阅读说明：本技术 女性卫生制品 (Feminine hygiene article ) 是由 H.沃温克尔 W.多迈耶 R.赫费尔 B.W.拉瓦施 H.文特 于 2018-05-11 设计创作，主要内容包括：本文公开了女性卫生制品。本文所述的女性卫生制品可提供易于辨别的放置和取向引导、方便的附接引导，所述放置和取向引导减少被使用者误用的可能性，所述附接引导可减少女性衬垫误用的可能性，并且还可减少女性衬垫不正确地附接到内裤的可能性。所公开的女性卫生制品包括独特形状的翼部，所述翼部可提供关于制品正确附接到内裤的线索，并且可有助于提供女性卫生制品对内裤的持续覆盖，这减少了衬垫在使用期间脱离的可能性。(Feminine hygiene articles are disclosed herein. The feminine hygiene articles described herein can provide easily discernable placement and orientation guides that reduce the likelihood of misuse by the user, convenient attachment guides that can reduce the likelihood of feminine pad misuse, and can also reduce the likelihood of the feminine pad being improperly attached to the panty. The disclosed feminine hygiene article includes a uniquely shaped wing that can provide clues as to the proper attachment of the article to the panty and can help provide continuous coverage of the panty by the feminine hygiene article, which reduces the likelihood of the pad becoming detached during use.)

1. A feminine hygiene article (10) having a chassis (20), a longitudinal centerline (80), and a transverse centerline (90) perpendicular to said longitudinal centerline, a first end (25), an opposing second end (27), and an intermediate region (29) connecting said first end and said second end, said chassis comprising a topsheet, a backsheet, and an absorbent core disposed between said topsheet and said backsheet, said first end having a width Wf and said second end having a width Ws; the feminine hygiene article further comprises:

a first wing (60,360,460,660,760) extending laterally outboard of the chassis, the chassis having a first leading edge (261,361,461) extending outboard of the chassis, a first trailing edge (265,365,465) extending outboard of the chassis, and one or more edges connecting the first leading edge and the first trailing edge, wherein the first wing has a first length (283,383,483,783) and a first bisecting line (287,387,487,787) that bisects the first length, the first split line forms at least a portion of a boundary between the first distal end region and the first proximal end region, wherein the first wing is asymmetric about the first split line, wherein the first wing further comprises a first surface (501) and an opposing second surface (703), a first adhesive region (711), and a second adhesive region (712) disposed on the second surface, wherein the first adhesive region is asymmetrically disposed with respect to the first split line;

a second wing (70,370,470,670,770) extending laterally outboard of the chassis, the chassis having a second leading edge (271,371,471) extending outboard of the chassis, a second trailing edge (275,375,475) extending outboard of the chassis, and one or more edges connecting the second leading edge and the second trailing edge, wherein the second wing has a second length (293,393,493,793) and a second bisecting line (297,397,497,797) that bisects the second length, wherein the second wing is asymmetric about the second bisecting line, wherein the second wing further comprises a first surface (502) and an opposing second surface (704), a third adhesive region (721), and a fourth adhesive region (722) disposed on the second surface, wherein the third adhesive region is asymmetrically disposed relative to the second bisecting line;

a first visual signal disposed on the first wing, wherein the first visual signal comprises a first visual signal area, and wherein the first visual signal area is disposed asymmetrically with respect to the first bisecting line, as determined by the visual signal area measurement methods disclosed herein; and

a second visual signal disposed on the second wing, wherein the second visual signal comprises a second visual signal area, and wherein the second visual signal area is asymmetrically disposed relative to the second bisecting line, as determined by the visual signal area measurement methods disclosed herein.

2. The feminine hygiene article of claim 1, wherein the ratio of the first end width Wf to the second end width Ws is from about 0.47 to about 1.3, more preferably from about 0.75 to about 1.1, or most preferably from about 0.7 to about 1.0.

3. The feminine hygiene article of any one of the preceding claims, wherein the first wing comprises a first distal region and a first proximal region, and wherein a portion of the first visual signal area disposed in the first distal region is greater than a portion disposed in the first proximal region according to the visual signal area measurement methods disclosed herein, and wherein the second wing comprises a second distal region and a second proximal region, and wherein a portion of the second visual signal area disposed in the second distal region is greater than a portion disposed in the second proximal region according to the visual signal area measurement methods disclosed herein.

4. The feminine hygiene article according to claim 3, wherein the first distal region is closer to the second end than the first proximal region, and wherein the second distal region is closer to the first end than the second proximal region.

5. The feminine hygiene article according to any one of claims 3 to 4, wherein the first distal region is closer to the second end than the second distal region.

6. The feminine hygiene article according to any one of claims 3 to 5, wherein the first distal region and the second distal region are longitudinally offset from one another.

7. The feminine hygiene article according to any one of claims 3 to 6, wherein the first distal end region is disposed on a second side of the transverse centerline of the feminine hygiene article and the second distal end region is disposed on a first side of the transverse centerline.

8. The feminine hygiene article according to any one of the preceding claims, wherein a first distal edge (464) connects the first leading edge and the first trailing edge, and wherein a second distal edge (472) connects the second leading edge and the second trailing edge.

9. The feminine hygiene article according to any one of claims 1 to 7, wherein a first proximal edge (262, 362) extends from the first leading edge towards the first trailing edge, wherein a first distal edge (264, 364) extends from the first trailing edge towards the first leading edge, and wherein a first transition edge (263, 363) connects the first proximal edge and the first distal edge.

10. The feminine hygiene article according to any one of claims 1 to 7 and 9, wherein a second proximal edge (274, 374) extends from the second rear edge towards the second front edge, wherein a second distal edge (272, 372) extends from the second front edge towards the second rear edge, and wherein a second transition edge (273, 373) connects the second proximal edge and the second distal edge.

11. The feminine hygiene article of any one of the preceding claims, wherein the first end comprises longitudinal side edges (25A,25B), and wherein the longitudinal side edges are inclined relative to the longitudinal centerline such that the first end width Wf is reduced to about 53% of Wf, more preferably to about 80% of Wf, most preferably to about 95% of Wf.

12. The feminine hygiene article of any one of the preceding claims, wherein the second end comprises longitudinal side edges (27A,27B), and wherein the longitudinal side edges are inclined relative to the longitudinal centerline such that the second end width Ws is reduced to about 65% of Ws, more preferably to about 85% of Ws, most preferably to about 98% of Ws.

13. The feminine hygiene article of any one of the preceding claims, wherein the first and second splits are disposed on a first side of the transverse centerline, the first side being closer to the first end.

14. The feminine hygiene article according to any one of claims 1 to 13, wherein the first and second split lines are disposed on a second side of the transverse centerline, the second side being closer to the second end.

15. The feminine hygiene article according to any one of claims 1 to 12, wherein the first and second split lines are disposed co-linearly with the transverse centerline.

16. The feminine hygiene article according to any one of the preceding claims, wherein the first flap further comprises a grip region (985), a first cover region (981A) and a second cover region (981B), wherein the first cover region and the second cover region have a ratio of preferably 1:1.48 or about 1:0.52, or most preferably about 1:1.

17. The feminine hygiene article according to any one of the preceding claims, wherein the second wing further comprises a grip area (995), a first coverage area (991A) and a second coverage area (991B), wherein the first coverage area and the second coverage area have a ratio of preferably 1:1.48 or about 1:0.52, or most preferably about 1:1.

18. The feminine hygiene article according to any one of the preceding claims, wherein the first distal region has a distal region bond length (784), and wherein the first bond region has a bond region length (785), and wherein the ratio of the distal region bond length to the bond region length is preferably from about 1.15 to about 4.6, more preferably from about 1.27 to about 2.25, or most preferably from about 1.38 to about 2.0.

Technical Field

The present application relates to absorbent articles, and more particularly to feminine hygiene articles.

Background

Feminine pads have been widely used for decades. These pads are commonly used to capture menses and wet during the menstrual period. Typically, the user of a feminine pad wants to feel clean and dry. Many improvements in feminine pad technology have attempted to improve on one or both of these aspects. For example, wing portions are introduced into a feminine pad to reduce the likelihood of leakage and to help secure the pad to the wearer's panties. In addition, absorbent core materials have been introduced which provide enhanced absorbent capacity in relatively thin liners.

However, providing the desired experience for the user of a feminine pad is somewhat complicated and requires more than the above improvements. The user of the feminine pad should be provided with readily discernable guidance for use that ensures proper placement/orientation of the feminine pad within the panty. Such improvements in the wing portions and absorbent core material may not provide the intended benefits if improper placement and/or orientation is used. In addition, the pad must be securely fastened to the panty. Without fastening the feminine pad securely to the panty, the feminine pad may fall off during use. And, like improper placement and/or orientation, dislodgement may negatively impact many of the functions of the improvements described above.

The secure attachment of the feminine pad to the panty can generally include two aspects. First, the pad is properly attached to the panty, and then the feminine pad is continuously attached/covered to the panty. Unfortunately, if not properly attached, continued attachment and coverage may be difficult to achieve. Also, in some cases, proper attachment does not necessarily guarantee continued attachment/coverage.

Based on the foregoing, it would be beneficial to provide a pad that provides easily discernable placement/orientation guidance, convenient attachment guidance, and/or continuous attachment to the undergarment.

Disclosure of Invention

The feminine hygiene article of the present invention can provide the user with intuitive guides for use that facilitate identification of the proper orientation of the pad. In some forms, the feminine hygiene article of the present invention can provide an intuitive use guide for the user that facilitates proper application of the pad to the undergarment. Also, in some forms, the feminine hygiene articles of the present invention can provide continuous coverage of the feminine hygiene article to the panties.

In some forms, the feminine hygiene article has a chassis including a topsheet, a backsheet, and an absorbent core disposed between the topsheet and the backsheet. The feminine hygiene article further comprises a longitudinal centerline and a transverse centerline perpendicular to the longitudinal centerline; a first end, an opposing second end, and an intermediate region connecting the first end and the second end, the first end having a width Wf and the second end having a width Ws.

