JPH06136652A - Production of non-woven fabric sheet having uneven pattern - Google Patents

Abstract

PURPOSE:To provide the method for producing the non-woven sheet capable of being suitably used as wet tissue paper and having an uneven pattern. CONSTITUTION:A filament web comprising many collected thermoplastic filaments is prepared. A paper sheet comprising pulp fibers is laminated to the surface of the filament web. A high pressure water column flow is applied to the laminate from the side of the paper sheet toward the side of the filament web, thus providing the composite sheet in which the pulp fibers are interlaced with the filaments each other. The composite sheet is fed between an uneven roll and the corresponding uneven roll capable of being engaged with the uneven roll through a state as if the latter is geared to the former. Or, the composite sheet is fed between the even roll and an elastic roller having a deformable surface. The thermoplastic filaments are plastically deformed with an uneven surface such as the uneven roll to form the uneven pattern on the composite sheet.

Description

Detailed Description of the Invention

[0001]

INDUSTRIAL APPLICABILITY The present invention can be suitably used as a cleaning cloth for disposable hand wipes, wet tissues, wipers, disposable rags, etc., and also as a material for miscellaneous goods such as table covers, dinner mats or bags. And a non-woven sheet having an uneven pattern.

[0002]

2. Description of the Related Art Conventionally, as a wipe cloth such as a disposable hand wipe, a dry pulp sheet in which pulp fibers are bulky accumulated and which is soaked with water or chemicals is used. However, the dry pulp sheet has a drawback that it has a low wet strength after being soaked with water, chemicals and the like, and is easily broken during use.

On the other hand, there is also used a nonwoven fabric in which rayon fibers, which are hydrophilic fibers, are accumulated and then the rayon fibers are bonded to each other with a rubber-based binder soaked with water or the like. This wiping cloth has a high wetting strength because the rayon fibers are bonded to each other. However, since the wiping cloth contains a rubber-based binder, it has a drawback that it gives off an offensive odor. Further, since the rubber-based binder has a rough texture, the feeling of using the wiping cloth is not good.

Therefore, attempts have been made to use a non-woven fabric in which rayon fibers are entangled with each other without using a rubber-based binder. To entangle the rayon fibers with each other, it is possible to apply a high-pressure water column flow to the web in which the rayon fibers are accumulated. The wiping cloth thus obtained is preferable because it does not give off a strange odor and has no rough texture. However, the wiping cloth made of rayon fibers has the following fatal drawbacks. That is, since the rayon fiber is excellent in hydrophilicity, when it is used as a wiping cloth, it often absorbs water and swells, so that its rigidity may be extremely lowered. If the rigidity of the rayon fiber is lowered, the rigidity of the wiping cloth is also lowered, the repulsive force when the wiping cloth is gripped by fingers is lowered, and a fatal defect that it is difficult to use is caused.

[0005]

Therefore, the applicant of the present invention has conducted various studies in order to solve the above-mentioned drawbacks.
As a result, basically, they succeeded in solving the above-mentioned drawbacks by obtaining a wiping cloth by the following method. That is, after laminating a long fiber web made of hydrophobic long fibers and a paper sheet made of pulp fibers, by applying a high pressure water column flow from the paper sheet side to the long fiber web side,
This is a method in which long fibers and pulp fibers are entangled to obtain a composite sheet, which is used as a wiping cloth (Japanese Patent Application No. 3-20
No. 4875, Japanese Patent Application No. 4-89650 and Japanese Patent Application No. 4-113048).
Since this composite sheet is mainly composed of hydrophobic long fibers that are difficult to absorb water and retains its shape, it is possible to satisfactorily prevent the drawback that the rigidity is lowered during use and it is difficult to hold with fingers. Of. In addition, since the hydrophobic long fibers are entangled with the pulp fibers, the absorbency of water does not decrease, and it can be suitably used as a wiping cloth.

However, when a chemical solution such as water or a wetting agent was applied to this composite sheet to form a wet tissue, the following drawbacks occurred. That is, when a chemical solution is applied to the composite sheet to form a wet tissue and then the wet tissue is conveyed by the conveyor belt, there is a drawback that the wet tissue is not easily peeled off from the conveyor belt. This is because the pulp fiber in the composite sheet absorbs the chemical solution, and the surface tension of the chemical solution and the bonding force resulting from the hydrogen bond of the pulp fiber that absorbs the chemical solution cause the pulp fiber to adhere to the conveyor belt in a planar manner. This is because Also,
When peeling one of the several wet tissues that had been piled up, there was a drawback that it was difficult to peel.
This is also because the pulp fibers in the composite sheet absorb the chemical solution and cause the same phenomenon as described above.

