The present disclosure relates generally to molded plastic garment hangers as are widely used for the purpose of shipping and displaying garments. More specifically, the present disclosure relates to garment hangers and sizers that can be removably mounted to the hooks of the hangers, and a methodology of reusing the hangers and the sizers. The reuse program of the hanger and sizer saves materials, and thus, provides economic and environmentally advantageous products.
In the area of retail garment sales, so-called Garment-On-Hanger (GOH) programs have become preferred by retailers. In a GOH program, garments are delivered to retail merchants already suspended from hangers, where upon arrival at the retail location the garments are immediately placed on display for sale.
In particular, retailers have specified particular hangers or hanger characteristics among suppliers in order to achieve uniformity on their sales floors. To this end, standards as to hanger size, shape, performance characteristics, etc., are maintained, for example, by organizations such as the Voluntary Inter-industry Commerce Standards Association (VICS). Intimate apparel hangers, pinch grip hangers, top garment hangers and so on are among the standardized hangers under the VICS standards.
Additionally, and interrelated to the promulgation of GOH programs, retailers and their customers desire to have the hanger itself display some indicia regarding the item carried upon it. Categories of indicia include origin of manufacturer, materials of the garments and prices of the garments, but mostly the sizes of garments. Sizers can be secured to the hanger at any suitable location to provide a displaying surface on which garment sizes are printed.
It is an object of the present disclosure to provide a novel hanger and sizer and a combination thereof, which can be used to enable a novel reuse methodology of the hanger and sizer.
According to an exemplary aspect of the present disclosure, a garment hanger is provided. The garment hanger includes a body for hanging and displaying a garment, and a hook extending upright from the body for engaging a supporting means. The hanger further includes a sizer attachment structure configured to removably attach a sizer to a portion of the hanger. The sizer is provided with indicia for displaying at least one characteristic of the garment. The sizer attachment structure includes a web extending from a lower flange of the hanger. The web includes a front side and an opposite rear side. A first slope is provided at the front side of the web and extends toward the lower flange. A ledge is formed at the lower terminus of the first slope and formed angularly with respect to the first slope at the front side of the web. A second slope is continuous with the ledge and extends toward the lower flange. The first slope is configured to guide the movement of the sizer. The ledge is configured to engage the sizer for attaching the sizer to the sizer attachment structure. The second slope is configured to provide a space for removing the sizer.
According to another exemplary aspect of the present disclosure, a sizer suitable for attachment to a hanger is provided. The sizer includes a front panel and a rear panel substantially parallel to each other. Each panel includes a top edge and an opposite bottom edge. The sizer further includes a middle panel connecting the top edge of the front panel and the top edge of the rear panel. The front panel, the rear panel and the middle panel together form a sizer body for operatively receiving a portion of the hanger. The sizer also includes a first inwardly extending finger formed adjacent the bottom edge of the front panel. The first inwardly extending finger operatively engages the portion of the hanger for attaching the sizer to the portion in a secure yet removable manner.
According to still another exemplary aspect of the present disclosure, a combination of a garment hanger and a sizer suitable for attachment to the garment hanger is provided. The garment hanger includes a body for hanging and displaying a garment and the hook extending upright from the body for engaging a supporting means. The hanger further includes a sizer attachment structure configured to removably attach the sizer to the hanger. The sizer is provided with indicia for displaying at least one characteristic of the garment. The sizer attachment structure includes a web extending from a lower flange of the hanger. The web includes a front side and an opposite rear side. A first slope is formed at the front side of the web and extends toward the lower flange. A ledge is formed at the lower terminus of the first slope and angularly with respect to the first slope at the front side of the web. A second slope is continuous with the ledge and extends toward the lower flange. The sizer includes a front panel and a rear panel substantially parallel to each other. Each panel includes a top edge and an opposite bottom edge. The sizer further includes a middle panel connecting the top edge of the front panel and top edge of the rear panel. The front panel, the rear panel and the middle panel together form a sizer body for operatively receiving a portion of the hanger. The sizer also includes a first inwardly extending finger formed adjacent the bottom edge of the front panel. When the sizer is being attached to the sizer attachment structure of the hanger, the first slope of the web guides the movement of the first inwardly extending finger to allow secure yet removable engagement between the first inwardly extending finger of the sizer and the ledge of the hanger.
