The "predetermined method" means a method of measuring the strength when the test piece is pierced (when ruptured) in the polymerization direction of the sheet with a spherical stylus.

Such burst strength can be said to be strength in various linear directions along the extending surface of the test piece (which can also be called "two-dimensional strength"). On the other hand, the tensile strength in the CD direction (also referred to as "horizontal direction") and the MD direction (also referred to as "vertical direction") described above in the column of [Problems to be solved by the invention] is limited in the linear direction. It can be said that there is (from this, it can be said to be "one-dimensional strength").
As the burst strength increases, the moisturizing tissue paper tends to be less likely to be torn by external forces in various directions that can be applied, but the tactile sensation of the moisturizing tissue paper tends to decrease.

Thus, a moisturizing tissue with a sheet of specimen having a burst strength with a predetermined lower limit specified is advantageous over conventional moisturizing tissue papers with a predetermined lower limit having only specified tensile strength. The following effect 1 can be obtained.
-Effect 1: Pulling in a direction other than the specified direction of tensile strength in the conventional moisturizing tissue paper
Not only is it hard to tear when stretched, but it is also hard to break through in the thickness direction.

Further, a moisturizing tissue paper provided with a sheet of a test piece having a burst strength for which a predetermined upper limit is specified can also obtain the following effect 2.
-Effect 2: A good tactile sensation can be obtained.
Therefore, the basic physical properties of the effect 1 and the additional physical properties of the effect 2 can be compatible with each other, and the sensuality can be enhanced.

Specifically, the moisturizing tissue paper of the present embodiment has a dry burst strength measured using a stylus in a dry state of 1.80 [N / 4 sheets] from the viewpoint of ensuring the basic physical properties of effect 1. The above is 3.00 [N / 4 sheets] or less from the viewpoint of ensuring the additional physical properties of the effect 2.

Further, the wet burst strength measured by using the stylus in a wet state is 1.70 [N / 4 sheets] or more from the viewpoint of ensuring the basic physical properties of the effect 1, and the viewpoint of ensuring the additional physical properties of the effect 2. It is preferably 2.70 [N / 4 sheets] or less. If it is not required to secure the tactile sensation and strength of the moisturizing tissue paper in the wet state, it is not necessary to specify the upper limit value and the lower limit value of the wet burst strength measured by using the stylus in the wet state. ..
Further, in the moisturizing tissue paper of the present embodiment, the amount of the moisturizing agent applied, which will be described in detail later, is specified to be 25.0 [%] or more. In addition, the moisturizing tissue paper preferably has a compression recovery rate (RC) of 36.00 or less, which will be described in detail later, and a hand feel value (HF), which will be described in detail later, of 80 or more, from the viewpoint of enhancing additional physical characteristics. Is preferable.

[I. Embodiment]
In one embodiment described below, the basic configuration of the moisturizing tissue paper is outlined in item [1]. Then, the parameters of the moisturizing tissue paper are described in detail in item [2]. Finally, an example of adjusting the parameters given in item [1] is added in item [3].

[1. Basic configuration]
The moisturizing tissue paper comprises a sheet containing a moisturizer. The "sheet" here is a thin-film sheet of paper (also referred to as "ply").
In this moisturizing tissue paper, a moisturizing agent is applied to a set of tissue papers in which a plurality of sheets such as 2-ply or 3-ply are laminated. However, the moisturizing tissue paper (so to speak, "1 ply" moisturizing tissue paper) in which a moisturizing agent is applied to one sheet is not excluded from the present invention.

Moisturizing tissue paper is used in a variety of forms, including box-wrapped forms (so-called "box tissue") and sachet-wrapped forms (so-called "pocket tissue").
The moisturizing tissue paper described above comprises the parameters described below.

[2. Parameters]
In this embodiment, each of the moisturizing tissue papers of Examples 1 to 4 and Comparative Examples 5 and 6 shown in Table 1 below was evaluated after measuring each parameter.

Hereinafter, regarding the parameters shown in Table 1 above, the basic parameters such as mass and dimensions are described in the sub-item [2-1], and the detailed parameters such as the burst strength are described in the sub-item [2-2]. Then, the evaluation will be described in the sub-item [2-3].

