The present invention relates to devices for clearly and distinctly marking, identifying and/or distinguishing between textile articles, particularly, but not only, between similar or identical looking articles.
People frequently encounter textile articles such as, for example and without limitation, bath linens (such as, without limitation, bath towels and wash cloths), bed linens (such as, without limitation, bed sheets, pillow cases, and sometimes certain blankets), or table linens (such as, without limitation, napkins and tablecloths), which are often indistinguishable from one other on the one hand, and which, depending on the type of article, are preferably not to be interchanged between users (e.g., for sanitary or other hygienic reasons) on the other.
In an illustrative practical example, a family staying at a hotel or motel or the like is customarily supplied with multiple towels and washcloths, usually identical in general visual appearance. Even if new towels are supplied daily, during the course of a single day family members will have need of towels several times (for bathing, handwashing, pool visits, beach visits, etc.). Whether as a function of personal preference and/or for a variety of health/sanitary reasons, each family member will likely want to only use the same towel(s) and will want to avoid inadvertently using someone else's towel(s).
However, it is practically difficult to keep track of which towel “belongs” to which family member, in no small part because the towels of a given size are usually identical in appearance. This problem is made even more difficult because new towels are frequently no longer provided every day (e.g., ostensibly to reduce environmental costs by reducing the amount of laundry required). This means towels have to be kept sorted among family members even longer.
Even when towels are not similar in appearance to each other, the selection of available towels may still be unfamiliar (such as when visiting someone else's home), or the towels being used are used relatively infrequently (for example, beach towels). Thus, it can still be difficult to distinguish between towels.
Also, even when confusion between similar looking towels or the like is not a principal issue, it can also be a challenge to track how long a towel or the like has been used, for example, before it is preferably or otherwise desirably laundered or otherwise disinfected. For example, in a different illustrative situation, bath linens may be regularly distributed to residents in, for example, an assisted living facility or the like. It can therefore be practically challenging to track which resident has received which linens and how long ago (for example, to track a regular retrieval and laundry cycle). This logistical problem can be further exacerbated when the linens are very similar or identical.
The present invention relates to an easy-to-use physical device for marking, distinguishing, and/or identifying textile articles without permanently damaging the underlying article (or otherwise causing undue wear thereto), or hindering ordinary use of the article.
The marking device of the present invention generally slides onto or clips over an edge of a given textile article and, preferably, occupies or otherwise covers a relatively small portion of an overall area of the article in order to minimally interfere (if at all) with the overall utility of the article (such as a bath towel). The device may additionally have a structural configuration that decreases the possibility of the device becoming accidentally disengaged from an underlying textile article.
Most generally, the marking device comprises opposing and spaced apart first and second wall portions, each having correspondingly aligned first and second ends (which, in practice, can for example be referred to as proximal and distal edges), and a base portion extending between the respective proximal edges of the first and second wall portions so as to join the first and second wall portions together in the opposed and spaced apart configuration. In particular, the respective distal edges of the first and second wall portions are spaced apart from one other in order to allow an edge portion of a textile article to be passed/received therebetween.
In a preferred embodiment, the device includes a first retaining rib provided on an intermediate part of the inward face of each of the first and second wall portions, wherein the respective first retaining ribs protrude, respectively, from the inward face of the first wall portion towards the second wall portion, and from the inward face of the second wall portion towards the first wall portion. Each of the first retaining ribs extend laterally along a direction generally parallel to the base portion of the device (i.e. transverse to a proximal-to-distal direction of the device).
The device preferably further includes pluralities of second retaining ribs on the respective inward faces of the first and second wall portions, distal to the respective first retaining ribs on the inward faces of the first and second wall portions. The second retaining ribs also extend laterally along a direction generally parallel to the base portion of the device.
In an example of the present invention, respective proximal portions of the inward faces of the first and second wall portions are not provided with retaining ribs, such that a catch channel, proximal to the first and second retaining ribs, is at least partly defined by the rib-free inward faces of the first and second wall portions and the base portion, as will be explained in further detail below. The catch channel is particularly suited to receive and/or retain a thickened hem edge of certain textile articles when present (particularly, towels and the like), as is known in the textile arts.