The feminine hygiene article further comprises a first wing extending laterally outboard of the chassis, the chassis having a first leading edge extending outboard of the chassis, a first trailing edge extending outboard of the chassis, and one or more edges connecting the first leading edge and the first trailing edge, wherein the first wing has a first length and a first bisecting line bisecting the first length, the first bisecting line forming at least a portion of a boundary between the first distal region and the first proximal region, wherein the first wing is asymmetric about the first bisecting line, wherein the first wing further comprises a first surface (501) and an opposing second surface, a first adhesive region, and a second adhesive region disposed on the second surface, wherein the first adhesive region is asymmetrically disposed relative to the first bisecting line.

The feminine hygiene article further comprises a second wing extending laterally outboard of the chassis, the chassis having a second leading edge extending outboard of the chassis, a second trailing edge extending outboard of the chassis, and one or more edges connecting the second leading edge and the second trailing edge, wherein the second wing has a second length and a second bisecting line that bisects the second length, wherein the second wing is asymmetric about the second bisecting line, wherein the second wing further comprises a first surface and an opposing second surface, a third adhesive region, and a fourth adhesive region disposed on the second surface, wherein the third adhesive region is asymmetrically disposed relative to the second bisecting line. A first visual signal is disposed on the first wing portion, wherein the first visual signal includes a first visual signal area, and wherein the first visual signal area is asymmetrically disposed relative to the first bisecting line, as determined by the visual signal area measurement methods disclosed herein. And a second visual signal is disposed on the second wing, wherein the second visual signal comprises a second visual signal area, and wherein the second visual signal area is asymmetrically disposed relative to the second bisecting line, as determined by the visual signal area measurement methods disclosed herein.

Drawings

While the specification concludes with claims particularly pointing out and distinctly claiming the subject matter of the present invention, it is believed that the invention will be more readily understood from the following description taken in conjunction with the accompanying drawings described below.

Fig. 1A is an illustration of a feminine pad according to the present disclosure.

Fig. 1B is an illustration of a first end of the feminine pad of fig. 1A.

Fig. 1C is an illustration of a second end of the feminine pad of fig. 1A.

Fig. 1D is an illustration of a middle region of the feminine pad of fig. 1A.

Fig. 1E is an illustration of the feminine pad of fig. 1A, highlighting its pitch length.

FIG. 1F is an illustration of the feminine pad of FIG. 1A, highlighting its width.

Fig. 2A is an illustration of a first wing portion of the feminine pad of fig. 1A.

Fig. 2B is an illustration of a second wing of the feminine pad of fig. 1A.

FIG. 3 is an illustration of first and second wings according to another form of the present disclosure.

FIG. 4 is an illustration of first and second wings according to another form of the present disclosure.

Fig. 5 is an illustration of a feminine pad including a visual signal according to the present disclosure.

FIG. 6 is an illustration of a feminine pad attached to a panty with the wings curled around the panty.

Fig. 7A is an illustration of the underside of a feminine pad according to the present disclosure.

Fig. 7B is an illustration of a first wing of the feminine pad of fig. 7A.

Figure 7C is an illustration of a second wing of the feminine pad of figure 7A.

Fig. 8 is a diagram illustrating a close-up view of the first wing of fig. 7B.

Fig. 9A is an illustration of the first wing of fig. 7B, further showing the footprint and grip areas.

Fig. 9B is an illustration of the second wing of fig. 7C further showing the footprint and the grip region.

Fig. 9C is an illustration of the wings curled around the panty and also showing the coverage area of the wings.

Fig. 10 is a schematic plan view of the feminine pad of fig. 1A, with portions cut away to facilitate viewing of some internal features of the feminine pad.

Fig. 11 is a schematic plan view of a secondary topsheet suitable for use in a feminine pad of the present disclosure.

Fig. 12 is a photograph showing a feminine pad according to the present disclosure.

Fig. 13 is a photograph showing another feminine pad according to the present disclosure.

Fig. 14 is a diagram illustrating another feminine pad constructed in accordance with the present disclosure.

Fig. 15A is an illustration showing a cross-section of another feminine pad constructed in accordance with the present disclosure.

Fig. 15B is an illustration showing a supplemental absorbent member of the feminine pad of fig. 15A.

Fig. 16 is a diagram illustrating a feminine pad constructed in accordance with the present disclosure.

Detailed Description

A feminine pad in accordance with the present disclosure can provide easily discernable placement and orientation guidance, which reduces the likelihood of misuse by the user. The feminine pad of the present disclosure has a unique shape including a pair of uniquely shaped wings that collectively act as an easily discernable placement/orientation guide for the user. The easily discernable placement/orientation guide reduces the likelihood of feminine pad misuse, thus increasing the likelihood of a good user experience. In addition, these placement/orientation guides may be provided in a product line, and similarly may facilitate the use of variable sized articles within the line. Each of these features is discussed in further detail herein.

As used herein, "array" refers to a display of packages comprising different sized disposable articles having similar article configurations (e.g., same elastomeric material [ compositionally and/or structurally ] in flaps, graphic elements), the packages having the same brand and/or sub-brand, and the packages being oriented in close proximity to each other in a given area of a retail store. The array is sold as an array of products, often with similar packaging elements (e.g., packaging material type, film, paper, primary color, design theme, etc.), which conveys information to the consumer that different individual packages are part of a larger array. The series typically have the same brand, e.g., "Depend," and the same sub-brand, e.g., "for Women Underwear. Different families may have the brand "depended" and the sub-brand "Silhouette ForWomen". The difference between the "For Women Underwear" series and the "Silhouette For Women" series includes the difference in elastomeric material in the side flaps, wherein the "For Women Underwear" includes strands that are elastomeric material and the "Silhouette For Women" includes film elastomeric material. Furthermore, the packaging is significantly different in that "For WomenUnderwear" is mainly packaged with green film bags, whereas "Silhouette For Women" is mainly packaged with a brownish red box. Also for "series" as another example of two separate "series" having the same brand "Certainty", one series has the sub-brand "Women's Underwear". Different series may have the same brand "Certainty" and sub-brand "smooth Shape Briefs for Women". The difference between the "Women's Underwear" series and the "Smooth ShapeBriefs for Women" series, where "Women's Underwear" comprises strands that are elastomeric materials, and "Smoeoth Shape Briefs for Women" comprises a film elastomeric material, includes the elastomeric material in the side flaps. In addition, the packaging differs significantly in that "Women's Underwear" is primarily packaged with blue film pouches, while "Smoeoth Shape Briefs for Women" is primarily packaged with a brownish red box.

The series also typically has the same brand, including branding, sub-branding, and/or features and/or benefits of the entire series.

"in-line series" refers to a "series" distributed by commonly used in-line sources.

It should be understood that the pad of the present disclosure can take many different forms while still providing the user with intuitive pad orientation and attachment cues, which in turn provide optimal and consistent coverage when the pad is attached to the undergarment. The cushion of the present disclosure includes a first end, a second end opposite the first end, and an intermediate region joining the first end and the second end. In some forms, the width W of the first end_fIs less than the width W of the second end_s. Having a narrower first end helps the user intuitively know in which way the pad should be oriented when in use.

Further, the pad of the present disclosure has first and second wings extending laterally outboard of the chassis in opposite directions, typically in the region of the medial zone. The first and second wing portions are asymmetric about a bisecting line that coincides with or is substantially parallel to a lateral centerline of the cushion. The asymmetric wings enable the pad to be securely fastened to the user's undergarment during use, providing the user with a cue as to how and where to fasten the wings on the underside of the undergarment.

In the pad of the present disclosure, the first wing is divided into a first distal region and a first proximal region, and the second wing is divided into a second distal region and a second proximal region. The first and second distal regions include an edge of each respective wing located furthest outboard of the chassis. That is, the first distal region includes the edge of the first wing that is farthest outboard of the chassis, and conversely, the edge of the first proximal region is located closer to the chassis. Similarly, the second distal region includes an edge of the second wing that is located farthest outboard from the chassis, and the second proximal region includes an edge that is located closer to the chassis. The presence of a distal region extending from the chassis beyond the proximal regions of the wings provides the user with a clear indication of where they should grasp the wings when fastened to the underpants.

In some forms the first distal region and the second distal region are longitudinally offset from one another. For example, if the first distal end region is located proximal to the first end of the pad, the second distal end region is located proximal to the second end of the pad. With the distal regions of the first and second wings longitudinally offset from each other, the wings can be securely fastened to the underside of the undergarment without overlapping.

Each of these regions may play a role in providing an intuitive pad orientation cue, which in turn may provide an intuitive pad attachment cue. Each of the first end, the second end, and the intermediate region are discussed in additional detail herein. Also, while the description herein refers to a "feminine pad" or "feminine hygiene pad," the features of the articles described herein are equally applicable to pantiliners, catamenial pads, and adult incontinence pads.

Liner orientation/placement

Fig. 1-16 depict different examples of absorbent articles of the present disclosure or components thereof that may share the above-described features. A feminine hygiene pad constructed in accordance with the present disclosure is shown in fig. 1A. Fig. 1A depicts the outer perimeter of the feminine pad 10. Feminine pad 10 can include a chassis 20 and a pair of wings 60 and 70 extending on the outside of chassis 20. The chassis 20 has a first end 25 and a second end 27 and an intermediate region 29 disposed between the first end 25 and the second end 27. The feminine pad 10 also includes a longitudinal centerline 80 and a transverse centerline 90 disposed generally perpendicular to the longitudinal centerline 80. Also, the chassis 20 may further include a topsheet, a backsheet, and an absorbent core disposed between the topsheet and the backsheet. The topsheet, backsheet and absorbent core are discussed in additional detail herein.

With respect to chassis 20, first end 25 includes a pair of longitudinal side edges 25A and 25B and a first end edge 25C joining longitudinal side edges 25A and 25B. The longitudinal side edges 25A and 25B may be disposed substantially parallel to the longitudinal centerline 80. Similarly, the second end 27 may include a pair of longitudinal side edges 27A and 27B disposed generally parallel to the longitudinal centerline 80. The second end edge 27C joins the longitudinal side edges 27A and 27B. Note that the term "substantially parallel" does not require that the longitudinal side edges be absolutely parallel. In the particular case of the longitudinal side edges 25A,25B, 27A and 27B, their inclination with respect to the longitudinal centerline 80 is discussed in additional detail herein.