[2-1. Basic parameters]
In this item [2-1], the number of plies, the basis weight, the paper thickness, and the density will be described in this order.
--Number of plies--
The number of plies is the number of sheets constituting a set of moisturizing tissue paper.
--Basis weight--
Basis weight is the mass per unit area of moisturizing tissue paper. This basis weight is a measured value per sheet constituting the moisturizing tissue paper. Basis weight was measured according to JIS P 8124.

--Paper thickness--
Paper thickness is the thickness dimension of a set of moisturizing tissue paper. Specifically, it is a thickness dimension in a state where two sheets are overlapped.
This paper thickness was measured by the following environment, equipment, and method.
-Measurement environment: Environment compliant with ISO187 (23 ° C ± 1 ° C, humidity 50% <± 2%>)
・ Measuring device: Thickness gauge (manufactured by Highbridge Mfg. Co., Ltd.)
-Measurement method: Based on JIS P 8118, pressure 100 [kpa] ± 10 [kpa]
], A stylus with a diameter of 16.0 [mm] ± 0.5 [mm] on the pressurized surface for 1 second.
Read the value when lowered at a speed of 1 [mm] or less.
The above paper thickness is preferably in the range of 105 to 140 [μm], and more preferably in the range of 105 to 120 [μm].

--density--
Density is the mass per unit volume of moisturizing tissue paper. This density was calculated by doubling the above basis weight and dividing by the above paper thickness.
This density is preferably in the range of 0.250 to 0.350 [g / cm ³ ], and more preferably in the range of 0.295 to 0.350 [g / cm ³ ].

[2-2. Detailed parameters]
In this item [2-2], the burst strength will be described in detail. After that, the measured value by TSA including the coating amount of the moisturizer (hereinafter, simply referred to as “coating amount”), tensile strength, elongation, and hand feel value (hereinafter abbreviated as “HF”), water absorption by the dropping method, and compression. The characteristics are also described.

--Rupture strength--
The burst strength is the strength at which the moisturizing tissue paper bursts.
This burst strength was measured by the following method under the following environment and conditions.
-Measurement environment: Environment compliant with ISO187 (23 ° C ± 1 ° C, humidity 50% <± 2%>)
-Measurement state: The test piece on which the sheets constituting the moisturizing tissue paper are overlapped is a circle.
Attached to the frame of the shape ・ Measuring method: Strength when the test piece is pierced in the stacking direction of the sheets with a spherical stylus
To measure.

Here, the following two types of burst intensities were measured.
-Dry burst strength: Burst strength measured using a drier in a dry state-Wet burst strength: Burst strength measured using a stylus in a wet state For the dry burst strength, use the following test specimens 1 and 2. Measured on the subject.
・ Test body 1: Test body in which two sheets are overlapped (second test body)
-Test body 2: Test body in which four sheets are overlapped (first test body)
The wet burst strength was measured for the above-mentioned test piece 2.

In detail, the measurements were made using the following devices, objects, and methods.
-Measuring device: Tish softness analyzer (abbreviated as "TSA")
(Emtec Electrical GmbH <Germany>)
-Measurement target: 110 [mm] x 110 [mm] square size sheet-Measurement method: Hold the sample to be measured from above and below with a fixture with a hole in the center and fix it.
To. Drop the ball-shaped terminal (meter) to the center of the hole and tear the sample.
Read the value at the time. This measurement was performed 10 times, and these 10 measurements were performed.
Take the average of the fixed values.

Further, the wet burst strength was measured after performing the following procedure after fixing the sample by sandwiching it from above and below and before lowering the ball-shaped terminal to the center of the hole.
-Measurement procedure: Take 1000 [μl] of water in a pipetter. Pipetter on the side of the ball
And drain all the water over 5 seconds.

