Non-woven fabric substrate for wiping sheet

Abstract

According to a nonwoven fabric substrate (1) for wiping sheet of the invention, ridges (2) and grooves (3) are alternately formed at positions corresponding to each other on both surfaces (1a, 1b), and apertures (4) are formed in the grooves (3). Each of the ridges (2) and the grooves (3) extend parallel to one side of the nonwoven fabric substrate (1). Each of the grooves (3) alternately includes an aperture portion (3h) which has a plurality of the apertures (4), and a non-aperture portion (3n) which has no aperture (4) and is longer than a distance between the nearest end portions of the adjacent apertures (4) in the aperture portion (3h). An arrangement pattern of the aperture portion (3h) and the non-aperture portion (3n) provided in the groove (3a) is different from an arrangement pattern of the aperture portion (3h) and the non-aperture portion (3n) provided in an adjacent groove (3b). When the whole of the nonwoven fabric substrate (1) is seen in planar view, the nonwoven fabric substrate (1) has an aperture region (11) formed by the aperture portions (3h) of a plurality of the grooves (3), and a non-aperture region (12) formed by the non-aperture portions (3n) of a plurality of the grooves (3). Each of the aperture region (11) and the non-aperture region (12) is arranged in a predetermined pattern.

Description

TECHNICAL FIELD

The present invention relates to a nonwoven fabric substrate for wiping sheet.

BACKGROUND ART

As a substrate used in a wiping sheet, for example, Patent Literature 1 discloses a nonwoven fabric which includes a high-fiber density region and a low-fiber density region as a wet type cleaning sheet, in which the low-fiber density region is arranged in a predetermined pattern, and aperture portions are arranged evenly along an extending direction of the low-fiber density region.

Since the nonwoven fabric described in Patent Literature 1 has the aperture portions, it is possible to wipe off the granular solid waste, for example, it is possible to peel off the stuck dirt by ridges of the high-density fiber region, and it is possible to wipe off the peeled dirt by the aperture portions.

However, since the aperture portions of the nonwoven fabric described in Patent Literature 1 are merely arranged evenly along the low-fiber density region, it was not possible to sufficiently absorb water-based or oil-based liquid dirt.

CITATION LIST

Patent Literature

• Patent Literature 1: JP 2002-30557 A

SUMMARY OF INVENTION

Accordingly, the invention is intended to provide a nonwoven fabric substrate for wiping sheet capable of solving the above problems.

The invention relates to a nonwoven fabric substrate for wiping sheet in which ridges and grooves are alternately formed at positions corresponding to each other on each of both surfaces, and apertures passing through the grooves on both surfaces are formed. Each of the ridges and the grooves extends parallel to one side of the nonwoven fabric substrate for wiping sheet. In planar view, each of the grooves alternately includes an aperture portion which has a plurality of the apertures, and a non-aperture portion which has no aperture and is longer than a distance between the nearest end portions of the adjacent apertures in the aperture portion, and an arrangement pattern of the aperture portion and the non-aperture portion provided in the groove is different from an arrangement pattern of the aperture portion and the non-aperture portion provided in the groove adjacent to the groove. When the whole of the nonwoven fabric substrate for wiping sheet is seen in planar view, the nonwoven fabric substrate has an aperture region formed by the aperture portions of the plurality of the grooves, and a non-aperture region formed by the non-aperture portions of the plurality of the grooves. Each of the aperture region and the non-aperture region is arranged in a predetermined pattern.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a plan view illustrating an embodiment of a nonwoven fabric substrate for wiping sheet of the invention.

FIG. 2 is a cross-sectional view taken along line I-I of FIG. 1.

FIG. 3(a) is a cross-sectional view taken along line II-II of FIG. 1, and FIG. 3(b) is a cross-sectional view taken along line III-Ill of FIG. 1.

FIG. 4 is a schematic diagram illustrating a preferred apparatus for manufacturing the nonwoven fabric substrate for wiping sheet illustrated in FIG. 1.

DESCRIPTION OF EMBODIMENTS

Hereinafter, a nonwoven fabric substrate for wiping sheet of the invention will be described with reference to the drawings based on the preferred embodiments. FIG. 1 illustrates a plan view of an embodiment of the nonwoven fabric substrate for wiping sheet of the invention. FIG. 2 illustrates a cross-sectional view taken along line I-I illustrated in FIG. 1. Furthermore, FIG. 3(a) illustrates a cross-sectional view taken along line II-II illustrated in FIG. 1, and FIG. 3(b) illustrates a cross-sectional view taken along line III-III illustrated in FIG. 1.

A nonwoven fabric substrate 1 for wiping sheet (hereinafter, also referred to as a nonwoven fabric substrate 1) of the present embodiment is intended to be used as a wiping sheet with which a chemical solution is to be impregnated. In the following description, a so-called dry type nonwoven fabric substrate 1 in which the chemical solution is not yet impregnated will be described first.

As illustrated in FIG. 2, the nonwoven fabric substrate 1 has a first surface 1a, and a second surface 1b located at an opposite side to the first surface 1a. For example, when used as a cleaning sheet on the table, either the first surface 1a or the second surface 1b can be used as a cleaning surface toward a tabletop surface side. As illustrated in FIG. 2, In the nonwoven fabric substrate 1, the ridges 2 and the grooves 3 are alternately formed at positions corresponding to each other on both surfaces 1a and 1b, respectively, apertures 4 passing through the grooves 3 of both surfaces 1a and 1b are formed. Here, the term “formed at positions corresponding to each other” means that a position where the ridges 2 and the grooves 3 of the first surface 1a are arranged is consistent with a position where the ridges 2 and the grooves 3 of the second surface 1b are arranged, respectively. Each of the ridges 2 and the groove 3 of the both surfaces 1a and 1b extends parallel to one side 1c of the nonwoven fabric substrate 1. As illustrated in FIG. 1, the nonwoven fabric substrate 1 of the present embodiment is rectangular, and each of the four sides becomes a straight line, and includes a pair of left and right lateral sides 1c and 1d and a pair of upper and lower end sides 1e and 1f. The lateral sides 1c and 1d and the end sides 1e and 1f intersect with each other perpendicularly. In this way, each of the four sides in the nonwoven fabric substrate 1 is a straight line, but in the nonwoven fabric substrate for wiping sheet of the present embodiment, at least one side thereof becomes a straight line, and the one side, the ridges 2, and the grooves 3 may be in a parallel relation. Hereinafter, an extending direction of the lateral side 1c is described as a Y direction, and a direction orthogonal to the Y direction is described as an X direction.

As illustrated in FIG. 1, the ridges 2 and the grooves 3 of the first surface 1a extend in the Y direction, and are arranged alternately over the entire region in the X direction. The ridges 2 are formed by a portion of the relatively large thickness in the nonwoven fabric substrate 1, and the grooves 3 are formed by a portion of the relatively small thickness in the nonwoven fabric substrate 1 similarly, even in the ridges 2 and the grooves 3 of the second surface 1b, the thickness of the grooves 3 of the second surface 1b is formed to be relatively smaller than the thickness of the ridges 2 of the second surface 1b.

More specifically, in cross-sectional view as illustrated in FIG. 2, each of the ridges 2 on the side of the first surface 1a has a contour drawing an upward convex curve, and each ridge 2 of the same shape and size is arranged substantially at equal intervals in the X direction. As illustrated in FIG. 3(a), each ridge 2 on the side of the first surface 1a is configured so that the thickness of the ridge 2 is substantially the same at any position in the Y direction. Each groove 3 on the side of the first surface 1a is formed between each of the ridges 2 adjacent to each other in the X direction. A clear boundary between the ridges 2 and the grooves 3 is not present here, but when the boundary is clearly defined, for example, as an example the first surface 1a side, a position D_a1/2 of ½ of a height difference D_a (a distance between the top of the ridge 2 and the bottom of the groove (but excluding the portion formed with the aperture 4 of the groove 3 to be described below)) at the top of the ridge 2 is set as a boundary between the ridges 2 and the grooves 3 (see FIG. 2). Furthermore, in the cross-sectional view as illustrated in FIG. 2, each ridge 2 on the side of the second surface 1b is lower than the ridge 2 on the side of the first surface 1a, but has a contour drawing a downward convex curve, and each ridge 2 having the same shape and size is arranged substantially at equal intervals in the X direction. Similarly to the ridge 2 on the side of the first surface 1a, as illustrated in FIG. 3(a), each of the ridges 2 on the side of the second surface 1b is configured so that the thickness of the ridge 2 is substantially the same at any position in the Y direction. Similarly to the ridge 2 on the side of the first surface 1a, each of the grooves 3 on the side of the second surface 1b is also formed between every ridges 2 adjacent to each other in the X direction. Therefore, in the cross-sectional view as illustrated in FIG. 2, the nonwoven fabric substrate 1 has a shape in which the thickness changes periodically in the X direction. In addition, as an example of the first surface 1a side, the thickness (height) of the ridge 2 on each side of the first surface 1a and the second surface 1b means a distance from “the position D_a1/2 of ½ of the height difference D_a at the top of the ridge 2” to the top of the ridge 2.