The contour between first end 25, second end 27, and intermediate region 29 may depend on the extension of the wings from chassis 20. For example, the profile between first end 25 and intermediate region 29 may be approximated by determining a first intersection between longitudinal side edge 25A and the leading edge of wing portion 70 and a second intersection between longitudinal side edge 25B and the leading edge of wing portion 60. A first line extending from the first intersection to the second intersection that is generally parallel to the transverse centerline 90 provides a useful approximation of the contour between the first end 25 and the intermediate region 29. As another example, the profile between the second end 27 and the intermediate region 29 may be determined in substantially the same manner as described above. For example, it may be helpful to find a third intersection between the trailing edge of wing 70 and longitudinal side edge 27A, and a fourth intersection between the trailing edge of wing 60 and longitudinal side edge 27B. A second line extending from the third intersection to the fourth intersection, generally parallel to the transverse centerline 90, provides a useful approximation of the contour between the second end 27 and the intermediate region 29. The relevant edges of the wings 60 and 70 will be discussed in additional detail below.

Focusing on first end 25 in fig. 1B, it is noted that first end edge 25C tapers gradually toward apex 26. The gradual tapering of the first end edge 25C toward the apex 26 in the first end 25 can help the wearer identify the proper orientation of the feminine pad 10 in the panty. For example, because the first end edge 25C tapers toward the apex 26, the user can more easily identify the front of the feminine pad 10 opposite the more rounded second end edge 27C as described below.

As shown, the first end 25 may also include a width Wf that is generally parallel to the transverse centerline 90 (shown in fig. 1A). Width Wf represents the widest portion of first end 25. The width Wf is discussed in additional detail below.

Additionally, the first end edges 25A and 25B may be slightly inwardly inclined from the first end edge 25C. This angling of the first end edges 25A and 25B provides a smaller width chassis 20 moving from the first end 25 toward the intermediate region 29. This angling of first end edges 25A and 25B may generally follow the contour of the undergarment, thereby providing a more comfortable fit within the undergarment of the wearer.

In addition, the angled first end edges 25A and 25B may increase the life of the rotary knife system. The rotary knife system typically includes a die cutting roll and an anvil roll, and may be used to cut the final shape of the liner from its respective web. Edges that are generally parallel to the MD direction (generally parallel to the longitudinal centerline 80) may prematurely wear the anvil roll. In such cases, the blades of the die cutting roll impact the anvil roll in the CD direction (generally parallel to the transverse centerline 90) with a generally small belt width. Such repeated impacts may prematurely wear the die cutting roll and/or the anvil roll. However, in the event of an edge bevel, such as first end edges 25A and 25B, the blades of the die cutting roll impact the anvil roll along the increasing width of the belt in the CD direction. The greater width of the belt on the anvil roll may extend the life of the anvil roll.

Centered on the second end 27 in fig. 1C, the second end edge 27C may be more rounded, unlike the first end edge 25C (shown in fig. 1B). Also, the likelihood of misuse of the feminine pad 10 into the panty can be reduced due to the difference between the first end edge 25C (shown in FIG. 1B) and the second end edge 27C. For example, due to the difference in shape between the first end edge 25C and the second end edge 27C, the user may prefer to orient the first end edge 25C in the front of the pant and the second end edge 27C in the back of the pant-which is the appropriate application.

Additionally, the second end 27 may include a width Ws that is generally parallel to the transverse centerline 90. The width Ws represents the widest portion of the second end 27 of the feminine pad 10. The width Ws is discussed in additional detail below.

Side edges 27A and 27B of second end 27 may be angled inward from second end edge 27C. This angling of side edges 27A and 27B may provide a smaller width chassis 20 moving from second end 27 toward intermediate region 29. Much like first side edges 25A and 25B (shown in FIG. 1B), the angled second side edges 27A and 27B can provide longevity to the rotary knife system and can follow the contour of the undergarment to provide more comfort.

Referring now to fig. 1A-1C, as previously described, the feminine pad 10 can include a first end width Wf and a second end width Ws. The width Wf of the first end may be about 80mm to 103mm, more preferably about 86mm to 102mm, or most preferably about 88mm to about 100mm, specifically including any value within these ranges and any range resulting therefrom. In one particular form, Wf may be about 88 mm. The width Ws of the second end may be from about 80mm to about 170mm, more preferably from about 80mm to about 140mm, or most preferably from about 80mm to about 120mm, specifically including any value within these ranges and any range resulting therefrom. The ratio of Wf to Ws can be about 0.47 to about 1.0, more preferably about 0.75 to about 0.95, or most preferably about 0.85 to about 0.90, specifically including any value within these ranges and any range resulting therefrom. It is noted that Ws for longer pads may be wider to provide additional protection for the user. The second end on the longer pad generally corresponds to the additional panty region. For longer pads, such as overnight pads, the ratio of Wf to Ws may be about 0.7.

Forms of arrays are contemplated in which absorbent articles constructed in accordance with the present disclosure are provided. In such a form, the first plurality of articles may have a Wf to Ws ratio of about 1.0, while the second plurality of absorbent articles may have a Wf to Ws ratio of less than 1.0. For example, the second plurality of absorbent articles may have a Wf to Ws ratio of about 0.7. In some forms, the third plurality of articles may have a ratio of Wf to Ws of about 1.0. Additional forms are contemplated in which the fourth plurality of articles has a Wf to Ws ratio of less than 1.0 but greater than 0.7. Generally, a ratio of Wf to Ws of 1.0 or less can help a wearer identify which end of a feminine hygiene article is associated with the front and which is associated with the back of the body. Where the ratio of Wf to Ws is 1.0, the difference in shape can be used to provide an orientation cue. For example, the first end may have a more pointed end than a more rounded end for the second end. Such cues can assist the wearer in properly positioning the feminine hygiene article within their undergarment.

As described above, the width of the first end 25 may decrease toward the intermediate region 29. Similarly, the width of the second end 27 may decrease toward the middle region 29. In some forms, the first end width may be reduced to about 53% of Wf, more preferably 80% of Wf, and most preferably about 95% of Wf, specifically including any value within these ranges and any range resulting therefrom. In certain forms, independently of or including the reduction in width of the first end, the width of the second end may be reduced to 40% of Ws, more preferably 85% of Ws, and most preferably about 98% of Ws, specifically including any value within these ranges and any range resulting therefrom.

Referring back to fig. 1A, the intermediate region may also facilitate an easily discernable indication of the orientation and placement of the feminine pad 10. The intermediate region 29 corresponds to the region of the pad that includes the target fluid entry zone. In addition, intermediate region 29 includes wings 60 and 70, and wings 60 and 70 extend to the outside of chassis 20. The wings of the present disclosure can help provide placement guidance to the user such that the vaginal opening corresponds to the mid-region 29 of the feminine pad and the target fluid entry region.

The targeted fluid entry area of the feminine pad 10 should be in line with the vaginal orifice. Also, a target fluid entry zone of the feminine pad of the present disclosure can be identified by plotting a first imaginary line connecting a first intersection between longitudinal side edge 25A and the leading edge of wing portion 70 and a fourth intersection between the trailing edge of wing portion 60 and longitudinal side edge 27B. A second imaginary line connecting a second intersection between longitudinal side edge 25B and the leading edge of wing portion 60 and a third intersection between the trailing edge of wing portion 70 and longitudinal side edge 27A may also be drawn. The intersection between the first and second imaginary lines may provide a useful approximation for the target fluid entry region.

The wing portions of the present disclosure include various regions that can facilitate orientation and/or placement of the feminine pad in the panty. Bisecting lines will be used hereinafter to describe various regions of the wing portion of a feminine pad in accordance with the present disclosure. In some forms, one or more bisecting lines may be collinear with the transverse centerline 90 of the feminine pad. In some forms, the bisecting line may be offset from the transverse centerline. For example, one or more bisecting lines may be located on a first side of the transverse centerline 90-closer to the first end. As another example, one or more bisecting lines may be located on a second side of the transverse centerline 80-closer to the second end. As yet another example, one bisecting line may be on a first side of the transverse centerline and a second bisecting line may be on a second side of the transverse centerline. As yet another example, the bisecting lines may be collinear with each other. And in some forms, the wings described herein are asymmetric about their respective bisecting lines.

Focusing on the middle region 29 in FIG. 1D, wings 60 and 70 are discussed in additional detail. Each of the wing portions 60 and 70 includes an outer periphery defined in part by their respective leading and trailing edges. Additional edges may be disposed between the leading edge and the trailing edge to connect the leading edge and the trailing edge together.

As shown, the airfoil portion 60 may include a leading edge 261 and a trailing edge 265. The leading edge 261 is disposed closer to the first end 25 than the second end 27 (each shown in fig. 1A). In contrast, the trailing edge 265 is disposed closer to the second end 27 than the leading edge 261. Each of leading edge 261 and trailing edge 265 extend outboard of chassis 20 and outboard of longitudinal side edges 25B and 27B (both shown in fig. 1A).

In some forms, wing 60 can further include a first proximal edge 262, the first proximal edge 262 extending from the first leading edge 261 away from the first end 25 and generally parallel to the longitudinal centerline 80. The first transition edge 263 extends from the first proximal edge 262 slightly outboard of the first proximal edge 262 and closer to the second end 27. The first distal edge 264 extends from the first trailing edge 265 toward the first end 25 and intersects the first transition edge 263.

As shown, the first proximal edge 261 and the first distal edge 264 are both disposed outboard of the side edges 25B and 27B. However, the first distal edge 264 is disposed to a greater extent outboard than the first proximal edge 261. As previously mentioned, the wings of the present disclosure include various regions and areas. These regions will be described below.

Wing 70 may be similarly configured with respect to wing 60. For example, the wing 70 includes a second leading edge 271 and a second trailing edge 275. The leading edge 271 is disposed closer to the first end 25 than the second end 27. In contrast, the trailing edge 275 is disposed closer to the second end 27 than the leading edge 271. Each of leading edge 271 and trailing edge 275 extend outboard of chassis 20 and outboard of longitudinal side edges 25A and 25B (shown in fig. 1A).

In some forms, the wing 70 can also include a second distal edge 272, the second distal edge 272 extending from the second leading edge 271 away from the first end 25 and generally parallel to the longitudinal centerline 80. The second transition edge 273 extends from the second distal edge 272 slightly inboard of the second distal edge 272 and closer to the second end 27. The second proximal edge 274 extends from the second trailing edge 275 toward the first end 25 and intersects the second transition edge 273.