According to yet another exemplary aspect of the present disclosure, a method of reusing hangers and sizers is provided. According to this method, a plurality of hanger-and-sizer combinations are collected, each of the combinations including a sizer removably attached to a respective hanger. The sizers are automatically removed from the hangers to provide a plurality of hangers and a plurality of sizers. The plurality of hangers and the plurality of sizers are shipped to a hanger distribution center. The plurality of hangers and the plurality of sizers are processed at the hanger distribution center to provide a plurality of sorted hangers and a plurality of sorted sizers. The plurality of sorted hangers and the plurality of sorted sizers are shipped to a plurality of remote garment manufacturers at remote locations. The plurality of sorted hangers and the plurality of sorted sizers are reused at the plurality of remote garment manufacturers to provide a plurality of garment-on-hanger products.
According to still yet another exemplary aspect of the present disclosure, a method of attaching a sizer to a hanger having a sizer attachment structure is provided. According to the method, an inwardly extending finger of the sizer is moved along a slope of the sizer attachment structure. After the inwardly extending finger passes the slope, the inwardly extending finger is engaged with a ledge of the sizer attachment structure to positively attach the sizer to the sizer attachment structure.
According to yet still another exemplary aspect of the present disclosure, a method of removing a sizer attached to a sizer attachment structure of a hanger is provided. According to this method, the sizer is manipulated to release an engagement between an inwardly extending finger of the sizer and a ledge of the sizer attachment structure. Subsequently, the sizer is moved away from the sizer attachment structure to remove the sizer from the hanger.
Although this invention is applicable to numerous and various types of hangers, it has been found particularly useful in the environment of garment hangers having a hook for suspending the garment hanger from a display. Therefore, without limiting the applicability of the invention to these types of hangers, the invention will be described in such configuration.
The hanger 100 is a molded plastic garment hanger, which can be used to support and display any suitable garment. The sizer 200 is provided with indicia for displaying at least one characteristic of the garment, typically the size of the garment. As shown in
The hanger 100 further includes a hanger body 120, to which the hook 110 is uprightly connected. The body 120 is provided for hanging and displaying at least one garment. The body 120 is generally planar and can include a pair of arms (not shown) extending opposite to one another. The hanger body 120 can have any suitable configuration, such as a C-section beam, a reversed U-section beam, I-section beam and the like. The hanger body 120 includes a top flange 122, which is connected to both ends of the continuous flange 114 of the hook 110.
As shown in
In the shown embodiment, the web 131 is provided at a curved portion of the hook 110, which is adjacent to the upright portion of the hook 110, such that the web 131 substantially follows the curvature of the hook 110. The location of the sizer attachment structure 130 (or the web 131) can be selected other than shown in this embodiment. For example, the sizer attachment structure 130 (or the web 131) can be located at the free terminal end of the hook 110, which is not connected to the upright portion hook 110. In addition, the sizer attachment structure 130 can be located at suitable position of the hanger body or hanger arms, although the following detailed description of the sizer 200 and the hanger 100 is provided with respect to the exemplary embodiment in which the sizer 200 is mounted to the hook 110 of the hanger.
As shown in
A second slope 134 is provided below the ledge 133. A space is provided between the second slope 134 and the corresponding inwardly extending finger of the sizer. In operation, a removal tool 300 can be inserted into the space for manually or automatically removing the sizer 200 from the hanger 100. In addition, the sizer 200 can be manually removed from the hanger 100 with a finger of a user.
The web 131 further includes a third slope 135, which can be continuous with the second slope 134 or distanced from the second slope 134 by a transitioning surface 136. In operation, the third slope 135 (or the combination of the third slope 135 and the transitioning surface 136) can facilitate the insertion of the removal tool 300 into the space between the second slope 134 and the corresponding inwardly extending finger of the sizer.
The shape of the first slope 132 and shape of the ledge 133 are not limited to what are shown in the above embodiment. For example, the lower end of the first slope 132 can be rounded to provide a curved slope. In addition, the ledge 133 can be rounded to provide a curved engaging surface. The provision of the curved slope and engaging surface facilitates manual removal of the sizer from the hanger.
At the front side of the hanger 100, the web 131 includes a substantially upright surface 137 and a supporting surface 138. The upright surface 137 serves to guide the movement of a second (or front) inwardly extending finger of the sizer 200 (which is opposite the first inwardly extending finger configured to engage the second slope 134 and the ledge 133), to allow the second inwardly extending finger of the sizer 200 to sit on the supporting surface 138 of the web 131, once the sizer 200 is mounted to the hanger 100.
In addition, as shown in
At the rear side of the hanger 100, two abutment surfaces 142 and 144 are provided, which surfaces are laterally opposite each other. Similarly, at the front side of the hanger 100, two abutment surfaces 146 and 148 are provided, which surfaces are laterally opposite each other. In operation, the provision of the abutment surfaces 142-148 facilitates the movement of the sizer 200 toward the sizer attachment structure 130 and also prevents lateral movement of the sizer 200 along the web 131 of the sizer attachment structure 130 when engaged.