When the nonwoven fabric substrate 1 is used as a wiping sheet, the total length thereof in the Y direction is preferably 100 mm or more and 300 mm or less, and the total length thereof in the X direction is preferably 100 mm or more and 300 mm or less.

From the viewpoint of maintenance of bulky feeling during use and scraping characteristics of dirt, a width W1 (see FIG. 2) in the X direction of each ridge 2 of the nonwoven fabric substrate 1 is preferably 0.5 mm or more, more preferably 0.8 mm or more, preferably 3.0 mm or less, more preferably 2.5 mm or less, for example, preferably 0.5 mm or more and 3.0 mm or less, and more preferably 0.8 mm or more and 2.5 mm or less.

Furthermore, from the viewpoint of retention of dirt, a width W2 (see FIG. 2) in the X direction of each groove 3 of the nonwoven fabric substrate 1 is preferably 2.0 mm or more, more preferably 2.2 mm or more, preferably 6.0 mm or less, more preferably 5.5 mm or less, for example, preferably 2.0 mm or more and 6.0 mm or less, and more preferably 2.2 mm or more and 5.5 mm or less.

From the viewpoint of the maintenance of bulky feeling during use, and the dirt retention in the grooves, a thickness T (see FIG. 2) of the nonwoven fabric substrate 1, that is a distance between the top of the convex ridge 2 on the first surface 1a and the top of the convex ridge 2 below the second surface 1b is preferably 0.3 mm or more, more preferably 0.5 mm or more, preferably 2.5 mm or less, more preferably 2.0 mm or less, for example, preferably 0.3 mm or more and 2.5 mm or less, and more preferably 0.5 mm or ore and 2.0 mm or less. The thickness T of the nonwoven fabric substrate 1 is measured based on the “determination of thickness of textiles and textile product” according to JIS L1096 in the state prior to impregnating a chemical solution, and for example, is measured under load of 0.3 kPa using (model FS-60DS) manufactured by DAIEI KAGAKU SEIKI MFG. CO., LTD. The load corresponds to the pressure when the nonwoven fabric substrate 1 is lightly pressed by hand.

Furthermore, the ratio of the thickness T to the width W2 of the groove 3 is preferably between 1:0.8 to 1:20, and more preferably between 1:1.1 to 1:11.

From the viewpoint of dirt retention in the groove portion, the height difference D_a (see FIG. 2) at the top of the ridge 2 of the first surface 1a side is preferably 0.2 mm or more, preferably 1.2 mm or less, and more preferably 1.0 mm or less. For example, the height difference is preferably 0.2 mm or more and 1.2 mm or less, and more preferably 0.2 mm or more and 1.0 mm or less.

Furthermore, from the same viewpoint, the height difference D_b (see FIG. 2) at the top of the ridge 2 of the second surface 1b side is preferably 0.1 mm or more, preferably 1.2 mm or less, and more preferably 1.0 mm or less. For example, the height difference is preferably 0.1 mm or more and 1.2 mm or less, and more preferably 0.1 mm or more and 1.0 mm or less.

The height differences D_a and D_b are measured by magnifying the cross section of the nonwoven fabric substrate 1 to 50 times to 200 times using a device (microscope VH-8000) manufactured by KEYENCE CORPORATION. The cross section is obtained by cutting the nonwoven fabric substrate 1 across the X direction using a feather razor (model No. FAS-10 manufactured by FEATHER SAFETY RAZOR CO., LTD.).

The ratio of the thickness T to the height difference D_a is preferably between 1:0.08 to 1:0.67, and more preferably between 1:0.1 to 1:0.5.

Furthermore, the ratio of thickness T to the height difference D_b is preferably between 1:0.04 to 1:0.67, and more preferably between 1:0.05 to 1:0.5.

As illustrated in FIG. 1, in planar view, each groove 3 alternately has an aperture portion 3h having the apertures 4, and a non-aperture portion 3n having no aperture 4. The nonwoven fabric substrate 1 will be specifically described. As illustrated in FIG. 1, each of the grooves 3 extending in the Y direction alternately includes the aperture portion 3h and the non-aperture portion 3n in the Y direction, and the aperture portion 3h has one to five apertures 4. Among the plurality of aperture portions 3h included in one groove 3, in particular, in the aperture portion 3h having a plurality (two or more) of apertures 4, the apertures 4 are arranged at equal intervals in the Y direction.

Each aperture 4 is formed by dividing and rearranging the constituent fibers of the nonwoven fabric substrate 1. In other words, in the vicinity of the peripheral portion of the apertures 4, a film-like structure due to thermal deformation of the fiber is not formed. The apertures 4 may take various shapes in planar view. As the shape of the apertures 4 in planar view, for example, shapes such as a circle, an oval, an ellipse, a triangle, a quadrangle, and a hexagon, a shape of the combination thereof and the like are adopted.

From the viewpoint of strength and flexibility of the sheet, the interval L1 (see FIG. 1) between the apertures 4 adjacent to each other in the Y direction is preferably 4.0 mm or more, more preferably 4.5 mm or more, preferably 8.0 mm or less, more preferably 7.0 mm or less, for example, preferably 4.0 mm or more and 8.0 mm or less, and more preferably 4.5 mm or more and 7.0 mm or less.

From the viewpoint of the capture of the solid waste and the liquid discharge, a diameter L2 (distance between the narrowest positions) (see FIG. 1) of each aperture 4 is preferably 0.7 mm or more, more preferably 0.75 mm or more, preferably 3.0 mm or less, more preferably 2.7 mm or less, for example, preferably 0.7 mm or more and 3.0 mm or less, and more preferably 0.75 mm or more and 2.7 mm or less.

From the viewpoint of strength and flexibility of the sheet, a ratio (L2×100/W2) of the diameter L2 (see FIG. 1) of the aperture 4 in the width W2 (see FIG. 2) of the groove 3 is preferably 20% or more, more preferably 30% or more, preferably 90% or less, for example, preferably 20% or more and 90% or less, and more preferably 30% or more and 90% or less.

When the size of each aperture 4 is expressed in a projected area of the nonwoven fabric substrate 1 in planar view, from the viewpoint of the capture of solid waste and the liquid discharge, the size is preferably 0.5 mm² or more, more preferably 1 mm² or more, and preferably 10 mm² or less. For example, the size is preferably 0.5 mm² or more and 10 mm² or less, and more preferably 1 mm² or more and 10 mm² or less. The size of the aperture 4 is measured using an image analysis system. Specifically, an image of the nonwoven fabric substrate 1 is captured by the use of a light source [sunlight SL-230K2; manufactured by LPL CO., LTD.], a stand [copy stand CS-5; manufactured by LPL CO., LTD.], a lens [NIKKOR 24 mm F2.8D], a CCD camera [connected with a lens using an F mount (HV-37; manufactured by HITACHI ELECTRONICS, LTD.)], and a video board [Spectra 3200; manufactured by CANOPUS Co., LTD.], and in the captured image, the portion of the aperture 4 is binarized by an image analysis software NEW QUBE (ver. 4.20) manufactured by NEXUS Corporation. An average value of the individual areas obtained from the binarized image is set to the size of the aperture 4.

The length in the Y direction of the non-aperture portion 3n is longer than the distance between the nearest end portions of the adjacent apertures 4 of the aperture portion 3h. That is, the interval between the apertures 4 of the aperture portions 3h arranged on both sides of the non-aperture portion 3n is made longer than the interval between the adjacent apertures 4 of the aperture portion 3h.

