Patent Grant
10271585
The present invention relates to the field of apparel and, more specifically to a support bustier garment. The support bustier garment may be configured to reposition a portion of a volume of the wearer's respective breast and support a portion of a weight of the wearer's respective breast when worn by the wearer.
Brassieres have been used for lifting and shaping the breasts for approximately 100 years. Brassieres (and other related garments, such as underwire swimwear tops) are typically manufactured using two U-shaped metal components or “underwires,” which serve to create a rounded housing for each breast. The underwire also serves to create a uniform shape in accordance with a fashionable silhouette. The underwire is conventionally a flat U-shape, and does not conform to the curved dimensions of the wearer's rib cage. Thus, the underwire brassiere in its traditional form frequently creates areas of poking and rubbing at the ends of the wire (between breasts and in underarm areas), as well as pinching at the lowermost point of the underwire (at the bottom of the breast, directly under the nipple) where the underwire pushes into the ribs. The larger the breasts, the more significant these pressure points tend to be. Seams and fabric casements, which serve to hold the underwire in place, can further exacerbate the pinching and rubbing of the wire against the skin and ribs.
The underwire casement of traditional brassieres typically attaches to three straps. The primary back strap attaches laterally around the rib cage, in most cases fastening in the rear near the spine. The two shoulder straps attach to the underwire casement in the front and to the lateral strap in the rear. The two shoulder straps run over the belly of the trapezius muscles and support the weight of the breasts against these muscles of the neck and shoulders (primarily the trapezius and levator scapulae muscles). In this way, the force of the lifted breast effectively hangs from the neck and shoulders.
In typical brassiere construction, and especially in larger breasted wearers, all three straps typically create discomfort for the wearer. To support the load of the breast tissue, conventional shoulder straps push down on the trapezius muscles, which in turn forces the head forward and the spine out of proper postural alignment. This misalignment frequently results in tension in the head, neck and shoulders that is directly linked to wearing a conventional bra. This pressure on the trapezius muscles is made visible in the surface indentations frequently left behind in the shoulders of brassiere wearers. Further, these indentations frequently become permanent after years of continued brassiere wear. The effects can also be seen in the slouched or hunched spinal posture of large-breasted, brassiere-wearing women.
In addition, if the primary back strap is fitted tightly enough to the torso such to relieve some of the pressure from the shoulder straps, then the pressure of the underwire casement against the body (and the rubbing and pinching related to the casement) in turn increases. In the case of brassiere garments where the shoulder straps have been removed entirely (i.e. “strapless” brassieres), the garment typically slides down the torso over time, moving out of its intended placement and flattening the profile of the breasts, with aesthetically displeasing results. The result is that wearers are forced to frequently tug the garment back into place, undermining the intention of the wearer for the state of their undergarment to remain private. (Imagine, by way of example, a bride with a strapless dress and strapless brassiere, which begins to fall down during her wedding ceremony. To remain modest and avoid embarrassment, she has no choice but to tug her undergarment back into place, thus revealing the state of her undergarment slippage to any who are observing her.)
In addition, underwire-alternative brassieres that possess rigid regions or thick seams directly beneath the breast fail to provide a comfortable alternative because of resulting pressure on the top of the abdominal cavity when the wearer sits or otherwise bends at the waist.
In summary, the traditional construction of the bra brings with it a set of specific design features that are inherently linked to chafing, rubbing, poking, and pinching of the skin; tension and pain in the muscles of the wearer; and pressure or compression of the upper abdominal cavity.
Support bustier garments worn by a wearer having two breasts are herein described. The support bustier garment may include a set of two support structures and a housing. The support structures may be positioned within the housing such that each support structure corresponds to a position between a center and a bottom of the wearer's breast when the garment is worn by the wearer. On some occasions, the housing may include one or more attachment mechanisms (e.g., snap, tension and/or magnet closure) configured to removably attach to one or more embellishments, such as straps or a camisole.
The support structures may be curved to approximate a shape of a woman's breast. Each of the support structures may be configured to reposition a portion of a volume of one of the wearer's breasts (e.g., push breast tissue from an outside of a breast toward a midline of the wearer or lift a portion of the breast tissue from an original position to a higher position measured relative to the user's waist) when the garment is worn by a wearer. Stated differently, each support structure repositions a volume of a different one of the wearer's breasts. The support structures may also serve to shape the wearer's breasts. The support structures may be manufactured using, for example, a molding process, a cutting process, and/or a punch process. The support structure may be made from one material or may include a plurality of layers of material.
