Patent Description:
Hygienic tissue paper, such as a kitchen paper, may be used as a tissue paper roll with sheets being wound in a roll. On the rolled sheet, perforations crossing the longitudinal direction are formed at predetermined intervals in the longitudinal direction. Such a tissue paper roll is disposed at a holder, for example, and by cutting the tissue paper roll at the perforations formed on the sheet, a cut portion of the sheet is used as hygienic tissue paper.

[Patent Document <NUM>] <CIT>
<CIT> relates to perforated sheet material and a dispensing system for dispensing the sheet material. More particularly, it relates to perforated sheet material and a dispensing system for dispensing individual segments of the sheet material from a dispenser. According to this document, a dispensable sheet material includes opposite side edges spaced apart from one another to define the overall width of the sheet material. Zones of weakness are spaced along the sheet material. Adjacent zones of weakness are spaced apart by a distance of from about <NUM> percent to about <NUM> percent of the overall width of the sheet material to divide the sheet material into a plurality of sheet material segments. Each of the zones of weakness comprises a plurality of perforations and frangible sheet material portions. Each of the frangible sheet material portions has a width of from about <NUM> to about <NUM>. The total width of the frangible sheet portions in each zone of weakness is from about <NUM> percent to about <NUM> percent of the overall width of the sheet material. The sheet material has an elasticity in the dispensing direction of from about <NUM> percent to about <NUM> percent. The sheet material has a dry tensile strength in the dispensing direction of from about <NUM>,<NUM> grams per <NUM> inches of width to about <NUM>,<NUM> grams per <NUM> inches of width. The sheet material has a wet tensile strength in the weakest direction, typically, a direction orthogonal to the dispensing direction, of at least about <NUM> grams per <NUM> inches of width. In addition, the sheet material has a tensile ratio of less than about <NUM>. A dispensing system includes a dispenser defining an interior for containing the sheet material and an outlet for allowing sheet material to be dispensed from the interior of the housing.

<CIT> relates to wipes. This document describes a container haying a nozzle or opening, containing a roll of wipes, for dispensation in a direction parallel to the axis of the roll through the nozzle or opening of the container. The wipes are formed from a continuous length of material with parallel side edges having a leading end and a trailing end. The rupturable lines extend from a point on one first side edge to a point on the second side edge. Each rupturable line is more easily ruptured adjacent the second side edge than the first side edge. The wipes are arranged such that said point on the first side edge of the rupturable line emerges from the nozzle or opening before said point on the second side edge.

<CIT> describes a roll which includes a succession of sheets of single-use absorbent paper, wherein the succession of sheets includes a first sheet partially defined by a first line of perforations and a first cut arrangement partially defined by a first cut, a second cut, and a connecting region arranged between the first cut and the second cut and a second sheet partially defined by the first cut arrangement, and a second line of perforations.

However, in the conventional hygienic tissue paper, when a sheet is cut off in a state in which a tissue paper roll is disposed at the holder for example, the sheet may tear or an extra sheet may be pulled out because the sheet cannot be cut properly at a position where the perforations are formed.

An object of the present disclosure is to provide hygienic tissue paper that is easily cut off.

The present invention is set out by the set of appended claims. In the following, parts of the description and drawing referring to implementations or examples, which are not covered by the claims are not presented as embodiments of the invention, but as illustrative examples useful for understanding the invention. The embodiments of the present invention are provided by the claims.

One embodiment of the present disclosure provides hygienic tissue paper including first slits that are disposed in a longitudinal direction at predetermined intervals, the first slits extending in a width direction intersecting the longitudinal direction, wherein the first slits each include perforations, and wherein a cut length of each of the perforations increases from each end in the width direction toward a central portion in the width direction. The first slits each include a first perforation formed on at least a one end side and a second perforation formed on the central portion. A cut length of the second perforation is greater than a cut length of the first perforation. The second perforation is formed on the central portion. The first perforation includes at least an edge cut portion that continues from an edge of the one end. A ratio of an edge cut length of the edge cut portion to the cut length of the first perforation is <NUM> to <NUM>.

According to one aspect of the present disclosure, it is possible to provide hygienic tissue paper that is easily cut off.

In the following, implementations of the present disclosure will be described in detail with reference to the drawings. It should be noted that for ease of understanding, the scale of each member in each figure may differ from the actual scale in the present specification. In the description below, a part common in each figure may be referenced by the same reference numeral and a description may be omitted.

In the present specification, a three-dimensional orthogonal coordinate system in three axes (i.e., X, Y, and Z directions) is used. In the specification, the X direction indicates a direction intersecting (or orthogonal to) a longitudinal direction (i.e., a drawing direction) of hygienic tissue paper, the Y direction indicates the longitudinal direction (i.e., the drawing direction) of hygienic tissue paper, and the Z direction indicates a thickness direction of hygienic tissue paper.

<FIG> is a drawing illustrating hygienic tissue paper according to an implementation of the present disclosure (i.e., a first implementation). <FIG> is a drawing of an enlarged part of the hygienic tissue paper according to the first implementation viewed in the thickness direction (i.e., the Z direction). <FIG> is an enlarged view of a first slit (i.e., a first perforation and a second perforation) of the hygienic tissue paper according to the first implementation.

In <FIG>, a reference numeral <NUM> indicates a kitchen paper, which is an example of the hygienic tissue paper according to the present disclosure. An aspect of the hygienic tissue paper (e.g., the kitchen paper <NUM>) is not particularly limited. For example, a roll of kitchen paper (which will be hereinafter referred to as a tissue paper roll or a kitchen roll) as illustrated in <FIG>, may be used. The roll of kitchen paper <NUM> is paper wound around a paper tube PT, on which first slits <NUM> (i.e., perforations M) are formed on a band-shaped sheet ST at predetermined intervals L1 as illustrated in <FIG>.