The present invention will be even more clearly understood when the written description of the invention herein is taken in conjunction with the drawings appended hereto, wherein:
It is noted that the respective drawings may or may not be of comparable scale to each other. The same reference numerals used across different figures represent the same features as described in the written description, but not all reference numerals are necessarily rigorously repeated in all of the figures (e.g., in order to retain visual clarity in the drawings and/or to reduce repetition).
It is to be understood that details of the various aspects of the present invention disclosed herein, including, without limitation, descriptions of structure, materials and methods of manufacture, and modes of use, are specifically meant to be applicable to the broad concepts of the present invention in various combinations to the fullest extent possible, even in the absence of express linking language herein.
In general,
The first wall portion 102 has an inward face 102c and an outward face 102d. Likewise, the second wall portion 104 has an inward face 104c and an outward face 104d. Inward faces 102c and 104c are generally spaced apart and in opposition to one another.
With respect to each other, the first and second wall portions 102, 104 are preferably oriented in a range between substantially parallel to one other and generally convergent in a proximal-to-distal direction of the device 100, inclusive. The first and second wall portions 102, 104 are more preferably generally convergent in a proximal-to-distal direction of the device 100, without making the distal edges 102b, 104b intersect or otherwise contact one another (i.e., while maintaining a predetermined spacing between distal edges 102b, 104b). In a particular example of the present invention, the first and second wall portions 102, 104 each converge towards one another at an angle of, for example, about three degrees from horizontal. The first and second wall portions 102, 104 are resiliently deflectable away from each other when, for example, an edge of a textile article of a given thickness is passed therebetween (see, for example,
The inward convergence of first and second wall portions 102, 104 towards each other generally helps ensure that a textile edge received therebetween generates some degree of a resilient spring force by resiliently deflecting (i.e., forcing) the first and second wall portions 102, 104 away from each other. The magnitude of the deflection generally can be dependent on the loft or thickness of the textile to which the device 100 is attached—a thicker material (such as thick or plush bath towel) may need a relatively low degree of inward angling, while a thinner textile article (such as a bed linen) can benefit from a higher angle of convergence in order to assure a sufficient deflection of the first and second wall portions 102, 104 (despite the relative thinness of the textile article), to generate a “bite” or a grip on the thin article generated by the resultant spring force of the device.
As is well known in mechanical dynamics, the spring force is generated by such deflection of the first and second wall portions 102, 104, in proportion to a degree of deflection of each wall portion. Such spring force tends to return the first and second wall portions 102, 104 towards a rest state (i.e., a state without deflection). Accordingly, a convergent configuration of the first and second wall portions 102, 104, as described, can in particular usefully increase the resultant returning spring force by necessarily increasing the magnitude of the deflection of the first and second wall portions. This returning spring force helps the first and second wall portions “grip” an edge of a textile article therebetween to thereby help retain the attachment of the device 100 onto the article in question.
As shown in
More specifically, an intermediate part of inward faces 102c, 104c are each provided with respective first retaining ribs 102e, 104e, respectively, in region A. Each first retaining rib 102e, 104e extends widthwise transversely along a direction generally perpendicular to a direction between the proximal edges 102a, 104a and distal edges 102b, 104b. See, for example,
In addition, the height of first retaining ribs 102e, 104e (i.e., the distance that each extends away from inward faces 102c, 104c, which in turn controls a distance between respective peak edges 102f, 104f) can be varied in manufacture in accordance with a thickness of the textile article (particularly in accordance with a thickness of an end hem 202 (see, for example,
In a preferred embodiment, the respective apex edges 102f, 104f of the first retaining ribs 102e, 104e are substantially aligned in opposition to each other, taken along a direction from the proximal edges 102a, 104a towards the distal edges 102b, 104b. See, for example, the alignment of edges 102f, 104f substantially in opposition in
The marking device 100 is further provided with a plurality of second retaining ribs 102g, 104g on the inward faces 102c, 104c respectively, distal to the first retaining ribs 102e, 104e (i.e., in the region B seen in