Therefore, the present inventors prevent the pulp fibers in the composite sheet from adhering to the conveyor belt in a planar manner even if the pulp fiber in the composite sheet absorbs the chemical solution by providing the composite sheet with an uneven pattern. I thought it was possible. That is, if the composite sheet has a concave-convex pattern, the convex portion adheres closely to the conveyor belt as in the conventional case, but the concave portion does not adhere to the conveyor belt,
Therefore, it was considered that the composite sheet having absorbed the drug solution and the conveying belt are not in close contact with each other in a planar manner, the mutual adhesive force is reduced, and the conveying belt is easily peeled off. The present invention has been made based on such findings,
An object of the present invention is to provide a method for imprinting an uneven pattern on the composite sheet described above.

[0008]

That is, according to the present invention, after a paper sheet made of pulp fibers is laminated on the surface of a long fiber web in which a large number of thermoplastic long fibers are accumulated, the paper sheet side is used. By applying a high-pressure water column flow toward the long fiber web side, a composite sheet obtained by intertwining the pulp fibers and the long fibers with each other is provided, and the concave and convex rolls and the portions corresponding to the concave portions of the concave and convex rolls are convex. Between the concave-convex rolls having a concave portion at a portion corresponding to the convex portion of the concave-convex roll, or when pressed by the surface of the concave-convex roll, the mold of the concave and convex portions of the concave-convex roll In a corresponding state, it is introduced between an elastic roll whose surface is deformed into an uneven shape, and the long fibers are plastically deformed to form an uneven pattern on the composite sheet. Related to the method of manufacturing woven sheets That.

A feature of the present invention is that a concavo-convex roll is used in a composite sheet in which thermoplastic long fibers and pulp fibers are entangled with each other, and the thermoplastic long fibers are plastically deformed to form an uneven pattern. In point. That is, conventionally, an uneven pattern is formed on a pulp web in which only pulp fibers are accumulated by using an uneven roll. However, this uneven pattern is due to the compression of the pulp web, not the plastic deformation of the thermoplastic long fibers. Further, it is also practiced to form a concavo-convex pattern on a fibrous web in which only thermoplastic long fibers are accumulated by using a concavo-convex roll. However, this uneven pattern is merely a pattern addition,
Unlike the present invention, it is not carried out in order to prevent the pulp fibers, which have absorbed the chemical solution or the like, from adhering to and adhering to a flat conveying belt or the like.

The present invention will be described in detail below. First, the manufacturing method of the composite sheet used in the present invention is as follows. That is, after stacking a paper sheet composed of a large number of pulp fibers on the surface of a long fiber web in which a large number of thermoplastic long fibers are accumulated, a high pressure water column flow is applied from the paper sheet side to the long fiber web side. By applying, the pulp fibers and the long fibers are entangled with each other to obtain a composite sheet.

To obtain this composite sheet, first, a long fiber web in which a large number of thermoplastic long fibers are accumulated is prepared. For example, such a long fiber web can be obtained by melt spinning a thermoplastic resin to obtain long fibers and depositing the long fibers on a collection conveyor. here,
As the thermoplastic long fibers, for example, polyolefin long fibers, polyester long fibers, polyamide long fibers, polyacrylic acid ester long fibers and the like can be used. The reason for using the thermoplastic long fibers is to plastically deform the long fibers by pressing or heating the concavo-convex roll to be formed later. In the case of non-thermoplastic long fibers, it is not preferable to use in the present invention because it is difficult to plastically deform by pressure or heating. Further, the reason for using the long fibers is that the long fiber web made of long fibers is superior to the short fiber web made of short fibers in the case where the fibers are entangled with each other, because the tensile strength and the shape stability are excellent. Is. Furthermore, in the case of long fibers, even if a high-pressure water column flow is applied, the long fibers are less likely to be lost together with the water column flow.

The fineness of the long fibers is preferably 1 to 7 denier, and most preferably 1 to 4 denier. When the fineness of the long fibers exceeds 7 denier, the flexibility of the long fiber web decreases, and the usability when used as a wet tissue tends to decrease. On the other hand, when the fineness of the long fibers is less than 1 denier, the production conditions of the long fibers become strict, and it tends to be difficult to produce the long fibers and eventually the long fiber web at a high speed. Also,
The rigidity of the long fibers decreases, the stiffness of the obtained composite sheet decreases, and the volume feeling tends to decrease.