In such a roll of the kitchen paper <NUM>, a single sheet of kitchen paper KP is obtained by pulling out the wound sheet ST and cutting the sheet ST along perforations M (see <FIG>). Such a usage form may be referred to as a pickup type.

The hygienic tissue paper according to the present implementation is not limited to kitchen paper, and can be applied to hygienic tissue paper such as tissue paper and paper towels. Such hygienic tissue paper is not limited to dry hygienic tissue paper, and includes moistened hygienic tissue paper impregnated with water or chemicals. Applications of the hygienic tissue paper can be for both household use and commercial use.

The dimensions of the hygienic tissue paper (e.g., the kitchen paper) <NUM> are not particularly limited. For example, in the kitchen roll illustrated in <FIG>, the roll diameter R1 is <NUM> to <NUM>, the roll width W1 is <NUM> to <NUM>, the interval L1 between the perforations M is <NUM> to <NUM>, and the sheet ST thickness (<NUM>-ply) is <NUM> to <NUM>.

The sheet ST constituting the hygienic tissue paper (e.g., the kitchen paper) <NUM> is formed of crepe paper. The crepe paper is paper with small wrinkles being formed on a surface of the paper by applying a blade, which is called a doctor blade, at an exit of a dryer of a papermaking machine in the papermaking process.

For the crepe paper constituting the sheet ST, paper mainly made from pulp as a raw material, is used. For the composition of pulp, any publicly known composition of the kitchen paper can be used. For example, the compounding ratio of pulp may be <NUM> mass% or greater, preferably <NUM> mass% or greater, and more preferably <NUM> mass%.

With respect to the composition of pulp in the crepe paper, softwood pulp, such as needle bleached kraft pulp (NBKB) or needle unbleached kraft pulp (NUKP), and a hardwood pulp, such as leaf bleached kraft pulp (LBKP) or leaf unbleached kraft pulp (LUKP), may be mixed at appropriate ratios. In particular, the composition of pulp preferably contains a higher ratio of softwood pulp to hardwood pulp. The ratio of softwood pulp to hardwood pulp is preferably <NUM>:<NUM> to <NUM>:<NUM>.

The basis weight of the crepe paper is not particularly limited, but, for example, the basis weight (g/m<NUM>) measured in accordance with JIS P <NUM> (<NUM>) can be adopted. When hygienic tissue paper is the kitchen paper <NUM>, the basis weight of the crepe paper constituting the hygienic tissue paper is preferably <NUM> to <NUM>/m<NUM>, more preferably <NUM> to <NUM>/m<NUM>, and particularly preferably <NUM> to <NUM>/m<NUM>, per single ply.

Additionally, the paper thickness of the crepe paper is not particularly limited, but, for example, the paper thickness measured under the environment of JIS P <NUM> (<NUM>) can be adopted. When hygienic tissue paper is the kitchen paper <NUM>, the paper thickness of the crepe paper is <NUM> to <NUM>, preferably <NUM> to <NUM>, and more preferably <NUM> to <NUM>, per single ply.

With respect to a measurement method for the paper thickness, after a test piece is sufficiently moistened under conditions of JIS P <NUM> (<NUM>), the measurement is performed in a <NUM>-ply state under the same conditions, using a dial thickness gauge (thickness measurement instrument) "PEACOCK TYPE G" (manufactured by OZAKI MFG. Specifically, after confirming that there is, for example, no dust or dirt between a plunger and a measurement table, the plunger is lowered onto the measurement table, and the scale of the dial thickness gauge is moved to adjust the zero point. Next, the plunger is raised, and the test piece is placed on the test table. Then, the plunger is slowly lowered, and the gauge is read. At this step, the plunger is simply placed on the test piece. An end part of the plunger is made of a metal and the end part is placed on the test piece such that a circular flat surface of the end part, having a diameter of <NUM>, contacts the test piece with being orthogonal to a paper surface. When the paper thickness is measured, a load is about <NUM> gf. The paper thickness is an average value based on ten measurements.

A single ply of the crepe paper constituting the sheet ST, may be subjected to an embossing process. Such a embossing process forms a convex embossment on one surface of the crepe paper by pressing a convex embossing roll (not illustrated), against the crepe paper using, for example, a publicly known steel rubber embossing method. Concave embossing corresponding to the convex embossing is formed on the other surface of the crepe paper.

The shape of the top of the convex embossing formed on the crepe paper (or an opening of the concave embossing corresponding to the convex embossing) is not particularly limited. For example, the shape may be a square shape, a triangle shape, or a circle shape, in planar view. A side surface of the convex embossing is preferably tapered from the surface of the crepe paper where the convex embossing is not formed toward the top of the convex embossing, which is not illustrated. By providing the convex embossing having such a tapered side surface, the kitchen paper <NUM> is not easily compressed in the thickness direction (i.e., in the Z direction).

The number of plies of the sheet ST constituting the hygienic tissue paper (e.g., the kitchen paper) <NUM> is not particularly limited, can be greater than or equal to one, and is preferably two (i.e., two layers). The shape of the hygienic tissue paper is not particularly limited. For example, the planar contour shape is preferably a rectangle. The hygienic tissue paper (e.g., the kitchen paper <NUM>) according to the present implementation is formed of two pieces (two layers) of the crepe paper having the convex embossing described above.

