JP6879406B2 - toilet paper - Google Patents

Description

The present invention relates to toilet paper having two or more plies.

Roll-shaped or sheet-shaped toilet paper products are manufactured by cutting toilet paper into a predetermined size by stacking one or two or more toilet paper webs. In general, roll-shaped toilet paper, which is made by winding a long toilet paper into a roll, is often used. Toilet paper made up of one toilet paper web is called 1-ply toilet paper, and toilet paper made up of two layers of toilet paper web is called 2-ply toilet paper.

Since roll-shaped toilet paper is used by being unwound from a roll, a certain amount of tensile strength is required at the time of use. In addition, the toilet paper becomes wet when used, and a certain degree of durability is required even in that state. On the other hand, since toilet paper comes into direct contact with the skin, it is required to have not only strength but also soft touch. Conventionally, in order to realize strength and good tactile sensation, it has been studied to adjust the basis weight and thickness of toilet paper within an appropriate range (for example, Patent Document 1). Further, in Patent Document 2, it is studied to increase the water absorption during use and enhance the flexibility by keeping the dry tensile strength of the toilet paper in the vertical direction and the horizontal direction within a predetermined range.

Japanese Unexamined Patent Publication No. 2013-217004 JP-A-2007-75510

However, even in the toilet papers disclosed in Patent Documents 1 and 2, none of the toilet papers has both toughness in a wet state and a soft touch, and further improvement is required.

Therefore, in order to solve the problems of the prior art, the present inventors have decided to provide toilet paper having two or more plies, which is sufficiently durable when wet and has a soft touch. We proceeded with the examination as the purpose.

As a result of diligent studies to solve the above problems, the present inventors exhibit sufficient durability when wet by setting a specific physical property value of toilet paper having two or more plies within a predetermined range. However, we have found that toilet paper with a soft touch can be obtained.
Specifically, the present invention has the following configuration.

[1] Toilet paper having two or more plies having a first surface and a second surface opposite to the first surface, which is an average of the hand feel value of the first surface and the hand feel value of the second surface. Toilet paper of 2 plies or more, characterized in that the amount is 85.0 or more and the wet burst strength of the toilet paper is 150 kPa or more.
[2] When the wet tensile strength in the length direction of the toilet paper is Tw and the wet tensile strength in the width direction of the toilet paper is Yw, Tw / Yw is 1.30 or more and 2.40 or less [1]. Toilet paper listed.
[3] The wet tensile strength in the length direction of the toilet paper is 0.50 N / 15 mm or less, and the wet tensile strength in the width direction of the toilet paper is 0.25 N / 15 mm or less according to [1] or [2]. Toilet paper.
[4] Any of [1] to [3], wherein the dry tensile strength of the toilet paper in the length direction is 1.80 N / 15 mm or less, and the dry tensile strength of the toilet paper in the width direction is 0.60 N / 15 mm or less. Toilet paper described in the direction.
[5] When the dry tensile strength in the length direction of the toilet paper is Td and the dry tensile strength in the width direction of the toilet paper is Yd, Td / Yd is 1.30 or more and 3.0 or less [1] to The toilet paper according to any one of [4].

According to the present invention, it is possible to obtain a toilet paper having two or more plies, which is sufficiently durable when wet and has a soft touch.

FIG. 1 is a schematic view illustrating the configuration of the toilet paper of the present invention.

Hereinafter, the present invention will be described in detail. The description of the constituent elements described below may be based on typical embodiments or specific examples, but the present invention is not limited to such embodiments.

(toilet paper)
The present invention relates to a two-ply or more toilet paper having a first surface and a second surface opposite to the first surface. The average of the hand feel value of the first surface and the hand feel value of the second surface of the toilet paper having two or more plies of the present invention is 85.0 or more. Further, the wet burst strength of the toilet paper of the present invention is 150 kPa or more.
The toilet paper having two or more plies of the present invention is preferably roll-shaped toilet paper, and such roll-shaped toilet paper is sometimes referred to as a toilet roll.

Since the toilet paper of the present invention has the above-mentioned structure, it has a soft touch while exhibiting sufficient toughness when wet. The present invention has two characteristics that are difficult to achieve at the same time, that is, toughness when wet and soft to the touch, and has both practical durability and excellent tactile sensation when used.

The toilet paper of the present invention is a toilet paper having two or more plies. The number of toilet paper plies means the number of stacked toilet paper webs. The number of plies may be 2 or more, preferably 2 or more and 4 or less, more preferably 2 or 3, and particularly preferably 2.