In the nonwoven fabric substrate of the invention, the arrangement pattern of the aperture portion 3h and the non-aperture portion 3n provided in one groove 3 is different from the arrangement pattern of the aperture portion 3h and the non-aperture portion 3n provided in another groove 3 adjacent to the groove 3. Hereinafter, the nonwoven fabric substrate 1 will be specifically described. For example, when considering certain one groove 3a illustrated in FIG. 1, the groove 3a have an arrangement pattern arranged in the order of the aperture portion 3h of the four apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, the aperture portion 3h of the one aperture 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, and the aperture portion 3h of the three apertures 4, from the lower end side 1f in the Y direction toward the upper end side 1e. Furthermore, as illustrated in FIG. 1, a groove 3b adjacent to the right side in the X direction of the groove 3a has an arrangement pattern arranged in the order of the aperture portion 3h of the five apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, and the aperture portion 3h of the three apertures 4 from the lower end side 1f in the Y direction toward the upper end side 1e. Additionally, as illustrated in FIG. 1, a groove 3c adjacent to the left side in the X direction of the groove 3a has an arrangement pattern arranged in the order of the non-aperture portion 3n, the aperture portion 3h of the three apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, the aperture portion 3h of the two apertures 4, the non-aperture portion 3n, and the aperture portion 3h of the two apertures 4, from the lower end side 1f in the Y direction toward the upper end side 1e. In this way, the arrangement pattern of the aperture portions 3h and the non-aperture portions 3n provided in the groove 3a is different from the arrangement pattern of the aperture portions 3h and the non-aperture portions 3n provided in the grooves 3b and 3c adjacent to each of left and right in the X direction of the groove 3a.

When the whole of the nonwoven fabric substrate 1 is seen in planar view, the nonwoven fabric substrate 1 has an aperture region 11 formed by the aperture portion 3h of a plurality of the grooves 3, and a non-aperture region 12 formed by the non-aperture portion 3n of a plurality of the grooves 3, and each of the aperture region 11 and the non-aperture region 12 is arranged in a predetermined pattern. For example, in the extending direction (X direction) of the aperture region, the aperture regions 11 are arranged in a pattern in which a particular shape such as a diamond shape or a V shape is periodically repeated. Furthermore, in the extending direction (X-direction) of the non-aperture regions 12, the non-aperture regions 12 are arranged in a pattern in which a particular shape such as a V shape is periodically repeated. Hereinafter, the nonwoven fabric substrate 1 will be specifically described. As illustrated in FIG. 1, when the whole of the nonwoven fabric substrate 1 is seen in planar view, the aperture region 11 includes a first aperture region 11a in which diamond-shaped aperture regions 30a formed by the aperture portions 3h of the plurality of grooves 3 are arranged at regular intervals in the X direction, and a second aperture region 11b in which V-shaped aperture regions 30b formed by the aperture portions 3h of the plurality of grooves 3 are repeatedly arranged in the X direction, and the nonwoven fabric substrate 1 has a pattern in which the first aperture region 11a and the second aperture region 11b are alternately arranged at regular intervals in the Y direction. More specifically, the nonwoven fabric substrate 1 has a pattern in which one second aperture region 11b, and another second aperture region 11b adjacent to the Y direction of the second aperture region 11b are shifted in the X direction by a half pitch, and the diamond-shaped aperture region 30a of the first aperture region 11a is arranged between the V-shaped aperture region 30b of the second aperture region 11b and a reverse V-shaped second aperture region 11b adjacent to the Y direction shifted to the second aperture region 11b by a half pitch, respectively. Thus, the aperture regions 11 are arranged repeatedly with the non-aperture region 12 interposed therebetween in the direction (Y direction) orthogonal to the extending direction (X direction) of the aperture region, and in the adjacent aperture regions 11 in the Y direction having a particular shape such as a diamond shape or a V shape, the period of the particular shape is shifted by a half pitch. The non-aperture regions 12 are arranged with the aperture region 11 interposed therebetween in the direction (Y direction) orthogonal to the extending direction (X direction) of the non-aperture region, and in the non-aperture regions 12 having a particular shape such as a V shape, the period of the particular shape is shifted by a half pitch from at least one of other non-aperture regions 12 adjacent to each other in the Y direction.

From the viewpoint of absorbency of the liquid dirt, strength of the nonwoven fabric, and flexibility, a length L3 (see FIG. 1) in the Y direction of a diamond-shaped aperture region 30a forming the first aperture region 11a is, preferably 20 mm or more, more preferably 25 mm or more, preferably 110 mm or less, more preferably 100 mm or less, for example, preferably 20 mm or more and 110 mm or less, and more preferably 25 mm or more and 100 mm or less. A length L4 (see FIG. 1) of the aperture region 30a in the X direction is preferably 20 mm or more, more preferably 25 mm or more, preferably 60 mm or less, more preferably 50 mm or less, for example, 20 mm or more and 60 mm or less, and more preferably 25 mm or more and 50 mm or less.

A V-shaped aperture region 30b forming the second aperture region 11b is formed in a constant width, and the width of the aperture region 30b is the same as the distance L1 between the adjacent apertures 4 described above (see FIG. 1). One side forming the V-shaped aperture region 30b extends to form angle α (see FIG. 1) between the one side and a straight line extending in the X direction. The angle α is preferably 20° or more and 70° or less. The other side forming the V-shaped aperture region 30b is formed by inverting the one side symmetrically relative to the line extending in the Y direction. The second aperture region 11b is formed in a jagged shape such as saw teeth extending in the X direction in which the V-shaped aperture region 30b formed in this way is arranged repeatedly in the X direction.

As described above, the nonwoven fabric substrate 1 has a pattern in which the first aperture region 11a and the second aperture region 11b are alternately arranged at a regular interval in the Y direction, and the regular interval is the non-aperture region 12 formed by the non-aperture portion 3n of the plurality of grooves 3. In this manner, as illustrated in FIG. 1, the non-aperture region 12 is arranged every interval between the first aperture region 11a in which the plurality of diamond-shaped aperture regions 30a are arranged in the X direction, and the second aperture region 11b in which the V-shaped aperture regions 30a are repeatedly arranged in the X direction. In order to surround each of the diamond-shaped aperture regions 30a of the first aperture regions 11a, the non-aperture region 12 of the nonwoven fabric substrate 1 includes a first non-aperture region 12a in which the V-shaped non-aperture regions 31a formed by the non-aperture portion 3n of the plurality of grooves 3 are repeatedly arranged in the X direction, and a second non-aperture regions 12b in which the inverted V-shaped non-aperture regions 31b formed by the non-aperture portion 3n of the plurality of grooves 3 are repeatedly arranged in the X direction. The second non-aperture region 12b has a shape obtained by inverting the first non-aperture region 12a symmetrically relative to the bisector extending in the X direction of the diamond-shaped aperture region 30a. In other words, the first non-aperture region 12a and the second non-aperture region 12b are shifted in the X direction by a half pitch. Similarly to one side forming the V-shaped aperture region 30b, one side of the V-shaped non-aperture region 31a forming the first non-aperture region 12a extends to form the angle β (see FIG. 1) between the one side and the straight line extending in the X direction. The other side forming the V-shaped non-aperture region 31a is formed by inverting the one side symmetrically relative to the line extending in the Y direction. In the first non-aperture region 12a, the V-shaped non-aperture regions 31a formed in this way are repeatedly arranged in the X direction, and as in the second aperture region 11b, the first non-aperture region 12a is formed in a jagged shape such as the saw teeth extending in the X direction. Similarly to the first non-aperture region 12a, in the second non-aperture region 12b, the inverted V-shaped non-aperture regions 31b are also repeatedly arranged in the X direction, and the second non-aperture regions 12b is formed in a jagged shape such as the saw teeth extending in the X direction.

In the first non-aperture region 12a and the second non-aperture region 12b, a width W3 thereof is formed in the same width. Thus, each of the first non-aperture region 12a and the second non-aperture region 12b are formed in the regular width W3. The width W3 is formed to be wider than the interval L1 (see FIG. 1) between the apertures 4 adjacent to each other in the extending direction of the grooves 3. In order to sufficiently absorb the liquid dirt in case that the nonwoven fabric substrate is used as a wet type wiping sheet, and from the viewpoint of strength of the nonwoven fabric and flexibility, the width W3 is preferably 5 mm or more, more preferably 10 mm or more, and preferably 20 mm or less. For example, the width W3 is preferably 5 mm or more and 20 mm or less, and more preferably 10 mm or more and 20 mm or less.