Specifically, the kitchen paper <NUM> of the present implementation has a laminated structure in which two sheets of the crepe paper with the convex embossing being formed, are laminated and integrated. A form of such a laminated structure is not particularly limited, and a tip-to-tip type laminated structure employed in a laminated structure of the conventional kitchen paper, a nested type laminated structure, or the like, can be employed.

Such a laminated structure can also be formed by bonding two sheets of the crepe paper with an adhesive. For such an adhesive, a publicly known adhesive employed in the kitchen paper having a laminated structure, can be used. Such an adhesive includes cellulosic adhesives such as polyvinyl alcohol, starch, modified starch, and carboxymethylcellulose.

As illustrated in <FIG>, the hygienic tissue paper <NUM> according to the present implementation (i.e., the first implementation) includes the first slits <NUM> that are disposed in the longitudinal direction (i.e., the Y direction) at the predetermined intervals L1 and that extend in the width direction (i.e., the X direction) intersecting the longitudinal direction (i.e., the Y direction). As illustrated in <FIG> and <FIG>, the first slit <NUM> includes perforations M, and a cut length C of each of the perforations M increases from at least the one end WA in the width direction toward a central portion WC in the width direction. Additionally, the cut length of each of the perforations M increases from the other end WB facing the one end WA in the width direction (i.e., in the X direction) toward the central portion WC.

Further, as illustrated in <FIG> and <FIG>, in the hygienic tissue paper <NUM> according to the first implementation, the first slit <NUM> includes a first perforation <NUM> (M1) formed on the one end WA side and on the other end WB side, and a second perforation <NUM> (M2) formed on the central portion WC. A cut length C2 of the second perforation <NUM> (M2) is longer than a cut length C1 of the first perforation <NUM> (M1).

The first perforation M1 constituting the first slit <NUM> has a structure in which a portion that has been cut (a cut portion) 11a and a portion that is not cut (a tie portion) 11b between two adjacent cut portions 11a are alternately disposed, as illustrated in <FIG>. The second perforation M2 has a structure in which a cut portion 12a and a tie portion 12b are alternately disposed.

In the hygienic tissue paper <NUM> of the first implementation, a cut-tie ratio CT1 of the first perforation <NUM> (M1) is preferably <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The cut-tie ratio CT1 is a ratio of the length of the cut portion 11a to a unit length that is the length of the cut portion 11a and the tie portion 11b adjacent to the cut portion 11a in a direction in which the first perforation M1 extends, where the unit length is <NUM>.

From a different viewpoint, in the hygienic tissue paper <NUM> of the first implementation, a tie-cut ratio TC1 of the first perforation <NUM> (M1) is preferably <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The tie-cut ratio TC1 is a ratio of the length (the tie length) T1 of the tie portion 11b to the length (the cut length) C1 of the cut portion 11a in the direction in which the first perforation M1 extends.

In the present specification, the length of the cut portion (i.e., the cut length) is the length of the cut portion constituting each of the perforations in the width direction (i.e., in the X direction). The length of the tie portion (i.e., the tie length) is the length of the tie portion constituting each of the perforations in the width direction (i.e., in the X direction).

Additionally, in the first implementation, a cut-tie ratio CT2 of the second perforation <NUM> (M2) is preferably <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The cut-tie ratio CT2 is a ratio of the length of the cut portion 12a to a unit length that is the length of the cut portion 12a and the tie portion 12b adjacent to the cut portion 12a in a direction in which the second perforation M2 extends, where the unit length is <NUM>.

From a different viewpoint, in the hygienic tissue paper <NUM> of the first implementation, a tie-cut ratio TC2 of the second perforation <NUM> (M2) is preferably <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The tie-cut ratio TC2 is a ratio of the length (the tie length) T2 of the tie portion 12b to the length (the cut length) C2 of the cut portion 12a in the direction in which the second perforation M2 extends.

Further, in the hygienic tissue paper <NUM> according to the first implementation, the first perforation <NUM> (M1) includes an edge cut portion 11c on the one end WA that continues from an edge AE of the one end WA. The ratio of an edge cut length D1 of the edge cut portion 11c to the cut length C1 of the first perforation <NUM> (M1) is <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The ratio of the edge cut length D1 to the cut length C1 (i.e., the D1 ratio) indicates a ratio of the edge cut length D1 when the cut length C1 is <NUM> (see <FIG>).

The first perforation <NUM> (M1) includes an edge cut portion 11d at the other end WB that continues from an end edge BE of the other end WB. The ratio of the edge cut length D2 of the edge cut portion 11d to the cut length C1 of the first perforation <NUM> (M1) is <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The ratio of the edge cut length D2 to the cut length C1 (i.e., the D2 ratio) indicates a ratio of the edge cut length D2 when the cut length C1 is <NUM> (see <FIG>).

<FIG> and <FIG> are drawings each illustrating a state of a usage state of the hygienic tissue paper according to the first implementation. Here, the effect according to the present implementation will be described with reference to <FIG> and <FIG>. In the hygienic tissue paper <NUM> according to the first implementation, as described above, the first slits <NUM> that are disposed in the longitudinal direction (i.e., the Y direction) at the predetermined intervals L1 and that extend in the width direction (i.e., the X direction) intersecting the longitudinal direction (i.e., the Y direction), are formed. Then, the first slit <NUM> includes the perforations M, and the cut length C of each of the perforations M increases from the one end WA and the other end WB in the width direction toward the central portion WC in the width direction (see <FIG>).