In the shown embodiment, the implements for positively engaging the first inwardly extending finger of the sizer 200 is provided at the rear side of the web 131, while the implements for supporting the second inwardly extending finger of the sizer 200 is provided at the front side of the web 131. Without departing from the spirit of the present disclosure, it is understood that these implements can be reversed to be a mirror structure of the above-described embodiment.
In the shown embodiment, the sizer 200 has a curved profile, when viewed from the front side or rear side of the hanger 100. However, the sizer can have any suitable shape or profile (such as, rectangular, square, triangular, round, oval and the like) as long as the sizer can be operatively mounted to and removed from a corresponding part of the hanger hook or hanger body. In other words, the shape or profile of the sizer 200 and the shape or profile of the sizer attachment structure 130 of the hanger 100 can have various permutations, within the scope of the present disclosure, although the shown embodiment is preferable in practice.
The first inwardly extending finger 240 and the second inwardly extending finger 250 are structurally symmetric with one another and thus, include the same structural implements. The first inwardly extending finger 240 includes a first engaging surface 242, which is formed angularly with respect to an inner surface 212 of the front panel 210. The second inwardly extending finger 250 includes a second engaging surface 252, which is formed angularly with respect to an inner surface 222 of the rear panel 220. In the shown embodiment, the first engaging surface 242 and the inner surface 212 of the front panel 210 can be formed to be substantially perpendicular to each other, and the second engaging surface 252 and the inner surface 222 of the rear panel 220 can be formed to be substantially perpendicular to each other. Although in the shown embodiment both the first engaging surface 242 and the second engaging surface 252 are planar and substantially perpendicular to the respective inner surfaces, the first and second engaging surfaces can be non-planar or non-straight (such as, curved, rounded or triangular), without departing from the scope of the present disclosure.
The first inwardly extending finger 240 further includes a first sloped surface 244, which is formed angularly with respect to the first engaging surface 242. The second inwardly extending finger 250 further includes a second sloped surface 254, which is formed angularly with respect to the second engaging surface 242. Both the first sloped surface and the second sloped surface can be non-planar or non-straight (such as, curved, rounded or triangular), without departing from the scope of the present disclosure.
Next, the process of mounting the sizer 200 onto the sizer attachment structure 130 of the hook 110 will be described, assuming that the front panel 210 of the sizer 200 is mounted to the front side of the hanger 100 and the rear panel 220 of the sizer 200 is mounted to the rear side of the hanger 100.
Initially, the second inwardly extending finger 250 engages and moves along the first slope 132 of the web 131. At the same time, the first inwardly extending finger 240 moves along the substantially upright surface 137 of the web 131. This operation expands the opening of the sizer 200 between the two inwardly extending fingers to allow the web 131 to be received within the space defined between the front panel 210 and the rear panel 220 of the sizer 200.
As the second inwardly extending finger 250 moves over the first slope 132 of the web 131, the second engaging surface 252 of the second inwardly extending finger 250 engages the ledge 133 of the web 131, thereby allowing the sizer 200 to be positively, yet removably, mounted to the sizer attachment structure 130 of the hook 110.
The sizer 200, which has been mounted to the sizer attachment structure 130 of the hook 110, can be selectively removed by using the removal tool 300, as shown in
The hanger 100 can be formed of one or more of polystyrene, SAN, ABS, PPO, nylon, polypropylene (PP), polyethylene, PET, polycarbonates (PC), acrylics, K-resin, and polyvinyl chloride (PVC) among others. From the foregoing illustrations it is readily apparent that the present disclosure is directed to an improved garment hanger and sizer suitable for industry mass production.
The present disclosure offers reliable mechanical performance and structural integrity to both the hangers and the sizers. Under industry standards, such as the VICS, it is required to maintain a certain degree of affixation of the sizer to the hanger to avoid young children from swallowing the sizer after the sizer is accidentally detached from a hanger, so as to provide so-called “child proof” hangers. The sizers according to the above-described embodiments of the present disclosure are “child proof”. On the other hand, the sizers can be readily removed by an adult, with or without a tool, for the purpose of reusing the removed sizer.
The hanger 100, the sizer 200 and the removal tool 300, as described previously with respect to the embodiments shown in
As shown, a hanger manufacturing center 401 (which can be located in the U.S. or offshore, and is typically offshore nowadays) molds hangers (such as, the hangers 100) and ships the hangers via a distribution channel 403 to a plurality of garment manufacturers 405 at scattered geographic locales. While a single group of garment manufacturers 405 are illustrated in
Simultaneously, a plurality of removable sizers (such as, the sizers 200) are molded at a sizer manufacturing center 407 (which can be located in the U.S. or offshore) and shipped in bundles 413 via a distribution channel 409 to these same garment manufacturers 405.