In the present invention, the toilet paper is preferably roll-shaped toilet paper. Here, among the exposed surfaces of the toilet paper having two or more plies, the surface arranged on the outer peripheral side of the roll is referred to as the first surface, and the surface arranged on the inner peripheral side of the roll is referred to as the second surface.
FIG. 1 is a diagram illustrating the configuration of the toilet paper of the present invention. The roll-shaped toilet paper 10 has an outer peripheral surface P and an inner peripheral surface Q of the roll. FIG. 1 (b) is an enlarged view of the configuration of the portion surrounded by the dotted line in FIG. 1 (a). FIG. 1B shows the configuration of a 2-ply toilet paper in which two sheets of one toilet paper web 1 are stacked. As shown in FIG. 1 (b), two layers of toilet paper are set as a set, and the surface of the exposed surface arranged on the outer peripheral side of the roll is the first surface 2 and the inner peripheral surface side of the roll. The surface arranged on the surface is referred to as the second surface 4.

The average of the hand feel value (hereinafter, also referred to as HF value) on the first surface of the toilet paper of the present invention and the hand feel value on the second surface may be 85.0 or more, and may be 85.5 or more. It is preferably 86.0 or more, and more preferably 86.0 or more. The HF value is an index indicating an element of softness and smoothness, but in the present invention, an HF value suitable for 2-ply toilet paper has been found, and in addition, by satisfying other conditions at the same time, It has succeeded in achieving both practical durability and excellent tactile sensation during use.

Here, the hand feel value (HF value) can be measured by the following measuring method using a tissue softness analyzer (manufactured by Emtec Electrical GmbH).
First, a circularly cut sample having a diameter of 112.8 mm is placed on the sample table of the tissue softness analyzer. With respect to this sample, a rotor with a blade is pushed from above by applying a pushing pressure of 100 mN. After that, the rotor with a blade is rotated so that the rotation speed becomes 2.0 rotations / second, and the vibration frequency at that time is measured.
Further, the amount of deformation and displacement in the vertical direction when the rotor with a blade is pushed in with a pressure of 100 mN and 60 mN with respect to another sample cut into a circle having a diameter of 112.8 mm is calculated. The HF value is a value calculated from the vibration frequency and the amount of deformation displacement, and TP II can be used as the calculation algorithm.
When calculating the HF value, the first surface (outer surface) and the second surface (inner surface) of each sample are calculated 10 times each, and the abnormal value is excluded from the obtained measurement data by the method of the Hampel identifier. Then, the average value is calculated for each of the first surface and the second surface, and the average value of the HF values is calculated from the two average values calculated in this way, and this is used as the HF value in the present invention.
The sample is measured in an environment compliant with ISO187 (temperature 23 ± 1 ° C., relative humidity 50 ± 2%). At the time of measurement, calibrate with a standard sample (emethec ref.2X (nn.n)) according to the attached instruction manual, and set the algorithm to TP II. Calculation software includes emethec measurement system ver. Use 3.22.

The wet burst strength of the toilet paper of the present invention may be 150 kPa or more, preferably 175 kPa or more, and more preferably 200 kPa or more. The upper limit of the wet burst strength is not particularly limited, but is generally preferably 350 kPa or less. By setting the wet burst strength of the toilet paper within the above range, the durability in the wet state is more effectively exhibited.

When the water content (%) of the toilet paper of the present invention is x and the wet burst strength (kPa) of the toilet paper is y, y ≦ -4.4x + 1110 is preferable, and y ≦ -3.8x + 980. More preferably, y ≦ -3.3x + 870 is more preferable. Further, y may be 150 or more, and preferably 175 or more. Here, x is 180 or more and 210 or less. As described above, the water content and the wet burst strength of the toilet paper preferably satisfy the predetermined conditions, which makes it easy to achieve a soft touch while exhibiting sufficient toughness when wet.
Here, the wet burst strength of the toilet roll is measured as follows.
First, the toilet paper is cut into 5 x 5 cm pieces, 60 sheets of test pieces are prepared, and the weight is measured. After immersing the test piece in pure water at 23 ° C., excess water is removed with a filter paper (standard filter paper No. 26 of Toyo Filter Paper Co., Ltd.), and the weight is measured again. After confirming that the water content of the test piece is 180% or more and 210% or less, the burst strength (kPa) is measured with a low-pressure burst tester (manufactured by Kumagai Riki Kogyo Co., Ltd., 2021-C). The average value of 6 measurements is calculated and used as the wet burst strength. The wet burst strength is measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).
The water content of the toilet paper is a value calculated by the following formula.
Moisture content (%) = (difference in weight of test piece before and after immersion) x 100 / weight of test piece before immersion