With such a configuration, in the first implementation, the kitchen paper <NUM> can be cut off at the position where the perforations M are formed even in a state in which the kitchen paper <NUM> is not fixed or is unstable. Specifically, as illustrated in <FIG>, when the kitchen paper <NUM> is the kitchen paper roll (i.e., the tissue paper roll), the tissue paper roll is rotatably mounted to a holder (i.e., a support bar RS). Then, a front end of the kitchen paper <NUM> mounted to the support bar RS is holded by one hand H, and the kitchen paper KP is cut from the tissue paper roll with the kitchen paper <NUM> being pulled out in the direction PD. At this time, in the kitchen paper <NUM>, one sheet of the kitchen paper KP can be cut using one hand H without the tissue paper roll of the kitchen paper <NUM> being pressed down.

If the tissue paper roll, such as the kitchen roll, is used when mounted to a holder, the holder is not limited to a holder in which a support bar extends in the width direction (i.e., a right and left direction) as illustrated in <FIG> above, but may be a support bar that extends in a vertical direction (an up and down direction). Alternatively, the support bar of the holder may be a support bar that extends either in the left direction or the right direction. In the implementation illustrated in <FIG>, the one hand H holding the kitchen paper <NUM> is a right hand, but the kitchen paper <NUM> may be held and cut using the left hand.

As described, the kitchen paper <NUM> of the present implementation is not easily torn at an unexpected position when the kitchen paper <NUM> is cut, and the kitchen paper KP can be properly cut off (see <FIG>). The kitchen paper <NUM> also enables the hygienic tissue paper KP to be cut at the predetermined intervals L1 and can prevent extra kitchen paper <NUM> from being pulled out. Therefore, the kitchen paper <NUM> according to the first implementation is easily cut.

In the first implementation, in the first slit <NUM> as described above, the cut length C of each of the perforations M increases from the other end WB facing the one end WA in the width direction (i.e., the X direction) toward the central portion WC (see <FIG>). Thus, when the kitchen paper KP is cut off, the kitchen paper KP can be cut off from either the one end WA or the other end WB of the kitchen paper <NUM>. Therefore, according to the first implementation, the convenience of the kitchen paper KP is improved.

In the first implementation, the first slit <NUM> includes the first perforation <NUM> (M1) formed on the one end WA side and the other end WB side in the width direction, and the second perforation <NUM> (M2) formed on the central portion WC. The cut length C2 of the second perforation <NUM> (M2) is longer than the cut length C1 of the first perforation <NUM> (M1).

With such a configuration, in the first implementation, the cut length C of each of the perforations M can increases from each of the one end WA and the other end WB toward the central portion WC. With such a configuration, the kitchen paper KP starts to be cut at the one end WA side or the other end WB side in the width direction (i.e., the X direction) and a cutting direction proceeds toward the central portion WC in the width direction (i.e., the X direction). At this time, the cutting direction is gradually stabilized as the cutting direction proceeds from the perforation M1 having a short cut length (i.e., the first perforation <NUM>) on the one end WA side or the other end WB side to the perforation M2 having a long cut length (i.e., the second perforation <NUM>) on the central portion WC. When the cutting proceeds to reach the other end WB side or the one end WA side in the width direction (i.e., the X direction) from the central portion WC, the cutting can proceed with the cutting direction being stable.

In the first implementation, when the hygienic tissue paper <NUM> (KP) is cut off, a force applied to the perforations M is easily transmitted from the first perforation <NUM> (M1) to the second perforation <NUM> (M2). Even when the kitchen paper KP is cut from either the one end WA or the other end WB in the width direction (i.e., the X direction), this can prevent the perforations M from being torn in an unexpected direction and can prevent extra hygienic tissue paper <NUM> (KP) from being pulled out without the perforations M being cut.

In the first implementation, when the cut-tie ratio CT1 of the first perforation <NUM> (M1) is within the above-described range, when the hygienic tissue paper <NUM> (KP) is cut off, the force applied to the perforations M is easily transmitted from the first perforation <NUM> (M1) to the second perforation <NUM> (M2). Therefore, the first implementation can further prevent the perforations M from being torn in an unexpected direction and can prevent extra hygienic tissue paper from being pulled out without the perforations M being cut.

From a different viewpoint, in the first implementation, the tie-cut ratio TC1 of the first perforation <NUM> (M1) is configured to be in the above-described range, so that when the hygienic tissue paper <NUM> (KP) is cut off, the force applied to the perforations M is more easily transmitted from the first perforation <NUM> (M1) to the second perforation <NUM> (M2). Therefore, the first implementation can further prevent the perforations M from being torn in an unexpected direction and prevent extra hygienic tissue paper <NUM> from being pulled out without the perforations M being cut.

Further, in the first implementation, the cut-tie ratio CT2 of the second perforation <NUM> (M2) is configured to be in the above-described range, so that when the hygienic tissue paper <NUM> (KP) is cut off, the force applied to the perforations M is further easily transmitted from the first perforation <NUM> (M1) to the second perforation <NUM> (M2). Therefore, the first implementation can further prevent the perforations M from being torn in an unexpected direction and prevent extra hygienic paper from being pulled out without the perforations M being cut.

From a different viewpoint, in the first implementation, the tie-cut ratio TC2 of the second perforation <NUM>(M2) is configured to be in the above-described range, so that when the hygienic tissue paper <NUM> (KP) is cut off, the force applied to the perforations M is further easily transmitted from the first perforation <NUM> (M1) to the second perforation <NUM> (M2). Therefore, the first implementation can further prevent the perforations M from being torn in an unexpected direction and prevent extra hygienic tissue paper <NUM> from being pulled out without the perforations M being cut.