Each of the support structures may also be configured to support a portion of the weight of each of the wearer's breasts when worn by the wearer. Stated differently, each support structure supports a portion of the weight of a different one of the wearer's breasts. At times, the support structures may be configured to extend orthogonally from the plane of a torso of the wearer when the garment is worn by the wearer. The support structures may be self-supporting independently of the housing. Stated differently, the support structures may retain their shape, even when not worn, independently of the housing.
The support structure may be configured to exert a force opposing the portion of the weight of the wearer's breasts when the garment is worn by the wearer. For example, the support structure may be configured to apply a force substantially equal in magnitude and substantially opposite in direction to the weight of the wearer's breasts such that the weight of the wearer's breasts is supported and is at rest. At times, the force may be applied to the wearer's breast independently of the housing.
In some embodiments, each support structure may be configured to redistribute the portion of the weight of the wearer's breasts to the wearer's torso when the garment is worn by the wearer.
In some embodiments, the support structure may include one or more perforations. The perforations may be of any size and positioned anywhere within the support structure, provided the support structure maintains its structural integrality.
The housing of the garment may be coupled to the set of support structures and be configured to house the set of support structures and wrap around the wearer's chest, thereby enabling the wearer to wear the garment. The housing may be manufactured from, for example, fabric, plastic, elastic, fasteners, closure mechanisms, or any combination thereof. On some occasions, the housing may include decorative features (e.g., colors, printed on patterns, applied detailing, etc.).
In some embodiments, the garment may include a set of flexible structures positioned within the housing such that each flexible structure is coincident with one of the support structures of the set of two support structures. On some occasions, each of the flexible structures having a lower extension positioned within the housing so as to be coincident with a portion of a torso of the wearer located under the wearer's breast when the garment is worn by the wearer. In one embodiment, the lower extensions of the flexible structures may be coupled together, thereby forming a continuous band of the flexible structure under both breasts of the user. In this embodiment, the coupled flexible structures may extend to the sides of the wearer's torso and/or around the back of the wearer. In another embodiment, a width of the lower extension being proportional to the portion of the weight being supported by at least one of the support structure, the flexible structure, and a combination thereof. For example, when the amount of weight being supported by the support structures and flexible structures is relatively large, then the width of the lower extension may be relatively large, in proportion to the supported weight and, conversely, when the amount of weight being supported by the support structures and flexible structures is relatively small, then the width of the lower extension may be relatively small, in proportion to the supported weight.
In yet another embodiment, the garment may include a layer of flexible material coupled to each support structure and positioned within the housing. The layer of flexible material may be configured to conform to the shape of the wearer's breasts and support a portion of the weight of the wearer's breasts when worn by the wearer.
In a further embodiment, each of the support structures may include a band, an inner extension, and an outer extension. The band may extend between and be coupled to the inner and outer extensions and may be configured to correspond to a position between a center and a bottom of the wearer's breast. The band may extend in a direction substantially perpendicular to a midline of the wearer when the garment is worn by the wearer. In this way, the band may wrap around a portion of the wearer's breast.
The inner extension may be positioned at or near a midline of the wearer and extend above, below, and/or above and below the band, in a vertical direction substantially in parallel with the midline of the wearer when worn by the wearer. The outer extension may extend in a vertical direction substantially in parallel with a side of the wearer above, below, and/or above and below the band when worn by the wearer. At times, the inner extension and/or outer extension may extend in manner that approximates a shape of a curve of the wearer's inner or outer breast, respectively. At times, each of the support structures may further include a side extension configured to correspond to a side of the wearer when the garment is worn by the wearer. When the garment is worn, the side extension may wrap around the side of the wearer and may provide support to the portion of the weight of the breast by transferring a portion of the breast weight to the wearer's side when the wearer wears the garment.
In another embodiment, the garment includes a set of flexible structures positioned within the housing such that each flexible structure corresponds to a position extending between a center and a bottom of the wearer's breast when the garment is worn by the wearer. Each flexible structure may be configured to reposition a portion of a volume of the wearer's breast and support a portion of a weight of the wearer's respective breast when worn by the wearer. The housing may be coupled to the set of flexible structures and may be configured to house the set of flexible structures and wrap around the wearer's chest, thereby enabling the wearer to wear the garment.