The wet tensile strength of the toilet paper of the present invention in the length direction is preferably 0.30 N / 15 mm or more, and more preferably 0.35 N / 15 mm or more. The wet tensile strength of the toilet paper in the length direction is preferably 0.50 N / 15 mm or less, more preferably 0.45 N / 15 mm or less, and further preferably 0.40 N / 15 mm or less.
The wet tensile strength of the toilet paper of the present invention in the width direction is preferably 0.12 N / 15 mm or more, and more preferably 0.15 N / 15 mm or more. The wet tensile strength of the toilet paper in the width direction is preferably 0.25 N / 15 mm or less, and more preferably 0.20 N / 15 mm or less.
In the present invention, by setting the value of the wet tensile strength within the above range, it becomes easy to adjust the average of the HF values of the first surface and the second surface of the toilet paper to a desired range, and the toilet paper. It becomes easy to make the wet burst strength of the above a predetermined value or more.
Here, the wet tensile strength of the toilet paper in the present specification is such that six samples of toilet paper cut into a width of 15 mm and a span length of 100 mm are stacked, 0.1 ml of water is dropped on the center of the sample, and the tension is obtained after 1 second. It is a value obtained by measuring under the condition of a speed of 50 mm / min and calculating the average of 6 measurements. For the measurement of wet tensile strength, for example, a horizontal tensile tester (manufactured by Kumagai Riki Kogyo Co., Ltd.) can be used. The wet tensile strength is measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).

When the wet tensile strength (N / 15 mm) in the length direction of the toilet paper of the present invention is Tw and the wet tensile strength (N / 15 mm) in the width direction of the toilet paper is Yw, the geometric mean values of Tw and Yw are , 0.20 N / 15 mm or more, and more preferably 0.25 N / 15 mm or more. The geometric mean value of Tw and Yw is preferably 0.40 N / 15 mm or less, and more preferably 0.30 N / 15 mm or less.

When the wet tensile strength (N / 15 mm) in the length direction of the toilet paper of the present invention is Tw and the wet tensile strength (N / 15 mm) in the width direction of the toilet paper is Yw, Tw / Yw is 2.40. It is preferably less than or equal to, more preferably 2.30 or less, and even more preferably 2.20 or less. In addition, Tw / Yw is preferably 1.30 or more. In the present invention, by setting the Tw / Yw value within the above range, it becomes easy to adjust the average of the HF values of the first surface and the second surface of the toilet paper to a desired range, and the toilet paper. It becomes easy to make the wet burst strength of the above a predetermined value or more.

The dry tensile strength of the toilet paper of the present invention in the length direction is preferably 1.20 N / 15 mm or more, and more preferably 1.40 N / 15 mm or more. The dry tensile strength of the toilet paper in the length direction is preferably 1.80 N / 15 mm or less, more preferably 1.70 N / 15 mm or less, and more preferably 1.60 N / 15 mm or less.
The dry tensile strength of the toilet paper of the present invention in the width direction is preferably 0.40 N / 15 mm or more, and more preferably 0.50 N / 15 mm or more. The dry tensile strength of the toilet paper in the width direction is preferably 0.65 N / 15 mm or less, and more preferably 0.60 N / 15 mm or less.
In the present invention, by setting the value of the dry tensile strength within the above range, it becomes easy to adjust the average of the HF values of the first surface and the second surface of the toilet paper to a desired range, and the toilet paper. It becomes easy to make the wet burst strength of the above a predetermined value or more.
Here, the dry tensile strength of the toilet paper in the present specification is measured by measuring a sample of toilet paper cut into a width of 15 mm and a span length of 100 mm under the condition of a tensile speed of 50 mm / min, and calculating the average of 6 measurements. It is the value that was set. For the measurement of the dry tensile strength, for example, a horizontal tensile tester (manufactured by Kumagai Riki Kogyo Co., Ltd.) can be used. The dry tensile strength is measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).

When the dry tensile strength (N / 15 mm) in the length direction of the toilet paper of the present invention is Td and the dry tensile strength (N / 15 mm) in the width direction of the toilet paper is Yd, the geometric mean value of Td and Yd is , 0.70N / 15mm or more, more preferably 0.80N / 15mm or more. The geometric mean value of Td and Yd is preferably 1.20 / 15 mm or less, more preferably 1.10 N / 15 mm or less, and further preferably 1.00 N / 15 mm or less.
In the present invention, by setting the Td / Yd value within the above range, it becomes easy to adjust the average of the HF values of the first surface and the second surface of the toilet paper to a desired range, and the toilet paper It becomes easy to make the wet burst strength of the above a predetermined value or more.

When the dry tensile strength (N / 15 mm) in the length direction of the toilet paper of the present invention is Td and the dry tensile strength (N / 15 mm) in the width direction of the toilet paper is Yd, Td / Yd is 3.00 or less. It is preferably 2.80 or less, and more preferably 2.80 or less. Further, Td / Yd is preferably 1.50 or more.