In a particular example of the present invention, the second retaining ribs 102g, 104g each have a generally triangular cross-section (i.e., transverse to its direction of extension). Second retaining ribs 102g have respective apex edges 102h, while the second retaining ribs 104g have respective apex edges 104h. See, for example,
Differently from the first retaining ribs 102e, 104e, the respective apex edges 102h, 104h of the second retaining ribs 102g, 104g are preferably offset from each other along a direction from the proximal edges 102a, 104a towards the distal edges 102b, 104b, such that at least some of the apex edges 102h are aligned relatively between (in a direction from the proximal edges 102a, 104a towards the distal edges 102b, 104b) respective adjacent apex edges 104h on the opposite inward face, or vice versa, as can be seen in
In order to facilitate the offset arrangement of the second retaining ribs 102g relative to the second retaining ribs 104g, a different number of second retaining ribs 102g may optionally be provided compared to the number of second retaining ribs 104g, or vice versa. Strictly by way of illustrative example,
Also, the offset, alternating relative arrangement of second retaining ribs 102g relative to second retaining ribs 104g allows the respective converging first and second wall portions 102, 104 to approach each other more closely because the second retaining ribs 102g, 104g can essentially nest relative to one other without apex edges 102h, 104h contacting each other. This means that resilient spring force generated by the deflection of wall portions 102, 104 away from each other when an edge of a textile article is received therebetween will be relatively even stronger, thereby enhancing the “grip” of device 100 on the textile article.
Additionally, the height (i.e., the extent to which the second retaining ribs extend outwardly from inward faces 102c, 104c) of respective second retaining ribs 102g, 104g could be made larger because of this alternating arrangement. This may also enhance the gripping effect of the device 100.
The specific respective numbers of second retaining ribs 102g, 104g is not critical beyond providing a plurality of each, in accordance with the foregoing.
Corresponding proximal (relative to base portion 106) portions (i.e., region C seen in
The marking device 100 is preferably made from a relatively inexpensive and preferably somewhat resiliently flexible material, such as a polymer resin or other plastic material. One example of a suitable, commercially available material is polylactic acid (PLA) plastic filament, formed using, for example, a commercially available Monoprice Cadet 3D printer (model 140108). PLA plastic filament is a popular matrix material used in 3D printing because it is both relatively inexpensive and versatile.
However, where higher temperature environments (e.g., higher than about 140° F.) are anticipated or may be potentially encountered, PLA may not be sufficiently heat-resistant. For example, it may be desirable and/or convenient to leave a marking device 100 attached to a given textile article while it is being washed and dried (generally, cleaned and/or sanitized), or it may even occasionally be inadvertently left attached when the article is cleaned. In the latter case, it is desirable to avoid a situation where the device may melt and potentially ruin either the textile article or a washer or dryer. Given a range of known dryers, heat resistance of even up to about 180° F. may be desirable.
An ideal plastic material used in the manufacturing process would therefore be resilient and heat resistant while maintaining flexibility/resilience and resistance to material fatigue and/or failure (after repeated flexing in use). Examples of materials with relatively higher heat resistance that could be used to manufacture marking device 100 include commonly known acrylonitrile butadiene styrene (ABS) (which has a glass transition temperature of about 221° F.), or polypropylene (which has a glass transition temperature of about 500° F.) and is resistant to fatigue.
Alternatively, marking device 100 could be manufactured using injection molding according to standard manufacturing practices, rather than 3D printing (e.g., to facilitate manufacture on a large scale).
Polymeric materials such as that/those mentioned above are ideal for the manufacture of device 100 because they are relatively inexpensive, and thus lend themselves to inexpensive mass production of the device 100. Once formed, the resultant devices 100 are suitably durable for a useful time period of use. In certain cases, polymeric materials can be used that are or can be made resistant to microbial contamination, such as by incorporating antimicrobial additives into polymeric materials, such as additives commercially available from, from example, Microban International, Ltd., of Huntersville, N.C.
Alternatively, a metallic material could be used to manufacture device 100, but it must be appropriately resistant to rust, discoloration, or other oxidation, particularly in order to avoid transferring stains to the textile article with which it is used.