In the first implementation, the first perforation <NUM> (M1) includes the edge cut portion 11c that continues from the edge AE of the one end WA in the width direction (i.e., the X direction). The first perforation <NUM> (M1) also includes the edge cut portion 11d that continues from the edge BE of the other end WB in the width direction (i.e., the X direction). Thus, in the first implementation, the force applied to the perforations M is easily transmitted from the edge AE of the one end WA or the edge BE of the other end WB to the first perforation <NUM> (M1). Therefore, according to the first implementation, even when the kitchen paper KP is cut off from either the one end WA or the other end WB in the width direction (i.e., the X direction), the entire perforations M becomes easy to be cut and the hygienic tissue paper <NUM> (KP) is further easily cut off.

In the first implementation, the D1 ratio (i.e., the ratio of the edge cut length D1 to the cut length C1) is configured to be in the above-described range, so that when the hygienic tissue paper <NUM> (KP) is cut off, the force applied to the perforations M is more easily transmitted from the edge AE of the one end WA to the first perforation <NUM> (M1). Additionally, the D2 ratio (i.e., the ratio of the edge cut length C2 to the cut length C1) is configured in the above-described range, so that even when the kitchen paper KP is cut off from either the one end WA or the other end WB in the width direction (i.e., the X direction), the force applied to the perforations M is more easily transmitted from each of the edge AE of the one end WA and the edge BE of the other end WB to the first perforation <NUM> (M1). Thus, according to the first implementation, when the hygienic tissue paper <NUM> is cut off, the entire perforations M become easy to be cut and the hygienic tissue paper <NUM> (KP) is more easily cut off.

With such a configuration, in the first implementation, both the edge cut portion 11c, which continues from the edge AE of the one end WA of the hygienic tissue paper <NUM> (KP) in the width direction (i.e., the X direction), and the edge cut portion 11d, which continues from the edge BE of the other end WB, are not easily turned over. Therefore, according to the first implementation, unexpected breaks or product defects of the hygienic tissue paper <NUM> (KP) during the manufacturing or packaging process of the hygienic tissue paper <NUM> can be avoided.

<FIG> is a drawing of an enlarged part of hygienic tissue paper according to an implementation (i.e., a second implementation) of the present disclosure when viewed in the thickness direction (i.e., the Z direction). <FIG> is an enlarged view of a second slit (i.e., a third perforation) of the hygienic tissue paper according to the second implementation.

As illustrated in <FIG> and <FIG>, the hygienic tissue paper <NUM> according to the present implementation (i.e., the second implementation) includes a second slit <NUM> that is alternately disposed with each of the first slits <NUM> in the longitudinal direction (i.e., the Y direction) at a predetermined interval L2 and that extends in the width direction (i.e., the X direction) intersecting the longitudinal direction (i.e., the Y direction), the second slit <NUM> includes a third perforation <NUM> (M3), and a cut length C3 of the third perforation <NUM> (M3) is the same as the cut length C1 of the first perforation (M1) in the first slit <NUM> or is shorter than the cut length C1.

In the hygienic tissue paper <NUM> of the second implementation, the second slit <NUM> extending in the width direction (i.e., the X direction) intersecting the longitudinal direction (i.e., the Y direction) is alternately disposed with each of the first slits <NUM> at the predetermined interval L2 in the longitudinal direction (i.e., the Y direction). The cut length C3 of the third perforation <NUM> (M3) constituting the second slit <NUM> is the same as the cut length C1 of the first perforation <NUM> (M1) in the first slit <NUM> or is shorter than the cut length C1.

In the second implementation, the third perforation M3 constituting the second slit <NUM> has a structure in which a cut portion 21a and a tie portion 21b are alternately disposed as illustrated in <FIG>. In the second implementation illustrated in <FIG>, the third perforation <NUM> (M3) includes an edge cut portion 21c that continues from the edge AE of the one end WA at the one end WA and an edge cut portion 21d that continues from the edge BE of the other end WB at the other end WB.

The ratio of an edge cut length D3 of the edge cut portion 21c to the cut length C3 of the third perforation <NUM> (M3) is <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The ratio of the edge cut length D3 to the cut length C3 (i.e., a D3 ratio) indicates a ratio of the edge cut length D3 when the cut length C3 is <NUM> (see <FIG>).

The ratio of an edge cut length D4 of the edge cut portion 21d to the cut length C3 of the third perforation <NUM> (M3) is <NUM> to <NUM>, more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>. The ratio of the edge cut length D4 to the cut length C3 (i.e., a D4 ratio) indicates a ratio of the edge cut length D4 when the cut length C3 is <NUM> (see <FIG>).

In the second implementation, as illustrated in <FIG> and <FIG>, a sheet of the kitchen paper KP that is cut off along the first slit <NUM> (i.e., the first perforation <NUM> (M1) and the second perforation <NUM> (M2)) is cut off at the predetermined interval L1. Then, the second slit <NUM> (i.e., the third perforation <NUM> (M3)) is left in the kitchen paper KP that has been cut off (see <FIG>).

As illustrated in <FIG> and <FIG>, in the kitchen paper KP that has been cut in such a way, the kitchen paper KP can be further split toward a TD1 direction and a TD2 direction along the third perforation <NUM> (M3) of the second slit <NUM> (see <FIG> and <FIG>). Then, as illustrated in <FIG>, the split kitchen paper KP is to be kitchen paper KP1 and kitchen paper KP2 with being cut off at the predetermined interval L2. Thus, according to the second implementation, the convenience of the hygienic tissue paper <NUM> is further improved.