The present application is illustrated by way of example, and not limitation, in the figures of the accompanying drawings, in which:
Throughout the drawings, the same reference numerals and characters, unless otherwise stated, are used to denote like features, elements, support structures, or portions of the illustrated embodiments. Moreover, while the subject invention will now be described in detail with reference to the drawings, the description is done in connection with the illustrative embodiments. It is intended that changes and modifications can be made to the described embodiments without departing from the true scope and spirit of the subject invention as defined by the appended claims.
A support bustier that provides support for a wearer's breasts is herein described. Support bustier garment (as well as related support garments, such as camisoles, slips, and swimwear) simultaneously directs the volume of the breasts into an aesthetically pleasing shape, contains unwanted movement of the breasts and of the garment, and supports a natural and healthful body posture.
The support bustier garment comprises a housing that encloses and conforms to a portion of the wearer's chest. The housing may include one or more closure/adjustment mechanisms to enable a wearer to put the support bustier on (i.e., wear the support bustier), take the support bustier off (i.e., remove the support bustier), and/or adjust the fit of the support bustier. Exemplary closure/adjustment mechanisms include snaps, magnetic closures, tension closures, hook-eye closures, expandable materials (e.g., spandex and/or elastic), and tying mechanisms.
The support bustier garment further comprises one or more support structures attached to the housing. For the sake of convenience, the following discussion will refer to two support structures, one for each breast, but this is not intended to limit the scope of the invention in any way. For example, one support structure could support the weight of both breasts or four support structures (two on each side) may support each breast.
In some embodiments, the configuration the support bustier garment, the support structure, and/or the housing may be partially user configurable. For example, the tightness of the conformity of the housing to the wearer's chest may be user configurable via, for example, use of various closure mechanisms or selection of material from which the housing or support bustier garment is manufactured. In another example, the housing may coincidentally or separately accommodate attachment of a plurality of support structures. For example, a first structure may offer relatively little breast weight support. The support of this first structure may be augmented by addition of a second support structure coincidentally attached to the housing and/or the first support structure and the combination of the first and second support structures may act in combination to provide more support than the first support structure alone.
In some instances, the support structure may be removably attached to the housing so that, at times, it may be removed from the housing (e.g., prior to laundering or to enable interchanging a first support structure with a second support structure).
On occasions when the support bustier garment includes two support structures, the support structures may be manufactured in the same manner so as to be mirror symmetrical to one another or may be non-symmetrical. For example, one support structure may be a first size or manufactured to have a first set of dimensional specifications while the second support structure may be a second size or manufactured to a second set of dimensional specifications. In this way, the support bustier garment may support two different sized breasts or an artificial or prosthetic breast and a natural breast at the same time.
The support structure may be shaped and positioned to support a portion of the weight of each of the wearer's respective breasts. For example, the support structure may be positioned within the housing so as to coincide with the underside of the wearer's breasts thereby forming a weight-bearing shelf upon which a portion the weight of each respective breast rests.
The support structure may be manufactured from any acceptable material including, for example, foam, elastic, spandex, fabric, compound elastomer resins, plasticized rigid PVC compounds, polyolifin reticulated compounds, polyolefinic reticulated compounds, a resin, a closed-cell resin, an ethylene vinyl acetate (EVA) material, rubber, foam rubber, and/or some combination thereof. In some embodiments, the support structure may be constructed from a plurality of layers of, for example, the same or different materials. The layers may vary in thickness in any dimension. In some instances, the support structure and/or housing may be manufactured from a slip resistant or non-slip material. In other embodiments, the support structure and/or housing may be manufactured from an absorbent material (e.g. cotton).
Support bustier garment 100 is differentiated from traditional underwire brazier garments because the primary support structure does not lie under the breast. Instead, support bustier garment exerts forces on breast weight to support breast weight and reposition a portion of breast volume. Furthermore, support bustier garment creates a secure housing for the breasts, directing the volume of the breasts upward and forward in accordance with a fashionable silhouette, and keeping both the breasts and the garment in place during normal daily movements (e.g. standing, sitting, taking deep breaths, or eating a substantial meal), but without creating pain in the skin, ribs, muscles or other tissues surrounding the breasts. Support bustier garment also provides a smooth garment that cannot be detected under her outerwear garments. Further, support bustier garment does not create unnatural lumps, rolls, or other compression of the tissue around the edges of the garment. In addition, support bustier garment provides breast support that is supported by the endurance muscles of her “core”, not the delicate stabilizing muscles of the neck and shoulders.