--Applying amount--
The coating amount is the amount of the moisturizing agent applied to the moisturizing tissue paper.
If the amount of this coating is small, the moisturizing property is deteriorated, and if it is too large, the moisturizing tissue paper may be damaged.
From the viewpoint of ensuring moisturizing property, the coating amount is at least 25.0 [%] or more, more preferably 26.0 [%] or more, and further preferably 27.0 [%] or more. , 28.0 [%] or more is particularly preferable. On the other hand, the coating amount is preferably 35.0 [%] or less, more preferably 34.0 [%] or less, and 33.0 [%] or less from the viewpoint of suppressing damage to the moisturizing tissue paper. Is more preferable.
This coating amount is calculated (measured) by the following formula.
-Formula: coating amount [%] = [(mass of extract) / {(mass of sample)-(mass of extract)}] x 100
The above coating amount was measured by the following equipment and method. ・ Measuring equipment: Soxhlet extractor ・ Measuring method: Acetone / ethanol mixed solvent (volume ratio 1: 1) at 4 o'clock in a reflux state
Inter-extraction was performed. Calculate the coating amount from the obtained extract and sample amount
rice field.

--Tensile strength and elongation--
<Tensile strength>
The tensile strength is the magnitude of the load (dry tensile strength) when the moisturizing tissue paper in a dry state is pulled and broken. This tensile strength is measured in a state where two sheets are overlapped with each other.
The above tensile strengths include the four types listed below.
・ T: Vertical tensile strength (measured value)
・ Y: Lateral tensile strength (measured value)
・ √TY: Geometric mean of vertical tensile strength and horizontal tensile strength (calculated value)
-Y / T ratio: Ratio of horizontal tensile strength to vertical tensile strength (calculated value)

In ordinary tissue paper, the orientation of the raw material fibers is along the vertical direction rather than the horizontal direction, so that the tensile strength in the vertical direction is larger than that in the horizontal direction. Such anisotropy of tensile strength also has the moisturizing tissue paper of the present embodiment.
Therefore, as one aspect, when the moisturizing tissue paper is pulled in various directions, the lateral tensile strength becomes the rate-determining factor, so that the lateral tensile strength is irrelevant regardless of the magnitude of the longitudinal tensile strength. The higher the strength, the more difficult it is for the moisturizing tissue paper to tear.
On the other side, the larger the ratio of the lateral tensile strength to the longitudinal tensile strength, the more the anisotropy of the strength in the moisturizing tissue paper is suppressed (the isotropic strength is ensured). As a result, the overall strength tends to be ensured regardless of the pulling direction.

<Growth>
The elongation is a parameter indicating the ease of elongation of the moisturizing tissue paper, and is the degree of elongation when a predetermined load is applied. This elongation is measured in a state where two sheets are overlapped with each other.
The above growth includes the following two types.
・ Vertical elongation (measured value)
・ Lateral elongation (measured value)

When a normal tissue paper is peeled off from a Yankee roll by a blade abutted against the roll during the manufacturing process, a crepe (also referred to as "creping") consisting of fine wrinkles is formed. This crepe has a structure in which fine irregularities are continuous along the MD direction corresponding to the vertical direction of the tissue paper, and is also present in the tissue paper of the product.
In the tissue paper, since the above-mentioned crepe functions as a stretch margin in the vertical direction, it is easier to stretch in the vertical direction than in the horizontal direction. Such anisotropy of the degree of elongation also has the moisturizing tissue paper of the present embodiment.
It is presumed that the larger the elongation, the more the load applied to the moisturizing tissue paper is absorbed, but it is also presumed that the thinner the moisturizing tissue paper when stretched causes fragility.

<Measurement>
The tensile strength and elongation were measured by the following environment, equipment, and method.
-Measurement environment: Environment compliant with ISO187 (23 ° C ± 1 ° C, humidity 50% <± 2%>)
・ Measuring device: Universal testing machine TENSILON RTC-1250A (A Co., Ltd.)
And Day)
-Measurement method: Width 15 [mm] and span length of the sheet constituting the moisturizing tissue paper
A set of samples cut to 100 [mm] has a tensile speed of 50 [mm / mm /
It is a value calculated by pulling and measuring under the condition of [minutes] and calculating the average of 10 measurements.
To.
The elongation was calculated using the following formula.
Elongation [%] = Elongation amount of stacked samples [mm] x 100 / span length [mm]

--Measured by TSA--
The measured value by TSA is a value measured by a tissue softness analyzer (a measuring device of abbreviated as "TSA") and is a parameter indicating the quality of thin film paper.
The measured values by this TSA include four types, HF, TS7, TS750, and D. HF, TS7, and TS750 are dimensionless quantities, and these dimensionless quantities are shown in Table 1 by [−].
<HF>
HF is an index showing the smoothness of the outer surface of the moisturizing tissue paper. This HF is an index indicating that the higher the value, the smoother the product. The "HF" tends to increase as the amount of the moisturizer applied increases, and tends to increase as the basis weight decreases.