The basis weight of the long fiber web is 5 to 30 g /
It is preferably m ² . Most preferably, it is 5 to ²⁰ g / m ² . When the basis weight of the long fiber web exceeds 30 g / m ² , even if a paper sheet is laminated on one side of the long fiber web and a high pressure water column flow is applied from the paper sheet side to the long fiber web side, The constituent pulp fibers hardly move to the back surface (non-laminated surface of the paper sheet) of the long fiber web, and there is a tendency for difference in water absorption in the thickness direction. On the other hand, when the basis weight of the continuous fiber web is less than 5 g / m ² , the morphological stability of the continuous fiber web is deteriorated, and the wet strength of the obtained composite sheet tends to be decreased. Furthermore, when the gap between the long fibers becomes large and the high pressure water column flow is applied, the pulp fibers flow out from the gap, and when the high pressure water column flow after use is recovered, the pulp fibers are There is a risk of mixing in a large amount. Incidentally, the long fiber web used in the present invention, self-fusion between the long fibers,
It may be a so-called long-fiber nonwoven fabric, or may be a fleece-shaped long-fiber fleece in which long fibers are not bonded to each other. In particular, among the former long-fiber nonwoven fabrics, it is preferable to use one in which a large number of point-fused parts in which long fibers are self-bonded to each other are arranged in a scattered manner. The reason for this is that the long fibers have point fusion parts that are self-fusing to each other, so that the morphological stability is excellent, and at the parts other than the point fusion parts, the long fibers are self-fusing. Since it is accumulated in a free state, it is excellent in flexibility and easily entangled with pulp fibers.

A paper sheet is laminated on one side of the long fiber web prepared as described above. This paper sheet is composed of a large number of pulp fibers. The basis weight of the paper sheet can also be arbitrarily determined, but it is particularly preferable to use a paper sheet having a basis weight of 10 to 100 g / m ² measured by the method specified in JIS P 8124. When the basis weight of the paper sheet is less than 10 g / m ² , the absolute amount of pulp fibers is small, and it tends to be difficult to give sufficient water absorption and water retention to the resulting composite sheet. On the other hand, if the basis weight of the paper sheet exceeds 100 g / m ² , the overall basis weight of the obtained composite sheet becomes too large, and the flexibility of the composite sheet tends to decrease. Further, since the absolute amount of pulp fibers is too large, even if a high pressure water column flow is applied to the paper sheet, it tends to be difficult to give momentum to the extent that each pulp fiber can be entangled with long fibers.

The pulp fibers that make up the paper sheet include
Crafting of coniferous and hardwood wood, sulfite method,
Chemical pulp obtained by digesting by the soda method, polysulfide method or the like, or mechanical pulp such as ground pulp or thermomechanical pulp can be used alone or in a mixture in a bleached or unbleached state. The weight mixing ratio of the softwood pulp and the hardwood pulp is preferably in the range of softwood pulp / hardwood pulp = 100 to 20/0 to 80, and most preferably 100 to 40/0 to 60. When the content of hardwood pulp exceeds 80%, not only the loss of pulp due to high-pressure column flow increases but also the flexibility of the composite sheet after entanglement tends to decrease. In addition, the density of the paper sheet used (JIS P 81
18 measured in the manner shown in) is preferably at 0.65 g / cm ³ or less, and most preferably in particular 0.6 g / cm ³ or less. Therefore, the density of the paper sheet is adjusted by wet-making the pulp with the Canadian standard freeness of 600 ml or more measured by the method shown in JIS P 8121. When the density of the paper sheet exceeds 0.65 g / cm ³ , the movement of the pulp fiber is suppressed and the entanglement of the long fiber and the pulp fiber becomes insufficient when the high pressure water column flow is applied from above the paper sheet. A tendency occurs, and the flexibility of the composite sheet after entanglement tends to decrease. When a paper sheet is obtained by making a slurry containing pulp into a paper sheet, for example, a polyamide / epichlorohydrin resin or a modified product thereof, a polyamine / epichlorohydrin resin, a melamine resin, a urea resin, or another wet paper strength enhancer is added to the slurry. Then, by the method shown in JIS P 8135
Wet tensile strength measured on a 25 mm wide test piece is 0.04 ~
It is preferable to adjust to a paper sheet in the range of 1.5 kgf.

This paper sheet is laminated on one side of a long fiber web prepared in advance. At this time, the ratio of the basis weight of the long fiber web to the basis weight of the paper sheet is preferably set as follows. That is, the ratio of the basis weight of the long fiber web and the basis weight of the paper sheet measured by the method shown in JIS P 8124 is set to long fiber web / paper sheet = 1/1 to 19, preferable. When the long-fiber web / paper sheet is less than 1/1, the amount of pulp fibers becomes relatively small with respect to the amount of long fibers, and the water absorption and water retention of the resulting composite sheet tend to decrease. In addition, since the amount of inexpensive pulp fibers is smaller than that of long fibers, the wet tissue or the like finally obtained tends to be expensive.
On the contrary, when the long fiber web / paper sheet = 1/19 is exceeded and the basis weight of the paper sheet becomes heavy, it becomes difficult for all of the pulp fibers constituting the paper sheet to be strongly entangled with the long fibers, resulting in a composite When the sheet is used after being moistened, the pulp fibers tend to fall off.