Turning now to
Optionally, wearer 110 may put on or take off support bustier garment 100 via a closure mechanism, such as a front closure mechanism 120 positioned, within housing 130 so as to approximately align with midline 111 when worn. Additionally, or alternatively, wearer 110 may put on or take off support bustier garment 100 via a rear and/or side closure mechanism (not shown) or via an expansion and/or contraction of one more materials comprising support bustier garment 100. Returning now to the closure mechanism depicted in
In the embodiment of
Support structure 410 may be manufactured via, for example, a molding process, a punch process, a cutting process, and/or a composite process using, for example, a single layer of a single material, multiple different materials or multiple layers of the same or different material(s). In most instances, support structures 410 will have rounded and/or tapered edges and may be manufactured and/or placed within support bustier garment 100 so as to not cause discomfort to wearer 110 (e.g., poking or chafing the skin) or extensions (e.g., bumps or ridges) beyond the surface of housing 130. Support structures 410 may be manufactured from any suitable material including, but not limited to, foam, silicon, plastic, vinyl, compound elastomer resins, plasticized rigid PVC compounds, polyolifin reticulated compounds, polyolefinic reticulated compounds, a resin, a closed-cell resin, an ethylene vinyl acetate (EVA) material, rubber, foam rubber, and/or some combination thereof.
Support structure 410 may be configured to provide support for a portion of the weight of wearer's 110 breast and, in some instances, may serve as the primary structural support, or skeleton, of support bustier garment 100. Support structure 410 and may be partially or wholly self-supporting such that is substantially retains its shape, even when not worn. The shape, composition, and placement of support structure 410 within housing 130 contribute to the achievement of this support.
Often times, support structure 410 may be shaped like a band 460 that is curved to approximate a shape of wearer's 110 breasts. Band 460 may be shaped to extend from an inner extension 430 through a center point 440 to an outer extension 450. In this way, when viewed from above, support structure 410 may have a shape approximating a “c”-like shape. Additionally, support structure 410 may be flexible enough to conform to the shape of wearer's 110 breast when worn, yet rigid enough to shape and support wearer's 110 breast.
In the embodiment depicted in
In the embodiment depicted in
When viewed from the front, support structure 410 may have any number of different shapes, which may be dependent upon, for example, functional, weight bearing, and/or decorative considerations. For example, the shape of support structure 410 may vary (e.g., overall size or configuration) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities (e.g., athletic activities or wearing clothing exposing a portion of wearer's 110 chest as would be the case with a strapless evening gown).
In some embodiments, a shape of support structure 410 may vary in accordance with wearer's 110 breast size (e.g., cup size) or body size (e.g., chest circumference or weight), such that a support structure 410 designed to be worn by a wearer 110 with relatively large breasts may be configured differently (e.g., larger overall, larger band 460, and/or larger inner/outer extensions 450/430) than a support structure 410 for a wearer 110 with relatively small breasts.
Additionally, support structures 410 may be composed from one or more different materials depending upon, for example, functional, weight bearing, and/or decorative considerations. For example, the composition of support structure 410 may vary (e.g., overall size or configuration) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities. An amount of support provided by support structure 410 may be adjusted by, for example, composing support structure 410 from materials with varying rigidity, flexibility, thickness, and/or malleability.
Further, support structures 410 may be placed within housing 130 depending upon, for example, functional, weight bearing, and/or decorative considerations. For example, the placement of support structures 410 may vary (e.g., higher or lower) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities. Additionally, or alternatively, support structure 410 may be placed below the apex, or nipple, of wearer's 110 breast. Such placement may contribute to a smooth appearance (i.e., no bump or ridge) when support bustier garment 100 is worn. Support structure 410 may be resident within or on an inner or outer surface of housing 410.
The placement of support structures 410 within a housing may also vary in accordance with wearer's 110 breast size (e.g., cup size), such that a support structure 410 designed to be worn by a wearer 110 with relatively large breasts may be positioned differently (e.g., a greater proportion of support structure 410 may be placed on the underside of wearer's 110 breast) from the position of support structures 410 for a wearer 110 with relatively small breasts.