As shown, the second proximal edge 274 and the second distal edge 272 are both disposed outboard of the side edges 25B and 27B. However, the second distal edge 272 is disposed to a greater extent outboard than the second proximal edge 274. As previously mentioned, the wings of the present disclosure include various regions and areas. These regions will be described below.

Referring to fig. 1E, the feminine pad 10 can include a pitch length PL that is generally parallel to the longitudinal centerline 80. As described herein, feminine pads can be provided in various sizes to accommodate different loads and to accommodate use at different times of the day. For example, overnight feminine pads may have a longer pitch length than that of a feminine pad used during the day. In some forms, the feminine pads of the present disclosure can have a pitch length PL of between about 200mm to about 350mm, more preferably between about 220mm to about 320mm, or most preferably between about 230mm to about 310mm, specifically reciting all values within these ranges and any ranges resulting therefrom.

Forms in which an array of articles is provided are also envisaged. In this form, the first plurality of absorbent articles may have a pitch length of between about 210mm to about 250mm, more preferably between about 220mm to about 240mm, or most preferably between about 230mm to about 235mm, specifically including all values within these ranges and any ranges resulting therefrom. In one particular form, the first plurality of absorbent articles may have a pitch length of about 232 mm. The second plurality of absorbent articles may have a pitch length PL of greater than 232 mm. For example, the second plurality of absorbent articles may have a pitch length of between 240mm to about 370mm, more preferably between about 260mm to about 350mm, or most preferably between about 270mm to about 340mm, specifically including all values within these ranges and any ranges resulting therefrom. In one particular form, the second plurality of absorbent articles may have a pitch length of about 334 mm. In some forms, the third plurality of absorbent articles may have a pitch length PL greater than about 232mm and less than about 334 mm. For example, the third plurality of absorbent articles may have a pitch length PL of about 270mm, more preferably about 274 mm. A form is envisaged in which the fourth plurality of absorbent articles has a pitch length PL of about 300mm, preferably about 304 mm.

Referring now to fig. 1F, the feminine pad 10 can include a width Ww that is generally parallel to the transverse centerline 90. The width Ww may be greater than about 130mm, greater than about 140mm, greater than about 150mm, greater than about 160mm, or less than about 180mm, specifically including all values within these ranges and any ranges resulting therefrom. In one particular form, the width Ww of the liner 10 may be about 156 mm. A form is envisaged in which the width of the pads varies with the pitch length PL. Other forms are contemplated in which the width Ww of the gasket 10 is constant even if the pitch length varies. Similar to the wing portion length, this can facilitate application of the pad 10 to the user's undergarment when the width Ww of the pad 10 is the same or very nearly the same for the variable pitch length. For example, the Ww of the pads 10 is the same or very nearly the same, e.g., within 20%, and the user has some knowledge of this width, so that despite their variable pitch length, it may not be necessary to greatly adjust how the pads are applied to the undergarment.

In some forms, the ratio of the width Ww to the first width Wf of the gasket 10 can be greater than about 1.5, greater than about 1.6, greater than about 1.7, greater than about 1.9, or greater than about 2.0, including specifically all values within these ranges and any ranges resulting therefrom. In some particular forms, particularly those in which Wf and Ww are constant despite variations in pitch length, the ratio of Ww to Wf may be about 1.77. For those forms in which Wf and/or Ww vary with pitch length PL, the ratio may increase with increasing pitch length. Much like the above, where the ratio of widths Ww and Wf remains very close to the same, e.g., within 20%, this may facilitate the user applying the feminine hygiene article to an undergarment.

As shown in FIG. 2A, wing portion 60 can have a length 283 that is generally parallel to the longitudinal centerline. The length 283 is defined by the intersection of the leading edge 261 and the side edge 25B and the intersection of the trailing edge 265 and the side edge 27B. A bisecting line 287 bisecting the length 283 is generally parallel to the transverse centerline 90 (shown in fig. 1A) and may serve as a boundary between the first proximal region 281 and the first distal region 285. As shown, the split line 287 can intersect the first distal edge 264, the first transition edge 263, or the first proximal edge 262, depending on the design of the wing 60. Additionally, fold lines 280 may be created for the wings 60. The intersection defining the length 283 similarly defines the end point of the fold line 280.

In some forms, for the wing 60, the first proximal end region 281 is defined by the first leading edge 261, the first proximal edge 262, the first bisecting line 287, the fold line 280, and, depending on the shape of the wing 60, by the first transition edge 263. In some forms, the first bisecting line 287 may intersect the first proximal edge 262. In this form, the first transition edge 263 does not form part of the boundary of the first proximal region 281. In other forms, the first bisecting line 287 may intersect the first distal edge 264. In this form, the first distal edge 264 will form part of the boundary of the first proximal region 281. The first distal region 285 is defined by a first bisecting line 287, a fold line 283, a first rear edge 265, a first distal edge 264, and depending on the shape of the wing, a first transition edge 263. As shown, the first distal region 285 may comprise the laterally outermost extent of the wings 60.

The wings 70 may be configured similar to that discussed with respect to the wings 60. As shown in FIG. 2B, wing 70 can have a length 293 that is generally parallel to the longitudinal centerline. The length 293 is defined by the intersection of the leading edge 271 and the side edge 25A and the intersection of the trailing edge 275 and the side edge 27A. The second bisecting line 297 bisecting the length 293 is generally parallel to the transverse centerline 90 (shown in fig. 1A) and may serve as a boundary between the second proximal region 295 and the second distal region 291. As shown, the second bisecting line 297 may intersect the second transition edge 273, the second distal edge 272, or the second proximal edge 274. Additionally, fold lines 290 may be created for the wings 70. The intersection defining the length 293 similarly defines the end point of the fold line 290.

In some forms, for the wing 70, the second distal region 291 is defined by a second leading edge 271, a second distal edge 272, a second bisecting line 297, a fold line 290, and, depending on the shape of the wing 70, a second transition edge 273. In some forms, the second bisecting line 297 may intersect the second distal edge 272. In this form, the second transition edge 273 does not form part of the boundary of the second distal end region 291. As shown in fig. 2B, the second distal region 291 may include the laterally outermost extent of the wings 70. In some forms, the second bisecting line 297 may intersect the second proximal edge 274. In such forms, the second proximal edge 274 may form at least a portion of the boundary of the second distal region 291. The second proximal region 295 is defined by a second bisecting line 297, a fold line 290, a second trailing edge 275, a second proximal edge 274, and depending on the shape of the wings, a second transition edge 273.

Referring now to fig. 2A and 2B, length 283 of wing 60 and length 293 of wing 70 may be equal or at least within about 10% of each other. However, forms of the invention are contemplated in which the lengths 283 and 293 of the wings 60 and 70, respectively, differ by greater than about 20%, greater than about 30%, or greater than about 50%.

The lengths 283 and 293 of the wings 60 and 70, respectively, may be about 80 to 130mm, more preferably about 90 to about 120mm, or most preferably about 100 to about 110 mm. In one particular form, the wing portion length may be about 110 mm. A form is envisaged in which a series of female pads are provided, with each of the pads within the series having a different pitch length PL but the same wing length. For example, the ratio of wing length to pitch length can be from about 0.6 to about 0.25, more preferably from about 0.5 to about 0.3, specifically including all values within these ranges and any ranges resulting therefrom. In some particular forms, the ratio of the wing length to the pitch length PL may be about 0.47 for a first plurality of absorbent articles and about 0.36 for a second plurality of absorbent articles. The third plurality of absorbent articles may have a wing length to pitch length PL ratio of less than 0.47 and greater than 0.36.

In this form, the user can apply the feminine pad to their undergarment, particularly where the wing portion length is constant regardless of pitch length PL. For example, the uniformity of wing length between products within a line may make the user accustomed to applying the wing to an undergarment even with longer feminine pads. This may facilitate application of the feminine hygiene article to the undergarment, while the variable length wing portions may inhibit such convenience.

Fig. 3 depicts another form of the central region 29 of the feminine pad 10 of the present disclosure. Similar to wing 60 discussed above, wing 360 may include a first leading edge 361 and a first trailing edge 365. The first proximal edge 362 can extend from the first leading edge 361 toward the first trailing edge 365. However, unlike the first proximal edge 262 (shown in fig. 1D and 2A), the first proximal edge 362 may be more curvilinear in nature. The first transition edge 363 may also be more curvilinear than its counterpart 263 (shown in fig. 1D and 2A). A first distal edge 364 extends from the first transition edge 363 and intersects the first trailing edge 365. The area of the wing 360 may be determined similar to the method described above.

The wing portion 370 may include a second leading edge 371 and a second trailing edge 375. The second distal edge 372 may extend from the second leading edge 371 towards the second trailing edge 375. However, unlike the second distal edge 272 (shown in fig. 1D and 2B), the second proximal edge 372 may be more curvilinear in nature. The second transition edge 373 may also be more curvilinear than its counterpart 273 (shown in fig. 1D and 2B). A second proximal edge 374 extends from the second transition edge 373 and intersects the second trailing edge 375. The area of the wing 370 may be determined similar to the method described above.

For example, the length 383 of the wing 360 may be determined by the intersection of the first leading edge 361 and the side edge of the chassis and the intersection of the first trailing edge 365 and the side edge of the chassis. The length 383 is generally parallel to the longitudinal centerline 80 (shown in FIG. 1A). A first bisecting line 387 that bisects the length 383 may extend generally parallel to the transverse centerline 90 (shown in fig. 1A) and may intersect the first transition edge 363. In some forms, the first bisecting line 387 can intersect the first proximal edge 362 or the first distal edge 364, depending on the design of the wing 360.

As shown, the first proximal end region 381 of the wing 360 may be defined by a first front edge 361, a first proximal edge 362, a first bisecting line 387, a first folding line 380, and, depending on the shape of the wing 360, by a first transition edge 363. In some forms, the bisecting line 387 can intersect the first distal edge 364. In this form, the first distal edge 364 can form a portion of the first proximal region 381. In other forms, the bisecting line 387 may intersect the first proximal edge 362, in which form the first transition edge 363 may not form a portion of the first proximal region 381.