<TS7>
TS7 is an index showing the softness (softness) on the surface of the moisturizing tissue paper, and the softer the value, the smaller the value. This TS7 is an index corresponding to "true softness", as long as it is a moisturizing tissue paper that differs only in the presence or absence of unevenness on the surface, the same or almost the same value is measured regardless of the presence or absence of unevenness.

<TS750>
TS750 is an index showing the degree of unevenness on the surface of the moisturizing tissue paper. The greater the surface irregularities such as crepes (also referred to as "creping") or embossing, the greater the value of TS750.
<D>
D is an index showing the rigidity of the moisturizing tissue paper. The higher the rigidity (harder), the smaller the value of "D".

<Measurement>
The HF, TS7, TS750, and D included in the measured values by TSA were measured by the following environment, device, object, method, and procedure.
-Measurement environment: ISO187 compliant environment (23 ° C ± 1 ° C, humidity 50% (± 2%))
-Measuring device: Tish softness analyzer (abbreviated as "TSA")
(Emtec Electrical GmbH <Germany>)
-Measurement target: Sample with a diameter of 112.8 mm-Measurement method: Measure TS7 and TS750 from the vibration frequencies shown below, and change as shown below.
D was measured from the amount of shape displacement. Including these TS7, TS750, D
, Paper thickness, basis weight, and ply number are used as functions in the following procedure, and HF
Was calculated (measured).
<Vibration frequency>
1 rotor with blade for the sample to be measured installed on the sample table
After pushing from above with a pushing pressure of 00 [mN], 2.0 [times / se
Vibration frequency when rotated in c].
<Deformation displacement amount>
Rotate the rotor with a blade for the sample to be measured installed on the sample table.
With a pushing pressure of 100 [mN] and 600 [mN] without rolling, each is moved up.
The amount of displacement that deforms in the vertical direction when pushed in from the direction.
-Procedure: Sample (emtec ref.2X <nn.n> according to the attached instruction manual
) And set the algorithm to facial II. Calculation
The software is measurement measurement system.
m was used.

――Dripping method water absorption ――
The dripping method water absorption degree is an index showing the degree of water absorption by the moisturizing tissue paper.
The water absorption of the above dropping method was measured by the following objects and methods.
-Measurement target: 100 [mm] x 100 [mm] moisturizing tissue paper-Measurement method: 0.1 g of ion-exchanged water to the measurement target moisturizing tissue paper 10 mm high
The liquid is absorbed and the light is reflected from the surface of the sample to be measured.
The time (visual) was measured until there was no more.

--Compression characteristics--
The compression property is an index showing the property when the moisturizing tissue paper is compressed.
This compression specification includes LC, WC, RC, To, TM, (To-TM) / To. Note that LC, TM, and (To-TM) / To are dimensionless quantities, and these dimensionless quantities are shown in Table 1 by [-].

<LC>
LC, also called "compression hardness", is a parameter that expresses the linear proportionality of the repulsive force to the depth when the moisturizing tissue paper sheet is pushed in, and the larger the value, the harder the compression and the more repulsive it is. show.
<WC>
WC, also referred to as "compression energy", represents the energy required when compressing a sheet of moisturizing tissue paper, and the larger the value, the easier it is to be compressed.

<RC>
RC, also called "compression recovery rate", indicates the recovery of the moisturizing tissue paper sheet when it returns from the compressed state. The higher the value, the more the recovery property, and the lower the value, the softer the sheet. It tends to improve and the moist feeling also tends to improve. The RC (compression recovery rate) is preferably 36.00 or less, more preferably 35.50 or less, and more preferably 35.00 or less, from the viewpoint of improving added physical properties such as softness and moist feeling. It is more preferable to have.
<To and TM>
Each of To and TM is a thickness dimension in which pressure is applied to a sheet of moisturizing tissue paper. To is the thickness when a pressure of 0.5 [gf / cm ² ] is applied, and TM is the thickness when a pressure of 50.0 [gf / cm ² ] is applied.