In some instances, support structures 410 may cooperate with flexible structure 420 to support a portion of the weight of wearer's 110 breasts and provide a secure comfortable fit when worn by wearer 110. Flexible structure 420 may be configured to shape the wearer's breasts (e.g., provide lift and/or separation of the breasts). Flexible structure 420, as well as support structure 410, may be manufactured from any suitable material including, but not limited to, foam, silicon, plastic, vinyl, compound elastomer resins, plasticized rigid PVC compounds, polyolifin reticulated compounds, polyolefinic reticulated compounds, a resin, a closed-cell resin, an ethylene vinyl acetate (EVA) material, rubber, foam rubber, and/or some combination thereof. Flexible structures 420 may be manufactured via, for example, a molding process, a punch process, a cutting process, and/or a composite process using multiple different materials or multiple layers of the same material. In most instances, flexible structures 420 will have rounded and/or tapered edges and may be manufactured and/or placed within support bustier garment 100 so as to not cause discomfort to wearer 110 (e.g., compressing the chest or chafing the skin).
Flexible structure 420 may extend above and/or below support structure 410. In some instances, flexible structure 420 may be one piece to which support structure 410 is affixed and/or support structure 410 may be embedded within flexible structure 420. Flexible structures 420 may be affixed to support structures 410 via any acceptable process including, but not limited to, sewing, chemical bonding, gluing, and/or heat bonding. Support structures 420 may be resident within a housing (not shown) and may, in some instances, include decorative accents (e.g., printed on patterns or colors and/or affixed decorative detailing).
Flexible structure 420 may be manufactured and/or configured so as to expand and contract with movements of wearer's 110 body (e.g., breathing, twisting, movement of the arms, bending at the waist, etc.). Flexible structure 420 may have any number of different shapes, which may be dependent upon, for example, functional, weight bearing, and/or decorative considerations. For example, the shape of flexible structures 420 may vary (e.g., overall size or configuration) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities.
The shape of flexible structures 420 may also vary in accordance with wearer's 110 breast size (e.g., cup size) or body size (e.g., chest circumference or weight), such that a flexible structure 420 designed to be worn by a wearer 110 with relatively large breasts may be configured differently (e.g., larger overall) than flexible structures 420 for a wearer 110 with relatively small breasts.
Additionally, flexible structure 420 may be composed from one or more different materials depending upon, for example, functional, weight bearing, and/or decorative considerations. For example, the composition of flexible structures 420 may vary (e.g., overall size or configuration) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities. An amount of support provided by flexible structure 420 may be adjusted by composing flexible structures 420 from materials with varying rigidity, flexibility, thickness, and/or malleability.
The composition of flexible structures 420 may also vary in accordance with wearer's 110 breast size (e.g., cup size), such that a flexible structure 420 designed to be worn by a wearer 110 with relatively large breasts may be composed differently (e.g., using a stronger, more rigid, or thicker material and/or multiple layers of the same and/or a different material) than flexible structures 420 for a wearer 110 with relatively small breasts.
Further, flexible structures 420 may be positioned within housing 130 to incorporate, for example, functional, weight bearing, containment, and/or decorative considerations. For example, the placement of flexible structures 420 may vary (e.g., higher or lower) to provide more or less support as preferred by, for example, wearer 110 and/or in accordance with support needs associated with various types of activities.
The size, position, shape, and/or composition of cup 610 may be dependent upon various concerns (e.g., functional, structural, decorative, and/or manufacturing). Often times, cup 610 may be made from fabric, foam, or some combination thereof. Cup 610 may be positioned on an interior or exterior surface of support structure 410 and/or flexible structure 420. In some embodiments, cup 610 may make up a portion of an interior surface of housing 130 and, when worn by wearer 110, may be directly adjacent to the surface of wearer's 110 breasts.
Cup 610 may connect a top portion of inner extension 430 with a top portion of outer extension 450. This connection may provide structure to support bustier garment 100 and assist support structure 410 and flexible structure 420 with supporting a portion of the weight and/or repositioning a portion of a volume from a wearer's breast.
Perforations 550/560 may be formed via a cutting, punching, and/or molding process. Additionally or alternatively, support structure 410 may be fabricated in such a way that perforations 550 are inherent to the fabrication process. Further, in some embodiments, perforations 550 may only partially extend through support structure 410 so that a portion (although in most instances a thinner portion) of support structure 410 remains in the perforated region(s).