The first distal region 385 may be defined by a first trailing edge 365, a first distal edge 364, a first bisecting line 387, a fold line 383, and, depending on the shape of the wing, a first transition edge 363. The first distal region 385 may comprise the laterally outermost extent of the wings 360.

Wing 370 may be configured similarly to wing 360. That is, the wing portion 370 may include a length 393, the length 393 determined by the intersection of the second leading edge 371 and the side edge of the chassis and the intersection of the second trailing edge 375 and the side edge of the chassis. A second bisecting line 397 extends from the fold line 393 that is generally parallel to the transverse centerline 90 (shown in fig. 1A) and intersects the second distal edge 372. In some forms, the second bisecting line 397 may intersect the second proximal edge 374 or the second transition edge 363 depending on the design of the wing 370.

The second distal end region 391 and the second proximal end region 395 may be defined in part by a second bisecting line 397. Second distal end region 391 may include the laterally outermost extent of wing 370. The second distal region 391 may be defined by a second front edge 371, a second distal edge 372, a second bisecting line 397, a fold line 393, and, depending on the shape of the wing 370, a second transition edge 373. In some forms, the second bisecting line 397 may intersect the first distal edge 372. In this form, the second transition edge 373 does not form part of the boundary of the second distal end region 391. In other forms, the second bisecting line 397 may intersect the second proximal edge 374. In such a form, the second proximal edge 374 may form part of the boundary of the second distal end region 391.

A second proximal region 395 can similarly be created by the second bisecting line 397. The second proximal region 395 can be defined by the second trailing edge 375, the second proximal edge 374, the second bisecting line 397, the fold line 393, and, depending on the shape of the wing, the second transition edge 373.

Fig. 4 depicts yet another version of the central region 29 of the feminine pad 10 of the present disclosure. As shown, the wing portion 460 may include a leading edge 461, the leading edge 461 extending from a side edge of the chassis toward the second end of the feminine pad. As shown, the leading edge 461 may extend toward the second end of the feminine pad and also extend to the outside of the chassis. However, in the illustrated form, the wings 460 may not include a first proximal edge similar to the forms discussed previously. Rather, the first leading edge 461 may transition to the first distal edge 464. Also, the first distal edge 464 may transition to the first trailing edge 465, the first trailing edge 465 joining the first distal edge 464 and the infrastructure.

The length 483 of the wing portion 460 may be determined by the intersection of the first leading edge 461 with the side edges of the chassis and the intersection of the first trailing edge 465 with the side edges of the chassis. The length 483 is generally parallel to the longitudinal centerline 80 (shown in fig. 1A). A first bisecting line 487 that bisects length 483 may extend generally parallel to transverse centerline 90 (as shown in fig. 1A) and may intersect either first leading edge 461 or first distal edge 464, depending on the design of wing 460.

As shown, the first proximal region 481 of the wing 460 can be defined by a first leading edge 461, a first split line 487, and a first fold line 480. In some forms, the bisector 487 may intersect the first distal edge 464. In this form, the first distal edge 464 may form a portion of the first proximal region 481. The first distal region 485 can be defined by a first rear edge 465, a first distal edge 464, a first bisecting line 487, and a fold line 480. The first distal region 485 may include the laterally outermost extent of the wing 460.

Wing portion 470 may include a second leading edge 471 and a second trailing edge 475. Second distal edge 472 may extend from second leading edge 471 to second trailing edge 475. The length 493 of wing portion 470 may be determined by the intersection of second leading edge 471 with the side edge of the chassis and the intersection of second trailing edge 475 with the side edge of the chassis. Length 493 is generally parallel to longitudinal centerline 80 (shown in fig. 1A). Second bisecting line 497 that bisects length 493 may extend generally parallel to transverse centerline 90 (as shown in fig. 1A) and may intersect second trailing edge 475 or second distal edge 472 depending on the design of wing portion 470.

The second distal region 491 and the second proximal region 495 can be partially defined by a second bisecting line 497. The second distal region 491 may include the laterally outermost extent of the wing 470. The second distal region 491 may be defined by a second leading edge 471, a second distal edge 472, a second bisecting line 497, and a fold line 490. In some forms, the second bisecting line 497 may intersect the second distal edge 472. The second proximal region 495 may be similarly created by a second bisecting line 497. The second proximal region 495 may be defined by the second trailing edge 475, the second bisecting line 497, the fold line 490, and, depending on the shape of the wing, by the second distal edge 472.

As shown in fig. 1A-4, the wings are asymmetric with respect to each other. This asymmetry can help indicate overall proper placement and proper orientation of the feminine pad within the panty. Also, as previously mentioned, proper placement and proper orientation may make the absorbent core and other portions of the feminine pad more effective than improper placement or orientation.

For each of the wings shown in fig. 2A to 4, each wing is asymmetric about its bisector. Also, this asymmetry can help facilitate application of the pad to the undergarment. Also, such asymmetry can similarly facilitate removal of the pad from the undergarment as described herein. As shown, each of the distal regions has a greater surface area than their respective proximal regions.

Proper attachment of a gasket

In order to facilitate fastening of the wings to the underwear of the wearer, the wearer should be properly informed where to grasp the wings. Improper handling of the wing portions may cause the wing portions to wrinkle during the fastening process. These wrinkles can cause discomfort and can lead to premature removal of the feminine pad from the panty. For example, referring back to fig. 2A and 2B, if a user grasps the wing 60 or 70 in the first proximal region 281 or the second proximal region 295, respectively, a wrinkle may be created in each of the wing 60 and 70. The inventors have found that a better way of reducing the likelihood of wrinkles in the wings during fastening occurs when the wings are gripped by their respective distal regions. Because the distal region extends outwardly to a greater extent than the proximal region, the distal region can more easily manipulate the proximal region. While grasping each of the wings at two different longitudinal positions may appear counterintuitive, such application may enhance the experience provided to the wearer during use. For example, as previously described, such application may reduce the likelihood of wing wrinkling, which may enhance user comfort.

To advocate proper application of the wings to the undergarment, a visual signal may be employed which helps provide an indication of where to grasp the wings. For example, referring to fig. 2A and 2B, in some forms, embossing may be provided in the first distal region 285 of the wing 60 and the first distal region 291 in the wing 70. As another example, the visual signal may include printing in the first distal end region 285 of the wing 60 and the second distal end region 291 of the wing 70. In yet another example, the visual signal may include a combination of printing and embossing in the first distal end region 285 and the second distal end region 291.

To avoid confusion during application of the wings 60 and 70, the density of the visual signals on the wings 60 and 70 should be higher in the first distal region 285 and the second distal region 291 than in the first proximal region 281 and the second proximal region 295, respectively. For example, where the visual signal comprises embossing, the level of embossing in the first distal region 285 should be higher than the level of embossing in the first proximal region 281. In such an example, the amount of surface area of the various zones may be compared to determine which zone has a higher level of embossing. Where the visual signal includes printing, the amount of surface area of the various zones may be compared to determine which zone has a higher level of printing thereon. Where the visual signal comprises a combination of embossing and printing, the amount of surface area of the various zones may be compared to determine which zone has a higher level of embossing or printing.

In some particular forms, the visual signal may be more direct and may not subscribe to the content. For example, in some forms, the visual signal may include an arrow or something similar meaning a direction disposed adjacent to the intersection between the first trailing edge 265 and the first distal edge 264 or the intersection between the second leading edge 271 and the second distal edge 272. In this form, the visual signal may need to be placed within 10mm, preferably within 8mm, more preferably within 6mm, most preferably within 5mm of the first distal edge 264 of the wing 60 and/or the second distal edge 272 of the wing 70, specifically including any value within these ranges and any ranges resulting therefrom.

While alternative wing configurations are contemplated, the above-described visual signal is not achieved, and application of the wing may result in wrinkles and/or other roughness when the feminine pad is applied. And as previously mentioned, such wrinkles may cause premature detachment of the pad from the panty, or may prevent full attachment to the panty. An alternative wing configuration is provided with respect to fig. 3 and 4.

An example of a visual signal provided on a wing portion of a feminine pad of the present disclosure is provided in relation to fig. 5. As previously mentioned, the distal region may include a higher amount of visual signal than its proximal region counterpart. Such a signal may facilitate application of the feminine pad 10 (shown in fig. 1A) by prompting the user to grasp the wing portions 60, 70, 360, 370, 460, and 470 (shown in fig. 1A-4) in the proper position for securing the wearer's panties. Disclosed herein are methods for measuring the amount of visual signaling. Note that bisecting lines 587 and 597 have been provided that approximate the boundaries between the distal and proximal regions of wings 60 and 70, respectively.

As shown, the printed signal 515 may be disposed on the first surface 501 of the wing 60 primarily in the distal region 585 of the wing 60. While the printed signal 515 may also be present in the proximal region 581 of the wings 60, a larger printed area is provided in the distal region 585 of the wings 60.

The wing 70 may be similarly configured. For example, the printed signal 535 may be disposed primarily on the first surface 502 in the distal region 591 of the wing 70. While the printed signal 535 may also be present in the proximal region 595 of the wings 70, a larger printed area is provided in the distal region 595 of the wings 70.

And as previously mentioned, the visual signals described herein are not limited to printed signals. In some forms, embossing may be utilized to provide the indications described herein. In other forms, a combination of printing and embossing may be used. In other forms, a different color material, e.g., a colored material, may be utilized to signal to the user where to grasp.

The wings in the fastened configuration may provide another visual attribute indicating proper attachment to the undergarment. Fig. 6 is an illustration of a pair of wings 660 and 670 in a fastened configuration rolled around a panty 600. As shown, wings 660 and 670 appear to nest when fastened to an undergarment. Specifically, the second distal end region 691 nests with the first proximal end region 681. And similarly, the first distal end region 685 is nested with the second proximal end region 695.

The wing portions 670 and 660 can be designed such that for normal underpants (not including tanga underwear), the wing portions 660 and 670 do not overlap in use. As such, a gap 613 may exist between wings 660 and 670 during use. Gap 613 can be highly variable because the user can apply the wings of the present disclosure in a variety of different configurations and the crotch width can vary widely. For example, some users may attach the pad of the present disclosure to their underwear such that the wings have a 0mm gap between the wings. As another example, some users may fasten the wings to the undergarment such that the wings are widely spaced apart, such as 3mm, 5mm, 7mm, or 10 mm.

