Hangers are often used to support clothing and other garments for storage and display of the garments in retail stores as well as for storage in a consumer's home following purchase. Such hangers with garments are typically hung from a support rod along with a plurality of other hangers supporting other similar garments and/or garments of various shapes and sizes. The different sizes and configuration of garments and their movement relative to the hanger and/or movement of the hanger relative to the support rod often times causes the garments to slip down along the arms of the corresponding hanger and/or to fall off of the hanger at least partially. For example, garments with small shoulder straps and/or wide neck openings are particularly susceptible to falling off of hangers. Conventional hangers attempt to affix the garments more securely to hangers by providing clip or hook members extending from top or bottom surfaces of the arms.
One embodiment of the present invention relates to a garment hanger including a hook and an arm. The hook is configured to selectively receive a support rod, and the arm is coupled to the hook and extends outwardly to a free arm end. The arm includes a first substantially planar panel facing toward one of a front and a rear of the garment hanger and a top panel extending rearwardly from a top edge of the first substantially planar panel. The arm further includes an indentation and a finger. The indentation is defined adjacent the first substantially planar panel and below the top panel in a manner at least partially open in a direction facing away from the first substantially planar panel. The indentation defines an outermost edge nearest the free arm end and an innermost end nearest the hook. The finger extends from one of the outermost edge and the innermost edge of the indentation toward the other one of the outermost edge and the innermost edge of the indentation and is configured to hold a portion of a garment within the indentation. Other hangers, securement elements, and associated methods are also described herein.
Embodiments of the invention will be described with respect to the figures, in which like reference numerals denote like elements, and in which:
The following detailed description of the invention provides example embodiments and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background of the invention or the following detailed description of the invention. Relational terms herein such a first, second, top, bottom, etc. may be used herein solely to distinguish one entity or action from another without necessarily requiring or implying an actual such relationship or order. In addition, as used herein, the term “about” or “substantially” apply to all numeric values or descriptive terms, respectively, and generally indicate a range of numbers or characteristics that one of skill in the art would consider equivalent to the recited values or terms, that is, having the same function or results.
This innovation provides a hanger, such as a garment hanger, having one or more integrated securement elements to facilitate maintaining garments on the hanger. In one embodiment, the hanger includes one or more arms having a front-facing surface and an opposite, rear-facing surface. The arm defines an indentation or recess extending from one of the front-facing surface and the rear-facing surface toward the other. A finger or cantilevered protrusion element extends from one side of the indentation toward, but not to, the other side of the indentation. In this manner, the finger is spaced from a rear of the indentation forming a slot for receiving a portion of a garment in a manner configured to hold the garment to the hanger. The securement element is formed on one of the front-facing or rear-facing surfaces provides an aesthetic appeal, as the finger does not distract from the overall aesthetic form of the hanger. The securement element is formed on one of the front-facing or rear-facing surfaces also provides functional advantages by allowing the garment to separately, yet, in one embodiment, more tightly, interact with top surfaces of the hanger and protecting against inadvertent release of garment from the securement element. Other advantages and features are further described below.
Turning to the Figures,
Each of the pair of arms 26 extends downwardly and outwardly away from shoulder region 24 in a symmetrical manner relative to one another to corresponding free arm ends 36. Each of pair of arms 26 intersects one another at an apex or vertex 50, which, in one example, is centered relative to shoulder regions 24. In one embodiment, each of the pair of arms 26 extends away from shoulder region 24 with a substantially linear orientation while, in other embodiments, each of the pair of arms 26 extends away from shoulder region 24 with a curved or otherwise sloped orientation. The pair of arms 26 are sized and shaped to support garments configured to be work on the top of a body, in one embodiment.
As illustrated with primary reference to
In one example, a top panel 58 extends between top edges 62 and 72 of first panel 54 and second panel 56, respectively, to cap a top of the pair of arms 26. In one embodiment, pair of arms 26 is open below top panel 58, between rear-facing surface 84 of first panel 54 and front-facing surface 86 of second panel 56, more particularly, at bottom edges 60 and 70 of first panel 54 and second panel 56, respectively. Strengthening ribs 68 may be formed to extend between first panel 54 and second panel 56 to provide additional rigidity and strength to hanger 10 generally without adding undo weight or material to hanger 10.