In use, the marking device 100 of the present invention can be slipped over an end hem 202 (for example) of the towel 200 in the manner illustrated in
In another example of use, the device 100 can be slid laterally over end hem 202—that is, the device 100 can be, for example, placed to one side of end hem 202, with end hem 202 aligned with catch channel 108 (see
First, the catch channel 108 (as defined, in part, by opposing first retaining ribs 102e, 104e at the distal end thereof; see, for example, region C in
In addition, the second retaining ribs 102g, 104g (at region B) further resist movement of the end hem 202 relative to the marking device 100, because at least a part of interior area 206 is effectively pinched between the opposing second retaining ribs 102g, 104g also thanks to the spring force generated in reaction to the outward deflection between the first and second wall portions 102, 104 caused by the thickness of towel 200.
It will be appreciated that the alternating arrangement of the opposing second retaining ribs (i.e., so that the apex edges of the second retaining ribs on one inward face alternate with the apex edges on the other inward face), if used, further enhances the retaining effect between the opposing pluralities of second retaining ribs 102g, 104g, thanks to the material of the textile article being “gripped” along an undulating surface between the alternating second retaining ribs 102g, 104g. However, because the towel 200 is not directly mashed between opposing apex edges 102f, 104f, the fabric of towel 200 is at least somewhat protected from damage or wear.
As mentioned above, the first (102e, 104e) and second (102g, 104g) retaining ribs characteristically have triangular cross sections. In addition, in a particular example of the present invention, the cross section of at least some of the first and second retaining ribs is approximately that of a right triangle with the hypotenuse facing “forward” towards the respective distal edges 102b, 104b. As a result, each first and second retaining rib having the approximate right triangular cross section presents a distal-facing inclined surface (102e′, 104e′, 102g′, 104g′), terminating in the previously mentioned respective apex edges (102f, 104f, 102h, 104h). See, particularly,
On the one hand the inclined surfaces (102e′, 104e′, 102g′, 104g′) of the respective first and second retaining ribs facilitates the movement of an edge of a towel 200 between the first and second wall portions 102, 104 in a distal-to-proximal direction (i.e., when the device 100 is initially placed on the towel).
However, once the marking device 100 is suitably placed on the edge of a towel or the like (as seen in
In order to remove the marking device 100 from placement on a textile article such as towel 200, the respective first and second wall portions 102, 104 can, for example, be gently forced apart (e.g., by gently pulling on the distal edges 102b, 104b with one's fingertips until the “grip” of the device 100 (e.g., via the first and/or second retaining ribs) is sufficiently loosened to permit the device 100 to be pulled off of the edge of the article (along the proximal-to-distal direction of the device). Alternatively, the device 100 can be slid off the article (generally, in a direction parallel to end hem 202). Again, the respective first and second wall portions 102, 104 can be manually forced apart (as described above) in order to loosen the grip of the device 100 on the underlying article.
As mentioned at the outset, the marking device 100 is particularly useful for distinguishing between textile articles, particularly for easily identifying or otherwise distinguishing a particular article among a plurality of identical or similar looking articles. A particular example of this situation is with respect to bath linens provided in, for example, a hotel or the like, in a hospital, or in a gym/health club/spa, where large numbers of essentially identical towels and the like are regularly distributed.
Accordingly, the marking device 100 is readily suitable for being marked or otherwise labeled with visually-identifiable unique indicia such as a personal name; number(s); words (like “Dad” or “Mom” for example); symbols (including, for example and without limitation, corporate logos and the like); pictures; etc., or combinations thereof. Such indicia can be added by any conventional marking/printing method as long as it is suitable for the underlying material of manufacture. Some possibilities include, without limitation, direct printing, etching, adhesive decals bearing the desired indicia, painting, etc.
The marking device 100 can be additionally (or alternatively) be made uniquely identifiable by providing it with a characteristic color or pattern of colors. The color(s) may be provided by either choosing a material of manufacture with a desired color, or by applying color(s) by any conventional means compatible with the underlying material of manufacture (for example, without limitation, by painting or by application of an appropriately colored adhesive decal).
Suitable visually-identifiable indicia could be provided, for example, on either or both of outward faces 102d and 104d, but any exterior-facing surface of device 100 could be potentially used in this regard.