Additionally, the gap 613 can provide a visual indication of when the feminine pad is deflected relative to the panty 600. For example, where the second distal end region 691 overlaps or contacts the first distal end region 685, this may indicate that the pad is deflected relative to the pant 600. As another example, where the gap 613 has a non-uniform width from the first offset portion 613A to the second offset portion 613B, this may indicate a deflection with respect to the pad relative to the pant 600. Also, while the user may not be able to visualize the orientation of the wings 660 and 670 on the underside of the pant 600 during application, the gap 613 can provide a tactile cue to the user as to whether the pad is deflected relative to the pant 600.

Additionally, the gap 613 may facilitate removal of the feminine pad. In the case of overlapping wings, the wing adhesive may adhere one wing to the other. This can increase the difficulty of separating the wings from the panty during removal. Typically, in such a case, the user must separate the wings from each other before removing them from the underpants.

As shown, gap 613 may include offset portions 613A and 613B. As shown, portion 613A may be offset from longitudinal centerline 80 (shown in fig. 1A) in a first direction, and portion 613B may be offset from longitudinal centerline 80 (shown in fig. 1A) in a second direction opposite the first direction. In some forms, the first portion 613A may be aligned with the longitudinal centerline 80 (shown in fig. 1A) and the second portion 613B may be offset from the longitudinal centerline 80 (shown in fig. 1A). In other forms, the first portion 613A may be offset relative to the longitudinal centerline 80 (shown in fig. 1A) while the second portion 613B is aligned with the longitudinal centerline 80 (shown in fig. 1A).

Persistent coverage

In addition to providing an aid to the proper orientation of the pad, the shape of the wings can also play a significant role in maintaining coverage and maintaining attachment to the panty. For example, the wings of the present disclosure can be configured such that a sufficient amount of fastening adhesive is provided to the wings such that the wings can maintain adhesion to the undergarment. At the same time, a careful balance should be achieved. For example, too much adhesive can make removal of the liner from the pants a more difficult task. In contrast, too little adhesive or poorly placed adhesive can result in premature release of the pad from the panty.

Referring to fig. 7A, in addition to the visual signals discussed herein, the size of the distal region can be an important aspect of the inventive feminine pad and adhesive placement on the wings. The underside of the feminine pad 10 shows adhesive regions 711 and 712 on the second surface 703 of the wing portion 760 and adhesive regions 721 and 722 on the second surface 704 of the wing portion 770.

Focusing on the wing 760, the adhesive areas 711 and 712 help to secure the wing 760 to the undergarment during use. However, if the adhesive regions 711 and 712 are erroneously applied to the wing part 760, the wing part 760 may become more easily detached during wearing. Thus, adhesive regions 711 and 712 should be carefully placed on wings 760.

As shown in fig. 7B, wing portion 760 includes a length 783, which length 783 may be determined as previously described with respect to the lengths associated with wing portions 60 and 70 (shown in fig. 2A and 2B, respectively). Bisecting line 787-generally parallel to transverse centerline 90 (shown in fig. 1A) bisects length 783. A first guide line 789 is drawn from the intersection between the bisecting line 787 and an edge of the wing portion 760, such as a first leading edge, a first transition edge, or a first distal edge. The first guide wire 789 extends perpendicular to the bisecting line 787 and parallel to the longitudinal centerline 90 (as shown in figure 1A). If the origin of the first guide wire 789 already exists, the first guide wire 789 should extend to or through the distal end region such that a majority of the first guide wire 789 is located in the distal end region of the wings 760. For the wing portion 760, this may mean that the first guide wire 789 will extend in a direction toward the second end of the feminine pad.

The distal region adhesive length 784 is defined by the intersection between the bisecting line 787 and the first guide wire 789 and the intersection between the first guide wire 789 and the trailing edge 765 of the wings 760. The adhesive length 785 is generally parallel to the longitudinal centerline 90 (shown in fig. 1A). The adhesive length 785 is determined by the outermost extent of the adhesive region 711 provided on the wing portion 760.

The ratio of distal region adhesive length 784 to adhesive length 785 may be important to ensure that the wings do not fall out prematurely and that the wings are easy to attach and remove. For example, if the ratio is too high, most of the distal region of the wings 760 remain free of adhesive and may fall off prematurely during use. In contrast, if the ratio is too small, the user may not have enough area to grasp the wings 760 during removal. In addition, if the ratio is too small, the adhesive regions 711 and 712 may extend beyond the edges of the wings, thereby hindering application and removal of the pad from the panty.

In the case of small ratios, it may be desirable to adjust the pad conversion process to ensure that the likelihood of the bonding region 711 or 721 extending beyond the edge of the wing is minimized. For example, the web often tracks (moves in the transverse and longitudinal directions) during processing. Web tracking may affect the location of the bonded regions on the wing portions. As another example, the adhesive can be applied to the wings via a carrier sheet. There is variability in the application of adhesive to the carrier sheet, which can in turn affect the location of the adhesive regions on the wing portions. Also, the flap portions are typically folded over the topsheet of the feminine pad prior to packaging the feminine pad. There is variability in the folding operation which can affect the placement of the adhesive on the wings.

Based on the foregoing, a balance should be achieved with respect to the ratio of distal region adhesive length 784 to adhesive length 785 to ensure adequate adhesive coverage is achieved while facilitating removal when desired. In some forms, the ratio of the distal region adhesive length 784 to the adhesive length 785 may be between about 1.15 to about 4.6, more preferably between about 1.27 to about 2.25, or most preferably between about 1.38 to about 2.0, specifically including any value within these ranges and any range resulting therefrom.

As shown in fig. 7C, wing 770 includes a length 793, which length 793 may be determined as previously described with respect to the lengths associated with wings 60 and 70 (shown in fig. 2A and 2B, respectively). Bisecting line 797-generally parallel to transverse centerline 90 (shown in FIG. 1A) bisects length 793. A second guide line 799 is drawn from the intersection between the bisecting line 797 and an edge of the wing 770, such as a second leading edge, a second transition edge, or a second distal edge. A second guide line 799 extends perpendicular to the bisecting line 797 and parallel to the longitudinal centerline 90 (as shown in figure 1A). If the origin of the second guide wire 799 is already present, the second guide wire 799 should extend to or through the distal end region so that a majority of the first guide wire 799 is located in the distal end region of the wings 770. For wing 770, this may mean that second guide wire 799 will extend in a direction toward the first end of the feminine pad.

The distal region adhesive length 794 is defined by the intersection between the bisecting line 797 and the second guide line 799 and the intersection between the second guide line 799 and the leading edge 771 of the wing portion 760. The adhesive length 795 is generally parallel to the longitudinal centerline 90 (shown in fig. 1A). The adhesive length 795 is determined by the outermost extent of the adhesive region 721 disposed on the wing 770. The ratio of distal region adhesive length 794 to adhesive length 795 may be within the ranges previously described with respect to wing portion 760.

Referring now to fig. 7A-7C, as shown, in some forms the adhesive regions 711 can be asymmetrically disposed relative to the bisecting line 787. In some forms, the adhesive region 712 may also be asymmetrically disposed with respect to the bisecting line 787 in conjunction with the adhesive region 711. Similarly, in some forms, the bonding region 721 may be asymmetrically disposed with respect to the bisecting line 797. Similarly, in some forms, the bonding region 722 may be asymmetrically disposed with respect to the bisecting line 797 in combination with the bonding region 721.

Referring to fig. 7B-8, the spacing of bonding region 711 from trailing edge 765 (or the leading edge of wing 770) may be important in addition to the ratios discussed above. For example, as previously described, where the adhesive region 711 extends to the edge of the wing portion 760 or 770, the wing portion may be difficult to remove from the undergarment. Rather, the inventors have found that a small handle (area without adhesive) may facilitate removal. The leading/trailing edge separation 885, generally parallel to the longitudinal centerline 80 (shown in fig. 1A), can be about 2mm to about 9mm, more preferably about 3mm to about 7mm, or most preferably about 4mm to about 6mm, specifically including any value within these ranges and any range resulting therefrom.

Similar spacing considerations may be considered with respect to the distal edge spacing 886. The distal edge spacing 886 is generally parallel to the transverse centerline 80 (shown in fig. 1A). Similar to the leading/trailing edge spacing 885, the distal edge spacing 886 can be about 2mm to about 9mm, more preferably about 3mm to about 7mm, or most preferably about 4mm to about 6mm, specifically including any value within these ranges and any range resulting therefrom.

Referring now to fig. 5 and 7A, as previously described, the first 515 and second 535 printed signals can provide the user with appropriate instructions as to where to grasp the wings for proper attachment to the undergarment. Additionally, the first printed signal 515 and the second printed signal 535 may provide the user with an appropriate indication of where the adhesive area is on the second surface of the wing. For example, the first printed signal 515 may correspond to the first adhesion region 711 on the second surface 703 of the first wing 760 such that at least a portion of the first adhesion region 711 is disposed within a projection of the first printed signal 515 region through the first wing 760. In some forms, at least 50% of the first adhesive region 711 is disposed within the projected area of the first printed signal 515, more preferably, at least 75% of the first adhesive region 711, or most preferably, at least 100% of the first adhesive region 711, specifically including all values within these ranges and any ranges resulting therefrom.

Referring back to fig. 7A, another factor that is introduced is the spacing of the bonded regions 712 and 722 from the fold lines 780 and 790 of the wing portions 760 and 770, respectively. The bonded regions 712 should be spaced sufficiently from the fold line 780 to ensure that the bonded regions 712 do not overlap or overlie the pant leg elastics in the fastened position. Similarly, the adhesive regions 722 should be spaced sufficiently from the fold lines 790 to ensure that the adhesive regions 722 do not overlap or overlie the pant leg elastics in the fastened position. To accommodate this, bonded regions 712 and 722 may be spaced apart from each other by a distance 781. In some forms, bonded regions 712 and 722 may have a spacing therebetween of width 781 of 70mm to 120mm, more preferably 80mm to 110mm, or most preferably 97.5mm to about 102mm, specifically including any value within these ranges and any range resulting therefrom.