In one example, two or more protrusions or friction nubs 66 are applied to or molded on top panel 58 near each of free arm end 36. Friction nubs 66 are provided to add friction in a manner decreasing the likelihood that a garment hung on hanger 10 will readily and inadvertently slide off of hanger arms 26. In another embodiment, another or no friction enhancing means is applied to top panel 58.
One of primary panels 52, for example, second panel 56, as illustrated in
Indentation 80 extends to bottom edge 70 of second panel 56 toward, and in one embodiment, to top panel 58. An innermost edge 90 of indentation 80 is formed nearest hook 20 while outermost edge 92 of indentation 80 is positioned nearest a corresponding free arm end 36 of one arm 26. Indentation 80 extends from innermost edge 90 toward first panel 54, e.g., forwardly, in a tapered or ramped manner forming a ramped transition wall 94 extending from innermost edge 90 to rear-facing surface 84 of first panel 54, where rear-facing surface 84 also serves as an interior-most surface of indentation 80 in the illustrated embodiment. In another example, while not illustrated, the interior-most surface of indentation 80 is spaced rearwardly from rear-facing surface 84. An outside wall 96 of indentation 80 is formed adjacent rear-facing surface 84 opposite ramped transition wall 94 forming outermost edge 92 of indentation 80.
Each securement element 12 includes an extension, such as a finger 100 extending from outermost edge 92 of indentation over indentation 80 in a cantilevered manner, spaced from rear-facing surface 84 or other interior-most surface of indentation 80. In one embodiment, finger 100 extends toward, but not entirely to, innermost edge 90 to form a free finger end 102 of finger 100 nearest innermost edge 90. Finger 100 defines an exterior surface 101 and an opposing interior surface 103 each being spaced from rear-facing surface 84 of first panel 54. In one example, exterior surface 101 of finger 100 extends substantially, for example, entirely, coplanarly with rear-facing surface 88 of second panel 56 as an extension thereof. Finger 100 has a height that less than about three-quarters of an overall height of the corresponding one of arms 26. In this manner, in one embodiment, indentation 80 is open to a rear of hanger 10 above indentation 80 and below top panel 58 and is slightly open to rear of hanger 10 between free finger end 102 and innermost edge 90 of indentation 80.
In one embodiment, finger 100 has a bottom edge 106 that is substantially collinear with bottom edge 70 of second panel 56 and extends upwardly therefrom toward, but not to, top panel 58 to define a top edge 108 of finger 100 spaced downwardly from top panel 58. Finger 100 has a length, defined from outermost edge 92 to free finger end 102 of finger 100, which is just short of an overall length of indentation 80, as illustrated, for example, in
In one embodiment, finger 100 is formed with an overall material thickness similar to second panel 56 near outermost edge 92 that tapers to a smaller thickness as finger 100 extends to free finger end 102 of finger 100, as more clearly shown with additional reference to
In one example, finger 100 additionally defines an elongated or finger rib 110 extending along a substantial entirety of a length of finger 100 along top edge 108 thereof. Finger rib 110 extends rearwardly from top edge 108 toward, but not to rear-facing surface 84 of first panel 54. In one example, a thickness of finger rib 110, that is, a distance finger rib 110 extends away from a remainder of finger 100, increases from near outermost edge 92 of indentation 80 toward free finger end 102 of finger 100, as most easily seen in the enlarged portion of a bottom view in
In one example, finger 100 is molded as a single piece with a remainder of the corresponding one of the pair of arms 26. In this manner, finger 100 is biased to remain substantially in-plane with second panel 56. This biasing allows finger 100 to flex slightly to receive garment 120, but to return to its original coplanar positioning with second panel 56 to maintain garment 120 at least partially within indentation 80. More specifically, referring to