<Measurement>
LC, WC, RC, To, TM, (To-TM) / To included in the compression characteristics were measured by the following environment, device, object, and method.
-Measurement environment: ISO187 compliant environment (23 ° C ± 1 ° C, humidity 50% (± 2%))
-Measuring device: KES FB3-AUTO-A automated compression tester
(Made by Kato Tech Co., Ltd.)
-Measurement target: Sample cut to a size of 10 [cm] x 20 [cm] -Measurement method: Place the above measurement target between the pressure plate of 2 [cm ² ] and the pressure receiving plate, and 50 [seconds].
The pressure plate is lowered at a speed of [/ mm], and the pressure that changes at that time and that time
The thickness of the sample was measured.

[2-3. evaluation]
The moisturizing tissue paper on which the above-mentioned various parameters were measured is evaluated by the following method, and the evaluation results are described in the following comparison.

--Evaluation method--
The moisturizing tissue paper on which the various parameters described above were measured was evaluated as follows.
Sensory evaluation was performed with the level hidden. We asked 50 monitors to touch each of the moisturizing tissue papers of Examples 1 to 4 and Comparative Examples 1 and 2, and these moisturizing tissue papers were "difficult to tear during use (feeling of use)" and "softness". And "moist feeling" was evaluated in the following five stages. For each of "difficulty in tearing (feeling of use)", "softness" and "moist feeling", the average value of the evaluation scores of 50 monitors was calculated, and the calculated value was rounded off to the nearest whole number. Was used as the score for each evaluation item.
・ 5 points: particularly excellent ・ 4 points: particularly excellent ・ 3 points: slightly excellent ・ 2 points: slightly inferior ・ 1 point: inferior

―Contrast――――
As shown in Table 1 above, the moisturizing tissue papers of Examples 1 to 4 have at least 3 in each evaluation item of "difficulty in tearing (feeling of use)", "softness" and "moist feeling". Evaluation of points or more was obtained.
On the other hand, the moisturizing tissue papers of Comparative Examples 5 and 6 are evaluated at least by 2 points or less in each of the evaluation items of "difficulty of tearing during use (feeling of use)", "softness" and "moist feeling". I couldn't get it.

From the above comparison, the amount of the moisturizer applied is 25.0 [%] or more, the drying burst strength is 1.80 [N / 4 sheets] or more, and 3.00 [N / 4 sheets] or less. The moisturizing tissue papers of Examples 1 to 4 can secure all of "difficulty in tearing (feeling of use)", "softness" and "moist feeling" at the time of use, and have both basic and additional physical properties. You can see that you can. Similarly, the moisturizing tissue papers of Examples 1 to 4 having a wet burst strength of 1.70 [N / 4 sheets] or more and 2.70 [N / 4 sheets] or less also have "tear during use". It can be seen that all of "difficulty (feeling of use)", "softness" and "moist feeling" can be ensured, and both basic and additional physical properties can be achieved.
Therefore, the moisturizing tissue papers of Examples 1 to 4 can enhance the sensuality.

On the other hand, the moisturizing tissue papers of Comparative Examples 5 and 6 in which the amount of the moisturizing agent applied was less than 25.0 [%] had a "moist feeling" of 2 points or less, and the additional physical properties were not ensured. Further, the moisturizing tissue paper of Comparative Example 5 having a dry burst strength of more than 3.00 [N / 4 sheets] and a wet burst strength of more than 2.70 [N / 4 sheets] was "difficult to tear during use". Was secured, but in addition to the "moist feeling", the "softness" was also 2 points or less, and the evaluation was that the additional physical properties were low. Further, the moisturizing tissue paper of Comparative Example 6 having a dry burst strength of less than 1.80 [N / 4 sheets] and a wet burst strength of less than 1.70 [N / 4 sheets] ensures "softness". However, in addition to the "moist feeling", the "difficulty of tearing during use" is 2 points or less, and the basic physical properties are not secured.
Therefore, the moisturizing tissue papers of Comparative Examples 5 and 6 cannot enhance the functionality.