The elongation rate (%) in the length direction of the toilet paper of the present invention is preferably 10% or more, more preferably 12% or more, and further preferably 15% or more. The elongation rate (%) of the toilet paper in the length direction is preferably 25% or less, and more preferably 20% or less.
The elongation rate (%) in the width direction of the toilet paper is preferably 3% or more, more preferably 4% or more, and further preferably 5% or more. The elongation rate (%) in the width direction of the toilet paper is preferably 10% or less, and more preferably 9% or less.
Here, the elongation rate of the toilet paper in the present specification is a value obtained by measuring a sample obtained by cutting the toilet paper into a width of 15 mm and a span length of 100 mm under the condition of a tensile speed of 50 mm / min and calculating the average of 6 measurements. Is. The elongation rate is measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).
Then, the elongation rate (%) is calculated from the following formula.
Elongation rate (%) = Sample elongation (mm) x 100 / span length (mm)

The thickness of the toilet paper of the present invention is preferably 100 μm or more, more preferably 120 μm or more, further preferably 140 μm or more, and particularly preferably 160 μm or more. Generally, the upper limit of the thickness of toilet paper is about 200 μm. The thickness of the toilet paper in the present specification is the thickness of the 2-ply toilet paper.
The basis weight of the toilet paper of the present invention ^{is preferably 10 g / m 2} or more, more preferably 12 g / m ² or more, and even more preferably 15 g / m ² or more. Generally, the upper limit of the basis weight of toilet paper is about ^{25 g / m 2.} The basis weight of the toilet paper in the present specification represents the basis weight per sheet constituting the 2-ply toilet paper.
In the present invention, by setting the basis weight and thickness of the toilet paper within the above ranges, it is possible to achieve a soft touch while maintaining practical strength in a wet state.

The toilet paper of the present invention is excellent in durability in a wet state, but on the other hand, it also has excellent water solubility. Specifically, the water solubility of the toilet paper of the present invention is preferably 20 seconds or less, more preferably 18 seconds or less, and even more preferably 15 seconds or less. By setting the water solubility of the toilet paper within the above range, it is possible to prevent a paper jam from occurring at the drain port or the like. The water solubility of the toilet paper in the present specification is measured in accordance with JIS P 4501 and is an average value of 5 measurements.

The toilet paper of the present invention is preferably an embossed toilet paper. That is, it is preferable that the toilet paper is embossed.

(Fiber raw material)
The toilet paper of the present invention is obtained by making a slurry containing a fiber raw material. It is preferable to use pulp as the fiber raw material. Examples of the pulp include wood pulp, non-wood pulp, and deinked pulp. Examples of wood pulp include broadleaf pulp (blightwood kraft pulp (LKP)), coniferous tree pulp (coniferous kraft pulp (NKP)), sulfite pulp (SP), dissolved pulp (DP), soda pulp (AP), and unbleached craft. Examples thereof include chemical pulp such as pulp (UKP) and oxygen bleached kraft pulp (OKP). Examples thereof include semi-chemical pulp such as semi-chemical pulp (SCP) and chemiground wood pulp (CGP), mechanical pulp such as crushed wood pulp (GP) and thermomechanical pulp (TMP, BCTMP), but are not particularly limited. Examples of the non-wood pulp include cotton pulp such as cotton linter and cotton lint, non-wood pulp such as hemp, straw and bagasse, and cellulose, chitin and chitosan isolated from squirrel and seaweed, but are not particularly limited. .. Examples of the deinked pulp include deinked pulp made from recycled paper, but the pulp is not particularly limited, and one of the above types may be used alone, or two or more types may be mixed and used.

When softwood pulp is used as the fiber raw material, the content of softwood pulp is preferably more than 20% by mass, preferably 25% by mass or more, based on the total mass of the pulp components contained in the toilet paper. More preferably, it is more preferably 30% by mass or more. The content of softwood pulp is preferably 80% by mass or less, more preferably 70% by mass or less, and less than 70% by mass, based on the total mass of the pulp components contained in the toilet paper. You may.

As the fiber raw material, it is preferable to use softwood pulp and hardwood pulp in combination. That is, it is preferable that the toilet paper further contains hardwood pulp in addition to softwood pulp. The content of hardwood pulp is preferably 10% by mass or more, more preferably 20% by mass or more, and preferably 30% by mass or more, based on the total mass of the pulp components contained in the toilet paper. More preferred. The content of hardwood pulp is preferably 70% by mass or less with respect to the total mass of the pulp components contained in the toilet paper.

The length-weighted average fiber length of the softwood pulp used as the fiber raw material is preferably larger than 1.10 mm, and preferably 3.00 mm or less.
The length-weighted average fiber length of the hardwood pulp used as the fiber raw material is preferably 0.50 mm or more, and preferably 1.00 mm or less.
The length-weighted average fiber length of the above-mentioned fiber raw material is the fiber length as a raw material, and is the fiber length before beating or the like.