Once strap 122 is fully positioned within indentation 80, it is snugly, but not constrictively, held in indentation 80 via compression between finger 100 and rear-facing surface 84 and/or friction from finger 100. On one example, finger rib 110 provides an additional line of interaction with or grip to strap 122 to more snugly hold strap 122 in indentation 80. Since finger rib 110 is relatively small in height as compared to finger 100, finger rib 110 does not exert as much friction on strap 122 as finger rib 110 would if sized the full height of finger 100 to still allow strap 122 to be fairly easily removed from indentation 80 when desired by a user. In addition, the relatively small height of finger rib 110 also does not overly stiffen finger 100 to decrease the ability of finger 100 to flex slightly when allowing strap to be moved into and out of indentation 80. When garment 120 is so placed in indentation, a lower portion of strap 122 extends out of indentation 80 through the opening between first panel 54 and second panel 56. Interaction between finger 100, e.g., finger rib 110, and strap 122 generally serve to maintain garment 120 on hanger and strap 122 in indentation 80 even during inadvertent rotation of other movement of garment 120 relative to hanger 10 and/or of garment 120 and hanger 10 relative to a support rod, as shown for example in
Since indentation 80 and finger 100, i.e., securement element 12, are placed on within a second panel 56 of hanger 10, securement element 12 is not aesthetically distracting from the presentation of garment 120 on hanger 10. In addition, placement of securement element 12 within second panel 56 allows top edges 62 and 72 of first and second panels 54 and 56 to also be used to maintain garment 120 on hanger 10. More specifically, with strap 122 gripped in indentation 80, garment 120 is pulled tighter against top edges 62 and 72, thereby, providing additional securement of garment 120 on hanger 10 without providing additional obstacles to removing garment 120 from hanger 10 when eventually desired. As such, the proposed positioning of securement element provides both aesthetic and functional benefits and advancements.
As illustrated, in one embodiment, the pair or arms 226 are formed via a front or first panel 254. First panel 254 defines an interior-facing surface, for example, a rear-facing surface 284, and an opposite an exterior-facing surface, for example, a front-facing surface 286. In one embodiment, a single first panel 254 extends from one free arm end 236 to the other while, in other embodiments, each arm 226 is formed of a separate first panel 254. In addition, while primarily described herein as hanger 210 including the pair of arms 226 extending substantially colinearly with each other, in some embodiments, hanger 210 includes a single arm 226 or three or more arms 226 at various orientations relative to each other.
In one example, a top panel 258 extends rewardly from a top edge 262 of first panel 54 to cap a top of the pair of arms 226. In one example, a bottom panel 260 extends rewardly from a bottom edge 264 of top panel 258 substantially parallel to top panel 258. In one embodiment, pair of arms 226 is substantially between top panel 258 and bottom panel 260 and/or behind rear-facing surface 284 of first panel 254. Strengthening ribs 268 may be formed provide additional rigidity and strength to hanger 10 generally without adding undo weight or material to hanger 10 and may extend between top panel 258, bottom panel 260, and/or first panel 54 as desired.
In one embodiment, a securement element 212, is defined opposite first panel 254, for example as a partial second panel 256, spaced downwardly from top panel 258. For instance, one securement element 212 is defined on each of the pair of arms 226. One securement element 212 is described below, it being understood, that in one example, a second similar or identical securement element 212 is included on the other one of the pair of arms 226, for instance in a manner substantially symmetrical to the described securement element 212. In one embodiment, bottom panel 260 ceases to extend along a length of each of the pair of arms 226 at locations adjacent securement element 212 forming an indentation 280 or recessed area below top panel 258 and between first panel 254 and securement elements 212. Indentation 280 is, in one example, positioned in the outer half of a length of one of the pair of arms 226. In one embodiment, indentation 280 has a length equal to or greater than one-quarter of, in one example, equal to or greater than one-third of, a length of the one of the pair of arms 226.
An innermost edge 290 of indentation 280 is formed nearest hook 20 while an outermost edge 292 of indentation 280 is positioned nearest a corresponding free arm end 236 of one of the pair or arms 226. Indentation 80 extends from outermost edge 292 toward first panel 254, e.g., forwardly, in a tapered or ramped manner forming a ramped transition wall 294 extending from outermost edge 292 to rear-facing surface 284 of first panel 254, where rear-facing surface 284 also serves as an interior-most surface of indentation 280 in the illustrated embodiment. In another example, while not illustrated, the interior-most surface of indentation 280 is spaced rearwardly from rear-facing surface 284. An outside wall 296 of indentation 80 is formed adjacent rear-facing surface 284 opposite ramped transition wall 294 forming innermost edge 290 of indentation 280.