It is presumed that the moisturizing tissue papers of Examples 1 to 4 surely ensured additional physical properties such as "softness" and "moist feeling" because the RC (compression recovery rate) was 36.00 or less. Will be done.
In addition, it is presumed that the moisturizing tissue papers of Examples 1 to 4 surely ensure the added physical properties of "softness" and "moist feeling" even when the HF is 80 or more.

[3. Adjustment example]
In one embodiment, the moisturizing tissue paper described above can be obtained by the fiber materials, additives and manufacturing methods described below.

[3-1. Textile raw material]
The base paper serving as the moisturizing tissue paper of the present embodiment is obtained by making a slurry containing a fiber raw material. It is preferable to use pulp as the fiber raw material, and examples of this pulp include those shown in Table 2 below. The pulp used for the base paper of this moisturizing tissue paper is not limited to those exemplified in Table 2. As the pulp in Table 2, one type may be used alone, or two or more types may be mixed and used.

When softwood pulp is used as a fiber raw material, it is preferable that the content of softwood pulp with respect to the total mass of the pulp components contained in the base paper of the moisturizing tissue paper is the value [mass%] or more listed below.
-Preferable value: 10 [mass%]
-More preferable value: 15 [mass%]
-More preferable value: 20 [mass%]
On the other hand, the content of the softwood pulp with respect to the total mass of the pulp components contained in the base paper of the moisturizing tissue paper is preferably the value [mass%] or less listed below.
-Preferable value: 90 [mass%]
-More preferable value: 80 [mass%]

Further, it is preferable that hardwood pulp is used in combination with softwood pulp as a fiber raw material. In this case, it is preferable that the content of the hardwood pulp with respect to the total mass of the pulp components contained in the base paper of the moisturizing tissue paper is the value [mass%] or more listed below.
-Preferable value: 10 [mass%]
-More preferable value: 20 [mass%]
On the other hand, the content of hardwood pulp with respect to the total mass of the pulp components contained in the base paper of the moisturizing tissue paper is preferably the value [mass%] or less listed below.
-Preferable value: 90 [mass%]
-More preferable value: 85 [mass%]
-More preferable value: 80 [mass%]
By setting the content (blending ratio) of the softwood pulp and the hardwood pulp as described above, it becomes easy to secure the burst strength and the tensile strength of the base paper (moisturizing tissue paper).

The length-weighted average fiber length of the fiber raw material is preferably in the range listed below. The "length-weighted average fiber length" referred to here is the fiber length as a raw material, and is the fiber length before beating or the like.
-Coniferous pulp: greater than 0.50 [mm] and in the range of 5.00 [mm] or less-Hardwood pulp: in the range of 0.50 [mm] or more and 2.00 [mm] or less

The length-weighted average fiber length of the fiber component of the pulp contained in the base paper of the moisturizing tissue paper is preferably the value [mm] or more listed below. The "length-weighted average fiber length" referred to here is the fiber length of the fiber component obtained by decoupling the fiber component of the pulp contained in the base paper of the moisturizing tissue paper, and is also referred to as the desorbed fiber length.
-Preferable value: 0.35 [mm]
-More preferable value: 0.40 [mm]

On the other hand, the length-weighted average fiber length (dissociated fiber length) is preferably not less than the values listed below [mm].
-Preferable value: 5.00 [mm]
-More preferable value: 4.00 [mm]
-More preferable value: 3.00 [mm]
-More preferable value: 2.00 [mm]

The above length-weighted average fiber length (dissolution fiber length) is the length-weighted dissolution fiber length from the fiber length of both pulps when coniferous pulp and broadleaf pulp are used together as the fiber component (pulp component). The average fiber length is calculated, and it is the fiber length calculated by the following measuring method.
<Measurement method>
First, a fiber-dispersed slurry obtained by dissolving the base paper in water is prepared. The fiber dispersion slurry has a fiber component of 0.002 [mass%] in 500 [ml] of water.
Prepare a diluted solution so that the content is 0.01 [mass%] or less, and use a fiber length measuring device (Va).
Measured using Valmet FS5), lmet, and the length-weighted average value of the dissociated fibers is calculated.
By setting the average fiber length as described above, it becomes easy to secure the burst strength and tensile strength of the base paper (moisturizing tissue paper).