As in the second implementation, the cut length C3 of the third perforation <NUM> (M3) is configured to be the same as or shorter than the cut length C1 of the first perforation <NUM> (M1), so that the second slit <NUM> is not more easily cut than the first slit <NUM> when the hygienic tissue paper <NUM> (KP) is cut off. That is, the first slit <NUM> is more easily cut than the second slit <NUM>. With such a configuration, in the second implementation, the hygienic tissue paper <NUM> can be cut along the first slit <NUM> such that the second slit <NUM> is left in the kitchen paper KP that has been cut off.

In the following, the present disclosure will be described specifically with reference to examples. Measurement and evaluation of each example and each comparative example were performed as follows.

The basis weight (g/m<NUM>) of the crepe paper (i.e., raw paper) of the hygienic tissue paper (e.g., the kitchen paper) was calculated in accordance with JIS P <NUM> (<NUM>). The basis weight was calculated as the basis weight per single ply.

The kitchen paper <NUM> (e.g., the kitchen roll) was set on the holder (base shape: circular, base diameter: <NUM>, base thickness: <NUM>, support bar height: <NUM>, and support bar diameter: <NUM>) (i.e., the support bar RS was inserted into the paper tube PT of the kitchen roll). After holding the front end of the kitchen roll with one hand and pulling out the kitchen paper KP (i.e., the sheet ST) in the PD direction, the sheet ST was pulled straight downward at the predetermined interval L1. This operation was performed five times for each example and each comparative example, and the easiness of the kitchen paper KP (i.e., the sheet ST) to be cut at this time was evaluated according to the following three levels.

A test piece on which the first slit <NUM> or the second slit <NUM> was formed approximately at the middle of the kitchen paper KP (i.e., the sheet ST) in the longitudinal direction (i.e., the Y direction), was prepared. The dimensions of the test piece were approximately <NUM> in the width direction (i.e., the X direction) (which is the cut size), approximately <NUM> in the longitudinal direction (i.e., the Y direction) (which is the sheet size), and approximately <NUM> from the end to the middle in the longitudinal direction (i.e., Y direction). A tensile test was performed on the test piece. In the test, a push pull gauge ("Z2-<NUM> N" manufactured by IMADA Co. , Ltd) was attached to a tensile tester ("MX-500N" manufactured by IMADA Co. A clip was attached to the push pull gauge. The dimensions of the clip were approximately <NUM> in length and approximately <NUM> in width. The clip was attached to the test piece. The clips were attached to both ends of the test piece in the longitudinal direction (i.e., the Y direction) such that a front end of the clip is approximately <NUM> away from each end of the test piece in the longitudinal direction (i.e., Y direction), and one side end of the clip is approximately <NUM> away from one end of the test piece in the width direction (i.e., the X direction). The tensile test was performed on this condition, and an average value of peak tensile strength (kgf) measured three times at <NUM>/min was calculated.

In the following, examples and comparative examples will be described.

The basis weight (single ply) of the hygienic tissue paper (e.g., the kitchen paper) was approximately <NUM>/m<NUM>. With respect to the dimensions of the kitchen paper (i.e., the kitchen roll), the roll diameter R1 was approximately <NUM>, the roll width W1 was approximately <NUM>, the predetermined intervals L1 and L2 were approximately <NUM>, and the thickness (<NUM>-ply) was approximately <NUM>. The first slits <NUM> extending in the width direction (i.e., the X direction) were disposed in the longitudinal direction (i.e., the Y direction) at the predetermined intervals L1. The second slit <NUM> extending in the width direction (i.e., the X direction) was alternately disposed with each of the first slits <NUM> and the second slits <NUM> were disposed in the longitudinal direction (i.e., the Y direction) at the predetermined intervals L2. In the first slit <NUM>, the first perforation <NUM> (M1) was formed on each of the one end WA side and the other end WB side, and the second perforation <NUM> (M2) was formed on the central portion WC. In the second slit <NUM>, the third perforation <NUM> (M3) was formed. In the first perforation <NUM> (M1), the cut length C1 was approximately <NUM>, the tie length T1 was approximately <NUM>, the cut-tie ratio CT1 was approximately <NUM>, and the edge cut length of both ends in the width direction(i.e., the X direction) was approximately <NUM>. In the second perforation <NUM> (M2), the cut length C2 was approximately <NUM>, the tie length T2 was approximately <NUM>, and the cut-tie ratio CT2 was approximately <NUM>. In the third perforation <NUM> (M3), the cut length C3 was approximately <NUM>, the tie length T3 was approximately <NUM>, the cut-tie ratio CT3 was about <NUM>, and the edge cut length of both ends in the width direction (i.e., the X direction) was approximately <NUM>. The conditions and results of Example <NUM> are shown in Table <NUM>.

Conditions were similar to the conditions of Example <NUM> except that in the first perforation <NUM> (M1), the cut length C1 was approximately <NUM>, the tie length T1 was approximately <NUM>, and the cut-tie ratio CT1 was approximately <NUM>, and in the second perforation <NUM> (M2), the cut length C2 was approximately <NUM>, the tie length T2 was approximately <NUM>, and the cut-tie ratio CT2 was approximately <NUM>, and in the third perforation <NUM> (M3), the cut length C3 was approximately <NUM>, the tie length T3 was approximately <NUM>, and the cut-tie ratio CT3 was approximately <NUM>. The conditions and results of Example <NUM> are shown in Table <NUM>.

Conditions were similar to the conditions of Example <NUM> except that only a first slit <NUM> was disposed, and only a first perforation <NUM> (M4) was formed in the first slit <NUM>, and the cut length C1 was approximately <NUM>, the tie length T1 was approximately <NUM>, and the cut-tie ratio CT1 was approximately <NUM>, and the edge cut portion was not provided. The conditions and results of Comparative Example <NUM> are shown in Table <NUM>.