Without such spacing of the adhesive regions 712 and 722, the leg elastics of the pant can be rendered essentially useless when the adhesive effectively locks the elastics in place. This may cause discomfort. In addition, because the leg elastics are designed to bend and move with the wearer, the leg elastics can cause the bonded regions 712 and 722 to prematurely fall off the pant during use. Such detachment may further result in premature detachment of the adhesive regions 711 and 721.

Another introduced variable with respect to continued attachment to the panty is with respect to the coverage area of the grip area relative to the wings. Generally, the ratio of coverage areas should be approximately equal. If the area ratio becomes unbalanced, premature removal of the pad from the panty may occur.

Referring to fig. 9A, a first guide line 789 associated with the adhesive region 711 helps to define the grip region 985 relative to the cover regions 981A and 981B. The first guide wire 789 can create boundaries for the grip region 985, the first coverage region 981A, and the second coverage region 981B on the wings 760. As shown, the first coverage area 981A is defined by a first trailing edge 765, a first guide line 789, a bisecting line 787, and a fold line 780. The second coverage area 981B is defined by a first leading edge 761, a first proximal edge 762, a bisecting line 787, and a folding line 780. In some forms, the first coverage area 981A and the second coverage area 981B have about the same dimensions.

Referring to fig. 9B, a second guide wire 799 helps to define the gripping region 995 and the coverage regions 991A and 991B of the wings 770. The second guide wire 799 may create boundaries for the grip region 995, the first coverage region 991A, and the second coverage region 991B on the wing 770. As shown, the first coverage area 991A is bounded by the second leading edge 771, the second guide line 799, the bisecting line 797, and the fold line 790. Similarly, the second coverage area 991B is bounded by the second rear edge 775, the second proximal edge 774, the bisecting line 797, and the folding line 790. In some forms, the first coverage area 991A and the second coverage area 991B have about the same dimensions.

Notably, the first and second guide lines 789, 799 may, in some forms, form part of the boundaries of the second coverage areas 981B and 991B. Depending on the placement of the bonding regions 711 and 721, the first and/or second guide lines 789 and 799 may be disposed within a larger range than shown in figures 9A and 9B, respectively. In this form, the grip areas 985 and 995 will form the outermost portions of the wings 760 and 770.

As previously mentioned, the surface area of the first and second coverage areas should be similar. In some forms, the ratio between the first coverage area and the second coverage area may be about 1 to 1.48, about 1 to 0.52, or most preferably about 1 to 1, specifically reciting all values within these ranges and any ranges resulting therefrom. In the case where the surface areas of the first and second coverage areas are too different, premature detachment may occur. In FIG. 9C, the moment 999 applied to the feminine pad is shown. If the ratio of the surface areas of the first coverage area 981A and the second coverage area 981B of the wing 760 is not within the previously described range, the moment 999 may cause premature dropping of the wing 760, particularly in the second coverage area 981B. This problem may be exacerbated when the ratio of the surface areas of the first and second coverage areas 991A, 991B of the wing 770 is also outside of the aforementioned range.

Female pad structure

Referring to fig. 10, a feminine pad 110 is shown. As previously described, the feminine pad 10 includes a chassis 20 and wing portions extending on the outside of the chassis 20. The chassis 20 comprises a liquid pervious topsheet 1014, a liquid impervious or substantially liquid impervious backsheet 1016, and an absorbent core 1018 positioned intermediate the topsheet 1014 and the backsheet 1016. Wings 60 and 70 can be joined to topsheet 1014, backsheet 1016, and/or absorbent core 1018. The sanitary napkin 1810 can also be provided with additional features as are commonly found in sanitary napkins as is well known in the art. In some forms of the invention, the flaps may be provided with zones of extensibility as described in U.S. patent 5,972,806.

Any suitable absorbent core known in the art may be used. The absorbent core 1018 may be any absorbent member that is generally compressible, conformable, non-irritating to the wearer's skin, and capable of absorbing and retaining liquids such as urine, menses, and/or other body exudates. The absorbent core 1018 may be manufactured from a wide variety of liquid-absorbent materials commonly used in disposable absorbent articles, such as comminuted wood pulp, which is generally referred to as airfelt. The absorbent core 1018 may comprise superabsorbent polymer (SAP) and less than 15%, less than 10%, less than 5%, less than 3%, or less than 1% airfelt, or no airfelt at all. Examples of other suitable absorbent materials include creped cellulose wadding; a meltblown polymer comprising a coform; chemically stiffened, modified or cross-linked cellulosic fibers; tissue, including tissue packaging materials and tissue laminates; absorbing the foam; an absorbent sponge; a superabsorbent polymer; an absorbent gelling material; or any equivalent material or combination of materials.

The configuration and construction of the absorbent core 1018 may vary (e.g., the absorbent core may have varying caliper zones, a hydrophilic gradient, a superabsorbent gradient, or lower average density and lower average basis weight acquisition zones; or may comprise one or more layers or structures). In some forms, the absorbent core 1018 may include one or more channels, such as two, three, four, five, or six channels.

The absorbent core 1018 of the present disclosure may comprise, for example, one or more adhesives to help secure the SAP or other absorbent material within the core wrap and/or ensure the integrity of the core wrap, particularly when the core wrap is made of two or more substrates. The core wrap may extend to a larger area than is necessary for the absorbent material contained therein.

Absorbent cores containing relatively high levels of SAP with various core designs are disclosed in U.S. patent No. 5,599,335 to Goldman et al, EP 1,447,066 to Busam et al, WO 95/11652 to Tanzer et al, U.S. patent publication No. 2008/0312622a1 to huntorf et al, and WO 2012/052172 to Van Malderen.

Other forms and more details regarding channels and pockets of no or substantially no absorbent material, such as SAP, in the absorbent core are discussed in more detail in U.S. patent application publications 2014/0163500, 2014/0163506, and 2014/0163511, all of which were published on 6/12 of 2014.

Other suitable materials for the absorbent core include open cell foams or sheets thereof. The use of foams in absorbent cores is further described in detail in U.S. patent 6,410,820; 6,107,356, respectively; 6,204,298, respectively; 6,207,724; 6,444,716, respectively; 8,211,078 and 8,702,668.

In some forms, the absorbent core structure may include a layer of heterogeneous mass, or methods or parameters may be utilized, such as those described in the following patents: us patent application 14/715,984 filed 5/19/2015; us patent application 14/750,399 filed on 25/6/2015; us patent application 14/751,969 filed on 26.6.2015; united states patent application 15/078,132 filed on 2016, 3, 23; us patent application 14/750,596 filed on 25/6/2015; united states patent application 15/084,902 filed 3, 30/2016; united states patent application 15/343,989 filed on day 4, 11/2016; united states patent application 15/344,273 filed on day 4, 11/2016; united states patent application 15/344,294 filed on day 4, 11/2016; us patent application 14/704,110 filed 5.5.2015; united states patent application 15/194,894 filed on 28/6/2016; united states patent application 15/344,050 filed on day 4, 11/2016; united states patent application 15/344,117 filed on day 4, 11/2016; united states patent application 15/344,177 filed on day 4, 11/2016; united states patent application 15/344,198 filed on day 4, 11/2016; united states patent application 15/344,221 filed on day 4, 11/2016; united states patent application 15/344,239 filed on day 4, 11/2016; united states patent application 15/344,255 filed on day 4, 11/2016; united states patent application 15/464,733 filed on day 4, 11/2016; united states provisional patent application 62/437,208 filed on 21/12/2016; united states provisional patent application 62/437,225 filed on 21/12/2016; united states provisional patent application 62/437,241 filed on 21/12/2016; or U.S. provisional patent application 62/437,259 filed on 21/12/2016. The heterogeneous mass layer has a depth, a width, and a height.

In certain forms, combinations of absorbent core materials may be used. For example, forms are envisaged in which a first layer of the absorbent core comprises a foam material or sheet thereof as previously described and a second layer of the absorbent core comprises an airlaid material. Such combinations are described in U.S. patent publication 2014/0336606 and U.S. patent 9,649,228.

Additional absorbent core structures are contemplated, as shown in fig. 14-15B. Fig. 14 is a plan view showing an absorbent article 10, not including a topsheet, such that an absorbent core 1418 constructed in accordance with the present disclosure can be more easily seen. As shown, the absorbent core 1418 may include a first end 1420, a second end 1422 opposite the first end 1420, and a middle portion 1430 disposed between the first end 1420 and the second end 1422. The second end 1422 can be associated with a portion of the absorbent article that is positioned adjacent the gluteal groove during use. To facilitate flexibility in this area, a notch 1430 may be provided in the second end 1422 between the first and second legs 1422A, 1422B. Due to the notch 1430, the first leg 1422A and the second leg 1422B can move independently of each other. This may allow for increased flexibility in the second end 1422.

Additional forms are contemplated wherein the middle portion 1430 includes a width that is less than the width of the first end 1420. In this form, the middle portion 1430 may similarly include a width that is less than the width of the second end 1422. Additional forms are contemplated wherein the width of the first end 1420 and/or the width of the intermediate portion 1430 is less than the width of the second end 1422. Conversely, forms are contemplated in which the width of the second end 1422 and/or the intermediate portion 1430 is less than the width of the first end 1420. The variability of the width of the absorbent core 1418 can be constructed with suitable flexibility within the absorbent article. For example, for wearers with higher body mass indices such as BMI >35, flexibility may be desirable in the middle portion 1430 of the absorbent core 1418 due to reduced spacing between the wearer's thighs. For such wearers, the absorbent core 1420 may be configured such that the width of the middle portion 1430 is less than the width of the first end 1420 and/or the second end 1430. The identification of the first end 1420, second end 1422, and middle portion 1430 is described below. Absorbent cores including recesses 1430 are described in more detail in U.S. patent 8,877,999.

Referring now to fig. 15A and 15B, an exploded cross-sectional view of an absorbent article 1500 constructed according to the present disclosure is shown. The cross-section shown in fig. 15A is taken through opening 1540 (shown in fig. 15B). Absorbent article 1500 may comprise backsheet 1016 and topsheet 1014, as described herein. Disposed between topsheet 1014 and backsheet 1016 may be an absorbent core 1418, a secondary topsheet 1416 and a supplemental absorbent member 1415. The secondary topsheet 1416 is discussed in additional detail below. The supplemental absorbent member 1415 is shown in additional detail in fig. 15B.