In addition or alternatively, the marking device 100 could be provided with tactilely-identifiable indicia (not seen in the figures), such as raised (relief) markings or sunken markings formed in a surface of marking device 100 (such as by etching and the like). Such tactilely-identifiable indicia could be of a type intended to be principally identified/interpreted by touch (such as indications set out in Braille), or of a type that could identified/interpreted visually and/or tactilely (such as visible raised or sunken alphanumeric character combinations including specific words, or, for example, geometric symbols like a triangle, circle, square, etc.).
In some cases, the marking device 100 may be provided with a distinct region, such as, for example, a raised rectangular region 110 provided on outward face 102d (see, for example,
Another (or additional) option is to provide the marking device 100 with a characteristic, relatively distinct, artificial scent, with or without combination with visual and/or tactile identifying indicia. Ideal examples of suitably distinct scents are pine, cinnamon, coffee, etc.—it is preferable to use distinct and readily identifiable (or, at least, readily distinguishable) scents in according to the present invention, rather than, for example, floral scents, which may generally be identifiable as floral, but which may be practically difficult to distinguish among other floral scents. Methods of impregnating plastic materials and the like with desired scents are conventionally known and are disclosed in, for example, published international patent application WO9830621 (A1), dated Jul. 16, 1998, in the name of Antonio Campagnoli, the disclosure of which is incorporated herein by reference to the fullest extent permissible.
The general structure of device 300 in
The first wall portion 302 has an inward face 302c and an outward face 202d. Likewise, the second wall portion 304 has an inward face 304c and an outward face 304d. Inward faces 302c and 304c are generally spaced apart and in opposition to one another.
Generally, the inward faces 302c, 304c have respective first retaining ribs 302e, 304e, and second retaining ribs 302g, 304g provided thereon, in a manner and arrangement generally similar to first retaining ribs 102e, 104e and second retaining ribs 102g, 104g in device 100.
With reference to
Similar gap(s) could be provided in the respective first retaining ribs 302e, 304e subject to similar considerations as noted above relative to second retaining ribs 302g, 304g (even though not currently illustrated).
A purpose of providing one or more gaps in the retaining ribs as described and illustrated by way of example in
It will be appreciated that the marking device of the present invention is generally described and illustrated (strictly by way of example) as having a square (or, more generally, rectangular form) as seen in plan.
An additional optional feature of the present invention (illustrated herein relative device 300 of the second embodiment, but equally applicable to device 100 of the first embodiment discussed above relative to
The advantage/benefit of providing beveled (or otherwise rounded or smoothed) surfaces such as surfaces 305′, 305″, 307′ 307″ is eliminate or reduce orthogonal surfaces/corners which could snag other textile articles or even uncomfortably scratch a user of the textile article while the textile article is being used with the marking device attached.
The representation of the marking device in the present description as having a square (or at least rectangular) form is strictly by way of example and is not to be taking as limiting. As a practical matter, there are certain relative performance advantages to a square/rectangular form, but the marking device according to the present advantage is believed to be fully functional regardless of the shape used, including whether or not the first and second wall portions have the same form. However, it is likely that it is most preferable that the first and second wall portions of the marking device be identical or substantially similar, in order to obtain best obtain the functional benefits described hereinabove, particularly with respect to functional aspects directly related the positional interrelationship of the first and second wall portions.
Although the present invention is described above with reference to certain particular examples for the purpose of illustrating and explaining the invention, it must be understood that the invention is not limited solely with reference to the specific details of those examples. More particularly, the person skilled in the art will readily understand that modifications and developments that can be carried out in the preferred embodiments without thereby going beyond the ambit of the invention as defined in the accompanying claims.
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Screen Shot of Third Party Device (“Towel Tag”) for Sale From Towel Tag (Sault Ste Marie, Ontario, Canada); retrieved from www.toweltag.com at least as early as Jan. 22, 2022. |
Screen Shot of Third Party Device (“Towel Tag ID”) for Sale From Towel Tag LLC (Lake Worth, FL); retrieved from www.toweltagid.com at least as early as Jan. 22, 2022. |
Screen Shot of Third Party Device (“The Original Towel Tag”) for Sale From FocalRation (Cold Spring, MN); retrieved from www.toweltag.com at least as early as Jan. 22, 2022. |