In the nonwoven fabric substrate 1, each of the aperture region 11 (11a, 11b) and the non-aperture region 12 (12a, 12b) is arranged in a pattern in which the extending direction of each of the aperture region 11 (11a, 11b) and the non-aperture region 12 (12a, 12b) intersects with the extending direction of each of the ridges 2 and the grooves 3. Specifically, the aperture region 11 including the first aperture region 11a and the second aperture region 11b extends in the X direction, and the non-aperture region 12 including the first non-aperture region 12a and the second non-aperture region 12b also extends in the X direction, and each of the aperture region 11 and the non-aperture regions 12 is orthogonal to each of the ridges 2 and the grooves 3 extending in the Y direction.

From the viewpoint of flexibility and strength of the nonwoven fabric, the basis weight (also including the aperture 4) as a whole of the nonwoven fabric substrate 1 is preferably 30 g/m² or more, more preferably 40 g/m² or more, preferably 250 g/m² or less, more preferably 100 g/m² or less, for example, preferably 30 g/m² or more and 250 g/m² or less, and more preferably 40 g/m² or more and 100 g/m² or less. The basis weights of the ridges 2 and the grooves 3 are different from each other in order to improve the wiping characteristics and the retention by hand. In other words, the amount of fiber is different between the ridges 2 and the groove 3. Specifically, the ridges 2 have larger amount of fiber than the grooves 3. When the amounts of fiber of the ridges 2 and the groove 3 are expressed by the basis weight, from the viewpoint of maintenance of bulky feeling during use and scraping force of the dirt, the basis weight of the ridges 2 is preferably 50 g/m² or more, more preferably 55 g/m², preferably 150 g/m² or less, more preferably 140 g/m² or less, for example, preferably 50 g/m² or more and 150 g/m² or less, and more preferably 55 g/m² or more and 140 g/m² or less. Meanwhile, from the viewpoint of strength of the nonwoven fabric and the flexibility, the basis weight (but excluding the aperture 4) of the grooves 3 is preferably 30 g/m² or more, more preferably 40 g/m² or more, preferably 80 g/m² or less, more preferably 70 g/m² or less, for example, 30 g/m² or more and 80 g/m² or less, and more preferably 40 g/m² or more and 70 g/m² or less. The area of the grooves 3 including the apertures 4, and the area of the apertures 4 are required for the calculation of the basis weight of the grooves 3, but the area of the grooves 3 including the apertures 4 and the area of the apertures 4 can be measured using an image analyzer mentioned above or the like.

When focusing on one ridge 2, as illustrated in FIG. 3(a), the fiber density of a region in which the ridge 2 and the aperture region 11 (11a, 11b) intersect with each other is different from that of a region in which the ridge 2 and the non-aperture region 12 (12a, 12b) intersect with each other, and the region in which the ridge 2 and the aperture region 11 (11a, 11b) intersect with each other has the higher fiber density than that of the region in which the ridge 2 and the non-aperture region 12 (12a, 12b) intersect with each other. From the viewpoint of the strength of the nonwoven fabric, the fiber density of the region in which the ridge 2 and the aperture region 11 (11a, 11b) intersect with each other is preferably 60 g/m³ or more, more preferably 65 g/m³ or more, preferably 180 g/m³ or less, even more preferably 160 g/m³ or less, for example, preferably 60 g/m³ or more and 180 g/m³ or less, and more preferably 65 g/m³ or more and 160 g/m³ or less. Meanwhile, from the viewpoint of flexibility of the nonwoven fabric, the fiber density of the region in which the ridge 2 and the non-aperture region 12 (12a, 12b) intersect with each other is preferably 40 g/m³ or more, preferably 140 g/m³ or less, more preferably 130 g/m³ or less, for example, preferably 40 g/m³ or more and 140 g/m³ or less, and more preferably 40 g/m³ or more and 130 g/m³ or less.

Furthermore, when focusing on one groove 3, as illustrated in FIG. 3(b), the fiber density of the region in which the groove 3 and the aperture region 11 (11a, 11b) intersect with each other is different from the that of the region in which the groove 3 and the non-aperture region 12 (12a, 12b) intersect with each other, and the region in which the groove 3 and the aperture region 11 (11a, 11b) intersect with each other has the higher fiber density than that of the region in which the groove 3 and the non-aperture region 12 (12a, 12b) intersect with each other. From the viewpoint of the strength of the nonwoven fabric, the fiber density of the region in which the groove 3 and the aperture region 11 (11a, 11b) intersect with each other is preferably 40 g/m³ or more, preferably 100 g/m³ or less, more preferably 90 g/m³ or less, for example, preferably 40 g/m³ or more and 100 g/m³ or less, and more preferably 40 g/m³ or more and 90 g/m³ or less. Meanwhile, from the viewpoint of flexibility of the nonwoven fabric, the fiber density of the region in which the groove 3 and the non-aperture region 12 (12a, 12b) intersect with each other is preferably 30 g/m³ or more, preferably, 40 g/m³ or more, preferably 70 g/m³ or less, more preferably 60 g/m³ or less, for example, preferably 30 g/m³ or more and 70 g/m³ or less, and more preferably 40 g/m³ or more and 60 g/m³ or less.

Examples of the fibers forming the nonwoven fabric substrate 1 include hydrophilic fibers such as rayon, cotton, and acrylic fibers, polyolefin such as polyethylene and polypropylene, polyester such as polyethylene terephthalate, and synthetic fibers formed of a thermoplastic polymeric material such as polyamide and the like. In addition, it is also possible to use core-sheath type composite fibers including the combination of the thermoplastic polymeric materials, and side-by-side composite fibers. The fineness of the hydrophilic fiber is preferably 1 dtex or more and 5 dtex or less from the viewpoint of collecting performance of dirt, strength of the nonwoven fabric, and flexibility. The fineness of the synthetic fiber is preferably 1 dtex or more and 5 dtex or less from the viewpoint of collecting performance of dirt, strength of the nonwoven fabric, and flexibility. The ratio of the hydrophilic fiber is preferably 40 mass % or more and 100 mass % or less in the constituent fibers of the nonwoven fabric substrate 1. The ratio of the synthetic fiber is preferably 0 mass % or more and 60 mass % or less in the constituent fibers of the nonwoven fabric substrate 1.

Next, preferred embodiments of a method of manufacturing the nonwoven fabric substrate for wiping sheet of the invention will be described with reference to FIG. 4 as an example of the case of manufacturing the nonwoven fabric substrate 1 described above.

FIG. 4 schematically illustrates a preferred apparatus 100 for manufacturing the nonwoven fabric substrate 1. The apparatus 100 includes a web forming portion 110, a hydroentanglement portion 120, and an aperture forming portion 130 from the upstream side toward the downstream side.

Furthermore, an arrow indicated by reference numeral y in FIG. 4 is a direction during manufacturing of the nonwoven fabric substrate 1, and is coincident with the MD direction along the orientation direction of the fibers.

The web forming portion 110 is equipped with a card machine 111. A card web 1A including the constituent fibers of the nonwoven fabric substrate 1 is sent from the card machine 111. Next, the sent card web 1A is conveyed to the hydroentanglement portion 120. The hydroentanglement portion 120 includes an injector 121 of a high-pressure jet water flow, and a permeable endless mesh belt 122. The endless mesh belt 122 is arranged at a position opposite to an injection port of the injector 121, and revolves in the y direction. The constituent fibers of the card web 1A are subjected to the hydroentanglement by the high-pressure jet water flow injected from the injector 121 and become a nonwoven fabric 1B. As the conditions at the time of performing the hydroentanglement of the card web 1A, it is possible to follow the conditions described in paragraph [0038] of JP 2008-202153 A.

Next, the obtained nonwoven fabric 1B is conveyed to the aperture forming portion 130. The aperture forming portion 130 is provided with an injector 131 of the high-pressure jet water flow, and an aperture member 132. The aperture shape member 132 is arranged at a position opposite to the injection port of the injector 131, and revolves in the y direction. For example, the aperture member 132 has a configuration in which, in a permeable endless belt, a net of mesh made of stainless steel or plastic which has an opening hole (hole portion) provided so as to correspond to the aperture region 11 (11a, 11b) and formed so as to correspond to the shape and size of the apertures 4 is provided. In addition, as the aperture member 132, instead of the net of mesh, a rotating roller having a plurality of convex portions provided so as to correspond to the aperture region 11 (11a, 11b) and formed so as to correspond to the shape and the size of the apertures 4 on the peripheral surface may be used.