After the paper sheets are laminated on one side of the long fiber web, a high pressure water column flow is applied from the surface of the paper sheet to the long fiber web side. That is, the high pressure water column flow is applied so that the high pressure water column flow penetrates from the paper sheet side of the laminate to the long fiber web side. This high pressure water column flow is obtained by ejecting water at high pressure through a nozzle hole having a fine diameter. For example, through a nozzle hole with a hole diameter of 0.01 to 3 mm,
It is obtained by ejecting water at a pressure of about 0 to 150 kg / cm ² . When this high-pressure water column flow is applied to the laminate, the high-pressure water column flow collides with the paper sheet. Then, the paper sheet first adheres to the long fiber web, and then, in this adhered state, the paper sheet is broken, the pulp fibers constituting the paper sheet are isolated, and the pulp fiber is not deformed such as bent or twisted. At the same time, the pulp fibers are given sufficient kinetic energy to cause random motion in the pulp fibers. As a result, due to their composite action, the pulp fibers and the long fibers in the long fiber web are entangled with each other, and the pulp fibers also entangle the long fibers with each other. As described above, a composite sheet in which pulp fibers and long fibers are entangled with each other is obtained.

The method described above is the method for producing the composite sheet used in the present invention. Then, the composite sheet obtained by such a method is introduced between the uneven roll and the uneven roll. The concavo-convex roll and the concavo-convex roll form a pair in the following relationship. That is, the portion corresponding to the concave portion of the concave-convex roll is the convex portion of the concave-convex roll, and the portion corresponding to the convex portion of the concave-convex roll is the concave portion of the concave-convex roll. Therefore, the concavo-convex roll and the concavo-convex roll mesh with each other like a gear. As the concavo-convex roll and the concavo-convex roll, it is preferable to use a material having a high surface hardness in order to maintain a good meshing relationship. For example,
It is better to use a metal roll or a ceramic roll. When a composite sheet is introduced between the uneven roll and the uneven roll, in a state corresponding to the uneven pattern of the uneven roll,
The thermoplastic long fibers forming the composite sheet are plastically deformed,
The uneven pattern is imprinted on the composite sheet. As the concavo-convex pattern formed on the concavo-convex roll, a conventionally known pattern pattern such as a lattice pattern or a scattered pattern is appropriately adopted.

An elastic roll may be used instead of the uneven roll. When the surface of the elastic roll is pressed by the surface of the concavo-convex roll, the elastic roll deforms into irregularities in a state corresponding to the molds of the concave and convex portions of the concavo-convex roll. Therefore, when the composite sheet is introduced between the elastic roll and the concavo-convex roll, the thermoplastic long fibers constituting the composite sheet are plastically deformed in a state corresponding to the concavo-convex pattern of the concavo-convex roll, and the concavo-convex pattern is given to the composite sheet. It is typed. The elastic roll does not have high surface hardness like the uneven roll or the uneven roll described above, but has low surface hardness. Specifically, a roll made of rubber, fiber or paper, which is a material having excellent flexibility, is used. That is, as the elastic roll, a rubber roll, a cotton roll or a paper roll is preferably used.

The maximum depth of the concave portion of the uneven roll is 0.5 to 5.0.
mm is preferred, with 0.7 to 2.5 mm being most preferred. Here, the maximum depth of the concave portion is the distance from the surface of the convex portion of the concave-convex roll to the surface of the concave portion. If the maximum depth of the recesses is less than 0.5 mm, it tends to be insufficient to form a clear uneven pattern on the composite sheet. On the other hand, when the maximum depth of the recesses exceeds 5.0 mm, the plastic deformation of the thermoplastic long fibers becomes excessive, and the composite sheet tends to be broken or punctured. Further, the line pressure between the uneven roll and the uneven roll, or the line pressure between the uneven roll and the elastic roll may be arbitrarily set depending on the maximum depth of the uneven roll, the uneven pattern, the surface hardness of the roll, and the like. Generally, the linear pressure is preferably 10 to 150 kg / cm, and most preferably 20 to 100 kg / cm.
If the linear pressure is less than 10 kg / cm, it tends to be insufficient to form a clear uneven pattern on the composite sheet. On the other hand, if the linear pressure exceeds 150 kg / cm, the thermoplastic long fibers are likely to be cut, and the composite sheet tends to be easily broken.