The length-weighted average fiber length of the fiber component (pulp component) contained in the toilet paper is preferably 0.70 mm or more and 1.5 mm or less. The length-weighted average fiber length is more preferably 0.80 mm or more and 1.2 mm or less.
Here, the length-weighted average fiber length of the fiber component (pulp component) contained in the toilet paper is the fiber length of the fiber component obtained by dissociating the fiber component (pulp component) contained in the toilet paper. There is, and it is sometimes called the disintegration fiber length. When softwood pulp and hardwood pulp are used in combination as the fiber component (pulp component), the length-weighted average fiber length of the disaggregated fiber length is calculated from the fiber lengths of both pulps. The dissociated fiber length is the fiber length calculated by the following measuring method.
First, the fiber-dispersed slurry obtained by dissolving the toilet paper in water is prepared. The fiber-dispersed slurry is obtained by placing 4 g of toilet paper in 200 ml of water, operating the disintegrator at 4500 rpm, and stirring until sufficiently dissociated. The obtained fiber-dispersed slurry is diluted to be 0.01% by mass or more and 0.02% by mass or less to prepare a diluted solution. The projected length of the fiber component contained in 10 ml of this diluted solution is measured using a fiber length measuring device (Kayani FiberLab Ver4.0 manufactured by Mezzo Automation Co., Ltd.), and the length-weighted average value of the dissociated fibers is calculated.

The upper and lower limits of the freeness of the fiber component (pulp component) contained in the toilet paper are not particularly limited, but are preferably 400 ml or more, more preferably 450 ml or more, and more preferably 500 ml or more. Is even more preferable. The freeness is preferably 700 ml or less.
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 fibers. The beating of the fibers can be carried out by using a known beating machine such as a beader or a disc refiner on 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. That is, in order to keep the dry tensile strength and the wet tensile strength in a preferable range in the present invention, the freeness can be appropriately adjusted.

(Arbitrary ingredient)
The toilet paper of the present invention may contain an arbitrary component in addition to the fiber raw material. Examples of the optional component include a dry paper strength agent, a wet paper strength agent, a softener, and the like. Examples of the dry paper strength agent include cationized starch, polyacrylamide (PAM), carboxymethyl cellulose (CMC) and the like. Examples of the wet paper strength agent include polyamide epichlorohydrin, urea, melamine, and heat-crosslinkable polyacrylamide. Examples of the softener include anionic surfactants, nonionic surfactants, cationic surfactants and the like. The above optional components may be used alone or in combination of two or more.

When the toilet paper contains a wet paper strength agent, the content of the wet paper strength agent is 0.001 part by mass or more and 0.20 part by mass with respect to 100 parts by mass of the fiber component contained in the toilet paper. The following is preferable.
When the toilet paper contains a softener, the content of the softener is 0.01 part by mass or more and 0.50 part by mass or less with respect to 100 parts by mass of the fiber component contained in the toilet paper. It is preferable to have.
Further, when the toilet paper contains a dry paper strength agent, the content of the dry paper strength agent is 0.01 part by mass or more and 1.00 parts by mass with respect to 100 parts by mass of the fiber component contained in the toilet paper. It is preferably parts by mass or less. In the present invention, the additive chemicals can be appropriately adjusted in order to keep the dry tensile strength and the wet tensile strength in a preferable range.

(Manufacturing method of toilet paper)
The method for producing toilet paper of the present invention includes a step of making a slurry containing a fiber raw material to obtain a 1-ply toilet paper web and a step of laminating 1-ply toilet paper web (hereinafter, also referred to as a bonding step). Including.

The step of bleaching the fiber raw material may be included before the step of making the slurry. As the bleaching agent used in the bleaching step, a known bleaching agent such as an oxygen-based bleaching agent or a chlorine-based bleaching agent can be used.

The step of obtaining a 1-ply toilet paper web includes a step of obtaining a slurry containing a fiber raw material. The step of obtaining the slurry preferably includes a step of beating the fiber raw material. In the beating step, for example, a beating process can be performed using a double disc refiner or the like. At the time of beating, the softwood pulp and the hardwood pulp may be beaten individually, or may be beaten after being mixed.

The step of obtaining a one-ply toilet paper web includes a step of making a slurry containing a fiber raw material. Paper machines used in the paper making process include, for example, suction breast formers (circular mesh type, long mesh type), twin wire formers, circular mesh formers (C wrap, S wrap), crescent formers, and the like. Can be mentioned.

In the papermaking process, a slurry containing a fiber raw material is supplied onto a net-like wire to form a thin layer of pulp. Then, while being transferred toward the press part, the water in the pulp thin layer is drained under the net, so that the pulp thin layer is dehydrated. Such a process is sometimes called a dehydration process. Generally, the wire is a ring of metal or plastic mesh.

In the process of making paper, when the wet tensile strength in the length direction of the toilet paper is Tw and the wet tensile strength in the width direction is Yw, Tw / Yw is made so that it is 1.30 or more and 2.40 or less. It is preferable to adjust the water flow speed / wire speed ratio (jet wire ratio (J / W ratio)). The jet wire ratio is the ratio of the supply speed of the slurry to the running speed of the wire. When the jet wire ratio is larger than 1, the supply speed of the slurry is faster than the running speed of the wire. "Go". Further, when the jet wire ratio is 1 or less, 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 process of papermaking, for example, a method of making a pulp slurry in which coniferous pulp and broadleaf pulp are mixed to form a wet paper as one uniform layer, or a method of making a single sheet of coniferous pulp layer and broadleaf pulp layer. There is a method of forming wet paper, but any method may be adopted.