In some instances, an extended underside 810 of support bustier garment 100 may extend down a chest of wearer 110 as depicted in
Support structure 410 and/or flexible structure 420 of support bustier garment 100 exert outward force(s) Fso and/or Ffo that oppose FBI to reposition a portion of the volume of the breast outward from the torso of wearer 110. Support structure 410 and/or flexible structure 420 of support bustier garment 100 also exert inward force(s) FsI, and/or FFI that oppose FBO to reposition a portion of the volume of the breast in toward the torso of wearer 110.
It is important to note that, in most cases, support structure 410 and/or flexible structure 420 of support bustier garment 100 exert force(s) Fso, Ffo, Ffi and/or Ffi independently of housing 130 (not shown).
In some instances, extended underside 810 or 815 of support bustier garment 100 may extend down a chest of wearer 110 as depicted in
Body support garment 900 may be configured to include support bustier garment 100 as well as torso support garment 910A, support bustier garment 100 as well as torso support garments 910A and 910B, and support bustier garment 100 as well as torso support garments 910A, 910B, and 910C. In some instances, support bustier garment 100 and torso support garments 910A, 910B, and/or 910C may be detachable and/or sold separately and assembled by wearer 110 prior to being worn. Wearer 110 may put on/take off support bustier garment 100 and torso support garments 910A, 910B, and/or 910C via, for example, a front and/or rear closure mechanism not shown), such as front and/or rear closure mechanisms 120 or 210.
Torso support garments 910A, 910B, and/or 910C may include one or more torso support structures 920, which may be composed of a material similar to the material used to manufacture support structure 410 and/or flexible structure 420. Torso support structures 920 may be positioned so as to support and/or shape the torso, or portions thereof, of wearer 110. Such support may be provided for a myriad of considerations including, but not limited to, physical and/or structural support or the torso, shaping of the torso into a shape desired by wearer 110 (e.g., form a narrower circumference of the torso at the waist than at the chest and/or hips), or to decorative accents to a garment. In some embodiments, one or more of torso support garments 910A, 910B, and/or 910C may be incorporated into swimwear, slips, and/or clothing.
Strap attachments 1010A and 1010B may serve a decorative and/or functional (e.g., holding up support bustier garment 100) and may be interchanged according to a wearer's preference. Strap attachments 1010A and 1010B may be manufactured from a variety of materials, such as fabric, elastic, ribbon, lace, silicon, and/or some combination thereof.
Camisole attachment 1030 may serve a decorative and/or functional (e.g., covering wearer's 110 torso and/or support bustier garment 100) and may be interchanged according to a wearer's preference. Camisole attachment 1030 may be manufactured from a variety of materials, such as fabric or leather.
Additional embellishments and/or embodiments for support bustier garment 100 include slips and swimwear. Swimwear may include two-piece or one-piece swimming attire.
Hence, support bustier garment that reposition a portion of a volume of the wearer's respective breast and support a portion of a weight of the wearer's respective breast when worn by the wearer have been herein described.
This application is CONTINUATION of U.S. patent application Ser. No. 14/833,669, now Issued U.S. Pat. No. 9,392,822, entitled “Support Bustier Garment” filed on Aug. 24, 2015, which is a CONTINUATION of U.S. patent application Ser. No. 14/517,743, now U.S. Pat. No. 9,237,772 entitled “Support Bustier Garment” filed on Oct. 17, 2014, which is a CONTINUATION of U.S. patent application Ser. No. 14/165,271, now U.S. Pat. No. 8,864,549, entitled “Support Bustier Garment” filed on Jan. 27, 2014, which is a NON-PROVISIONAL of U.S. Patent Application No. 61/756,989 filed Jan. 25, 2013, all of which are incorporated herein by reference.
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| Number | Date | Country | |
|---|---|---|---|
| 20160309797 A1 | Oct 2016 | US |
| Number | Date | Country | |
|---|---|---|---|
| 61756989 | Jan 2013 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 14833669 | Aug 2015 | US |
| Child | 15203421 | US | |
| Parent | 14517743 | Oct 2014 | US |
| Child | 14833669 | US | |
| Parent | 14165271 | Jan 2014 | US |
| Child | 14517743 | US |