The uneven roll, uneven roll or elastic roll used in the present invention may be heated or may be at room temperature. When an uneven pattern is formed on the composite sheet at room temperature, when the composite sheet absorbs the drug solution or the like, the uneven pattern tends to disappear with time. Therefore, when a chemical solution or the like is applied to the composite sheet and is used as a wet tissue, it is preferable to use a heated concavo-convex roll or the like and impress an irregular pattern on the composite sheet with a constant linear pressure. . This is because if the concavo-convex roll or the like is heated, the thermoplastic fibers are softened or melted, and the plastically deformed thermoplastic fibers are almost completely fixed in that state. Therefore, even if a chemical solution or the like is applied to the composite sheet having an uneven pattern, it is possible to prevent the uneven pattern from disappearing with time. When heating uneven rolls, the temperature is generally 100 to 3
About 00 ° C is preferable. When the rolls are heated, both the uneven roll and the uneven roll or the elastic roll forming a pair may be heated, or only one roll may be heated.

When the composite sheet used in the present invention is produced by the above-mentioned method, one side has a small amount of pulp fibers and a relatively large amount of thermoplastic fibers, and the other side has a large amount due to the production method. There are many pulp fibers and relatively few thermoplastic fibers. That is, since the long fiber web and the paper sheet are laminated and produced, the thermoplastic fiber is relatively small on the paper sheet side, and the thermoplastic fiber is relatively large on the side where the paper sheet is not laminated. There is. Therefore, when only one of the paired rolls is heated to form a concave-convex pattern on the composite sheet, it is preferable to bring the heated roll into contact with the surface having a relatively large amount of thermoplastic fibers. This is because the heat energy of the roll is easily transmitted to the thermoplastic fiber, and thus the thermoplastic fiber is easily plastically deformed, and the heat energy can be effectively used. Furthermore, there is an advantage that the amount of pulp fibers that come into contact with the heated roll is reduced, and the deterioration in strength and yellowing of the pulp fibers due to heating can be reduced.

The non-woven sheet obtained by imprinting the uneven pattern on the composite sheet as described above has an arbitrary uneven pattern and can be used as a wipe as it is, or as a table cover, a mat for dinner. Alternatively, it is used as a material for miscellaneous goods such as bags. In particular, when used as a wiping cloth, a non-woven sheet is provided with a wetting agent such as water or propylene glycol, an antibacterial agent such as alcohols or parabenzoic acid ester, a fungicide, a chemical solution such as a fragrance, or the like. Therefore, it is preferable to use it as a disposable hand wipe, a wet tissue, a wiper, a disposable rag, etc.

[0024]

【Example】

Example 1 A long fiber non-woven fabric was prepared in which polypropylene long fibers were accumulated and which had a large number of point fused portions in which the polypropylene long fibers were self-fused together. The fineness of the long fibers constituting this long-fiber nonwoven fabric was 2.5 denier, and the basis weight of the long-fiber nonwoven fabric was 12 g / m ² . On one side of this long fiber non-woven fabric, 0.1% by dry weight of polyamide epichlorohydrin resin was added to softwood kraft pulp with a Canadian standard freeness of 660 ml, and a paper sheet obtained by wet papermaking was laminated. The basis weight of this paper sheet was 50 g / m ^{2 as} measured by the method specified in JIS P 8124.
Wet tensile strength measured by the method shown in 135 is 0.3 kgf / 2
It was 5 mm wide. Then, the paper sheet was placed on the upper side and the long fiber non-woven fabric was placed on the lower side, and the sheet was placed on a transfer conveyor formed of a wire mesh. Then, this laminate is 20m
While transferring at a speed of / min, a nozzle hole with a hole diameter of 0.12 mm
A high-pressure water column flow was ejected at a water pressure of 40 kg / cm ² using a high-pressure water column flow ejection device arranged in a staggered pattern at 0.64 mm intervals, and the high-pressure water column flow was applied to the surface of the paper sheet. As described above, the pulp fibers forming the paper sheet and the long fibers forming the long fiber non-woven fabric were entangled with each other to obtain a composite sheet in which both were integrated.