In the aperture forming portion 130, under a state where the nonwoven fabric 1B is placed on the aperture member 132, the high-pressure jet water flow is injected toward the nonwoven fabric 1B from the injector 131. The nonwoven fabric 1B located in the aperture site (or the convex portion) in the aperture member 132 receives the water pressure of the high-pressure jet water flow under the state of being pressed against the aperture member 132. As a result, the division occurs by the constituent fiber located in aperture site (or the convex portion), the apertures 4 are formed, and the re-arrangement of the constituent fibers occurs. Accordingly, the ridges 2 extending in the y direction and the grooves 3 formed with the penetrating apertures 4 are alternately arranged, and it is possible to continuously manufacture the nonwoven fabric substrate 1 in which the aperture region 11 (11a, 11b) and the non-aperture region 12 (12a, 12b) are formed in a predetermined pattern. In addition, a hot air processing unit configured to perform hot-air treatment may be provided at the downstream side of the aperture forming portion 130. As described above, by using the net of mesh having the opening hole (hole portion) provided so as to correspond to the aperture region 11 (11a, 11b) and formed so as to correspond to the shape and the size of the apertures 4, or by using the rotating roller having the convex portion, the apertures 4 are reliably formed at a predetermined position, the constituent fibers are rearranged, and when focusing on one ridge 2 and groove 3, as illustrated in FIGS. 3(a) and 3(b), it is possible to form the portions having the different fiber densities. As the conditions of the high-pressure jet water flow to be injected into the nonwoven fabric 1B, it is possible to follow conditions described in paragraphs [0040] and [0041] of JP 2008-202153 A.

It is preferable that the nonwoven fabric substrate 1 manufactured in this manner be used as a wiping sheet impregnated with the chemical solution. The type of chemical solution to be impregnated can be suitably selected depending on the specific applications. For example, when used as a cleaning sheet, as the chemical solution, an aqueous cleaning agent may be used. In particular, the nonwoven fabric substrate 1 is effective to be used by impregnating or spraying the liquid such as an aqueous cleaning agent. Since the cleaning sheet 1 contains the cellulosic fibers having hydrophilicity by the amount described above, it is possible to maintain the aqueous cleaning agent in an amount sufficient for cleaning. Moreover, when the cleaning sheet 1 is used as a wet type sheet impregnated with the aqueous cleaning agent, in addition to mechanically scraping and eliminating the dirt of the surface to be cleaned, and the dirt swells or partly dissolves by the cleaning agent. Accordingly, the removal of dirt under the action of mechanical scraping is further improved. When used as the wet type sheet, the aqueous cleaning agent may be impregnated into the cleaning sheet 1 in advance or the aqueous cleaning agent may be sprayed to the dry type cleaning sheet 1, and the surface to be cleaned may be cleaned using the sprayed cleaning sheet 1. It is preferable that the aqueous cleaning agent impregnated into the cleaning sheet 1 or used in combination contain a surfactant, an alkaline agent, a water-soluble solvent, and a disinfectant using water as a medium. Furthermore, the aqueous cleaning agent preferably contains the disinfectant. Non-volatile residual components contained in the aqueous cleaning agent are preferably 10 wt % or less in terms of the finish characteristics after cleaning, and particularly, 5 wt % or less is preferable.

As the surfactants, any of anionic surfactant, nonionic surfactant, cationic surfactant, and amphoteric surfactant is used, and in particular, in terms of compatibility of the cleaning characteristics and the finish characteristics, nonionic surfactants such as polyoxyalkylene (alkylene oxide addition mole number of 1 to 20) alkyl (straight chain or branched chain having a carbon number of 8 to 22) ether, alkyl (straight chain or branched chain having a carbon number of 8 to 22) glycoside (average sugar condensation degree of 1 to 5), sorbitan fatty acid (straight chain or branched chain having a carbon number of 8 to 22) ester, and alkyl (straight chain or branched chain having a carbon number of 6 to 22) glyceryl ether, and amphoteric surfactants having alkyl carbon number of 8 to 24, such as alkyl carboxybetaine, alkyl sulfobetaine, alkyl hydroxy sulfobetaine, alkylamide carboxybetaine, alkylamide sulfobetaine, and alkylamide hydroxy sulfobetaine are preferably used. In particular, the surfactants are contained in an amount of preferably 0.05 wt % or more, preferably 2.0 wt % or less, more preferably 1.0 wt % or less, and for example, 0.05 wt % or more and 2.0 wt % or less, and particularly 0.05 wt % or more and 1.0 wt % or less in terms of the cleaning characteristics and the finish characteristics of the surface to be cleaned.

As the alkaline agent, hydroxide such as sodium hydroxide, carbonate such as sodium carbonate and potassium carbonate, alkaline sulfate such as sodium hydrogensulfate, phosphate such as first sodium phosphate, organic alkali metal salt such as sodium acetate and sodium succinate, alkanolamine such as ammonium, mono-, di- or triethanolamine, β-amino alkanol such as 2-amino-2-methyl-1-propanol, morpholine and the like are adopted. The content of the alkaline agent is preferably 1 wt % or less, and particularly 0.5 wt % or less in the aqueous cleaning agent from the viewpoint of preventing slimy to provide satisfactory touch. Since there is a case where the alkaline agent may swell the oil dirt to make the surface to be cleaned slippery, the blending amount thereof is preferably as small as possible, and may be zero.

As the water-soluble solvent, one or more kinds selected from monohydric alcohol, polyhydric alcohol, and derivatives thereof are preferred. In particular, from the viewpoint of solubility of the oil dirt, finish characteristics, and safety, ethanol, isopropyl alcohol, propanol, ethylene glycol monomethyl ether, propylene glycol monomethyl ether, propylene glycol, butanediol, 3-methyl-1,3-butanediol, hexylene glycol, glycerin and the like are preferred. In addition, from the viewpoint of imparting sanitization performance, ethanol, isopropyl alcohol, propanol and the like among these are preferred. It is preferable that the water-soluble solvent be contained in the aqueous cleaning agent, in an amount of preferably 1 wt % or more, preferably 50 wt % or less, more preferably 20 wt % or less, for example, 1 wt % or more and 50 wt % or less, particularly 1 wt % or more and 20 wt % or less, from the viewpoint of the reduction in smell and skin irritation.

As the disinfectant, hydrogen peroxide, hypochlorous acid, sodium hypochlorite, quaternary ammonium salt, sodium benzoate, p-sodium benzoate, benzyl alcohol, phenoxy ethanol, isothiazoline-based disinfectant, and the like are adopted. Particularly, from the viewpoint of formulation stability and sanitization performance, quaternary ammonium salt, phenoxyethanol, and the like are preferably used. It is preferable that the disinfectant be contained in the aqueous cleaning agent, in an amount of preferably 0.003 wt % or more, preferably 2 wt % or less, more preferably 1 wt % or less, for example, 0.003 wt % or more and 2 wt % or less, in particular, 0.003 wt % or more and 1 wt % or less, from the viewpoint of balance between the sanitization effect and the reduction of the skin irritation.

Furthermore, as the aqueous cleaning agent, it is possible to contain perfume, fungicide, coloring matter (dye and pigment), chelating agent, polishing agent, bleaching agent, and the like as needed.

It is preferable that water serving as the medium of the aqueous cleaning agent be contained in the aqueous cleaning agent, in an amount of preferably 50 wt % or more, more preferably 80 wt % or more, preferably 99.9 wt % or less, more preferably 99 wt % or less, for example, 50 wt % or more and 99.9 wt % or less, and in particular 80 wt % or more and 99 wt % or less, from the viewpoint of cleaning characteristics of the surface to be cleaned and finish characteristics.

Furthermore, oil may be used as the chemical solution. As the oil, at least one kind or more of mineral oil, synthetic oil, silicone oil, and wax is preferably contained. As the mineral oil, paraffinic hydrocarbon, naphthenic hydrocarbon, aromatic hydrocarbon, and the like are used. As the synthetic oil, alkylbenzene oil, polyolefin oil, polyglycol oil, and the like are used. As the silicone oil, chain dimethyl polysiloxane, cyclic dimethyl polysiloxane, methyl hydrogen polysiloxane, various modified silicone, or the like is used.

An amount of impregnation of the chemical solution to the nonwoven fabric substrate 1 is dependent on the specific applications, but is preferably 100% or more per unit weight of the nonwoven fabric substrate 1, more preferably 150% or more, preferably 700% or less, more preferably 500% or less, for example, preferably 100% or more and 700% or less, and more preferably of 150% or more and 500% or less.