After the dehydration process, the wet paper moves from the wire to the felt. The wet paper is further mechanically squeezed by applying pressure with a press roll through the felt. This is sometimes called a pressing process or a water extraction process.

The papermaking process includes a drying process after the water extraction process. The drying step is preferably, for example, a step of blowing hot air toward the wet paper or a step of pressing the wet paper against the outer peripheral surface of the Yankee dryer. In the drying step using a Yankee dryer, it is preferable to perform a crepe treatment for forming wrinkles on the crepe by scraping the dried paper from the Yankee dryer with a doctor blade. The crepe treatment can give the toilet paper web (thin paper) a soft and thick feeling.

After the drying step, a base paper winding step is provided. In the base paper winding step, a one-ply base paper winding is obtained by winding the toilet paper web (thin leaf paper) finished through the above steps. At this time, it is preferable to wind the toilet paper web (thin paper) so that the surface crimped to the Yankee dryer becomes the outer peripheral surface of the base paper winding.

Two 1-ply base paper rolls obtained are subjected to a winder to form a two-ply laminate.
Next, the two-ply laminated body is subjected to a processing machine, and while unwinding, embossing is performed on the surface of the base paper and bonding to two plies is performed. At this time, it is preferable to perform bonding to the 2-ply so that the surfaces crimped to the Yankee dryer for winding the 1-ply base paper are on the outside.

The embossing process is performed by pressurizing with an embossed roll to which embossing is applied. By changing the pushing amount or pushing pressure of the embossing roll, an embossed shape having a predetermined embossing height can be formed. The embossing process may be performed before the bonding step as described later, or may be performed after the bonding step. From the viewpoint of improving the feel, it is preferable that the embossing process is performed before the bonding process.

In the bonding step, two or more 1-ply toilet paper webs are laminated and bonded. In this step, for example, after stacking the base papers, they can be bonded by applying a narrow contact embossing to a portion that becomes an end portion of the product. At that time, it is preferable to attach the materials with the surface pushed by the emboss roll on the outside from the viewpoint of the feel.

After the laminating process, a winding process is provided again. In this winding step, winding is performed for a predetermined length so as to satisfy a predetermined product length. Then, the step of cutting the obtained winding into a predetermined width to obtain a toilet paper product is included.

The features of the present invention will be described in more detail with reference to Examples and Comparative Examples. The materials, amounts used, ratios, treatment contents, treatment procedures, etc. shown in the following examples can be appropriately changed as long as they do not deviate from the gist of the present invention. Therefore, the scope of the present invention should not be construed in a limited manner by the specific examples shown below.

(Example 1)
A pulp slurry in which pulp raw materials were mixed so as to have 50% by mass of softwood kraft pulp (NBKP) and 50% by mass of hardwood kraft pulp (LBKP) was beaten using a double disc refiner so that the freeness was 560 ml.
Next, 0.10 parts by mass of starch (dry paper strength agent) and 0.10 parts by mass of softener were added to 100 parts by mass of the pulp raw material contained in the toilet paper, and the mixture was sufficiently stirred so that each component became uniform. Then, a pulp slurry was prepared.
The pulp slurry prepared in this way was made into a paper by a twin wire Yankee machine, and a toilet paper base paper roll was obtained. When making paper, when the wet tensile strength in the length direction of the toilet paper product is Tw and the wet tensile strength in the width direction is Yw, Tw / Yw is in the range of 2.00 ± 0.20. The ratio of the extracted water flow speed / wire speed (J / W ratio) was adjusted. The papermaking conditions were adjusted so that the basis weight and thickness of the toilet paper were as shown in Table 1.
The two obtained base paper winders are subjected to a processing machine, embossed on the surface of the base paper and bonded to two plies while unwinding, and then wound again to a predetermined length, and the obtained winding is determined. A 2-ply toilet roll product was obtained by cutting to the width of.

(Example 2)
2-ply toilet paper in the same manner as in Example 1 except that the addition rates of softwood kraft pulp (NBKP) and hardwood kraft pulp (LBKP) were changed as shown in Table 1 and beaten so that the freeness was 620 ml. Was produced. The basis weight and thickness of toilet paper are as shown in Table 1.

(Example 3)
2-ply toilet paper in the same manner as in Example 1 except that the addition rates of softwood kraft pulp (NBKP) and hardwood kraft pulp (LBKP) were changed as shown in Table 1 and beaten so that the freeness was 540 ml. Was produced. The basis weight and thickness of toilet paper are as shown in Table 1.

(Comparative Example 1)
The addition ratios of softwood kraft pulp (NBKP) and hardwood kraft pulp (LBKP) were changed as shown in Table 1, and the slurry beaten to a freeness of 580 ml was used to determine the wet tensile strength in the length direction of the toilet paper product. When Tw is used and the wet tensile strength in the width direction is Yw, the ratio of the extracted water flow speed / wire speed (J / W ratio) is set so that Tw / Yw is in the range of 2.70 ± 0.20. A 2-ply toilet paper was produced in the same manner as in Example 1 except that it was changed. The basis weight and thickness of toilet paper are as shown in Table 1.