Next, the composite sheet was introduced between a metal concavo-convex roll heated to 130 ° C. and an ordinary woolen paper roll. In addition, the uneven pattern of the metal uneven roll was a polka dot shape, and the maximum depth of the concave portion was 2 mm. The linear pressure between the metal concavo-convex roll and the woolen paper roll was 50 kg / cm. Further, the composite sheet was introduced such that the surface having a relatively large amount of polypropylene long fibers (the long fiber nonwoven fabric surface on which the paper sheets were not laminated) was brought into contact with the metal concavo-convex roll. The non-woven sheet obtained as described above was excellent in water absorption and had a beautiful polka-dot uneven pattern. The non-woven sheet has a wavy cross section, and its thickness (the thickness from the concave surface to the convex surface formed on the non-woven sheet) is 6 times the thickness of the flat composite sheet. It was excellent in volume feeling. Further, even when this non-woven sheet was immersed in water for 24 hours, the imprinted uneven pattern did not disappear.

Example 2 Polyethylene terephthalate continuous fibers are accumulated,
In addition, a long-fiber nonwoven fabric having a large number of point-fused portions in which the polyethylene terephthalate long fibers were self-fused between themselves was prepared. The fineness of the long fibers constituting this long-fiber nonwoven fabric is 2.4.
It was denier, and the basis weight of the long fiber nonwoven fabric was 12 g / m ² . 90% by weight of softwood bleached kraft pulp with a Canadian standard freeness of 640 ml and hardwood bleached kraft pulp with a Canadian standard freeness of 620 ml1
A paper sheet obtained by wet papermaking was laminated by adding 0.3% by dry weight of polyamide epichlorohydrin resin to 0% by weight of pulp fiber mixture. JI of this paper sheet
The basis weight measured by the method described in SP 8124 was 40 g / m ² , and the wet tensile strength measured by the method described in JIS P 8135 was 1.0 kgf / 25 mm width. Then, the paper sheet was placed on the upper side and the long fiber non-woven fabric was placed on the lower side, and the sheet was placed on the transfer conveyor formed of the wire mesh. Then, while transporting this laminate at a speed of 20 m / min, a hole diameter of 0.12 mm
The high-pressure water column flow was ejected at a water pressure of 50 kg / cm ² using a high-pressure water column flow ejection device in which the nozzle holes of No. 1 were arranged in a staggered pattern at intervals of 0.64 mm, and the high-pressure water column flow was applied to the surface of the paper sheet. As described above, the pulp fibers that make up the paper sheet,
The long fibers constituting the long fiber non-woven fabric were entangled with each other to obtain a composite sheet in which both were integrated.

Next, the composite sheet was introduced between a metal concavo-convex roll heated to 220 ° C. and a room-temperature metallic concavo-convex roll having a concavo-convex pattern that completely meshes with the metal concavo-convex roll. The concavo-convex pattern of the metallic concavo-convex roll was herringbone-shaped, and the maximum depth of the concavities was 1.5 mm. The linear pressure between the metal uneven roll and the metal uneven roll was 30 kg / cm. Furthermore, in the composite sheet, the surface on which polyethylene terephthalate long fibers are relatively present (the long-fiber non-woven fabric surface on which the paper sheets are not laminated) is
It was introduced so as to be in contact with a metal concavo-convex roll. The non-woven sheet obtained as described above was excellent in water absorption and had a beautiful herringbone-shaped concavo-convex pattern.
The non-woven sheet has a wavy cross section, and its thickness (thickness from the concave surface to the convex surface formed on the non-woven sheet) is 3.6 times the thickness of the flat composite sheet. It was excellent in volume feeling. Further, even when this non-woven sheet was immersed in water for 24 hours, the imprinted uneven pattern did not disappear.

Example 3 A long-fiber nonwoven fabric was prepared in which polypropylene long-fibers were accumulated and which had a large number of point-fused portions in which the polypropylene long-fibers were self-fused. The fineness of the long fibers constituting this long-fiber nonwoven fabric was 2.3 denier, and the basis weight of the long-fiber nonwoven fabric was 20 g / m ² . On one side of this long-fiber non-woven fabric, 0.1% by dry weight of polyamide-epichlorohydrin resin was added to kraft pulp of coniferous wood having a Canadian standard freeness of 620 ml, and a paper sheet obtained by wet papermaking was laminated. This paper sheet has a basis weight of 60 g / m ² measured by the method shown in JIS P 8124.
Wet tensile strength measured by the method shown in 135 is 0.6 kgf / 2
It was 5 mm wide. Then, the paper sheet was placed on the upper side and the long fiber non-woven fabric was placed on the lower side, and the sheet was placed on a transfer conveyor formed of a wire mesh. Then, this laminate is 20m
While transferring at a speed of / min, a nozzle hole with a hole diameter of 0.15 mm
70k using high-pressure water column jets lined up at 1mm intervals
A high pressure water column flow was ejected at a water pressure of g / cm ² to apply the high pressure water column flow to the surface of the paper sheet. As described above, the pulp fibers forming the paper sheet and the long fibers forming the long fiber non-woven fabric were entangled with each other to obtain a composite sheet in which both were integrated.