In addition, the freeness of the fiber component of the pulp contained in the base paper of the moisturizing tissue paper is not particularly limited, but is preferably equal to or higher than the lower limit listed below, and is not less than the upper limit listed below. It is preferable to have.
-Preferable lower limit: 350 [ml]
-More preferable lower limit: 400 [ml]
-More preferable lower limit: 450 [ml]
-Preferable upper limit: 800 [ml]

The freeness is a value indicated by the Canadian standard freeness (CSF) specified in JIS P 8121, and is a value indicating the degree of beating of the fiber. The beating of the fibers can be carried out by using a known beating machine such as a beader or a disc refiner for the paper material (slurry) in which the fibers are dispersed. Generally, the smaller the freeness value of the fiber, the stronger the degree of beating, the greater the damage of the fiber due to beating, and the more fibrillation is progressing. As the fibrilization of the fibers progresses, the number of bonding points between the fibers increases, so that the strength is improved.

[3-2. Additive]
In addition to the above-mentioned raw materials, the base paper of the moisturizing tissue paper of the present embodiment may contain optional components (additives) shown in Table 3 below. In this case, it is preferable that various optional components are contained in the proportions exemplified in the rightmost column of Table 3. The optional components in Table 3 may be used alone or in combination of two or more.

[3-3. Production method]
The method for producing the moisturizing tissue paper of the present embodiment includes the following three steps.
-Pretreatment process: Step to pre-treat the raw material in the paper-making process-Paper-making process: Step to make the raw material processed in the pre-treatment step-Post-treatment process: Carry out the post-treatment of the base paper obtained in the paper-making process Process

--Pretreatment process--
The pretreatment step includes a step of obtaining a slurry containing at least a fiber raw material (hereinafter referred to as “slurry step”). The slurry step preferably includes a step of beating the fiber raw material (hereinafter referred to as "beating step"). In the beating step, for example, a beating process can be performed using a double disc refiner or the like. At the time of this beating treatment, the softwood pulp and the hardwood pulp may be beaten individually, or these pulps may be mixed and then beaten.
The above-mentioned pretreatment step may include a step of bleaching the fiber raw material (hereinafter referred to as “bleaching step”). Examples of the bleaching agent used in the bleaching step include known bleaching agents such as oxygen-based bleaching agents and chlorine-based bleaching agents.

--Papermaking process--
Examples of the paper machine used in the paper making process include various paper machines such as a circular mesh type and a long mesh type suction breast former, a twin wire former, a C wrap type and an S wrap type circular mesh former, and a crescent former. Be done.
As a method for forming a slurry in the papermaking process, a method of papermaking a pulp slurry in which softwood pulp and broadleaf pulp are mixed to form a wet paper as one uniform layer, and a method of making a softwood pulp layer and a broadleaf pulp layer together. Examples thereof include a method of forming a sheet of wet paper, and any of these forming methods may be adopted.

In the papermaking process, the Y / T ratio is 35 [%] or more when the longitudinal tensile strength (tensile strength) of the moisturizing tissue paper is T and the lateral tensile strength (tensile strength) is Y. Therefore, it is preferable to adjust the following jet wire ratio so as to be 65 [%] or less. By setting such a jet wire ratio, it becomes easy to secure the burst strength and tensile strength of the base paper (moisturizing tissue paper).
Jet wire ratio <J / W ratio> = Extracted water flow speed / wire speed The jet wire ratio is the ratio between the supply speed of the slurry and the wire running speed. If the jet wire ratio is larger than 1, the slurry The supply speed of the wire is faster than the running speed of the wire, and it is called "pushing". On the other hand, when the jet wire ratio is less than 1, the supply speed of the slurry is slower than the traveling speed of the wire, and this case is referred to as "pulling".

In the above papermaking process, a slurry containing a fiber raw material is supplied onto a mesh-like wire to form a thin layer of pulp. After that, each step listed below is carried out.
-Dehydration process: A process of dehydrating a thin layer of pulp to obtain wet paper-Water squeezing process: A process of pressing the wet paper obtained in the dehydration process to squeeze water (pressing process)
-Drying process: The process of drying the wet paper pressed in the water extraction process.