Each securement element 212 includes an extension, such as a finger 300 extending from innermost edge 290 of indentation over indentation 280 in a cantilevered manner, spaced from rear-facing surface 284 or other interior-most surface of indentation 280. In one embodiment, finger 300 extends toward, but not entirely to, outermost edge 92 to form a free finger end 302 of finger 300 nearest outermost edge 292. Finger 300 defines an exterior surface 301 and an opposing interior surface 303 each being spaced from rear-facing surface 284 of first panel 254. In one example, exterior surface 301 of finger 300 extends substantially, for example, entirely, parallel to front-facing surface 286 of first panel 254. Finger 300 has a height that less than about three-quarters of an overall height of the corresponding one of arms 226. In this manner, in one embodiment, indentation 280 is open to a rear of hanger 210 above finger 300 and below top panel 258 and is slightly open to rear of hanger 210 between free finger end 302 and innermost edge 290 of indentation 280.
In one embodiment, finger 300 has a bottom edge 306 that is substantially coplanar with bottom edge 264 of first panel 254 and extends upwardly therefrom toward, but not to, top panel 258 to define a top edge 308 of finger 300 spaced downwardly from top panel 258. Finger 300 has a length, defined from an innermost edge 290 of indentation 280 to free finger end 302 of finger 300, which is short of an overall length of indentation 280, as illustrated, for example, in
In one embodiment, finger 300 is formed with an overall material thickness that tapers to a smaller thickness as finger 300 extends to free finger end 302 of finger 300, as more clearly shown with additional reference to
In one example, finger 300 additionally defines an elongated or finger rib 310 extending along a substantial entirety of a length of finger 300 along top edge 308 thereof similar to figure rig 110 described in detail above. Finger rib 310 extends rearwardly from top edge 308 toward, but not to rear-facing surface 284 of first panel 254. In one example, a thickness of finger rib 310, that is, a distance finger rib 310 extends away from a remainder of finger 300, increases from near outermost edge 292 of indentation 280 toward free finger end 302 of finger 300. In one example, the increasing thickness of finger rib 310 from outermost edge 292 to free finger end 302 is substantially equal to the decreasing thickness of finger 300 from outermost edge 292 to free finger end 302 such that a distance between finger rib 310 and rear-facing surface 284 remains substantially consistent along a substantial entirety of a length of finger 300.
In one example, finger 300 is molded as a single piece with a remainder of the corresponding one of the pair of arms 226. In this manner, finger 300 is biased to remain substantially in-plane with second panel 256. This biasing allows finger 300 to flex slightly to receive garment 120 as described with respect to hanger 10 (see
As describe in the embodiments above, this innovation provides a hanger having one or more integrated securement elements to facilitate maintaining garments on the hanger. In one embodiment, the hanger includes one or more arms, where at least one of those arms defines an indentation or recess extending from one of the front-facing surface and the rear-facing surface toward the other. A finger or cantilevered protrusion element extends from one side of the indentation toward, but not to, the other side of the indentation forming a slot for receiving a portion of a garment in a manner configured to hold the garment to the hanger. The securement element is formed on one of the front-facing or rear-facing surfaces provides an aesthetic appeal, as the finger does not distract from the overall aesthetic form of the hanger. The securement element is formed on one of the front-facing or rear-facing surfaces also provides functional advantages by allowing the garment to separately, yet, in one embodiment, more tightly, interact with top surfaces of the hanger and protecting against inadvertent release of garment from the securement element.
Although the invention has been described with respect to particular embodiments, such embodiments are meant for illustrative purposes only and should not be considered to limit the invention. Various alternatives and changes will be apparent to those of ordinary skill in the art upon reading this application. Other modifications within the scope of the invention and its various embodiments will be apparent to those of ordinary skill.
This application is a continuation application and claims priority under 35 U.S.C. § 120 to U.S. patent application Ser. No. 15/977,779, filed on May 11, 2018, which is a non-provisional application of and claims priority under 35 U.S.C. § 119 to U.S. Provisional Patent Application No. 62/505,301, filed May 12, 2017, both of which are incorporated herein by reference.
Number | Date | Country | |
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62505301 | May 2017 | US |
Number | Date | Country | |
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Parent | 15977779 | May 2018 | US |
Child | 16723775 | US |