Next, this composite sheet was introduced between the metal concavo-convex roll heated to 100 ° C. and the rubber roll at room temperature. The concave-convex pattern of the metallic concave-convex roll had a floral pattern, and the maximum depth of the concave portion was 1 mm. The linear pressure between the metal concavo-convex roll and the rubber roll was 80 kg / cm.
Further, the composite sheet was introduced such that the surface having a relatively large amount of polypropylene long fibers (the long fiber nonwoven fabric surface on which the paper sheets were not laminated) was brought into contact with the metal concavo-convex roll. The non-woven sheet obtained as described above was excellent in water absorbency and had a beautiful floral pattern. The non-woven sheet has an irregular wavy cross section, and its thickness (the thickness from the concave surface to the convex surface formed on the non-woven sheet) is equal to that of the flat composite sheet. It doubled, and it was excellent in volume feeling.

Comparative Example 1 A composite sheet in which pulp fibers and polypropylene long fibers were entangled and integrated was obtained by the same method as in Example 1 except that the treatment with the uneven roll was not performed.

Comparative Example 2 A composite sheet in which pulp fibers and polyethylene terephthalate continuous fibers were entangled and integrated was obtained by the same method as in Example 2 except that the treatment with the uneven roll was not carried out.

Comparative Example 3 The long fiber nonwoven fabric used in Example 1 was used as it was.

Comparative Example 4 The paper sheet used in Example 1 was used as it was.

The non-woven sheets obtained in Examples 1 to 3, the composite sheets obtained in Comparative Examples 1 and 2, the long fiber nonwoven fabric of Comparative Example 3 and the paper sheet of Comparative Example 4 were subjected to the following tests,
The quality was evaluated. The results are shown in Table 1.

[Table 1]

The test method for quality evaluation is as follows. [Water absorption]: The water absorption of the sample was judged by sensory evaluation. The sensory evaluation was carried out in the following 5 stages. 5 ... Absorbed water very quickly. 4 ... Immediately absorbed water. 3 ...
Water absorption was normal. 2. Slowly absorbed water.
1 ... Water absorption was poor. [Thickness increase rate (times)]: The thickness of the uneven roll before and after the treatment was measured, and the thickness increase rate was evaluated by the following formula. The higher the magnification, the more excellent the volume feeling. Thickness increase factor (times) = (thickness after uneven roll treatment)
/ (Thickness before the uneven roll treatment). This thickness was measured without load so as not to deform the sample. Therefore, since the nonwoven sheet has a wavy cross section, the distance from the lowermost surface to the uppermost surface of the wave is the thickness of the nonwoven sheet after the uneven roll treatment. Moreover, since the composite sheet before the concavo-convex roll treatment is flat, the thickness is the thickness of the composite sheet itself. In addition, when the uneven roll is not processed, the thickness increase ratio cannot be evaluated.
It is shown by-in the inside. [Wipeability]: After immersing the sample in water, the table was rubbed in a slightly squeezed state, and the wipeability was visually evaluated by sensory evaluation. The sensory evaluation was carried out in the following 5 stages. 5 ... The wiping property was extremely excellent. 4 ... Excellent in wiping-off property.
3 ... Wiping property was normal. 2 ... Wiping property was slightly poor. 1 ... Wipeability was poor. [Residue of uneven pattern]: After immersing the sample in water for 24 hours,
The degree of residual unevenness was evaluated by visual sensory evaluation. The sensory evaluation was carried out in the following 5 stages. In addition, with respect to the sample having no concavo-convex pattern of Comparative Example, since the residual property cannot be evaluated, it is shown by-in Table 1. 5 ... The uneven pattern remained completely, and the uneven pattern was clear even when wet with water. 4 ... The uneven pattern remained almost, and the uneven pattern was clear even when wet with water. 3 ... Although the uneven pattern remained, it was hardly noticeable when wet with water. 2 ... The uneven pattern disappeared considerably, and it was unclear when wet with water. 1 ... The uneven pattern had completely disappeared. [Curl]: Place the sample in an atmosphere of 20 ° C and 30% relative humidity
After being left to stand for 24 hours, the state of curl was visually evaluated. The sensory evaluation was carried out in the following 5 stages. 5 ... No curl was observed. 4 ... A slight curl was recognized.
3 ... Some curl was observed. 2 ... A large curl was observed. 1 ... An extremely large curl was recognized.