(Comparative Example 2)
The addition rates of softwood kraft pulp (NBKP) and hardwood kraft pulp (LBKP) were changed as shown in Table 1 and beaten so that the freeness was 590 ml. Then, 0.20 parts by mass of starch (dry paper strength agent) and 0.10 parts by mass of softener were added to 100 parts by mass of the pulp raw material contained in the toilet paper. When the wet tensile strength in the length direction of the toilet paper product is Tw and the wet tensile strength in the width direction is Yw, the extraction water flow velocity is such that Tw / Yw is in the range of 2.70 ± 0.20. / The wire speed ratio (J / W ratio) was changed. A 2-ply toilet paper was produced in the same manner as in Example 1 except for the above. The basis weight and thickness of toilet paper are as shown in Table 1.

(Comparative Example 3)
The addition rates of softwood kraft pulp (NBKP) and hardwood kraft pulp (LBKP) were changed as shown in Table 1 with respect to 100 parts by mass of the pulp raw material contained in the toilet paper, except that the freeness was beaten to 560 ml. Made 1-ply toilet paper in the same manner as in Example 1. The basis weight and thickness of toilet paper are as shown in Table 1.

(Evaluation)
(Basis weight)
The basis weight of the toilet paper obtained in Examples and Comparative Examples was measured according to JIS P 8124. The basis weight in Table 1 is a value of 1 ply.

(Paper thickness)
The thickness of the toilet paper obtained in Examples and Comparative Examples was read by using a thickness gauge (manufactured by Highbridge Manufacturing Co., Ltd.) when the stylus was lowered at a speed of 1 mm or less per second. The paper thickness was determined by calculating the average value of 8 samples. The paper thickness was measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).

(Product disintegration fiber length)
The product dissociation fiber lengths of the toilet papers obtained in Examples and Comparative Examples were measured by using a fiber length measuring device Kayani FiberLab Ver4.0 (manufactured by Mezzo Automation) on the fiber dispersion slurry obtained by dissociating the products. .. The fiber-dispersed slurry was obtained by placing 4 g of toilet paper in 200 ml of water, operating the disintegrator at 4500 rpm, and stirring until sufficiently dissociated. The obtained fiber-dispersed slurry was diluted to be 0.01% by mass or more and 0.02% by mass or less, and 10 ml was measured by a fiber length measuring device to measure the projected length, and the length-weighted average fiber length was calculated.

(Measurement of HF value)
The HF values of the toilet papers obtained in Examples and Comparative Examples were measured using a tissue softness analyzer (manufactured by Emtec Electrical GmbH). A circularly cut sample having a diameter of 112.8 mm was placed on a sample table, and a rotor with a blade was pushed into the sample from above by applying a pushing pressure of 100 mN. Then, the rotor with a blade was rotated so that the rotation speed was 2.0 rotations / second, and the vibration frequency at that time was measured. Further, the amount of deformation and displacement in the vertical direction when the rotor with a blade was pushed in at a pressure of 100 mN and 60 mN with respect to another sample cut into a circle having a diameter of 112.8 mm was calculated. The HF value is a value automatically calculated from the vibration frequency and the amount of deformation displacement, and TP II was used as the calculation algorithm. The above measurement was performed 10 times for each of the first surface (outer surface) and the second surface (inner surface) of each sample, and abnormal values were excluded from the obtained measurement data by the method of the Hampel identifier, and the first surface. The average value was calculated for each of the second surface and the second surface. From the average value of the HF values of the first surface and the second surface calculated in this way, the average value of the HF values was calculated.
The sample was measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%). At the time of measurement, the standard sample (emethec ref.2X (nn.n)) was calibrated according to the attached instruction manual, and the algorithm was set to TP II. The calculation software includes emethec measurement system ver. 3.22 was used.

(Wet burst strength)
The wet burst strength of the toilet papers obtained in Examples and Comparative Examples was measured as follows. First, toilet paper was cut into 5 x 5 cm pieces, 30 sheets of test pieces were prepared, and the weight was measured. After immersing the test piece in pure water at 23 ° C., excess water was removed with a filter paper (standard filter paper No. 26 of Toyo Filter Paper Co., Ltd.), and the weight was measured again. After that, the burst strength (kPa) was measured with a low-pressure burst tester (manufactured by Kumagai Riki Kogyo Co., Ltd., 2021-C) under the condition that the water content of the test piece was 180% or more. The average value of 6 measurements was calculated and used as the wet burst strength. The wet burst strength was measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).
The water content was calculated by the following formula.
Moisture content (%) = (difference in weight of test piece before and after immersion) x 100 / weight of test piece before immersion

(Dry tensile strength)
The dry tensile strength of the toilet paper obtained in Examples and Comparative Examples was measured using a horizontal tensile tester (manufactured by Kumagai Riki Kogyo Co., Ltd.). The measurement was carried out under the conditions of a sample width of 15 mm, a span length of 100 mm, and a tensile speed of 50 mm / min. The average value of 6 measurements was calculated and used as the dry tensile strength. The dry tensile strength was measured in an environment conforming to ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).