At each of the plurality of garment manufacturers 405, a single hanger 411 and a single sizer 413 are assembled with the garment manufactured by the U.S. garment manufacturing facility at that geographic local. The sizer represents at least one characteristic of the garment, and preferably indicates the size of the garment as denoted in the country in which the retail store to which the garment is to be shipped is located. A plurality of hangers, garments and sizers are then batched as illustrated at 415, and the batch is shipped to a retail store 419 or a regional distribution center 417 operated by the retail store 419. At each retail store 419, one or more Hanger Big Boxes (HBBs) are provided. Each HBB has a barcode attached to an outer surface of the HBB, which can be scanned and decoded by a machine, such as, a computer. Each HBB includes a lid, a base and a collapsible carton part between the lid and the base. The lid and the base can be formed by a plastic material. One or more clips can be provided to lock the lid/base with respect to the carton part.
The regional distribution center 417 provides a supply of garments on hangers 421 to the various retail stores 419 at scattered geographic locations for sale to consumers. At the point of sale in the retail store 419, the garments are removed from the hangers 411 and the hangers 411 are placed into the HBBs to be returned to the regional distribution center 417. It is within the scope of the present disclosure that all the hangers are returned to the regional distribution center 417, although in practice 10-25% of the hangers shipped from the distribution center to the retail store as garments on hangers 421 are not returned but are sold with the garment to the consumer or are damaged or otherwise lost in use.
At the regional distribution center 417, the hangers are batched in the HBBs and sent to the reuse/recycle center 423, where a plurality of operations are implemented. The operations include, but are not limited to, automatically removing the sizers from the hangers; inspecting, sorting, cleaning and packing the hangers; and inspecting, sorting, cleaning and packing the removed sizers. Optionally, the removed sizers can be transported to a sizer reuse/recycle center 460, wherein the removed sizers are inspected, sorted, cleaned and/or packed. The processed sizers are subsequently transported to a regional hanger distribution center 447 (which is typically offshore), from either the reuse/recycle center 423 or the sizer reuse/recycle center 460. The regional hanger distribution centers 447 may be located in such diverse geographic locales as Hong Kong, India or Turkey and intended to serve clusters of manufacturing entities located within a few hundred miles of the regional distribution center.
At the reuse/recycle center 423, the HBBs are weighed and the barcodes of the HBBs are scanned, for the purpose of collecting data that can be used to monitor the return rate of each store. In the event that the return rate of certain stores drops below an acceptable level, actions can be taken to ensure that the return rate is elevated to the acceptable level.
Subsequently, at the reuse/recycle center 423, the hangers and the sizers are unloaded from the HBBs onto a conveyor system. The HBBs are disassembled at the reuse/recycle center 423 by flattening the carton body and stacking the lid, base and clips on the carton body. The disassembled HBBs are subsequently returned to the regional distribution center 417.
At the reuse/recycle center 423, the sizers (such as, the sizers 200) are automatically removed by a machine provided with a removal tool (such as, the removal tool 300). The removed sizers can be inspected, sorted, cleaned and packaged at the reuse/recycle center 423. Optionally, the removed sizers can be optionally transported to the sizer reuse/recycle center 460 for inspection, sorting, cleaning and packaging. The sizers can be sorted by their colors and/or sizes before being shipped to the offshore regional hanger distribution center 447. At the offshore regional hanger distribution center 447, the sizers are sold with reused/recycled hangers to offshore garment manufacturers 441. Presently, a significant percentage of garments sold in the retail stores 419 are manufactured off shore in areas such as China, Thailand, India, Turkey and countries of the Near East. These offshore garment manufacturers provide essentially the same function as the domestic manufacturers 405 inasmuch as each of these entities manufactures a garment, and then assembles a hanger, a sizer and the garment in an automated production line to form a product known as GOH (Garment On Hanger) which is ready for display in the retail stores 419. The GOH garments are then batched as indicated at 443 and shipped via international transport, in generally intermodal or airborne containers, to the regional distribution center 417.
Now referring back to the reuse/recycle center 423, it has been found that 10-30% of the hangers returned are no longer suitable for reuse because of excess wear, breakage, warpage, gum tags or other debris which cannot easily be removed.