As is clear from the results in Table 1, Example 1
Comparing the non-woven sheets according to 3 to the composite sheets according to Comparative Examples 1 and 2, the composite sheets according to Comparative Examples 1 and 2 have no uneven pattern, and thus the thickness is thin, You can see that it is inferior in volume. Comparative Example 1
Curl occurs in the composite sheet according to Nos. 2 and 3. This is because the abundance of pulp fibers that easily absorb moisture is different between the front and back surfaces of the composite sheet, so that one surface contracts or extends. Also in the non-woven sheet according to the example, on the front and back sides, the abundance of pulp fibers is different, but since the uneven pattern is imprinted, even if one surface shrinks or extends, this uneven pattern Is absorbed by
It is considered that curl does not occur as a whole. In addition, the long-fiber nonwoven fabric according to Comparative Example 3 was inferior in water absorbability and wiping-off property, and inferior in volume feeling, since pulp fibers were not present. Further, since the paper sheet according to Comparative Example 4 did not have long fibers, the tensile strength in the wet state was extremely weak and it could not be used repeatedly. Furthermore, the products according to Comparative Examples 3 and 4 were inferior in appearance to the non-woven sheet according to the example, because the uneven pattern was not formed.

[0037]

As described above, the non-woven sheet obtained by the method according to the present invention has thermoplastic fibers and pulp fibers intertwined with each other and has an uneven pattern. Then, when a chemical solution is applied to this non-woven sheet to form a wet tissue or the like, the wet tissue has a corrugated pattern when viewed from a cross section and has a corrugated plate shape when viewed from a cross section. Even when placed on the conveyor belt, it is possible to prevent the conveyor belt and the wet tissue from sticking to each other. Therefore, since the pulp fiber that has absorbed the chemical solution contacts the conveyor belt only at the convex portion or the concave portion of the wet tissue, the binding force derived from the surface tension of the chemical solution and the hydrogen bond of the pulp fiber is only at the contacted portion. Work in other parts. Therefore, when the wet tissue is peeled off from the conveyor belt, it has an effect of being easily peeled off. Further, even when the wet tissues are overlapped with each other instead of the conveyor belt, the wet tissues are not completely adhered to each other, and therefore, when taking out one by one, it is easy to peel the wet tissues.

Further, in the method according to the present invention, a composite sheet in which thermoplastic long fibers and pulp fibers are entangled and integrated is introduced between an uneven roll and an uneven roll which makes a pair by meshing with the uneven roll. Or the thermoplastic long fibers are plastically deformed by introducing between the concavo-convex roll and the elastic roll to form a concavo-convex pattern on the composite sheet. Therefore, unlike the concavo-convex pattern of the long fiber web, the long fibrous nonwoven fabric or the pulp web simply compressed, the concavo-convex pattern is less likely to disappear over time. In particular, when the concavo-convex roll or the like is heated to plastically deform the thermoplastic long fibers, the concavo-convex pattern does not easily disappear even when immersed in water or the like.

The non-woven sheet obtained by the method according to the present invention is excellent in volume feeling because the uneven pattern is formed even when it is used as it is without applying a chemical solution or the like. In addition to the effect described above, it is possible to prevent curling due to atmospheric humidity as demonstrated in the examples and comparative examples. Also,
Since this non-woven sheet contains pulp fibers, it is excellent in water absorption and water retention, and further contains long fibers, which is excellent in morphological stability and can be suitably used for various applications. Also effective.

Claims (2)

[Claims] 1. A paper sheet made of pulp fibers is laminated on the surface of a long fiber web formed by accumulating a large number of thermoplastic long fibers, and a high-pressure water column flow is applied from the paper sheet side to the long fiber web side. The composite sheet obtained by intertwining the pulp fibers and the long fibers with each other is provided with an uneven roll, and a portion corresponding to the concave portion of the uneven roll is a convex portion, and the convex roll is Introduced between uneven rolls having a concave portion at a portion corresponding to the convex portion of, the plastic deformation of the long fibers, to form an uneven pattern on the composite sheet Method for manufacturing woven sheet. 2. A paper sheet made of pulp fibers is laminated on the surface of a long fiber web formed by accumulating a large number of thermoplastic long fibers, and a high-pressure water column flow from the paper sheet side toward the long fiber web side. When the composite sheet obtained by intertwining the pulp fibers and the long fibers with each other is pressed by the concave-convex roll and the surface of the concave-convex roll, it corresponds to the concave and convex molds of the concave-convex roll. In this state, it is introduced between an elastic roll whose surface is irregularly deformed, and the long fibers are plastically deformed to form an irregular pattern on the composite sheet. Sheet manufacturing method.