Conditions were similar to the conditions of Example <NUM> except that the basis weight (single ply) of the hygienic tissue paper (e.g., the kitchen paper) was approximately <NUM>/m<NUM>, the predetermined interval L1 (i.e., the sheet size) was approximately <NUM>, the cut length C1 was approximately <NUM>, the tie length T1 was approximately <NUM>, and the cut-tie ratio CT1 was approximately <NUM>. The conditions and results of Comparative Example <NUM> are shown in Table <NUM>.

From Table <NUM>, the evaluation of property for being cut was <NUM> for the kitchen paper <NUM> configured such that, in the first slit <NUM>, the cut length C2 of the second perforation <NUM> (M2) formed on the central portion WC in the width direction (i.e., X direction) is longer than the cut length C1 of the first perforation <NUM> (M1) formed on the one end WA or the other end WB side in the width direction (i.e., the X direction) (Examples <NUM> to <NUM>).

With respect to the above, the evaluation of the property for being cut was <NUM> for the kitchen paper <NUM> configured such that, in the first slit <NUM>, only the first perforation <NUM> (M1) was formed and the second perforation <NUM> (M2) was not formed (Comparative Examples <NUM> and <NUM>).

Additionally, in Comparative Examples <NUM> and <NUM>, the tensile strength of the first slit <NUM> exceeded <NUM> kgf, while in Examples <NUM> to <NUM>, the tensile strength was smaller than or equal to <NUM> kgf. Further, when a value of the tensile strength (kgf) of the first slit <NUM> and a value of the tensile strength (kgf) of the second slit <NUM> were compared, the same values (kgf) were observed in Comparative Examples <NUM> and <NUM>, while the value of the first slit <NUM> was smaller than the value of the second slit <NUM> in Examples <NUM> to <NUM>.

These results indicate that hygienic tissue paper that is easy to be cut can be obtained by arranging the first slits extending in the width direction (i.e., the X direction) at predetermined intervals in the longitudinal direction (i.e., the Y direction) and increasing the cut length of each of the perforations constituting the first slit, from at least one end in the width direction (i.e., the X direction) toward the central portion.

In the following, preferred examples of the present disclosure will be additionally described.

A first example according to the present disclosure provides hygienic tissue paper including first slits that are disposed in the longitudinal direction at predetermined intervals and that extend in the width direction intersecting the longitudinal direction, wherein the first slits each include perforations, and the cut length of each of the perforations increases from at least one end in the width direction toward the central portion in the width direction.

In the present specification, the perforation has a structure in which a portion that is cut (which will be hereinafter referred to as a cut portion) and a portion that is not cut (which will be hereinafter referred to as a tie portion) between two adjacent cut portions are alternately disposed. The cut length is the length in the width direction of the cut portion constituting the perforation.

In the first example, the first slits that are disposed in the longitudinal direction at the predetermined intervals and that extend in the width direction intersecting the longitudinal direction, are formed in the hygienic tissue paper. The first slit includes the perforations, and the cut length of each of the perforations increases from at least one end in the width direction toward the central portion in the width direction.

In such a configuration, the hygienic tissue paper starts to be cut from at least one end in the width direction and a cutting direction proceeds toward the central portion in the width direction. At this time, the cutting direction is gradually stabilized as the cutting direction proceeds from the perforation at the one end side that has a short cut length toward the perforation at the central portion that has a long cut length. Even when the cutting proceeds to reach the other end side in the width direction from the central portion, the cutting can proceed with the cutting direction being stable.

Thus, in the first example, the hygienic tissue paper can be cut at a position where the perforations are formed even when the hygienic tissue paper is not fixed or is unstable (for example, when the hygienic tissue paper is cut from a tissue paper roll which is rotatably mounted on a holder or the like, when the hygienic tissue paper is cut by one hand without the hygienic tissue paper being pressed, and so on). Therefore, in the first example, when the hygienic tissue paper is cut, the hygienic tissue paper is not easily torn and extra hygienic tissue paper can be prevented from being pulled out. Therefore, according to the first example, the hygienic tissue paper that is easy to be cut can be provided.

A second example of the present disclosure provides hygienic tissue paper in which the first slit includes a first perforation formed on at least the one end side and a second perforation formed on the central portion, and the cut length of the second perforation is longer than the cut length of the first perforation.

In the second example, the first slit includes a first perforation formed on at least one end in the width direction and a second perforation formed on the central portion. The cut length of the second perforation is longer than the cut length of the first perforation.

With such a configuration, in a second example, as in the first example, the cut length of each of the perforations can increase from at least one end in the width direction toward the central portion in the width direction. Also, when hygienic tissue paper is cut, a force applied to the perforations is easily transmitted from the first perforation to the second perforation. This can further prevent the perforations from being torn in an unexpected direction and prevent extra hygienic tissue paper from being pulled out without the perforations being cut.

A third example of the disclosure provides hygienic tissue paper in which a cut-tie ratio of the first perforation is preferably <NUM> to <NUM>. Here, the cut-tie ratio of the first perforation is a ratio of the cut portion length to unit length that is the length of the cut portion and the tie portion adjacent to the cut portion in the direction in which the first perforation extends, where the unit length is <NUM>. The cut-tie ratio of the first perforation is preferably <NUM> to <NUM>, and more preferably <NUM> to <NUM>.

In the third example, the cut-tie ratio of the first perforation is configured to be in such a range, so that a force applied to the perforations can be easily transferred from the first perforation to the second perforation when the hygienic tissue paper is cut off. Thus, the third example can further prevent the perforations from being torn in an unexpected direction and prevent extra hygienic tissue paper from being pulled out without the perforations being cut.