When the nonwoven fabric substrate 1 is used as a cleaning sheet, the nonwoven fabric substrate 1 may be used by being mounted to a head portion of a cleaning tool having the head portion and a handle connected to the head portion, and may be used by hand directly without being mounted to the cleaning tool. For example, the cleaning sheet can be used for wiping cleaning of the desktop such as a top of a desk, a top of a dining table, and a top of a table, and a hard surface such as a flooring, a wall, a ceiling, a glass, a mat, a mirror, furniture, home appliances, an outer wall of house, and a body of an automobile.

When the nonwoven fabric substrate 1 is used as a wet type cleaning sheet by impregnating a chemical solution, it is easy to peel off the dirt of the cleaning surface by the ridges 2, and it is possible to effectively wipe off the granular solid waste and the peeled dirt by the apertures 4 due to the grooves 3. Furthermore, as illustrated in FIG. 1, the nonwoven fabric substrate 1 has the non-aperture region 12 extending in the X direction including the first non-aperture region 12a and the second non-aperture region 12b formed by the non-aperture portions 3n of the plurality of grooves 3, other than the aperture region 11 formed by the aperture portions 3h of the plurality of grooves 3. Accordingly, the wiping sheet formed by the nonwoven fabric substrate 1 is able to sufficiently absorb the liquid dirt.

In addition, as illustrated in FIG. 2, in the nonwoven fabric substrate 1, since the ridges 2 and the grooves 3 are formed alternately at positions corresponding to each other on both surfaces 1a and 1b, respectively, the thickness of the wiping sheet formed by the nonwoven fabric substrate 1 is hard to decrease when used, and the satisfactory feeling of thickness can be maintained.

As illustrated in FIG. 1, since the nonwoven fabric substrate 1 is configured such that the aperture region 11 formed by the aperture portions 3h of a plurality of the grooves 3, and the non-aperture region 12 formed by the non-aperture portions 3n of the plurality of the grooves 3 are arranged in a predetermined pattern, the cleaning sheet formed by the nonwoven fabric substrate 1 generates a difference in rigidity between the aperture region 11 and the non-aperture region 12, and familiarity of hand is satisfactory.

The invention is not limited to the above-described embodiment.

Furthermore, in the nonwoven fabric substrate 1 as described above, as illustrated in FIG. 1, the aperture region 11 formed by the first aperture region 11a and the second aperture region 11b extends in the X direction, the non-aperture region 12 formed by the first non-aperture region 12a and the second non-aperture region 12b also extends in the X direction, and each of the aperture region 11 and the non-aperture region 12 is arranged in a pattern that intersects with each of the ridges 2 and the grooves 3 extending in the Y direction. However, each of the aperture region 11 and the non-aperture region 12 may be arranged in a pattern in which the aperture region 11 including the first aperture region 11a and the second aperture region 11b extends in the Y direction, and the non-aperture region 12 including the first non-aperture region 12a and the second non-aperture region 12b also extends in the Y direction so as to be parallel to the ridges 2 and the grooves 3.

Furthermore, the nonwoven fabric substrate 1 of the present embodiment is intended to be used as the wiping sheet with which the chemical solution is to be impregnated, but may also be used as a wiping sheet without being impregnated with the chemical solution. Furthermore, the wiping sheet impregnated with the chemical solution may be used as a wet type wiping sheet, and may be used as a dry type wiping sheet after drying.

In regard to the embodiment described above, the nonwoven fabric substrate for wiping sheet will be further disclosed below.

<1>

A nonwoven fabric substrate for wiping sheet in which ridges and grooves are alternately formed at positions corresponding to each other on each of both surfaces, and apertures passing through the grooves on both surfaces are formed,

wherein each of the ridges and the grooves extends parallel to one side of the nonwoven fabric substrate for wiping sheet,

in planar view, each of the grooves alternately includes an aperture portion having the apertures and a non-aperture portion having no aperture, an arrangement pattern of the aperture portion and the non-aperture portion provided in the groove is different from an arrangement pattern of the aperture portion and the non-aperture portion provided in the groove adjacent to the groove,

when the whole of the nonwoven fabric substrate for wiping sheet is seen in planar view, the nonwoven fabric substrate has an aperture region formed by the aperture portions of a plurality of the grooves, and a non-aperture region formed by the non-aperture portions of a plurality of the of grooves, and

each of the aperture region and the non-aperture region is arranged in a predetermined pattern.

<2>

The nonwoven fabric substrate for wiping sheet according to <1>, wherein each of the aperture region and the non-aperture region is arranged in a pattern in which each of an extending direction of the aperture region and an extending direction of the non-aperture region intersects with the extending direction of each of the ridges and the grooves.

<3>

The nonwoven fabric substrate for wiping sheet according to <1> or <2>, wherein the apertures are formed by dividing and rearranging constituent fibers of the nonwoven fabric substrate.

<4>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <3>, wherein the aperture regions are arranged in a pattern in which a particular shape is periodically repeated in the extending direction (X direction) of the aperture region.

<5>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <3>, wherein the aperture regions are arranged in a pattern in which a particular shape of a diamond shape or a V shape is periodically repeated in the extending direction (X direction) of the aperture region.

<6>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <5>, wherein the non-aperture regions are arranged in a pattern in which a particular shape is periodically repeated in the extending direction (X direction) of the non-aperture region.

<7>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <5>, wherein the non-aperture regions are arranged in a pattern in which a particular shape of a V shape is periodically repeated in the extending direction (X direction) of the non-aperture region.

<8>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <7>, wherein the aperture regions are arranged in a pattern in which a particular shape is periodically repeated in the extending direction (X direction) of the aperture region, and

the aperture regions are repeatedly arranged with the non-aperture region interposed therebetween in a direction (Y direction) orthogonal to the extending direction of the aperture regions, and in the adjacent aperture regions having the particular shape, the period of the particular shape is shifted by a half pitch.

<9>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <7>, wherein the aperture regions are arranged in a pattern in which a particular shape of a diamond shape or a V shape is periodically repeated in the extending direction (X direction) of the aperture regions, and

the aperture regions are repeatedly arranged with the non-aperture region interposed therebetween in a direction (Y direction) orthogonal to the extending direction of the aperture regions, and the period of the particular shape in the adjacent aperture regions having the same particular shape is shifted by a half pitch.

<10>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <9>, wherein the non-aperture regions are arranged in a pattern in which a particular shape is periodically repeated in the extending direction (X direction) of the non-aperture regions, and

the non-aperture regions are repeatedly arranged with the aperture region interposed therebetween in a direction (Y direction) orthogonal to the extending direction of the non-aperture regions, and the period of the particular shape in the non-aperture region having the particular shape is shifted by a half pitch from at least one of the adjacent other non-aperture regions.

<11>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <10>, wherein the non-aperture regions are arranged in a pattern in which a particular shape of a V shape is periodically repeated in the extending direction (X direction) of the non-aperture regions, and

the non-aperture regions are repeatedly arranged with the aperture region interposed therebetween in a direction (Y direction) orthogonal to the extending direction of the non-aperture regions, and the period of the particular shape in the non-aperture region having the particular shape is shifted by a half pitch from at least one of the adjacent other non-aperture regions.

<12>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <11>, wherein the non-aperture regions have a constant width in the extending direction of the non-aperture regions, and the width is wider than an interval between the apertures adjacent to each other in the direction of the grooves in the aperture portions.

<13>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <12>, wherein a width of the ridge in a direction (X direction) orthogonal to a direction parallel to one side of the nonwoven fabric substrate for wiping sheet is 0.5 mm or more or 0.8 mm or more, and 3.0 mm or less or 2.5 mm or less.

<14>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <13>, wherein a width of the groove in a direction (X direction) orthogonal to a direction parallel to one side of the nonwoven fabric substrate for wiping sheet is 2.0 mm or more or 2.2 mm or more, and 6.0 mm or less or 5.5 mm or less.

<15>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <14>, wherein an interval between the apertures adjacent to each other in a direction (Y direction) parallel to the one side of the nonwoven fabric substrate for wiping sheet is 4.0 mm or more or 4.5 mm or more, and 8.0 mm or less or 7.0 mm or less.

<16>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <15>, wherein the diameter of the aperture is 0.7 mm or more or 0.75 mm or more, or 3.0 mm or less or 2.7 mm or less.