(Growth rate)
The elongation rate of the toilet paper obtained in Examples and Comparative Examples was measured using a horizontal tensile tester (manufactured by Kumagai Riki Kogyo Co., Ltd.). The measurement was carried out under the conditions of a sample width of 15 mm, a span length of 100 mm, and a tensile speed of 50 mm / min. The average value of 6 measurements was calculated and used as the growth rate. The elongation rate was measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).
The elongation rate (%) was calculated by the following formula.
Elongation rate (%) = Elongation amount of sample (mm) x 100 / Span length (mm)

(Wet tensile strength)
The wet tensile strength of the toilet paper obtained in Examples and Comparative Examples was measured using a horizontal tensile tester (manufactured by Kumagai Riki Kogyo Co., Ltd.). The measurement was carried out under the conditions that the sample width was 15 mm and the span length was 100 mm, 0.1 ml of water was dropped on the central portion of the six stacked samples, 1 second later, and the tensile speed was 50 mm / min. The average value of 6 samples was calculated and used as the wet tensile strength. The wet tensile strength was measured in an environment compliant with ISO187 (temperature 23 ° C. ± 1 ° C., relative humidity 50% ± 2%).

(Hydrolytic)
The water solubility of the toilet papers obtained in Examples and Comparative Examples was measured according to JIS P 4501. The measurement was performed 5 times, and the average value was calculated to determine the water solubility.

(sensory evaluation)
The softness of the toilet paper obtained in Examples and Comparative Examples was evaluated according to the following evaluation criteria. Specifically, the toilet papers obtained in Examples and Comparative Examples were touched by 50 people, and the softness of the toilet paper was evaluated on a four-point scale. The symbols shown in Table 1 have the following meanings.
<Softness>
◎: Especially excellent ○: Excellent △: Slightly inferior ×: Inferior

(sensory evaluation)
The toughness of the toilet paper obtained in Examples and Comparative Examples when wet was evaluated according to the following evaluation criteria. Specifically, the toilet papers obtained in Examples and Comparative Examples were cut into 10 × 10 cm pieces, five sheets were stacked, and 0.5 ml of water was dropped near the central portion using a dropper. The wet sample was evaluated on a 4-point scale for its toughness when rubbed against the back of the hand several times. The symbols shown in Table 1 have the following meanings.
<Durability when wet>
◎: Especially excellent ○: Excellent △: Slightly inferior ×: Inferior

In the toilet paper obtained in the examples, a soft touch is achieved while having sufficient toughness when wet. On the other hand, the toilet paper obtained in the comparative example did not have both toughness and soft touch when wet.

1 Toilet paper web 2 1st side 4 2nd side 10 Toilet paper P Outer circumference Q Inner circumference

Claims (5)

It ’s a 2-ply toilet paper,
The wet burst strength of the toilet paper is 150 kPa or more and 350 kPa or less.
The toilet paper contains softwood pulp and softwood pulp, and the content of the softwood pulp is 30% by mass or more and 70% by mass or less with respect to the total mass of the pulp components contained in the toilet paper, and the content of the softwood pulp. Is 30% by mass or more and 70% by mass or less with respect to the total mass of the pulp components contained in the toilet paper.
The length-weighted average fiber length of the pulp contained in the toilet paper is 0.70 mm or more and 1.5 mm or less.
When the wet tensile strength in the length direction of the toilet paper is Tw and the wet tensile strength in the width direction of the toilet paper is Yw, Tw / Yw is 1.30 or more and 2.40 or less. 2-ply toilet paper. The toilet paper has a first surface and a second surface opposite to the first surface.
The toilet paper according to claim 1, wherein the average of the hand feel value of the first surface and the hand feel value of the second surface is 85.0 or more. The toilet paper according to claim 1 or 2, wherein the wet tensile strength in the length direction of the toilet paper is 0.50 N / 15 mm or less, and the wet tensile strength in the width direction of the toilet paper is 0.25 N / 15 mm or less. .. Any one of claims 1 to 3 in which the dry tensile strength in the length direction of the toilet paper is 1.80 N / 15 mm or less and the dry tensile strength in the width direction of the toilet paper is 0.64 N / 15 mm or less. Toilet paper as described in the section. Claims 1 to 4 in which Td / Yd is 1.30 or more and 3.0 or less when the dry tensile strength in the length direction of the toilet paper is Td and the dry tensile strength in the width direction of the toilet paper is Yd. Toilet paper according to any one of the above.

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