The hangers that fail the inspection are returned via a distribution channel 425 to a location which grinds or granulates the rejected hanger as illustrated at 424. At location 424, the hangers are also separated to classify the hangers according to the material from which they were molded, with polypropylene and polystyrene being the two primary materials from which hangers are molded. The polypropylene granulated material is then used to mold consumer hangers as indicated at 429 which may be returned by a distribution channel 431 for sale to consumers. The metal parts of the hangers are also removed. The remaining material not suitable for remolding is sold as scrap as indicated at 433. The removed metal parts are also sold as scrap as indicated at 433.
At the reuse/recycle center 423, it has been found that at least 30-50% of the hangers that originally entered the recycling loop at 403 are available for redistribution. The hangers 411, with the sizers removed, are subsequently reshipped to the garment suppliers 405 as part of the order fulfillment at a supply line 435. The supply of hangers at the supply line 435 can be augmented by freshly molded hangers, as indicated at 403. The combined stream of recycled and new hangers 437 is returned to the garment suppliers 405, as shown in
Alternatively or additionally, at the reuse/recycle center 423, the reusable hangers 411 can be shipped to the offshore regional distribution center 447. Thus, at the offshore regional distribution center 447, separate shipments of hangers and removable sizers can be made to the offshore garment manufacturers 441. A plurality of new removable sizers can be molded at a U.S. sizer manufacturing center 407 and shipped via channel 409 to the offshore regional distribution center 447.
Depending on the circumstance, it may be less expensive to mold the hangers at an offshore hanger manufacture 445 and ship the hangers 411 to the offshore regional hanger distribution center 447, than to mold and ship from the U.S. hanger manufacturing center 401.
Batches or bundles of removable sizers 413 can also be molded at the U.S. sizer manufacturing center 407 and shipped via distribution channels 409, 449 and 451 to the offshore regional distribution centers 447 and/or the offshore garment manufacturers 441.
Molding the removable sizers at a single location, such as, the location of the U.S. sizer manufacturing center 407, ensures that the colors chosen for the removable sizers are consistent when they arrive at the retail stores 419 even though the adjacent garments and hangers may have been assembled thousands of miles apart from each other. In addition, the bulk and size of the removable sizers 413 render them susceptible to transoceanic shipment and use.
While in the shown embodiment, the removable sizers are all molded in a single location, it would be entirely possible to mold the removable sizers in one or more offshore molding facilities, provided precise control is maintained over the pigments used in the color indexing scheme.
There may also be a flow of returned surplus hangers as indicated along distribution channels 450 and 450a, which may be used to augment the supply of hangers at the reuse/recycle center 435 instead of molding new hangers at the U.S. hanger manufacturing center 401.
The sizer 500 includes a pair of substantially parallel panels 510 and 520. The first 510 panel has an inwardly extending finger 540 formed integrally therewith. The inwardly extending finger 540 is configured to operatively engage the sizer attachment structure 130 of the hook, as shown in
The inwardly extending finger 540 includes an engaging surface 542, which is formed angularly with respect to an inner surface 512 of the first panel 510. The inwardly extending finger 540 further includes a sloped surface 544, which is formed angularly with respect to the engaging surface 542. Both the engaging surface 542 and the slopes surface 544 can be non-planar, such as, curved or rounded
Different from the previous embodiment, the second panel 520 does not have an inwardly extending finger formed thereon. Thus, the first panel 510 and the second panel 520 are not structurally symmetric. As a result, when the sizer 500 is being attached to the hanger 100, the orientation of the sizer 500 with respect to the hanger 100 needs to be determined prior to the attachment of the sizer 500, for the purpose of properly attaching the sizer 500.
As shown in
The mounted sizer 500 can be selectively removed by a finger of a user's hand. Alternatively, the mounted sizer can be selectively removed, either manually or automatically, by using a removal tool.
While there have been shown and described what are considered to be the preferred embodiments of the invention, it will, of course, be understood that various modifications and changes in form or detail can be readily made without departing from the spirit of the invention. It is therefore intended that the invention not be limited to the exact form and detail herein shown and described nor to anything less than the whole of the invention herein disclosed as hereinafter claimed.
This application claims the benefit of U.S. Provisional Application No. 62/598,209 filed on Dec. 13, 2017, the entire contents of which are incorporated herein by reference.
Number | Name | Date | Kind |
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5687887 | Bond | Nov 1997 | A |
6484390 | Gouldson et al. | Nov 2002 | B1 |
6523240 | Gouldson | Feb 2003 | B1 |
20070158373 | Yau | Jul 2007 | A1 |
Number | Date | Country | |
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20190174940 A1 | Jun 2019 | US |
Number | Date | Country | |
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62598209 | Dec 2017 | US |