<17>

The nonwoven fabric substrate for wiping sheet according to <16>, wherein a ratio of the diameter of the aperture in the width of the grooves is 20% or more and 90% or less, or 30% or more and 90% or less.

<18>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <17>, wherein when expressed by a projected area of the nonwoven fabric substrate in planar view, the size of the aperture is 0.5 mm² or more and 10 mm² or less, or 1 mm² or more and 10 mm² or less.

<19>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <18>, wherein a basis weight of the nonwoven fabric substrate is 30 g/m² or more or 40 g/m² or more, or 250 g/m² or less, or 100 g/m² or less.

<20>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <19>, wherein the basis weight of the ridges is 50 g/m² or more or 55 g/m² or more, or 500 g/m² or less or 200 g/m² or less.

<21>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <20>, wherein the basis weight of the grooves excluding the apertures is 30 g/m² or more or 40 g/m² or more, or 80 g/m² or less or 70 g/m² or less.

<22>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <21>, wherein the substrate is impregnated with a chemical solution.

<23>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <22>, wherein an impregnated amount of the chemical solution to the nonwoven fabric substrate is 100% or more or 150% or more, or 700% or less or 500% or less per unit weight of the nonwoven fabric substrate.

<24>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <23>, wherein the chemical solution is an aqueous cleaning agent.

<25>

The nonwoven fabric substrate for wiping sheet according to <24>, wherein the aqueous cleaning agent contains a surfactant.

<26>

The nonwoven fabric substrate for wiping sheet according to <25>, wherein the surfactant is contained in the aqueous cleaning agent in an amount of preferably 0.05 wt % or more, preferably 2.0 wt % or less, more preferably 1.0 wt % or less, for example, 0.05 wt % or more and 2.0 wt % or less, and particularly, 0.05 wt % or more and 1.0 wt % or less.

<27>

The nonwoven fabric substrate for wiping sheet according to any one of <24> to <26>, wherein the aqueous cleaning agent contains an alkaline agent.

<28>

The nonwoven fabric substrate for wiping sheet according to <27>, wherein the alkaline agent is contained in the aqueous cleaning agent in an amount of 1 wt % or less, and preferably 0.5 wt % or less.

<29>

The nonwoven fabric substrate for wiping sheet according to any one of <24> to <27>, wherein the aqueous cleaning agent contains a water-soluble solvent.

<30>

The nonwoven fabric substrate for wiping sheet according to <29>, wherein the water-soluble solvent is contained in the aqueous cleaning agent, in an amount of preferably 1 wt % or more, preferably 50 wt % or less, more preferably 20 wt % or less, for example, 1 wt % or more and 50 wt % or less, and particularly, 1 wt % or more and 20 wt % or less.

<31>

The nonwoven fabric substrate for wiping sheet according to any one of <24> to <30>, wherein the aqueous cleaning agent contains a disinfectant.

<32>

The nonwoven fabric substrate for wiping sheet according to <31>, wherein the disinfectant is isothiazolin-based disinfectant.

<33>

The nonwoven fabric substrate for wiping sheet according to any one of <24> to <30>, containing the disinfectant other than polyhexamethylene biguanide or poly(hexamethylene) biguanide hydrochloride.

<34>

The nonwoven fabric substrate for wiping sheet according to any one of <31> to <33>, wherein the disinfectant is contained in the aqueous cleaning agent in an amount of preferably 0.003 wt % or more, preferably 2.0 wt % or less, more preferably 1.0 wt % or less, for example, 0.003 wt % or more and 2 wt % or less, and particularly, 0.003 wt % or more and 1 wt % or less.

<35>

The nonwoven fabric substrate for wiping sheet according to any one of <24> to <34>, wherein a medium of the aqueous cleaning agent is water, and is contained in the aqueous cleaning agent, in an amount of preferably 50 wt % or more, preferably 80 wt % or more, preferably 99.9 wt % or less, more preferably 99 wt % or less, for example, 50 wt % or more and 99.9 wt % or less, and particularly, 80 wt % or more and 99 wt % or less.

<36>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <23>, wherein the chemical solution is selected from at least one of mineral oil, synthetic oil, silicone oil, and wax.

<37>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <36>, wherein the aperture regions include a first aperture region arranged in a pattern in which a diamond shape is periodically repeated, and a second aperture region arranged in a pattern in which a V shape is periodically repeated, in the extending direction of the aperture regions, and the first aperture region and the second aperture region have a pattern arranged alternately with the non-aperture region interposed therebetween in a direction orthogonal to the extending direction of the aperture regions.

<38>

The nonwoven fabric substrate for wiping sheet according to <37>, wherein in order to surround the diamond shape of the first aperture region, the non-aperture regions include a first non-aperture region in which the V shape formed by the non-aperture portion of the plurality of grooves is repeatedly arranged in the extending direction of the non-aperture region, and a second non-aperture region in which an inverted V shape formed by the non-aperture portion of the plurality of grooves is repeatedly arranged in the extending direction of the non-aperture region.

<39>

The nonwoven fabric substrate for wiping sheet according to <37> or <38>, wherein in the diamond shape forming the first aperture region, the length in the direction orthogonal to the extending direction of the aperture regions is preferably 20 mm or more, more preferably 25 mm or more, preferably 110 mm or less, and more preferably 100 mm or less.

<40>

The nonwoven fabric substrate for wiping sheet according to any one of <37> to <39>, wherein in the diamond shape forming the first aperture region, the length of the extending direction of the aperture regions is preferably 20 mm or more, more preferably 25 mm or more, preferably 60 mm or less, and more preferably 50 mm or less.

<41>

The nonwoven fabric substrate for wiping sheet according to any one of <37> to <40>, wherein an angle formed between one side forming the V shape in the first aperture region and a straight line extending in the extending direction of the aperture regions is 20° or more and 70° or less.

<42>

The nonwoven fabric substrate for wiping sheet according to any one of <38> to <41>, wherein the width of the first non-aperture region and the width of the second non-aperture region are formed in the same width.

<43>

The nonwoven fabric substrate for wiping sheet according to <42>, wherein the width of the first non-aperture region and the second non-aperture region is preferably 5 mm or more, more preferably 10 mm or more, and preferably 20 mm or less.

<44>

The nonwoven fabric substrate for wiping sheet according to any one of <1> to <43>, wherein the thickness of the nonwoven fabric substrate, that is, the distance between the top of the convex ridge on one surface and the top of the convex ridge below the other surface is preferably 0.3 mm or more, more preferably 0.5 mm or more, preferably 2.5 mm or less, and more preferably 2.0 mm or less.

<45>

The nonwoven fabric substrate for wiping sheet according to <44>, wherein a height difference at the top of the ridge of the one surface side is preferably 0.2 mm or more, preferably 1.2 mm or less, and more preferably 1.0 mm or less.

<46>

The nonwoven fabric substrate for wiping sheet according to <44> or <45>, wherein a height difference at the top of the ridge of the other surface side is preferably 0.1 mm or more, preferably 1.2 mm or less, and more preferably 1.0 mm or less.

EXAMPLE

Hereinafter, the invention will be described in more detail with reference to examples. However, the scope of the invention is not intended to be limited by the examples in any way.

Example 1

The nonwoven fabric substrate for wiping sheet illustrated in FIG. 1 was manufactured by the method illustrated in FIG. 4. The nonwoven fabric substrate was manufactured using rayon (2.2 dtex and fiber length 38 mm; 70 wt %) and polyester fiber (2.2 dtex and fiber length 38 mm; 30 wt %) as a raw material, and the basis weight thereof was 60 g/m². The manufactured nonwoven fabric substrate will be described in more detail. The width W1 of each ridge was 2.0 mm, the width W2 of each groove was 3.2 mm, and the thickness T was 1.0 mm. The height difference D_a at the top of the ridges of the first surface 1a side was 0.8 mm, and the height difference D_b at the top of the ridges of the second surface 1b side was 0.5 mm. The interval L1 between the apertures 4 was 6.4 mm, the diameter L2 of the apertures 4 was 2.1 mm, and the size of the apertures 4 was 4.9 mm². Furthermore, regarding the diamond-shaped aperture region 30a forming the first aperture region 11a, the length L3 in the Y direction was 30 mm, and the length L4 in the X direction was 45 mm. The V-shaped aperture region 30b forming the second aperture region 11h was formed such that the angle α formed between one side thereof and the straight line extending in the X direction was 32.5°. One side of the V-shaped non-aperture region 31a forming the first non-aperture region 12a was also formed to have the angle of 32.5°. The width W3 of the first non-aperture region 12a and the second non-aperture region 12b was 10 mm. In addition, the thickness of the nonwoven fabric substrate was measured under a presser foot having the diameter of 50.5 mm under the load of 0.3 kPa, by using a thickness measurer (model type FS-60DS) manufactured by DAIEI KAGAKU SEIKI MFG. CO., LTD. The whole basis weight of the nonwoven fabric substrate was 60 g/m², the basis weight of the ridges was 97 g/m², and the basis weight of the grooves was 55 g/m².