As shown, the supplemental absorbent member 1415 can include one or more openings 1540 and can be located between the secondary topsheet 1416 and the absorbent core 1418. A form is contemplated in which supplemental absorbent member 1415 can be positioned between topsheet 1014 and secondary topsheet 1416. Regardless of its location, the supplemental absorbent member 1415 can be made of a material that is capable of rapidly directing, transferring, and absorbing body fluids in the z-direction that are delivered to the topsheet 1014 adjacent the supplemental absorbent member 1415.

The supplemental absorbent member 1415 can generally have any desired shape and/or size. Some examples include shapes that resemble a racetrack or a rectangle with semi-circular ends and have a length and/or width that is less than the overall length and/or width of bottom sheet 1016. However, it should be understood that the first sub-topsheet layer 116 may have a simple rectangular, square, circular or triangular shape, or a more complex shape with a plurality of protrusions.

The supplemental absorbent member 1415 can generally have length, width, and thickness dimensions such that it can form an aperture or cup-like structure that can be used to leak and hold fluid in a desired location of the absorbent article away from the body-facing surface of the absorbent article. Further, the dimensions of the supplemental absorbent member 1415 can be selected such that it is wide enough to capture fluid yet still maintain comfort against the wearer's body. Generally, the length of the supplemental absorbent member 1415 in the longitudinal direction can be from about 20mm to about 200mm, from about 40mm to about 175mm, or from about 60mm to about 150mm, specifically including all values within these ranges and any ranges resulting therefrom. Meanwhile, the width of the supplemental absorbent member 1415 in the transverse direction may be from about 10mm to about 100mm, from about 15mm to about 80mm, or from about 20mm to about 60mm, specifically including all values within these ranges and any ranges resulting therefrom. Additionally, the supplemental absorbent member 1415 may have a thickness in the range of about 100 micrometers (μm) to about 8mm, about 500 μm to about 5mm, or about 300 μm to about 3mm, specifically including all values within these ranges and any ranges resulting therefrom.

The supplemental absorbent member 1415 may comprise a variety of materials that may provide different levels of absorbency. For example, the supplemental absorbent member 1415 can be an additional topsheet layer, surge layer, fluid intake layer, or absorbent core layer. Any material known in the art may be used to supplement the absorbent member 1415, such as the topsheet layer materials described herein, as well as the absorbent core and secondary topsheet materials described herein. Further, the supplemental absorbent member 1415 may be a synthetic material, a cellulosic material, or a combination of synthetic and cellulosic materials. In one particular example, a multifunctional airlaid material such as airlaid cellulose tissue may be suitable for use in supplemental absorbent member 1415. The airlaid cellulosic tissue can have a basis weight in the range of from about 10gsm to about 300gsm, or from about 40gsm to about 150gsm, specifically including all values in these ranges and any ranges resulting therefrom. The air-laid tissue may be formed from hardwood fibers and/or softwood fibers. Airlaid tissue has a fine pore structure and can provide excellent wicking capability, especially for menses.

Opening 1540 may have any suitable shape. Some examples include oval, circular, rectangular, square, triangular, and the like. The supplemental absorbent member 1415 can be used to leak liquid insults from the topsheet of the absorbent article to the absorbent core. The openings 1540 may also form cup-like or well-like structures for holding fluid and preventing it from leaking from the central region of the absorbent article to the edges.

In general, opening 1540 may have a length in the longitudinal direction of about 15mm to about 150mm, about 20mm to 100mm, or about 30mm to about 75mm, specifically reciting all values within these ranges and any ranges resulting therefrom. Opening 1540 may have a width in the transverse direction of about 10mm to about 80mm, about 15mm to about 60mm, or about 20mm to about 40mm, specifically reciting all values within these ranges and any ranges resulting therefrom. The size of the opening 1540 may allow the supplemental absorbent member 1415 to bend sufficiently to conform to the wearer's body, which may prevent leakage of bodily fluids due to pathways that may be created in the absorbent article upon introduction of a compressive force. It is also desirable that opening 1540 be large enough to enable a consumer to easily view and place it directly under the vaginal opening so that it is located under the portion of the body-facing surface of the absorbent article that is in primary contact with bodily fluids.

In this regard, for example, where the supplemental absorbent member 1415 includes a visual contrast, e.g., a Δ E greater than 2.0 on the CIELab color space when compared to the surrounding material of the absorbent article, proper placement of the absorbent article may be further facilitated. The CIElab color space is well known in the art for determining a measure of visual contrast between two surfaces. Visual contrast may be provided in various ways. For example, the supplemental absorbent member 1415 can be dyed, printed, or otherwise colored such that it is clearly in sharp contrast with other layers of the absorbent article, or at least with portions of the absorbent article that are directly adjacent to the supplemental absorbent member 1415. Supplemental absorbent member, topsheet, and other absorbent article layer arrangements are discussed in additional detail in U.S. patent application publication 2015/0313766 and U.S. patent 9237975.

The feminine pad 1010 may comprise an additional layer between the topsheet 1014 and the absorbent core 1018. For example, the feminine pad 1010 can include a secondary topsheet and/or acquisition layer located between the topsheet 1014 and the absorbent core 1018. One suitable example of a secondary topsheet is a spunlace nonwoven. Suitable hydroentangled nonwoven fabrics are discussed in additional detail in U.S. patent publication 2015/0351976. In some forms, the secondary topsheet may include a superabsorbent similar to that in the absorbent core or different from the absorbent core.

The backsheet may comprise a liquid impervious film. The backsheet may be impervious to liquids (e.g., bodily fluids) and may typically be manufactured from a thin plastic film. However, the backsheet may generally allow vapors to escape from the disposable article. In one embodiment, a microporous polyethylene film may be used for the backsheet. Suitable microporous polyethylene films are manufactured by Mitsui Toatsu Chemicals, Inc (Nagoya, Japan) and are sold under the PG-P trade name.

A film suitable for negative filmMay be a liquid impermeable thermoplastic film having a thickness of about 0.012mm (0.50 mil) to about 0.051mm (2.0 mils), including, for example, polyethylene or polypropylene. Typically, the backsheet may have about 5g/m²To about 35g/m²Basis weight of (c). However, it should be noted that other liquid impermeable flexible materials may be used as the backsheet. As used herein, "flexible" refers to materials that are compliant and readily conform to the general shape and contours of the wearer's body.

The backsheet may generally be positioned adjacent the outward-facing surface of the absorbent core and may be joined to the outward-facing surface by any suitable attachment means known in the art. For example, the backsheet may be secured to the absorbent core by a uniform continuous layer of adhesive, a patterned layer of adhesive, or an array of separate lines, spirals, or spots of adhesive. Exemplary, but non-limiting, adhesives include those manufactured by h.b.fuller corporation (st.paul, minn., u.s.a.) and sold as HL-1358J. An example of a suitable attachment means comprising an open pattern network of adhesive filaments is disclosed in U.S. Pat. No. 4,573,986 entitled "dispersible Waste-containing gas" issued on 4.3.1986 to Minetola et al. Another suitable attachment means comprises a plurality of adhesive filaments twisted into a helical pattern, as illustrated by the apparatus and methods shown in the following patents: us patent 3,911,173 issued to Sprague, jr, on 7/10/1975; us patent 4,785,996 to Ziecker et al, 11/22/1978; and U.S. patent 4,842,666 to Werenicz, 6.27.1989. Alternatively, the attachment means may comprise a thermal bond, a thermal fusion bond, a pressure bond, an ultrasonic bond, a dynamic mechanical bond, or any other suitable attachment means or combination of these attachment means. Additionally, the backsheet may also be secured to the topsheet by any of the attachment means/methods described above.

The topsheet 1014 is positioned adjacent the body-facing surface of the feminine pad 1010. Topsheet 1014 can be joined to backsheet 1016 by attachment methods such as are known in the art (not shown). The topsheet 1014 and the backsheet 1016 may be joined directly to each other in the feminine pad periphery and may be joined indirectly together by joining them directly to the absorbent core 1018 by any suitable attachment method.

The topsheet 1014 can be compliant, soft feeling, and non-irritating to the wearer's skin. Further, the topsheet 1014 can be liquid permeable, thereby permitting liquids (e.g., urine, menses) to readily penetrate through its thickness. Some suitable examples of topsheet materials include films, nonwovens, and laminate structures having a film/nonwoven layer, a film/film layer, and a nonwoven/nonwoven layer. Other exemplary topsheet materials and designs are disclosed in U.S. patent application publications 2016/0129661, 2016/0167334, and 2016/0278986.

As previously mentioned, the feminine pad 1010 can include a secondary topsheet 1022 or acquisition layer disposed between the topsheet 1014 and the absorbent core 1018, as shown in fig. 11. The secondary topsheet 1022 may include a first end 1025 and an opposing second end 1027 and a pair of longitudinally opposing side edges 1031 and 1032 connecting the first end 1025 and the second end 1027. As shown, the secondary topsheet 1022 may be asymmetric about the lateral centerline 90.

The secondary topsheet 1022 may additionally comprise a variable width. For example, near the first end 1025, the second topsheet can have a first width. The width may decrease toward the flexible shaft 1190. The flexible shaft 1190 may comprise the minimum width of the secondary topsheet 1022 and may be disposed on a first side of the transverse centerline 90.

The flexible shaft 1190 may provide reduced stiffness to the feminine pad in a region of the pad adjacent the flexible shaft 1190. Because the absorbent core and secondary topsheet are typically the thickest materials in a feminine pad, they can also be the hardest. Thus, the creation of the flexible shaft 1190 may provide the feminine pad with the ability to conform to the wearer's body in the area of the flexible shaft 1190. And the fit of the feminine pad of the present disclosure to the user's body can provide a more comfortable use experience for the user.

The wing portion of the feminine hygiene pad of the present disclosure can be integrally formed as part of the topsheet. In some forms, the flap portion may be integrally formed as part of the backsheet. In some forms, the wing portions may be integrally formed as part of the topsheet and backsheet. In some forms, the wing portions may be integrally formed with an additional layer of the feminine hygiene pad (described herein). In other forms, however, the wings may be discretely formed and joined to the chassis.