A fourth example of the disclosure provides hygienic tissue paper in which the cut-tie ratio of the second perforation is preferably <NUM> to <NUM>. Here, the cut-tie ratio of the second perforation is a ratio of the cut portion length to unit length that is the length of the cut portion and the tie portion adjacent to the cut portion in the direction in which the second perforation extends, where the unit length is <NUM>. The cut-tie ratio of the second perforation is more preferably <NUM> to <NUM>, further more preferably <NUM> to <NUM>.

In the fourth example, the cut-tie ratio of the second perforation is configured to be in such a range, so that a force applied to the perforations can be easily transferred from the first perforation to the second perforation when the hygienic tissue paper is cut off. Thus, the fourth example further prevent the perforations from being torn in an unexpected direction and prevent extra hygienic tissue paper from being pulled out without the perforations being cut.

A fifth example of the present disclosure provides hygienic tissue paper in which the first perforation includes at least an edge cut that continues from an edge of the one end. That is, in the fifth example, at least the edge cut which continues from the edge of the one end in the width direction, is provided in the first perforation.

With such a configuration, in the fifth example, when the hygienic tissue paper is cut off, a force applied to the perforations can be easily transmitted from the edge of the one end to the first perforation. Therefore, according to the fifth example, when the hygienic tissue paper is cut, the entire perforations are easily cut and the hygienic tissue paper is further easily cut.

A sixth example of the disclosure provides hygienic tissue paper in which the ratio of the edge cut length of the edge cut portion to the cut length of the first perforation is <NUM> to <NUM>. Here, the ratio of the edge cut length of the edge cut portion to the cut length of the first perforation indicates a ratio of the edge cut length of the edge cut portion when the cut length of the first perforation is <NUM>. The ratio of the edge cut length of the edge cut portion to the cut length of the first perforation is more preferably <NUM> to <NUM>, and further more preferably <NUM> to <NUM>.

In the sixth example, the ratio of the edge cut length of the edge cut portion to the cut length of the first perforation is configured to be in such a range, so that when hygienic tissue paper is cut off, a force applied to the perforations is easily transferred from the edge of the one end to the first perforation. Thus, according to the sixth example, when the hygienic tissue paper is cut, the entire perforations are more easily cut and the hygienic tissue paper is more easily cut off.

With such a configuration, in the sixth example, at least one edge cut portion that continues from the edge of the one end in the width direction of the hygienic tissue paper is not easily turned over. Therefore, according to the sixth example, unexpected breaks or product defects of the hygienic tissue paper during the manufacturing or packaging process of the hygienic tissue paper can be avoided.

A seventh example of the present disclosure provides hygienic tissue paper in which the cut length of each of the perforations increases from the other end facing the one end in the width direction toward the central portion. In the seventh example, in the first slit, the cut length of each of the perforations increases from the other end facing the one end in the width direction toward the central portion.

With such a configuration, in the seventh example, the hygienic tissue paper can be cut from either one end or the other end of the hygienic tissue paper when the hygienic tissue paper is cut in the unfixed or unstable state as described above. Therefore, according to the seventh example, the convenience of the hygienic tissue paper is improved.

An eighth example of the present disclosure provides hygienic tissue paper that includes a second slit alternately disposed with each of the first slits in the longitudinal direction at a predetermined interval and extending in the width direction intersecting the longitudinal direction, wherein the second slit includes a third perforation, and the cut length of the third perforation is the same as the cut length of the first perforation in the first slit, or is shorter than the cut length.

In the eighth example, the second slit extending in the width direction intersecting the longitudinal direction is further alternately disposed with each of the first slits in the longitudinal direction at the predetermined interval. Additionally, the second slit includes the third perforation and the cut length of the third perforation is the same as the cut length of the first perforation in the first slit, or is shorter than the cut length.

With such a configuration, in the eighth example, the second slit (the third perforation) is left in the hygienic tissue paper cut along the first slit (the first perforation and second perforation). This enables the cut hygienic tissue paper to be split along the third perforation of the second slit. Thus, according to the eighth example, the convenience of the hygienic tissue paper is further improved.

Additionally, in the eighth example, the cut length of the third perforation is the same as or is shorter than the cut length of the first perforation, so that the second slit is not easy to be cut than the first slit when the hygienic tissue paper is cut off. That is, the first slit is more easily cut than the second slit. Therefore, according to the eighth example, the hygienic tissue paper can be cut off at the first slit with the second slit being remained.

Claim 1:
A hygienic tissue paper (<NUM>) comprising
first slits (<NUM>) that are disposed in a longitudinal direction at predetermined intervals, the first slits (<NUM>) extending in a width direction intersecting the longitudinal direction,
wherein the first slits (<NUM>) each include perforations (M),
wherein a cut length (C) of each of the perforations (M) increases from each end in the width direction toward a central portion (WC) in the width direction,
wherein the first slits (<NUM>) each include a first perforation (<NUM>) formed on at least a one end side and a second perforation (<NUM>) formed on the central portion (WC),
wherein a cut length (C2) of the second perforation (<NUM>) is greater than a cut length (C1) of the first perforation (<NUM>),
wherein the second perforation (<NUM>) is formed on the central portion (WC),
wherein the first perforation (<NUM>) includes at least an edge cut portion (11c, 11d) that continues from an edge of the one end, and
wherein a ratio of an edge cut length (D1) of the edge cut portion (11c, 11d) to the cut length (C1) of the first perforation (<NUM>) is <NUM> to <NUM>.