<Dehydration process and water extraction process>
In the dehydration process, the water in the thin layer of pulp is drained under the reticulated wire toward the water extraction process. Wet paper is obtained when the thin layer is squeezed in this dehydration step. The wire used in the dehydration step is generally a wire made of a metal or plastic net in a ring.
In the water squeezing process, the wet paper obtained in the dehydration process is moved from the wire to the felt, and pressure is applied to the wet paper with a press roll through the felt, so that the wet paper is mechanically squeezed. To.

<Drying process>
As the drying step, a step of blowing hot air toward the wet paper and a step of crimping the wet paper to the outer peripheral surface of the Yankee dryer are preferable. In the drying step using a Yankee dryer, it is preferable to carry out a crepe treatment (crepe step) in which wrinkles on the crepe are formed by scraping the dried paper from the Yankee dryer with a doctor blade.

When the base paper (crepe paper) creped by the present production method is used for the moisturizing tissue paper of the present embodiment, the crepe ratio is preferably 10 [%] or more and 30 [%] or less. By setting the crepe rate to 10 [%] or more, softness can be imparted to the base paper or ply. On the other hand, by setting the crepe ratio to 30 [%] or less, the thickness of the base paper or ply can be increased, and a lotion paper having a good touch and a high-class feeling can be obtained.
For the above crepe ratio, the crepe ratio is "Rc [%]", the peripheral speed of the dryer shell of the paper machine is "Va [m / min]", and the peripheral speed of the take-up roll is "Vb [m / min]". , It can be calculated by the following formula.
Rc = {(Va-Vb) / Vb} × 100

--Post-treatment process--
The post-treatment step includes at least a winding step of winding the base paper dried in the drying step, and may include a calendar step after the drying step and before the winding step.
In the calendar process, the calendar processing of the base paper dried in the drying process is carried out. Examples of this calendar processing include calendar processing using two metal rolls and soft calendar processing in which one of the two rolls is an elastic roll.

The line pressure of the calendar in the calendar processing is preferably, for example, equal to or higher than the lower limit listed below, and preferably equal to or lower than the upper limit listed below. By keeping the linear pressure within the range shown below, it becomes easy to adjust the base paper to a desired thickness and softness.
-Preferable lower limit: 0.1 [kg / cm]
-More preferable lower limit: 1.0 [kg / cm]
-More preferable lower limit: 2.0 [kg / cm]
-Preferable upper limit: 13.0 [kg / cm]
-More preferable upper limit: 12.0 [kg / cm]
-More preferable upper limit: 11.0 [kg / cm]

It should be noted that the above-described embodiment is merely an example, and there is no intention of excluding the application of various modifications and techniques not specified in this embodiment. Each configuration of the present embodiment can be variously modified and implemented without departing from the gist thereof. In addition, it can be selected as needed and can be combined as appropriate.

Claims (3)

A moisturizing tissue paper with a sheet containing a moisturizer.
The amount of the moisturizer applied is 25.0 [%] or more, and the amount is 25.0 [%] or more.
A spherical stylus having a diameter of 16 ± 0.2 [mm] is pushed in under a measurement state in which a test piece in which the four sheets are overlapped is attached to a circular frame having an inner diameter of 50 [mm]. In the measuring method of pushing into the center of the circular frame at a speed of 125 ± 5 [mm / min], the test piece is ruptured by drying, which is the strength when the test piece is pierced in the stacking direction of the sheet by the stylus in a dry state. A moisturizing tissue paper having a strength of 1.80 [N / 4 sheets] or more and 3.00 [N / 4 sheets] or less. Under the wet and wet state of the stylus in the measurement state, the wet burst strength, which is the strength when the test piece is pierced in the polymerization direction of the sheet by the stylus in the wet state, is The moisturizing tissue paper according to claim 1, wherein the moisturizing tissue paper is 1.70 [N / 4 sheets] or more and 2.70 [N / 4 sheets] or less. The moisturizing tissue paper according to claim 1 or 2, wherein the compression recovery rate (RC) is 36.00 or less.