The wiping sheet of example 1 was produced by impregnating the chemical solution into the manufactured nonwoven fabric substrate. The chemical solution to be impregnated was water/dodecyl glucoside (degree of condensation of 1.4, surfactant)/alkyl benzyl ammonium chloride (disinfectant)/ethanol=97.85/0.05/0.1/2, and impregnation amount of the chemical solution was 210% per unit weight of the nonwoven fabric substrate.

Example 2

The nonwoven fabric substrate for wiping sheet illustrated in FIG. 1 was manufactured by the method illustrated in FIG. 4. The nonwoven fabric substrate was manufactured using rayon (2.2 dtex and fiber length 38 mm; 50 wt %) and polyester fiber (2.2 dtex and fiber length 38 mm; 50 wt %) as a raw material, and the basis weight thereof was 60 g/m². Otherwise, the nonwoven fabric substrate similar to example 1 was manufactured.

Comparative Example 1

A wiping sheet of comparative example 1 was manufactured in the same manner as example 1 except that in each groove, the non-aperture portion having no aperture is not provided, only the aperture portion having the interval L1 between the apertures of 6.0 mm is provided, and only the first aperture region 11a and the second aperture region 11b are formed.

Comparative Example 2

A wiping sheet of comparative example 2 was manufactured in the same manner as example 1 except that each groove does not have an aperture.

[Performance Evaluation]

Regarding the wiping sheets of examples 1 and 2, and comparative examples 1 and 2, collecting characteristics of the solid waste, absorbency of liquid dirt, and ease of familiarity of hand were evaluated in accordance with the following method. The evaluation environment was a room temperature of 20° C. and a humidity of 60% RH.

The results are illustrated in Table 1 below.

[Collecting Characteristics of Solid Waste]

Ten pieces of crackers crushed to a square of 2 to 5 mm were spread on a wooden table of a square of 30 cm, and the top thereof was measured by wiping by hand using the wiping sheet. The operation was conducted three times by preparing three per sample, and an average value thereof was obtained to be set as a collection rate (%),

The collecting characteristics of the solid waste were evaluated based on the following criteria:

A: the collection rate is 80% or more, and the collecting characteristics of the solid waste are satisfactory.

B: the collection rate is 60% or more and less than 80%, and the collecting characteristics of the solid waste are practically sufficient level.

C: the collection rate is 40% or more and less than 60%, and the collecting characteristics of the solid waste are inferior.

D: the collection rate is less than 40%, and the collecting characteristics of the solid waste are impracticable level.

[Absorbency of Liquid Dirt]

A meat sauce 2g was applied on a wooden table of a square of 30 cm, and the top thereof was measured by wiping by hand using the wiping sheet. The operation was conducted three times by preparing three per sample, and an average value thereof was obtained to be set to an absorbency (times) of the liquid dirt.

The absorbency of the liquid dirt was evaluated based on the following criteria:

A: Dirt could be completely removed by cleaning of three reciprocations or less.

B: Dirt could be completely removed by cleaning of five reciprocations or less.

C: Dirt could be completely removed by cleaning of ten reciprocations or less.

D: Dirt could not be completely removed even beyond ten reciprocations.

[Ease of Familiarity of Hand]

In regard to the wiping sheet, a sensory evaluation of the ease of familiarity of hand when cleaning the wooden table was performed by 10 expert panelists, and was determined according to the following criteria:

The ease of familiarity of hand was evaluated based on the following criteria:

A: Seven people or more evaluated satisfactorily.

B: Four to six people evaluated satisfactorily.

C: Two or three people evaluated satisfactorily.

D: One person or less evaluated satisfactorily.

	TABLE 1
				Comparative	Comparative
	Unit	Example 1	Example 2	Example 1	Example 2
Collecting	Collection rate	%	90	90	80	45
characteristics	Evaluation	—	A	A	A	C
of solid waste
Absorbency of	Number of wiping	Time	2	3	8	5
liquid dirt	Evaluation	—	A	A	C	B
Ease of famil-	Evaluation	—	A	A	C	D
iarity of hand

As is apparent from the result illustrated in Table 1, the wiping sheet of examples 1 and 2 was a sheet having higher collecting characteristics of the solid waste and higher absorbency of liquid dirt than the wiping sheet of comparative examples 1 and 2.

INDUSTRIAL APPLICABILITY

The nonwoven fabric substrate for wiping sheet of the invention is able to efficiently wipe off granular solid waste or peeled dirt, and also is able to sufficiently absorb the water-based or oil-based liquid dirt. In particular, when the sheet is used as a wet type wiping sheet by impregnating a chemical solution, more excellent effect is obtained.

Claims

1. A nonwoven fabric substrate for wiping sheet in which ridges and grooves are alternately formed at positions corresponding to each other on each of both surfaces, and apertures penetrating the grooves of both surfaces are formed, wherein the ridges and the grooves extend parallel to each other, and extend in a direction intersecting with each of a pair of both sides extending in parallel of the nonwoven fabric substrate for wiping sheet,in planar view, each of the grooves alternately includes an aperture portion which has a plurality of the apertures, and a non-aperture portion which has no aperture and is longer than a distance between the nearest end portions of the adjacent apertures in the aperture portion, and an arrangement pattern of the aperture portions and the non-aperture portions provided in the grooves is different from an arrangement pattern of the aperture portions and the non-aperture portions provided in an adjacent groove,when a whole of the nonwoven fabric substrate for wiping sheet is seen in planar view, the nonwoven fabric substrate for wiping sheet includes aperture regions formed by the aperture portions of the plurality of grooves, and non-aperture regions formed by the non-aperture portions of the plurality of grooves, andeach of the aperture region and the non-aperture region is arranged in a predetermined pattern,wherein the aperture regions include a first aperture region arranged in a pattern in which a diamond shape is periodically repeated and spaced/discrete, and a second aperture region arranged in a pattern in which a V shape is periodically repeated and connected/continuous, in the extending direction of the aperture regions, and the first aperture region and the second aperture region have a pattern arranged alternately with the non-aperture regions interposed therebetween in a direction orthogonal to the extending direction of the aperture regions,wherein the non-aperture regions include a first non-aperture region in which the V shape is repeatedly arranged in the extending direction of the non-aperture regions, and a second non-aperture region in which an inverted V shape is repeatedly arranged in the extending direction of the non-aperture regions, so as to surround the diamond shapes of the first aperture region, andwherein the nonwoven fabric substrate is rectangular.

2. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein each of the aperture regions and the non-aperture regions is arranged in a pattern in which each of the extending direction of the aperture regions and the extending direction of the non-aperture regions intersects with the extending direction of each of the ridges and grooves.

3. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the apertures are formed by dividing and rearranging constituent fibers of the nonwoven fabric substrate.

4. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the aperture regions include additional first aperture regions, wherein adjacent first aperture regions have the periodically repeated and spaced/discrete diamond shapes shifted by a half pitch .

5. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the aperture regions include additional second aperture regions, wherein adjacent second aperture regions have the periodically repeated and connected/continuous V shapes shifted by a half pitch.

6. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the non-aperture regions include additional second non-aperture regions, wherein adjacent second non-aperture regions have the repeatedly arranged V shapes periodically shifted by a half pitch .

7. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the non-aperture regions include additional second non-aperture regions, wherein adjacent second non-aperture regions have the repeatedly arranged V shapes periodically shifted by a half pitch.

8. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the non-aperture regions have a constant width in the extending direction of the non-aperture regions, and the width is wider than an interval between the apertures adjacent to each other in the direction of the grooves in the aperture portions.

9. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the width of the first non-aperture region and the width of the second non-aperture region are formed in the same width.

10. The nonwoven fabric substrate for wiping sheet according to claim 1, wherein the nonwoven fabric substrate for wiping sheet is impregnated with a chemical solution.